Microcontroller Magazine - April 6, 2011 - Digikey

MICROCONTROLLER LIGHTING SOLUTIONS SOLUTIONS
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Look Inside Today’s
Connectivity Protocols!
uIP TCP/IP
Protocol Stack
Demonstration
Page 22
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uIP TCP/IP
Protocol Stack
Demonstration
contributed by Renesas
Corporation
The popular open source uIP TCP/IP
stack is widely used in embedded
designs. This demo provides both
hands on experience and
insights into its use.
22
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3

Table of Contents
Digi-Key Features
Editorial Comment ................................................... 5
Microcontroller TechZone SM Q & A ............................
6
Trivia Contest ......................................................... 39
Innovations in Connectivity:
a look inside Digi-Key’s
state-of-the-art Weather Center ............................. 47
The Ultra-Low-Power USB Revolution ......................... 7
by Bhargavi Nisarga, Keith Quiring, and Les Taylor, Texas Instruments
USB is a fast, convenient connectivity interface, but until recently it
hasn’t been associated with low-power. New MCUs have made it an
attractive choice for ultra-low-power embedded applications.
USB-Based Temperature Monitor .............................. 12
contributed by Analog Devices
If you need to be able to detect small variations in temperature, an
RTD or thermocouple won’t do it. Using a thermocouple, an analog
MCU, an LDO and a few discretes, you can construct a highly accurate
temperature sensing application.
Introducing a Second MCU
to Embedded Designs ................................................. 15
by Nicholas Cravotta
Adding a second MCU to your embedded design addresses a number
of design issues, but not without adding some complex new ones.
This article focuses on inter-processor communications and how to
both avoid and/or solve the issues that arise.
Eliminating the Parallel/Serial Tradeoff
in Embedded Systems with
SPIFI-Equipped Cortex-M3 ......................................... 19
by Rob Cosaro and Gene Carter, NXP Semiconductors
The SPIFI peripheral creates a way for designers to use a small,
inexpensive serial fl ash where they might previously have needed
to use a larger, more expensive parallel fl ash to meet the system’s
performance requirements.
ColdFire Ethernet for Diverse Applications ................ 26
by Eric Gregori, Freescale Semiconductor
Adding Ethernet to embedded products provides a level of
connectivity never before available in the embedded space. This
article provides a detailed tutorial, an example application and XML
code to quickly get you comfortable with embedded Ethernet.
Your MCU is Just Starting to be Connected ............... 36
by Tom Starnes, Industry Analyst, Objective Analysis
Embedded applications, like individual PCs, become more useful
when they can communicate with other devices. A wide range of
protocols has been developed to enable such communication, but that
work is far from over.
Deeply Embedded Devices:
The “Internet of Things” ............................................. 40
by Mark Wright and Rodger Richey, Microchip Technology Inc.
Wi-Fi has long worked well to connect PCs and embedded devices.
However, it’s not known for being low-power and is hardly an obvious
choice for deeply embedded devices. That’s about to change.
Peripheral Reflex System
Avoids MCU Overload ................................................. 44
contributed by Energy Micro
Energy Micro’s Peripheral Refl ex System minimizes MCU loading by
enabling peripheral modules to communicate with each other without
processor intervention. This article details how it works and why.
CAN Primer: Creating Your Own Network .................. 48
by Bob Boys, ARM
CAN is a sophisticated network well suited to any number of
automotive, industrial and consumer applications. This article takes
an in-depth look at the protocol, its implementations and implications
for embedded designs.
Power Debugging ARM Cortex-M3
and Cortex-M4 Applications ...................................... 58
by Lotta Frimanson and Anders Lundgren, IAR Systems
Power debugging is based on the ability to sample the power
consumption of a system and correlate each sample with the source
code. ARM Cortex-M3 and –M4 cores provide the architectural hooks
and IAR provides the software to make this possible.
The Heartbeat Behind
Portable Medical Devices: Ultra-Low-Power
Mixed-Signal Microcontrollers .................................. 61
by Shahram Tadayon, Silicon Laboratories
In the medical device market, products must combine accurate
analog measurements with high reliability and ultra-low-power
consumption. Fortunately, there are some integrated mixed-signal
MCUs that can deliver on all three requirements.
USB 3.0—Are We There Yet ...................................... 64
by John Donovan, Low-Power Design
SuperSpeed USB promises a 10x speed improvement over USB 2.0
while maintaining compatibility with legacy devices. If your next
application involves streaming video, take a look at what it has to offer.
4

Editorial Comment
The Energy Management, Lighting, Medical, and Hybrid/Electric
Auto markets are quickly gaining scale and are directly driving an
explosion of microcontroller usage. As microcontroller designs
expand into new areas, so do the connectivity requirements, which is
the theme of this issue of TechZone Magazine.
In this issue, we explore all facets of Microcontroller connectivity
protocols and how to overcome typical technical roadblocks. You
will fi nd a strong selection of articles to support your connectivity
protocol design decisions including:
• “uIP TCP/IP Protocol Stack Demonstration” – a step by step
guide using Ethernet connectivity with the titled protocol stack
contributed by Renesas (page 22)
• “Introducing a Second MCU to Embedded Designs” – an article on overcoming the
common pitfalls of adding a second MCU to your design written by Nicholas Cravotta
(page 15)
• “The Ultra-Low-Power USB Revolution” – an article on integrated USB connectivity
written by a trio of authors from Texas Instruments (page 7)
This issue includes a Component Reference Guide featuring a number of recent and exciting
new product introductions including NXP’s latest LPC family of Cortex and ARM products. For
details on these and other new product releases, please visit our Microcontroller Solutions
technology zone, www.digikey.com/microcontrollers.
If your design is integrated into a Lighting, Wireless or Sensor solution, see our recent
TechZone magazines focusing on those areas at www.digikey.com/magazine.
When the design is complete and it’s time to build your product, remember that Digi-Key:
• Stocks over 565,000 components available for off-the-shelf delivery anywhere in the world
• Ships 99% of orders received by 8pm central time the same day
• Offers world-class supply chain support and customer service
While it’s unclear how the political uncertainty in the Middle East will affect the global
economy; it is very clear that microcontrollers will continue to pervasively expand into
products that touch our everyday lives. We believe that the information and insights in this
issue of TechZone Magazine will support your next generation product ideas and solutions.
Sincerely,
Mark Zack
Vice President, Semiconductor Product
Digi-Key Corporation
Mark Zack
Vice President, Semiconductor
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5

Microcontroller TechZone SM Q & A
In the rapidly evolving microcontroller market, it seems as if there is something new every day – technologies, products,
consumer trends, or regulations. Time-to-market demands have never been greater with the design of many of today’s
new microcontroller products requiring expertise in more than one discipline.
You have questions. We have answers. On target to field more than 260,000 calls this year, our technical support
specialists are available 24/7/365 to answer your questions and assist you with your microcontroller needs.
If you have a question, we invite you to contact our technical staff via telephone, live web chat, or by emailing your
question to techzone@digikey.com.
How does USB 3.0 differ from USB 2.0
USB 3.0 offers a “SuperSpeed” bus feature. USB 3.0 cables have
two wires for power and ground, two wires for “non-SuperSpeed”
data, four additional wires for the “SuperSpeed” data, and a shield
which was not needed in other USB versions. The “SuperSpeed” bus
offers a forth transfer mode at 5.0 Gbits/s. The physical form factor
has changed for the USB 3.0 plugs and receptacles to accommodate
the additional pins for the “SuperSpeed” mode. The standard-A
plugs are extended as well as the receptacles are deeper. For the
Standard-B connectors, the “SuperSpeed” contacts are placed on
top of the existing connector. A legacy standard A to B cable will
work normally in these connectors as the legacy connectors will not
make contact with the new contacts for the “SuperSpeed.”
This ensures backwards compatibility. On the fl ip side, though, the
USB 3.0 connector will not mate to the legacy receptacles.
What are the common applications for CAN (Controller
Area Network)
CAN was fi rst developed with automotive applications in mind.
An example of this is in-vehicle electronic networking. However,
since its development CAN has been utilized in medical, industrial
and commercial applications. Examples of medical applications
include operating room components such as lights, tables, cameras,
patient beds and X-ray machines. Industrial application examples
include motor control and robotics. Finally, commercial application
examples include lab equipment, telescopes, and automatic doors.
How is an SPI master/slave connection set up
SPI is a protocol on four signal lines. A clock signal (SCLK) is sent
from the bus master to all slaves. A slave select signal for each slave,
SSn, is used to select the slave the master communicates with. A
data line from the master to the slaves called MOSI (Master Out-Slave
In) and a fi nal data line from the slaves to the master called MISO
(Master In-Slave Out) comprise the other two signal lines.
What is the difference between a UART and USART
A UART is a universal asynchronous receiver/transmitter where a
USART can communicate synchronously as well as asynchronously.
Does the operating ambient temperature include the selfheating
of the MCU
The operating ambient temperature is the ambient temperature in a
state without MCU self-heating. More specifi cally, consider it to be
the temperature of the surroundings infi nitely close to the package
surface when the MCU is not powered on.
What does it mean if a microcontroller supports big endian
or little endian, what does endian mean
The term “endian” refers to how individually addressable subcomponents
are ordered within a longer data item stored in memory.
Let’s say we had a block of memory that had ABCD stored, four bytes.
For the big-endian method, the most signifi cant byte value, which is A in
our example, is stored at the memory location with the lowest address,
0x00, the next byte value, B, would be stored at the following memory
location, 0x01, and so on. For the little-endian method, the least
signifi cant byte value, D, is stored at the lowest address, 0x00, the next
signifi cant byte, C, in the following memory location, 0x01, and so on.
What is the difference between SPI and I 2 C
SPI uses four logic signals commonly called: SCLK (Serial Clock),
MOSI (Master Output, Slave Input), MISO (Master Input, Slave
Output) and SS (Slave Select). While I 2 C uses only two bi-directional
open-drain lines commonly called: SDA (Serial Data Line) and SCL
(Serial Clock). Additionally, to add additional slaves, SPI will end up
being more than four signal lines, where I 2 C will stay with the same
two lines. In relation to speed, SPI is a higher speed protocol, over
10 Mbps. I 2 C is limited to data rates that are chosen between 100
kbps, 400 kbps or 3.4 Mbps.
Do you have a question about
microcontroller solutions
Digi-Key has more than 130 technical support
specialists, product managers, and applications
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Send your questions to techzone@digikey.com.
6

The Ultra-Low-Power
USB Revolution
by Bhargavi Nisarga, Keith Quiring, and Les Taylor, Texas Instruments
New MCUs bring power efficiency and
simplicity to USB for portable embedded
applications.
The ubiquity of USB makes it an extremely attractive interface for
applications requiring connectivity to a PC or other host device for
configuration, periodic downloading of data, or firmware updates.
Often these devices are portable, such as medical or industrial tools
which remotely collect data that needs to be uploaded at a later time.
As these devices are portable, the final USB implementation must be
both cost-effective and power efficient.
One of the main reasons for USB’s success is its unparalleled ease
of use. But under the surface, USB is a complicated technology that
artfully masks the user from the complexity. As a result, developers
new to USB often underestimate the effort involved. Many new terms
and procedures are also encountered, and things often do not “just
work” the way they should.
Hidden challenges may result in unexpected delays for the developer,
and delays are expensive.
To developers trying to focus on differentiating their products and
offering the best value to their customers, these challenges are an
unwelcome burden. For this reason, TI has committed to delivering
USB technology as an integrated, simplified solution that enables
developers to focus on using USB in their application rather than
learning USB as a technology.
Introducing the MSP430TM USB microcontroller
To meet the needs of developers, TI has introduced full-speed USB to
the F5xx series of MSP430 microcontrollers (MCU). By integrating USB
with powerful performance (up to 25 MHz), large memory (both Flash
and RAM), integrated intelligent peripherals (including an on-chip
ADC, comparator, hardware multiplier, DMA controller, temperature
sensor and other peripherals), and superior power management,
the MSP430 is the ideal MCU for implementing USB in embedded
applications (see Figure 1).
With the simple addition of a USB connector and a few discretes,
MSP430 USB MCUs are a complete solution for applications that
require USB connectivity and analog peripherals, while being
ultra-low-power. From a software standpoint, TI provides API stacks
supporting three of the most common device classes.
Figure 1: Integrating USB with the powerful performance and high integration of
the MSP430 architecture creates the ideal microcontroller for implementing USB in
embedded applications.
The new MSP430 USB MCUs are based on TI’s newest and most
advanced MSP430 architecture, the F5xx. Each supports 1.8 to
3.6 V operation, with clock speeds up to 25 MHz and integrated,
programmable power supervision on the order of 200 nA. New clock
sources further maximize tradeoffs between power, speed, precision
and cost. Flash writes/erases can be performed across the full range
of Vcc. In addition to offering a wide range of flash memory sizes (64
to 128 KB and 16 to 256 KB), USB-enabled MSP430 devices also have
2 KB RAM dedicated to USB that, when USB is disabled, is available
for general purpose use.
Accelerated development and ease of use
TI recognizes that consumers – and engineers – have come to
expect that USB “just works.” In truth, while USB looks as simple
as a UART or SPI port, the protocol is not trivial to implement.
And unlike the UART or SPI interfaces, compliance is a primary
USB design consideration, even in the simplest applications. For
example, a host can suspend an attached device at any time.
Devices must also be able to handle “surprise removals.” For
developers who have not been through this process before, such
unexpected considerations can require extra development time and
lead to unexpected delays.
Part of the value-add of the MSP430’s USB support is that much
of the underlying complexity of implementing USB is managed
through an intuitive API stack. The API stacks are designed for fast
absorption by the developer. Like USB itself, they contain much
of the complexity “under the hood,” masking the developer from
unnecessary hassle to help speed development time. The stack
www.digikey.com/microcontroller
7

source code is open for those developers wishing for complete
control. For each stack, a complete Programmer’s Guide is provided
that serves as a reference for the API function calls and also
describes the underlying concepts with clarity.
Further, TI provides the MSP430 USB Descriptor Tool. This tool
serves as a “control panel” for the API stacks, allowing for quick
confi guration. It automatically creates the descriptors that every USB
device must report to the host, based on user input. This saves the
developer considerable time and provides peace of mind that the
descriptors are done correctly.
Stacks are available for the most common device classes and are
supplied without additional charge. While developers should not
underestimate what is required to create a robust USB interface,
TI has signifi cantly shortened the USB learning curve. In this way,
developers are freed of much of the burden of learning the intimate
details of USB as a technology and instead are able to focus on using
USB to increase the value and usability of their applications.
Multiple device classes
Part of the simplicity offered by the MSP430 USB API Stack is support
for three device classes:
Communications Device Class (CDC): The CDC presents the
USB port to the PC application as a standard COM port. COM ports
are popular interfaces that are fl exible, fast, and simple to use.
Because it uses bulk transfers, the CDC provides high bandwidth
with a reasonable amount of simplicity. The chief disadvantage of
using the CDC is that developers must distribute a simple fi le to
end users that allows it to be associated with the CDC driver built
into Windows. Fortunately, the “new device detected” installation in
Windows is fairly straightforward and a minor step already wellaccepted
by end-users.
Human Interface Device (HID): While HID is commonly thought of as
primarily for mice and keyboards, it is a fl exible device class suitable
for a wide variety of applications. TI’s HID API effi ciently generalizes
HID capabilities, thereby eliminating the complexity associated with
HID reports by allowing developers to access the interface in the
exact same way they would a CDC device/COM port. While it has
limited bandwidth (up to 64 KB/s), it requires no fi le to be distributed
as CDC does, and it loads silently in Windows with no installation
process required.
Mass Storage Class (MSC): MSC is the device class used to
implement the highly successful USB “fl ash drives,” as well as
digital cameras and fl ash card readers. Since it is designed for
moving large amounts of data, it provides higher bandwidth, similar
to that of CDC. The tradeoff is more complexity – for example,
developers will need to implement a fi le system – and the use of
more code space. Like HID, MSC devices load silently in Windows
without the need of an installation process. TI offers the MSC API
layer at no cost. Given the wide variety of confi guration possibilities
for software handling fi le systems, the different media types,
and Flash management (i.e., through wear-leveling and other
techniques), developers have the fl exibility of buying a commercial
implementation or using one of the many open-source systems
available for the MSP430.
Of the three device classes, developers should begin by considering
HID. If an application can work within the available 64 KB/s
bandwidth, HID will often be the most cost-effective choice given
that users can plug it in and use it without the need of an installation.
Since the Windows installation process can sometimes lead to
problems for the user, avoiding it can lead to a reduction of support
calls and returns from customers.
The TI USB API stacks support three data transfer types: control
for USB-level control/status data, interrupt for low bandwidth,
fi xed latency data, and bulk for high bandwidth, variable latency
data. Usage of these data types is determined by the device class;
developers need not concern themselves with most of the details
associated with the different types.
With these data types, the MSP430’s USB can support any application
requiring control/confi guration, fi rmware updating, or that needs to
transfer bulk data (as opposed to streaming data). The MSP430 does
not support isochronous (high-bandwidth, fi xed latency) data, so it is
not appropriate for streaming audio/video applications.
Just as the MSP430 is fl exible, so is its USB functionality. Any USB
device contains a certain number of what are called endpoints.
Support for multiple endpoints allows for composite USB devices
which can have more fl exible communication with hosts. For example,
a device that uses the MSC for bulk data transfers and HID to manage
control and status is comprised of three input and three output
endpoints. The MSP430 architecture supports up to eight input and
eight output endpoints, which provides suffi cient capacity for most
applications without overburdening cost.
Ultra-low-power efficiency
By its nature, the MSP430 architecture has been optimized for
low- power operation, both when USB is in use and when it is not. For
example, MSP430 devices have fi ve low-power modes that enable
designers to extend battery life in portable applications. The MSP430
delivers high performance at the lowest power consumption with
an active power consumption as low as 160 µA/MHz and 1.5 µA in
standby mode coupled with fast wakeup from standby (less than
5 microseconds) and a supply voltage as low as 1.8 V operation.
The onboard DMA controller can also save signifi cant power when
communicating with a battery-powered host.
One of the advantages of USB in embedded applications is the
ability to power devices over the interface. Ideally, battery-powered
devices can maximize operating life by powering the device over
the bus when attached to a host. As USB hosts source 5 V over the
bus, an LDO is required to drop the voltage to the 3.3 V typical of ICs.
MSP430 devices simplify power design and conserve board space by
integrating an effi cient LDO as well as associated pull-up functionality.
In addition to allowing MSP430s to operate directly from 5 V,
integrating the LDO and pull-up resistors reduces component count
and eliminates $.15 to $.20 relative to discrete implementations.
By keeping the USB power and other MSP430 modules’ power
management separate, the USB module can always be powered as
long as the USB device is connected to the host. This also enables the
USB module to auto-powerup the MSP430 via USB power even if the
device battery is dead or non-existent.
8

Figure 2: MSP430 USB microcontrollers can source power off the USB bus to power
the entire system with 12 mA.
MSP430s are designed to operate within the power limits of the
LDO and can even source power off the USB bus to power the entire
system. By driving the 3.3 V output externally (VUSB), the MSP430 can
supply the system with up to 12 mA (see Figure 2), and eliminate the
need for a system LDO as well. For high-current systems (requiring
more than 12 mA of current) or for applications where it makes sense
to power a device from battery even when connected via USB, the
MSP430 offers the flexibility of bypassing the integrated LDO and
driving DVcc from an external supply or regulator (see Figure 3). TI
offers a variety of external LDOs well-suited for low-cost (TPS73033),
low-power (TPS67233), low-noise (TPS1733), and low-noise, highercurrent
(TPS73433/735) applications.
Figure 3: For high-current systems or for applications where it makes sense to power a
device from battery even when connected via USB, the MSP430 offers the flexibility of
bypassing the integrated 3.3 V LDO and driving DVcc from an external supply.
The 5 V USB bus power can also be used as a primary source to
charge batteries (see Figure 4). In this configuration, DVcc is always
sourced from the battery whether the USB port is plugged into a host
or not. When the port is plugged in, the charger receives power via
USB to recharge the battery. TI’s BQ2407x/3x family of chargers have
been specifically designed for USB battery charging applications.
Figure 4: Power over USB can also be used as a primary source to charge batteries.
TI’s BQ2407x/3x family of chargers has been specifically designed for USB battery
charging applications.
The low-speed USB used in mice and keyboards, for example, in
general is not appropriate for any application processing enough
data that it requires a modern, general-purpose MCU. Specifically,
transmitting at a slower data rate wastes bus bandwidth and
consumes more power by requiring the MCU to stay active for
significantly longer transmission periods. Likewise, high-speed USB
supplies too much bandwidth unless an application needs to support
large audio or video transfers. Full-speed USB is a much better fit for
most embedded applications.
While being an OTG appears to be an appealing option, it is not
appropriate for many applications. Embedded hosts must be able
to source 8 mA to attached devices. This requirement has led many
companies to reconsider their intention to support OTG host capability,
especially in applications where long operation life is required from
a single-cell battery. For applications that do require OTG support, TI
offers solutions within its Stellaris MCU portfolio.
In general, USB devices are less expensive, simpler, and faster to
develop than embedded hosts. The MSP430 family with USB was
optimized to meet the needs of USB devices without burdening these
applications with the added complexity, additional memory, integrated
peripherals and larger power supplies required to implement USB hosts.
Taking care of details
In order to deliver on its promise to simplify USB, TI provides a wide
range of tools and software to assist developers in quickly coming up
to speed on using and implementing robust USB solutions. In addition
to its API stack, TI also offers:
• USB Descriptor Tool: The USB Descriptor Tool plays a key role
in simplifying USB design and implementation. This GUI-based
tool automatically configures the USB stack to reflect the
specific requirements of a particular application, handling the
management of descriptor fields including VID, PID, strings,
how much power to draw from the host, and so on. Rather than
require developers to delve into the details behind the various
USB descriptor fields by breaking into the USB stack and writing
code to support their application, the Descriptor Tool gathers
the required information from developers and automatically
generates the appropriate software modifications to the API
stacks, requiring no further work from developers. In addition,
the USB Descriptor Tool is intended to make the high-level stack
configuration of composite devices much simpler.
• Bootstrap Loader (BSL): TI’s BSL is another important tool
offered to developers who require field firmware update
capability. One of the common uses of USB is to push updates
to deployed devices. For example, a doctor could plug a medical
instrument into a PC and have it quickly and automatically update
itself with new features or bug fixes. The BSL tool simplifies the
updating process for developers by converting a firmware image
file into a self-contained PC executable that can be delivered to
end customers. All MSP430 devices are BSL-equipped and when
implemented over USB, updates can be made securely even when
the device is not powered (i.e., the MSP430 is powered via USB),
enabling fast and efficient production-line programming without
having to install batteries. For developers, the most complex
part of the bootstrapping process will be to customize the BSL
executable with their own logo.
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9

• TI also offers developers the opportunity
to participate in its VID Sharing Program. Every USB device
requires a Vendor_ID (VID) and Product_ID (PID). For companies
making only a few devices, TI can provide a VID and a unique PID
to bypass the investment of time and money required to register
a VID with the USB consortium.
By taking care of the “odds and ends” of implementing USB
through the USB Descriptor Tool, Bootstrap Loader, API stack, and
other support software from its extensive third party network,
TI has simplified the process of working with USB. By providing
most of the underlying foundation required for USB, TI’s MSP430
enables developers to focus on the value-added components of
their application without having to concern themselves with the
myriad implementation issues involved with a complex interface
like USB.
In addition to integrating USB, these new controllers also integrate
a number of other features and peripherals beyond the standard
MSP430 architecture that further simplify development, including:
• This fl exible, programmable PLL can
adapt to a wide range of crystal frequencies, enabling
developers to choose a frequency based on applicationrelevant
criteria such as cost, other components within the
system, or whether that frequency is needed elsewhere in the
system for another purpose.
• The VLO enables developers
to keep the USB module running when the host is suspended.
This is important because the USB module must be able to
recognize when the host wants to wake it. Current drawn by the
VLO in this manner is in the sub-µA range.
• MSP430 USB microcontrollers also offer a new
comparator for the generation of hysteresis without the need
for external components. Many applications require the ability
to monitor an input against two thresholds, such as for battery
charging and capacitive touch interfaces. Typical comparators
can only monitor one threshold and must be confi gured to
watch for the rising or falling threshold and switch to the other
threshold when it is crossed. Known as Comparator_B, the new
comparator is a versatile reference generator using R-ladders
capable of generating 32 different voltage reference levels.
This approach avoids the need for external components as well
as the constant power drain when external resistors are used.
Comparator_B operates in three modes, ultra-low-power (0.1 µA
typical to 0.5 µA max.), normal (10 µA typical to 30 µA max.), and
high-speed (40 µA typical to 65 µA max.) for optimizing power
consumption to the application.
• A unique feature of USB-based MSP430
microcontrollers is the port mapping controller. With port
mapping, developers can dynamically reconfi gure digital outputs
such as Timer PWMs or SPI/I2C interfaces across a specifi c
range of pins. Such mapping enables fl exibility of signal routing
during board design, allowing designers to move signals to
the other side of the IC as required. Each digital output can be
mapped to multiple output pins, which can be useful in cases,
for example, where the same Timer PWM is required on multiple
pins. Port mapping also eases the challenges associated with
migrating from one family of devices to another in terms of
pin-to-pin compatibility.
Getting started MSP430 USB microcontrollers is very easy. The
MSP430F552x Sample Kit includes the 80-pin MSP-TS430 target
board (#MSP-TS430PN80-USB) complete with USB support as well
as sample silicon. With the proven tool chain of the MSP430 and the
comprehensive USB support package, developers already familiar
with the MSP430 can introduce USB to their applications with
little effort. In addition, TI’s many third parties supply a wide range
of software and hardware to speed development and accelerate
time-to-market.
Developers can choose from three families of USB-enabled MSP430
microcontrollers, each with a fl exible roadmap and options that scale
to meet a variety of embedded application requirements:
• The F552x / F551x supplies 64
to 128 KB Flash and 4 to 8 KB (+2 KB) RAM, as well as
Comparator_B functionality. F552x \ F551x devices are
sampling now.
• The F563x/F663x is perhaps the most
feature-rich, integrated MSP430 device ever produced. With
128 to 256 KB Flash and 16 KB (+2 KB) RAM, this device has
six DMA channels, an RTC backup mode (enabling the RTC to
operate at less than 1 µA even when Vcc is lost), and many
other integrated peripherals.
• The F550x provides cost-effective USB
with 16 to 32 KB Flash and 4 KB + 2KB RAM as well as a 10-bit
ADC and Comparator_B functionality.
TI’s new MSP430 USB microcontrollers reduce system cost,
offer superior power effi ciency to improve battery life, facilitate
fast implementation, and are easy to use. In addition to allowing
developers to focus on their application rather than USB as an
enabling technology, these new controllers also lower system
BOM by integrating several advanced peripherals and modules
that increase performance and improve power consumption while
reducing component count. With its comprehensive supporting
software and hardware, TI reduces the USB learning curve from
weeks to hours, making it cost-effective – and simple – to
introduce USB into a wide range of embedded applications.
http://www.ti.com/msp430tools
http://focus.ti.com/docs/prod/folders/print/msp430f5529.html
Device class tradeoffs.
Simplicity on host Yes Yes No
Simplicity on MSP430 Yes Yes No
Avoids user install process No Yes Yes
High bandwidth Yes No, 64 KB/s Yes
Code size 4 KB 4 KB 10 to 20 KB
10

MSP430x5xx Overivew
Texas Instruments
The MSP430x5xx MCU from Texas Instruments is the next
generation technology platform for the MSP430 series
of MCUs. The device features advanced ultra-low-power
technology, signifi cantly higher levels of integration,
and is designed
for customer
ease-of-use.
The product training
module for this
product allows
viewers to learn more
about the product
line’s features and
the device’s capability for easy migration. Direction to TI’s
collection of over 1,000 code examples and more than 100
application reports is included
in this product training module.
www.digikey.com/ptm
MSP-EXP430F5438 Experimenter Board (MSP-EXP430F5438)
The MSP430F5438 Experimenter Board (MSP-EXP430F5438)
is a development platform for the latest generation of
MSP430 MCUs. It features a 100-pin socket that supports
the MSP430F5438 and other devices with similar pinout.
The socket allows for quick upgrades to newer devices
or quick applications changes. It is compatible with many
TI low-power RF wireless evaluation modules such as the
CC2520EMK. The Experimenter Board helps designers
quickly learn and develop
using the new F5xx MCUs,
which provide the industry’s
lowest active power
consumption, more memory
and leading integration
for applications such
as energy harvesting,
wireless sensing and
automatic metering
infrastructure (AMI).
www.devtoolsxpress.com
www.digikey.com/texasinstruments-mcu
www.digikey.com/microcontroller
11

USB-Based
Temperature Monitor
contributed by Analog Devices
Using an analog MCU, an LDO, an external thermistor, and a few discretes, you can construct a
highly accurate temperature sensing application.
Figure 1: ADuC7122 used as a temperature monitor interfaced to a thermistor (simplifi ed schematic, all connections not shown).
The circuit in Figure 1 shows how the ADuC7122 precision analog
microcontroller can be used in an accurate thermistor temperature
monitoring application. The ADuC7122 integrates a multichannel
12-bit SAR ADC, twelve 12-bit DACs, a 1.2 V internal reference,
as well as an ARM7 core, 126 kB flash, 8 kB SRAM, and various
digital peripherals, such as UART, timers, SPI, and two I2C
interfaces. The ADuC7122 is connected to a 4.7 kΩ thermistor.
Due to the small form factor of the ADuC7122 (7 mm × 7 mm,
108-ball BGA package) the entire circuit will fit on an extremely
small PCB, thus further reducing cost.
Similar in function to an RTD, thermistors are low-cost,
temperature-sensitive resistors and are constructed of solid
semiconductor materials, which exhibit a positive or negative
temperature coefficient. Thermistors are inexpensive and have
high sensitivity. They detect small variations in temperature,
which could not be observed with an RTD or a thermocouple.
However, thermistors are highly nonlinear; thus, they are limited to
applications with very narrow temperature ranges if linearization
techniques are not applied. Circuit linearization techniques can be
accomplished in software.
Despite the powerful ARM7 core and high-speed SAR ADCs,
the ADuC7122 still provides a low-power solution. With the
ARM7 core running at 326.4 kHz and the primary ADC active
and measuring the external
temperature sensor, the entire
circuit typically consumes 7
mA. Between temperature
measurements, the ADC and/
or the microcontroller can
be switched off to further
minimize power consumption.
Circuit description
The circuit shown in Figure 1 is
powered entirely from the USB
interface. The 5 V supply from the
USB is regulated to 3.3 V using
the ADP3333 (3.3V) low-dropout
linear regulator. The regulated
3.3 V supplies the DVDD voltage to the ADuC7122. The AVDD supply to
the ADuC7122 has additional fi ltering as shown. A fi lter is also placed
on the USB supply at the input of the linear regulator.
The following features of the ADuC7122 are used in this application:
• 12-bit SAR ADC.
• ARM7TDMI core: The powerful 16-/32-bit ARM7 core with
integrated 126 kB fl ash and SRAM memory, runs the user
code that confi gures and controls the ADC, processes the
ADC conversions from the thermistor sensor, and controls the
communications over the UART/USB interface.
• UART: The UART is used as the communication interface to the
host PC.
• Two external switches/buttons (not shown) are used to force the part
into its flash boot mode. By holding DOWNLOAD low and toggling the
RESET switch, the ADuC7122 will enter boot mode instead of normal
user mode. In boot mode, the internal flash may be reprogrammed
through the I2CWSD tool utilizing the USB interface.
• BUF_VREF: The band gap reference also connects through
buffers to the BUF_VREF1 and the BUF_VREF2 pins, which
can be used as a reference for other circuits in the system. A
minimum of 0.1 µF capacitor should be connected to these pins
to reduce noise.
12

The thermistor used in the circuit is a 4.7 kΩ resistor, model number
NCP18XM472. It is available in a 0603 surface-mount package.
The thermistor used in the circuit in Figure 2 has the following
specifi cations at 25°C: ß = 3500 (the ß parameter describes resistance
as a function of temperature) and resistance (R 25
) = 4.7 kΩ.
The USB interface to the ADuC7122 is implemented with an FT232R
UART to USB transceiver, which converts USB signals directly to the
UART protocol.
In addition to the decoupling shown in Figure 1, the USB cable itself
should have a ferrite for added EMI/RFI protection. The ferrite beads
used in the circuit are Taiyo Yuden, BK2125HS102-T, which have an
impedance of 1,000 Ω at 100 MHz.
The circuit must be constructed on a multilayer PC board with a
large area ground plane. Proper layout, grounding, and decoupling
techniques must be used to achieve optimum performance.
Figure 2: A simple temperature sensor
circuit implemented with the ADuC7122.
The input thermistor circuit
in Figure 2 is designed to
produce accurate temperature
measurements from 0°C to
90°C. Note that this system
contains no temperature
calibration. This circuit
contains a simple thermistor
circuit that does not contain
circuit linearization. If this
circuit employed linearization
techniques, it could function over a broader range of temperatures;
however, this would decrease the resolution of the sensor.
The circuit in Figure 2 is set up in a voltage divider confi guration. This
will allow us to transform the ADC result, D, into a measurement of
the resistance of RTH (thermistor) using the following formulas:
= ∗ (
( + ) )
Figure 3: ADuC7122 thermistor sensor measured output (converted to volts) with ADC0
versus temperature.
Figure 3 plots the response of the ADuC7122 to the thermistor sensor
detailed in Figure 2 over temperature.
Code description
The source code and a HyperTerminal confi guration fi le used to test
the attached circuit can be downloaded as a zip fi le at www.analog.
com/CN0153_Source_Code.
The UART is confi gured for a baud rate of 9600, 8 data bits, no parity
and no fl ow control. If the circuit is connected directly to a PC, a
communication port viewing application such as HyperTerminal can
be used to view the results sent by the program to the UART (Figure
4). The source code is commented to make it easier to understand
and manipulate. The code was compiled and tested using the Keil
µVision 3 application.
= 2 ∗ (
)
= ∗ (
= ∗ (( 2
+ 1) ) )
= 2 ∗ (
)
Once the resistance of the thermistor is calculated, the Steinhart-Hart
equation can be used to determine the ( 1
current ∗ ) temperature of the sensor.
= ∗ (
Using the following formula, the
(
ADuC7122
2
25
)
1)
is able to determine the
sensor temperature:
2 =
( 25
)
( 1 ∗ )
( 25
)
2 =
( 25
)
where:
T 2
= unknown temperature
V 1
= 298K
ß = ß parameter of the thermistor @ 298K or 25°C. ß = 3500
R 25
= resistance of thermistor @ 298K or 25°C. R25 = 4.7 kΩ
R TH
= resistance of thermistor @ unknown temperature as
calculated by formula above
Figure 4: Output of HyperTerminal communication port viewing application.
Common variations
The ADP3333 (3.3 V) can be replaced with the ADP120 (2.5 V),
which has a wider operating temperature range (−40°C to +125°C)
and consumes less power (typically 20 μA versus 70 μA) but has a
lower maximum input voltage range (5.5 V versus 12 V). Note that
the ADuC7122 can be programmed or debugged using a standard
JTAG interface. For a standard UART to RS-232 interface, the FT232R
transceiver can be replaced with a device such as the ADM3202,
which requires a 3 V power supply.
The thermistor circuit described here can be adapted to operate with
other precision analog microcontrollers, such as the ADuC7020 series,
the ADuC7023, and the ADuC7061 series.
www.digikey.com/microcontroller
13

ARM7 Core MicroConverter
Applications and Tools
Analog Devices, Inc.
Analog Devices’ ARM7 series integrates high-precision
analog with an ARM7TDMI core. The small size and
integration of these devices makes them particularly
useful in a
wide range of
applications.
Experiencing the
product training
module regarding
the ARM7 series will
provide insight into
the industrial and
medical applications of which the device is often utilized,
along with example MicroConverter reference design
examples for the benefi t of any
purchaser.
USB-Based Emulator (ADZS-USB-ICE-ND)
Analog Devices’ cost-effective Universal Serial Bus (USB)-
based emulator provides an easy, portable, non-intrusive,
target-based debugging solution for Analog Devices JTAG
processors and DSPs. This powerful USB-based emulator
performs a wide range of emulation functions, including
single-step and full speed execution with pre-defi ned
breakpoints, and viewing and/or altering of register and
memory contents. With the ability to automatically detect
and support multiple I/O voltages, the USB emulator enables
users to communicate with all of the Analog Devices JTAG
processors and DSPs using a
full speed USB 1.1 on the host
PC. Applications and data can
easily and rapidly be tested
and transferred between the
emulators and the separately
available VisualDSP++
development and debugging
environment (sold separately).
www.digikey.com/ptm
www.devtoolsxpress.com
ADuC7122: Precision Analog Microcontroller, 12-Bit Analog I/O, ARM7TDMI MCU
The ADuC7122 is a fully integrated, 1 MSPS, 12-bit data acquisition
system, incorporating high performance multichannel ADCs, 12 voltage
output DACs, 16-bit/32-bit MCUs, and Flash/EE memory on a single
chip. The ADC consists of up to 13 inputs. Four of these inputs can be
confi gured as differential pairs with a Programmable Gain Amplifi er on
their front end providing a gain between 1 and 5. The ADC can operate
in single-ended or differential input modes. The ADC input voltage is
0 V to VREF. A low drift band gap reference, temperature sensor, and
supply voltage monitor complete the ADC peripheral set.
• 13 external channel, 12-bit,
1 MSPS ADC
• 11 general-purpose inputs
• 0 V to VREF analog input range
• 12 × 12-bit voltage output DACs
• ARM7TDMI core, 16-bit/32-
bit RISC architecture
• JTAG port supports code
download and debug
• 41.78 MHz PLL with
programmable divider
• 126 kB Flash/EE memory, 8 kB
SRAM
• UART, 2 × I 2 C ® and SPI serial I/O
• Wake-up and watchdog timers
(WDT)
• Specifi ed for 3 V operation
• Active mode: 11 mA at 5 MHz,
40 mA at 41.78 MHz
Analog Devices and Digi-Key present New Product Express – a fast, easy way to
get ADI’s newest products. These products are in full production, having passed
ADI’s quality and reliability testing, and are available from Digi-Key to order today!
See New Product Express at www.digikey.com/newproductexpress
www.digikey.com/analogdevices-mcu
14

Introducing a Second MCU
to Embedded Designs
by Nicholas Cravotta
There are numerous reasons to add a second
MCU to your design and numerous errors to
avoid once you do. This article considers the
arguments and options while pointing out the
pitfalls along the way.
With the wide variety of processors available today, there are a
great many reasons why you may find it to be a more cost-effective
choice to add new features to an application by introducing a
second microcontroller (MCU) or microprocessor (MPU) to your
design rather than trying to perform every task on a single, higher
performance processor:
• Cost: Migrating to a higher performance system MPU can have a
higher cost differential than adding an 8- or 16-bit MCU to take
on the added load.
• Power: Rather than expend the power to have the main
application processor continuously turn itself on to perform a
relatively simple operation such as monitoring a sensor bank
or checking if a key has been pressed, an 8-bit processor
can be introduced to perform these tasks. In essence, the
8-bit processor serves as a “power gate” by letting the main
processor sleep and waking it only when an event occurs that
requires its attention. This is especially effective with resistive
and surface capacitive touchscreens.
• Determinism: User interface (UI) functions involving compute
intensive tasks such as animation or audio can stress the
real-time deterministic behavior of a system. Rather than risk the
reliability of critical tasks such as motor control, a second MCU
can assume all “real-time” UI responsibilities.
• Diversity: Many systems can benefit from a modular design. For
example, a display module can be implemented with a different
processor to provide additional graphics, or streaming video
capabilities. By taking a modular approach, the main application
code does not need to be changed to add new features to the
system or to support different models.
• Simplicity: A product line may offer a wide variety of options.
For example, a product may have four screens, three keyboards,
and three connectivity options. When a single processor is
used, the design team has to maintain, test, and verify a
separate code version for each possible variant (4x3x3=36
distinct variants). When a secondary processor is used to
implement a new function, maintenance is required only
for each option (4+3+3=10). Note that with the first option,
the entire system needs to be tested and verified with every
variant, a complex and time-consuming process. When using
the second option, the main application code only needs to be
verified once. Each of the options can be verified separately
and with significantly less complexity.
• Conservation of I/O: An MCU can appear to be several devices
over an interface by responding to several addresses. For
example, the main application processor could issue a command
to turn on a fan which is intercepted by an MCU serving as a
virtual hub. This is an effective way to conserve I/O on the main
application processor since only one communication peripheral
is required to read and control multiple devices.
• Certification: Changing the user interface or introducing a new
interface like Wi-Fi to the main system requires the entire design
to be recertified for some markets. Implementing these functions
as an add-on module with a separate processor simplifies
the recertification process, significantly accelerating both
development and time-to-market.
UART, I 2 C, and SPI
There are many options available for interconnecting processors.
The most basic interfaces used for this purpose are Universal
Asynchronous Receiver-Transmitter (UART), Inter-Integrated Circuit
(I 2 C), and Serial Peripheral Interface (SPI). Today, many processors
offer hardware and software support for one or more of these
interfaces. For example, STMicroelectronicss’ STM32 Cortex-M3 32-
bit processors and 8-bit STM8L MCUs support all three. Alternatively,
Cypress’ PSoC family of programmable system-on-chip processors
have analog and digital blocks which can be configured to provide
multiple instances of each of these interfaces, allowing the interface
mix to be altered as required for different target markets. The
question becomes how many interfaces you’re going to need.
A UART operates up to 250 kbps, compared to 100 to 400 kbps for
I 2 C. SPI, which supplies its own clock, can operate at speeds over
1 Mbps. A UART link can typically be implemented in software using
an interrupt-based driver, so long as the driver doesn’t place too much
load or latency on the processor based on the application’s needs. An
I 2 C master can often be implemented in software, but a slave needs to
www.digikey.com/microcontroller
15

e implemented in hardware because of the data rates involved. SPI
also needs to be hardware-based. Multi-master systems will need to
be hardware-based as well.
Beyond data rate, each interface offers specifi c features that may
make it more appropriate for a specifi c application. UART is extremely
simple to implement and is full-duplex. I 2 C is popular because it
requires only two wires, can have a simple master, and offers a
variety of advanced options including support for addressing, multiple
masters, broadcasting, and clock stretching. Clock stretching, for
example, allows an I 2 C slave to hold the clock and halt the fl ow of
data while it processes the data it has received, thus preventing
potential overrun issues. In contrast, a SPI slave is at the mercy of
the SPI master.
With all of the various options available for I 2 C and SPI, many silicon
vendors supply example code which you’ll need to use as a model
for creating your own code. Fortunately drivers for these interfaces
can be fairly simple – an I 2 C driver can be 15 lines of code, allowing
you to implement an interface in a short period of time. However, it is
important that you determine which features you need to support, that
you’ve implemented them correctly, and that the master and slave
implement the same features.
For example, there are a number of parameters you’ll need to decide
upon when creating an I 2 C driver, such as 7- or 11-bit addressing,
single or multi-master (with collision detection and recovery), data
rate, whether to use ACK/NAK protocols, support for address holding,
and a slew of other options. As a result, any two particular I 2 C
interfaces can be very different. For example, one common problem
developers run into is mistaking the System Management Bus
(SMBus) used in laptops as a simple I 2 C bus. Even though the SMBus
runs over an I 2 C interface, it usually uses fi xed voltages for high and
low values whereas a generic I 2 C interface uses threshold values
which are typically based on a percentage of the MCU power supply,
thus representing a potential discrepancy between the two which can
create diffi cult-to-debug intermittent errors.
Note too, that UART, I 2 C, and SPI are just physical interfaces. You’ll still
need to supply a logical protocol that operates on top of the physical
layer. If the interface is between two MCUs under your design, this
protocol can be whatever you want it to be. If the MCU is talking to
a device like a serial EEPROM, then the protocol is already defi ned
for you. As a consequence, a driver for a master is likely to be more
complex than a slave given the number of different devices and their
protocols it may communicate with. In addition, if your master doesn’t
support all of the protocols features a slave does (or, conversely, tries
to use a feature a slave does not support), compatibility problems will
eventually surface.
The simplicity of each of these interfaces is both its advantage and
curse. You can implement intricate protocols, which makes the
interface more effi cient and powerful, but this can also make it more
diffi cult to debug. The simplicity gives you all the rope you need to
hang the system up if you aren’t careful.
For example, consider an application where the interface is
controlling an analog multiplexer which needs to smoothly transition
between two audio streams. Depending upon how the transition is
implemented, there can be undesirable – and audible – side effects;
i.e., switching from a soft to loud stream can result in a loud “Pop!”
Additionally, command latency may affect the transition. Ideally,
you’ll want to run the audio down, switch streams, and then run
the audio back up. However, this may not always be convenient for
your application. The same diffi culties apply if you are working with
multiple power supplies at the same time.
To facilitate initial driver design and verifi cation, many vendors
offer powerful development tools for implementing and verifying
interface functionality. For example, Microchip offers the PICkit Serial
Analyzer which connects to your system and to a PC which you use
to confi gure the link as a master or slave with any of the standard
interface options for UART, I 2 C, and SPI. A classic problem in interface
design is the need for a pre-existing master to design a slave or
a pre-existing slave to design a master. The PICkit eliminates this
problem by providing a reliable other half of the link to design against
with visibility into what’s being sent over both sides of the link. The
PICkit also has the capable of emulating a variety of I 2 C peripherals
like ADCs and fan controllers.
Many MCU vendors also offer a variety of full-featured development
kits and libraries to facilitate the introduction of subsystems such
as an LCD display, touchscreen, or other peripheral to a system.
For example, TI offers the RDKIDML-35 Intelligent Display module
reference design kit which makes it relatively easy to add a 3.5”
QVGA touchscreen to a system connected over either an I 2 C or SPI
link. The kit also includes a software library with various GUI functions
to speed user interface design.
Figure 1: PICKit Serial Analyzer.
Avoiding common pitfalls
In the end, the best way to learn to implement a UART, I 2 C, or SPI
link is to do it yourself. The following list of tips and tricks has been
suggested by experts from a variety of MCU manufacturers to help
you avoid some of the more common mistakes, misconceptions,
and missteps developers often take when implementing their fi rst
processor-to-processor interface.
16

Introduce complexity in stages: Do not try to implement the entire
system from the start. Begin with the basic driver and verify its
operation. Then add the protocol layer and verify again. Introduce
the application layer. Finally, operate the entire system with all of its
various concurrent tasks and interdependencies.
Design your system to abstract functionality: For example,
using a generic UI interface allows the main system to connect to
mechanical buttons, a keypad, or a touchscreen without having to
know which is actually connected. This approach also allows you to
fundamentally modify how a function is performed without requiring
any code changes to the main system. Consider a vending machine
with a separate processor handling coin and bill collection. If a
security problem arises (i.e., customers have figured out a way to
cheat the machine), only the hardware and software used to monitor
collection need to be redesigned to prevent this; the rest of the
system remains unchanged.
Figure 2: RDK_IDM L35.
Recognize that peripherals are different than processors:
Connecting to a peripheral is different than connecting to another
processor. When you control the software on both sides of the
interface, you define the interface specifics and protocol on both
sides and can therefore guarantee compatibility. When you only
design one side of the interface, you need to design your interface
to match the requirements of the peripheral to which you are
connecting. This can give rise to many potential problems. The
most common is the datasheet for the peripheral inaccurately
describing how the interface has been implemented. To avoid this
problem, verify how the interface has been implemented. Also be
aware that various interface options such as 11-bit addressing,
clock stretching, or multi-master support may not be supported
by a peripheral and that if you try to implement a feature that the
peripheral did not implement, the results will be unpredictable.
Specify a sufficient data rate: Confirm that the data rate of the
interface will meet both your current and future data needs. For
example, a small display requires a lower data rate than a larger
display or equivalent touchscreen. If you plan to support larger
displays in next-generation designs, keep your interface options open.
Account for overruns: Getting an I 2 C or SPI link up and going is
fairly straightforward. Where you are likely to encounter difficulties
is at the corner cases. For example, the interface may operate
properly up to a certain frequency, at which point it begins to fail.
The problem could either be from too much noise in the system
or a data overrun. A data overrun may be a local problem; a series
of a particular type of packet may require more processing time,
resulting in the processor not emptying the buffer fast enough. More
often, overruns are caused by system-level issues. For example,
the DMA or FIFO used by the interface may be a shared resource.
Depending upon what else is being processed by the system (i.e.,
the real-time operating system is managing several real-time tasks
simultaneously), latencies may be greater than estimated, causing
an overrun.
Verify the driver first: When a problem arises, it can be difficult to
determine the cause of the error. This is especially true in systems
managing multiple interfaces or real-time tasks where errors
can arise because of what else is happening in the system. Get
the systems talking reliably first by verifying your drivers before
introducing application-level functionality. This allows you to more
confidently eliminate the driver as the source of the problem during
later debugging.
Debug using code instrumentation: Debugging both sides of
an interface can be tricky because you are working with multiple
processors. While there are tools for debugging multiprocessor
systems, they often allow you to halt only one side of the link, making
it difficult to utilize traditional debugging techniques. If you are using
the same type of processor on both sides of the link, you have the
option of having the one processor send and then receive its own
signal; this allows you to watch both sides of the link and halt them
simultaneously. If you are debugging over JTAG, you may be able to
connect both processors to the same JTAG chain.
Once you mix architectures, however, you may find yourself forced
to debug one side of the link at a time. To simplify debugging,
limit the complexity of the other side of the link by creating a
simple stub driver that allows you to test basic functionality in
stages. As you begin to work with live systems on both sides of
the link, you can use the debugger on one side of the link and use
code instrumentation techniques on the other side of the link to
facilitate debugging. The instrumented side of the link can use the
link itself to send status information such as variable values, data
received, and other important information back to the processor
being debugged.
Exploit your debugger: Some engineers try to solve programming
issues without a debugger. When they encounter an error, they try
something different in the code. Many interface issues, however,
are caused at the system level and rewriting interface driver code
is not the solution. Observing these system-level interactions may
require a debugger.
Check your connections: Triple-check your connections before
debugging a problem. For example, an easy error to make is to hook
up the control signals of the interface but fail to have a common
ground. Do this and you may find yourself spending hours trying to
resolve a non-existent problem.
www.digikey.com/microcontroller
17

Document your code: Take the time to write clean code with
complete comments. A simple I 2 C driver might only run 15 lines
and not seem to require documentation. However, if you are new
to I 2 C, you may have missed a critical parameter that you come to
understand more about at a later time. Complete documentation
gives you a reliable path for tracking your changes in thinking and not
getting lost as the complexity of the application increases.
Question the spec sheet: Because of its greater fl exibility,
developers typically encounter more issues with I 2 C than with
SPI. For example, the slave can adversely affect the master by
holding the clock down, using a different addressing mode, or
implementing start/stop sequences differently. Be wary even if you
are connecting to a peripheral like a sensor with a detailed data
sheet. The peripheral may not follow the spec, so don’t immediately
assume your driver or the MCU is at fault if you can’t get an interface
working. It is times like these that you may need a logic analyzer to
locate the true source of the problem.
Have access to a logic analyzer: This tool is especially useful when
you have to connect to another device with an existing interface
and protocol. It can also accelerate development when connecting
to peripherals with a parallel interface like a display. Be sure to
check if your logic analyzer supports the appropriate decode for
the interface you are using. Automatic decoding can substantially
simplify debugging by allowing you to observe the interface as a
logical signal rather than having to convert the physical signal to a
logical signal yourself.
Design for coexistence: In a multi-master system, sometimes you
will need to make sure to send data to multiple destinations without
risking giving up the bus to another master. To achieve this, you can
use a restart condition between each transmission to keep control
of the bus. Similarly, you can use a restart to change the direction
of data to receive data from a slave (i.e., EEPROM) without letting
go of the bus. A master that locks the bus in this way, however, can
create latency issues for other masters performing tasks that are
also time-critical. Use such techniques sparingly and thoroughly test
the interplay between masters to ensure that they operate well with
each other.
Design slave/master-capable drivers: Consider giving your slaves
the ability to become a master. This can be useful in the case of
system failure, allowing a slave to take over the bus and initiate
recovery mechanisms with signifi cantly less latency than if the slave
has to wait until it is addressed before it can signal an alert.
Separate data processing from data transmission: Often, the
data collected (i.e., a voltage from a temperature sensor) is very
different from the data that needs to be transferred (i.e., whether a
temperature threshold has been crossed). Consider an interface to a
touchscreen module where the main system, acting as the master,
asks for the current fi nger position data. The module collects the
raw data and stores it until position data is requested by the master.
At this time, the module retrieves the raw data, processes it, and
then transmits it.
This particular architecture can innocently create an overrun
condition. Consider that to maintain responsiveness, the main system
may ask for information at a higher frequency than at which the raw
data actually changes. This means that with each request, the module
has to recompute the position data using data-intensive algorithms,
even if the data has not changed. Because the raw data is being
computed multiple times, the result is tremendous overhead that can
affect the responsiveness of the module.
There are several ways to eliminate such overhead. For example,
a check could be made before the position data is computed as to
whether the raw data has changed suffi ciently or not. If the raw data
has not changed, the previous calculation is used. Another approach
would be to have the touchscreen module serve as the master over
the link and send an update whenever the position has changed.
Keep the interface simple: If you only have one master and one
slave, there is no need to implement address collision. Of course, take
into consideration future expansion and whether a deployed device
may need to support such a feature to be compatible with future
generations of devices.
With today’s integrated MCUs and MPUs, coupled with powerful
development tools, designing your fi rst processor-to-processor
interface can be a simple process that allows you to quickly introduce
a second processor to your existing design. By taking care in your
design, you can avoid many common pitfalls to create a reliable
and effi cient interface that will meet the performance needs of your
application today and into the future.
ATmega128RFA1
Wireless MCU
Atmel
The ATmega128RFA1 wireless MCU is a single-chip
microcontroller that is known as the world’s fi rst
wireless AVR. This device consists of a unique Atmel
microcontroller and an RF transceiver and offers the
highest system
integration and best
cost-effi ciency.
Digi-Key’s product
training module
for this product
features information
regarding the
integration of
the AVR MCU with the RF module, reviews the power
specifi cations offered with this series, and provides
in-depth application examples.
www.digikey.com/ptm
18

Eliminating the Parallel/Serial
Tradeoff in Embedded Systems
with SPIFI-Equipped Cortex-M3
by Rob Cosaro and Gene Carter, NXP Semiconductors
Choosing parallel versus serial flash has
traditionally meant gaining speed at the cost of
complexity. This no longer needs to be the case.
The SPI Flash Interface (SPIFI), a patent-pending feature initially available
on NXP’s latest ARM Cortex-M3 microcontrollers, lets designers of 32-bit
embedded systems use a small, inexpensive serial flash in place of a
larger, more expensive parallel flash. With SPIFI (“spiffy”), the external
serial flash appears in the microcontroller’s memory map and can be
read like other on-chip memory. This essentially eliminates the traditional
tradeoff associated with choosing the type of external flash to be used in
an embedded system, and gives designers a new way to minimize size
and cost while delivering the required system performance.
NXP has developed a peripheral function, initially available on its new
ARM-based LPC1800 Cortex-M3 microcontrollers, that lets designers of
embedded systems use external serial flash memory in place of larger,
more expensive parallel flash. The patent-pending peripheral, called
the SPI Flash Interface (SPIFI), lets external serial flash memory appear
in the microcontroller’s memory map, so it can be read like an on-chip
memory. This gives designers a new way to meet performance demands
while creating a system that is easier to configure, uses smaller
packages, requires less board space, and is less expensive to build.
The need for external flash
Embedded applications that use a 32-bit microcontroller (MCU) are
increasingly tasked with offering a range of sophisticated features
for managing multimedia, photos, and other data-intensive content.
This is particularly true of systems that present a human interface,
since today’s users have come to expect a graphical display that lets
them interact with window boxes, photos, animations, sound files,
and more. As products become increasingly international, they have to
operate in different languages and may need to support several sets
of alphabets and non-Roman characters. All these requirements place
extra demands on the system’s memory resources.
Most 32-bit microcontrollers are equipped with on-chip flash memory
that can be used to support data-intensive features, but it’s often not
enough to support the entire application. The on-chip flash is typically
limited to 1 Megabyte or less. That may be enough to house the bulk
of the critical application code, but it may fall short when it comes
to storing all the other things the application needs, such as look-up
tables, images, photos, sound files, multiple languages, and so on. For
these items, designers often turn to external flash memory.
External flash memory is significantly cheaper than on-chip flash
and is readily available in sizes in excess of 8 Megabytes. Flash
memory can also add an extra level of flexibility to the system,
since it can be used to patch or upgrade software once the system
is in the field.
The parallel/serial tradeoff
When choosing what kind of external flash to use, parallel or serial,
designers have traditionally had to balance several tradeoffs. Parallel
flash is often faster than serial flash, but requires more pins, more
PCB traces, and more board space.
Figure 1 shows data transfer rates for typical parallel and serial flash
devices. For the parallel flash, the graph assumes a fixed access
time of roughly 90 ns without buffering. With these conditions the
maximum transfer rate for a 16-bit-wide parallel flash is 22 Mbytes/
sec. For the serial flash the maximum clock frequency is 80 MHz
giving a per-bit transfer rate of 80 Mbits/sec. For a quad device
this means a maximum transfer rate of 40 Mbytes/second. This
calculation ignores any control bits but quad SPI devices support
bursting which is used by the SPIFI interface This allows the SPIFI
interface to approach these transfer rates.
Figure 1: Typical transfer rates of serial and parallel flash memories.
Table 1: Parallel verus Serial Flash Performance.
Interface Mode Access Time (nS) Effective Throughput (MB/S)
Parallel
8 Bits 90 11
16 Bits 90 22
Single 12.5* 10
Serial Dual 12.5* 20
Quad 12.5* 40
*Effective access time.
www.digikey.com/microcontroller
19

As shown in Figure 1, a typical 16-bit parallel fl ash memory delivers a
data transfer rate of 20 Megabytes per second. In systems that use
a 32-bit microcontroller with a 32-bit bus for the external memory
(like those from NXP), the designer can opt to use two 16-bit parallel
devices in combination for a rate of 40 Megabytes per second.
However, the added speed comes at a cost. The confi guration uses
two separate parallel fl ash memories, each housed in a package
with dozens of pins, and that may be more, in terms of package
size, pin count, and PCB space, than the designer can afford.
Serial fl ash, which typically uses the simple four-pin Serial
Peripheral Interface (SPI), can be a good alternative to parallel
fl ash when space, power, and cost are concerns, but it’s much
slower. Figure 1 shows that a typical SPI fl ash operating at 50
MHz transfers data at roughly 5 Megabytes per second (eight
times slower than a confi guration that uses two 16-bit parallel
devices). Another consideration is that the SPI interface on most
microcontrollers is connected to the MCU’s peripheral matrix, where
data has to be received by driver code and put into on-board RAM
before the processor can access it. This can slow things down,
since each read from serial fl ash has to go through an SPI software
layer. Depending on the application, using the standard SPI interface
for external memory may not be fast enough.
The new Quad SPI fl ash format, which uses a modifi ed, six-pin SPI
confi guration, is much faster than traditional SPI formats. As shown
in Figure 1, Quad SPI delivers a transfer rate of 40 Megabytes per
second, which is the same as using two 16-bit parallel devices.
Using Quad SPI is often much less expensive than the parallel
approach, since it uses far fewer pins and a much smaller package.
It would seem that Quad SPI fl ash would be a good replacement for
parallel fl ash in embedded systems, but the reality is that today’s
32-bit microcontrollers aren’t designed to support Quad SPI fl ash
at its maximum speeds. This is because the Quad SPI interface, like
the traditional SPI interface, is connected to the microcontroller’s
peripheral matrix.
Eliminating the tradeoff
NXP has developed a new peripheral function, called the SPI
Flash Interface (SPIFI) that essentially eliminates the parallel/
serial tradeoff. The patent-pending SPIFI (“spiffy”) peripheral lets
low-cost SPI and new Quad SPI fl ash memories appear in the
memory map of an ARM Cortex-M3 microcontroller, so the MCU
can use external SPI fl ash with only a minimal performance penalty
compared to external parallel fl ash memories. The complete
memory space of the external SPI fl ash appears in the MCU’s
memory map, so the microcontroller can access the external
memory directly, without a software API or library.
When used with a Quad SPI fl ash, for example, the SPIFI peripheral
supports a data transfer rate of up to 40 Megabytes per second.
The designer can choose a less expensive SPI fl ash device, with
its compact footprint and simple confi guration, but doesn’t have
to sacrifi ce performance. The designer may also be able to choose
a smaller, less costly microcontroller, because the system won’t
need a bulky interface for external parallel memory. The SPIFI
peripheral enables an embedded system that makes better use
of memory resources yet remains compact and effi cient while
lowering overall cost.
The SPIFI peripheral is a dedicated function that will initially
be available on the NXP LPC1800 series of ARM Cortex-M3
microcontrollers. It will also be available on upcoming product lines,
including the low-cost Cortex-M0 series and the Cortex M4 line of
digital serial controllers (DSCs).
SPIFI supports most serial fl ash devices on the market today
(including those with quad read/write capability) and is designed
for easy confi guration and programming. It uses four or six pins
(depending on the type of serial fl ash used), works with a small
register set, is optimized for effi cient memory transactions, and
uses software commands that reduce CPU overhead and streamline
memory interactions.
How SPIFI works
Figure 2 shows a block diagram of the SPIFI peripheral. The SPIFI
function is connected to the microcontroller’s Application Highspeed
Bus (AHB) matrix, which is used for the processor core and
the on-chip memories. The SPIFI peripheral presents the contents
of the external SPI fl ash in the microcontroller’s memory map. Once
the boot code in the on-chip ROM initializes the SPIFI interface, the
external SPI memory looks just like an on-chip memory to the core
processing unit.
Figure 2: Block diagram of the SPIFI peripheral.
Initialization sequence
All of the drivers required for the SPIFI interface are available in
ROM. For reading, only one call to a routine is made to initialize the
SPIFI peripheral. After the initialization sequence, the entire SPI fl ash
content is accessible as normal memory using byte, half word, and
word accesses by the processor and/or the DMA channels. Erasure
and programming are handled by a simple API call, which accesses
commands in ROM, so using the external SPI memory is as easy as
using on-chip fl ash memory.
Booting from SPIFI
For systems that need the microcontroller to boot from external
serial fl ash, the NXP LPC1800 microcontroller has been equipped
with a mechanism that includes SPIFI as a boot source. There
are two ways to select the boot source. The fi rst uses the
microcontroller pins to determine which interface to boot from, and
the second relies on the user to program a non-volatile location to
choose the interface. Using the non-volatile location saves the pins
from having dual-use functions.
20

Physical interface
Figure 3 shows the physical interface of the SPIFI peripheral. It uses the
standard four pins for traditional SPI devices; when configured with Quad
SPI memory it uses an additional two pins to support the quad capability.
Figure 3: Physical interface of the SPIFI peripheral.
Different serial flash vendors and devices accept or require
different commands and command formats. The SPIFI peripheral provides
sufficient flexibility to be compatible with most common SPI flash and
includes extensions to help insure compatibility with future devices.
Reduced register set
A compact register set gives the SPIFI peripheral a considerable amount
of intelligence while keeping it simple to use. It takes just eight registers
to control the SPIFI function, interface with the external SPI memory,
store and retrieve data, and monitor operation. Since the built-in ROM
API governs setup, programming, and erasure, handling the external SPI
memory in an application is a matter of a few calls. As a result, the SPIFI
peripheral is simple to configure and easy to support in the application.
Software commands
The external memory responds to commands sent by the
microcontroller software and to commands automatically sent by the
SPIFI peripheral when its software reads the serial fl ash region of
the memory map. Commands are divided into fi elds called opcode,
address, intermediate, and data. The address, intermediate, and
data fi elds are optional depending on the opcode. Some memory
devices include a mode in which the opcode can be implied in Read
commands for higher performance. Data fi elds are further divided into
input and output data fi elds depending on the opcode. All commands
to the external SPI memory can be handled by calls to the ROM API.
The SPIFI ROM API driver lets the contents of the external SPI memory
be accessed using simple load commands, so the application code
remains compact and easy to write.
CPU-independent operation
The SPIFI software can read data from the external memory and write it
to RAM or a peripheral without involving the CPU. With microcontrollers
that have an integrated LCD controller, for example, this feature can be
used to enhance performance and save power. Images can be stored in
the external memory and fetched by the LCD controller. Since the LCD
controller reads most of its data from sequential addresses, the SPIFI
peripheral can pre-fetch the addresses so they’re ready when needed,
with essentially no wait states. The entire operation can happen without
getting the CPU involved, and there’s no need to load the images into
on-chip RAM before the LCD controller fetches them. That means the
system can use a microcontroller with less on-chip RAM, or can free
up its existing RAM for other tasks. Also, since the images are fetched
directly by the LCD controller, the LCD display can refresh graphics
faster, so simple operations like opening and closing windows appear
smoother. Also, to save power, the system can use a slower clock speed
without having a noticeable impact on the display’s performance.
Direct execution
From a software point of view, the microcontroller can execute code
directly from the external SPI memory. Direct execution can be helpful
when using in-fi eld upgrades or when replacing functions originally
shipped in on-chip fl ash. Validated upgrade code can be placed in the
external fl ash. If, for example, the system’s function addresses are in
a table stored in on-chip fl ash, the table can be reprogrammed with
the address of the routine now housed in external fl ash. Alternatively,
if the page containing the start of the original routine is stored in
on-chip fl ash, the page can be updated with a branch long jump to
the new routine in external fl ash. In either case, the new code doesn’t
need to be loaded into the on-chip RAM to execute, because the SPIFI
peripheral allows direct execution from the external memory.
Executing code from an external memory is never as fast as using
on-chip memory. The SPIFI peripheral isn’t intended for use with
real-time functions that require peak performance but, for less critical
code sequences, SPIFI can be a very attractive option.
Write-while-execute functions
The SPIFI supports write-while-execute functionality, which means it
can program or erase the external memory simply and quickly, even
when the processor is executing code from on-chip fl ash. Since the
SPIFI peripheral can run on its own, without interaction from the CPU,
the system can perform its functions without interruption while the
serial fl ash is being reprogrammed.
This feature can be used to perform software upgrades in the fi eld,
because the system can write to the external memory without
interrupting critical application code. In a smart meter, for example,
the metering function needs to operate continuously, even during a
software upgrade. With SPIFI, the utility company can confi gure the
system to write any new code to external fl ash, without interrupting
the active metering function, and can then integrate the new code
into the system. Similarly, in a system that has a USB port, new code
can be placed on a portable USB drive and transferred to the external
fl ash without interrupting critical operations.
Conclusions
NXP’s new SPI Flash Interface (SPIFI), a patent-pending feature initially
available on its new ARM-based LPC1800 Cortex-M3 microcontrollers,
lets external serial fl ash memory appear in the microcontroller’s
memory map, so it can be read like on-chip memory. This gives
designers access to a large amount of external fl ash memory while
reducing system costs and minimizing the design footprint.
The SPIFI peripheral creates a way for designers to use a small,
inexpensive serial flash where they might previously have needed to use
a larger, more expensive parallel flash to meet the system’s performance
requirements. Designers can take advantage of the many benefits of
serial flash — low-cost, small size, simple configuration — without
making large sacrifices in performance. SPIFI also lets designers opt for
a microcontroller without a parallel interface, for a smaller, less expensive
design that still delivers the required performance.
The NXP roadmap for SPIFI includes migration to other Cortex-M
families, including the low-cost Cortex-M0 series and the upcoming
Cortex-M4 series of Digital Signal Controllers.
www.digikey.com/microcontroller
21

uIP TCP/IP Protocol
Stack Demonstration
contributed by Renesas Corporation
The popular open source uIP TCP/IP stack
is widely used in embedded designs. This
demo provides both hands-on experience and
insights into its use.
This article demonstrates the features and capabilities of the RX62N
Renesas Ethernet connectivity target devices with the open source
uIP TCP/IP protocol stack. It assumes some experience with Ethernet,
TCP/IP, and HTML. For more introductory material on these subjects
please see the references at the end of this article.
The uIP TCP/IP stack demonstration project provides an example
of Ethernet connectivity and a sample web server application that
controls LEDs on the Renesas Starter Kit (RSK) boards.
Overview
The procedure below provides step by step instructions for how to
setup the demonstration project and run it.
Setup
Set up a demonstration environment as shown in Figure 1. In this
setup, a router is used as a DHCP server and a PC as a web client.
Several RSK boards can be connected to the multiport router.
Use straight RJ-45 Ethernet cables to make the connections.
Depending on the RSK board used there may be other settings to
be confi gured before running the demonstration project. These may
include instructions for connecting a debugger to the RSK board.
Please refer to the Quick Start Guide (QSG) of the RSK board for
more information.
Figure 2: Test setup.
The demonstration project by default is confi gured to run in little endian
mode. Please make sure RSK board is confi gured for the same endian
mode. Refer to your QSG how to change endian mode of operation.
For a simpler setup, an RSK board can be directly connected to a PC.
In this setup, the router is not used and the demonstration project
is designed to fall back to a static IP address if a DHCP server is not
found in about ten seconds. In this case, the RSK board assumes the
default IP address of 192.168.1.10.
Figure 2 shows a more detailed test setup environment as an
alternative. In this setup all devices are on the same collision domain
and all network activity can be monitored and analyzed on the PC.
If this setup is used, make sure the center connectivity device is a
true hub rather than a switch. The router can be disconnected and
connected back to the network independent of the connections
between the PC and the RSK boards. This allows monitoring of RSK
board behavior with or without a DHCP server on the network.
Figure 1: Demonstration setup.
Figure 3: Router network confi guration.
22

Configure the IP address of the router to 192.168.1.1. This is
usually the default IP address for most home or office routers.
Configure the DHCP start IP address to 192.168.1.100 with two
maximum DHCP users. A snapshot of the router configuration is
shown in Figure 3.
Configure the Ethernet port of the PC with a static IP address of
192.168.1.2. Internet Protocol (TCP/IP) properties of the PC are
shown in Figure 4. Make sure that this Ethernet port is not used to
access a corporate network or a workgroup. If there is not a spare
Ethernet port available, it is recommended to use an USB to an
Ethernet adaptor. Please follow the adaptor manufacturer manual
for installation instructions.
Figure 5: Directory structure of uIP demonstration project.
What to do with the demo
The demonstration project displays “uIP Demo” on the RSK
board LCD on power up. The IP address used is displayed on the
LCD. The RSK board either receives its IP address from a DHCP
server or uses its default setting of 192.168.1.10. For the test
setup in this article, the DHCP server can assign IP addresses of
192.168.1.100 and 192.168.1.101. Make sure the Ethernet cables
are connected and devices are powered up if no IP address is
displayed after ten seconds. Some of the possible LCD settings are
shown in Figure 6.
Figure 6: LCD settings.
Figure 4: PC network configuration.
Sample project directory structure
Figure 5 shows the demonstration project directory structure. The \src
folder contains the source code and has four subfolders: bsp, driver
uip, and user-app. The \src\bsp and \src\driver folders have Renesas
board specific source code and the Ethernet drivers for the RSK
board. The uIP stack is in the \src\uip folder.
The open source uIP TCP\IP stack comes with its own
documentation. It is in the \src\uip\doc folder. The main.c file is
in \src\uip\uip and the example web pages are in src\uip\apps\
webserver\httpd-fs folders.
The demonstration project includes a simple user application that
controls the LEDs on the RSK board. This application is in the \src\
user-application folder.
The router’s status page can also be used to find which IP address
is assigned to the RSK board as shown in Figure 7. Another way
is simply to ping IP addresses and use the IP address with the
reply. Ping messages can be generated by the following DOS
Shell commands:
C:\>ping 192.168.1.10
C:\>ping 192.168.1.100
C:\>ping 192.168.1.101
Figure 7: DHCP client information.
www.digikey.com/microcontroller
23

Launch a web browser and use the IP address of the RSK board
in the URL fi eld. After a successful connection, the user will see
the welcome page shown in Figure 8. This is also the front page.
Note that the Renesas logo is linked to http://am.renesas.com/. By
activating this link the user can easily access the Renesas Electronics
America internet site. The other external link on this page is http://
www.sics.se/~adam/uip. It is the main page for the uIP TCP/IP
protocol stack.
Figure 10: LED control web application page.
Figure 8: uIP welcome page.
All other pages can be accessed by links provided in the top banner.
The fi le statistics page shows the number of times a specifi c page
is accessed. The network statistics page displays the number of IP,
ICMP, and TCP packet reception and transmission information. The
network connections page shows the current status of established
TCP connections within the uIP stack. These pages are dynamic and
recreated every time they are accessed.
Two custom pages are created and included within the demonstration
project. First is the RSK board specifi c page. An example of this page
is shown in Figure 9. In this case it is an RX62N custom page. The
demonstration project is personalized for different target devices and
target specifi c images are shown on this page. This is to show that
creating custom web pages can be easily achieved and integrated
with the uIP TCP/IP stack. The next section describes step by step
instructions for creating a new web page.
Figure 9: RSK custom page.
The second custom page is the simple user application that controls
the LEDs on the RSK board. One of the LEDs on the RSK board is
used to indicate system timer activity. The other three are used by
the LED control web page as shown in Figure 10. From this web
page, the user can turn the LEDs on and off on the RSK board. The
reset button selects the off setting for all LEDs. Note that the LED
names in Figure 10 are generic and labeled as A, B, and C to allow
portability between different RSK boards. They are usually grouped
together on the target board.
Steps to create a new web page
A new web page can be easily created and added to the
demonstration project by following the following steps. With a little
HTML language knowledge, the user can create custom web page
applications. All the tools and information needed are provided with
the demonstration project and in this article.
1. Write a new web page application. See the led.shtml example in
src\uip\apps\webserver\httpd-fs.
2. Copy it to src\uip\apps\webserver\httpd-fs directory.
3. Run makefsdata.exe from src\uip\apps\webserver directory to
generate the new fttpd-fsdat.c fi le.
4. Rebuild the project.
The makefsdata.exe is a Renesas add-on program created from
makefsdata Perl script. This executable is included into the
demonstration project located in apps\webserver\ directory to make it
easier for the user to generate the httpd-fsdata.c fi le without the need
to fi nd and install a Perl interpreter.
More on uIP TCP/IP stack
uIP TCP/IP stack was originally developed by Adam Dunkels of
the Networked Embedded Systems Group at the Swedish Institute
of Computer Science. Currently, is it part of the open source
community and can be obtained freely from http://www.sics.
se/~adam/uip. uIP TCP/IP stack includes some higher layer example
applications such as web server, web client, Trivial File Transfer
Protocol (TFTP), and DNS hostname server.
uIP TCP/IP stack does not require a real-time operating system.
However, there are versions of it ported to an open source FreeRTOS
operating system and are available on the Internet. It is also
ported to several other Renesas MCU devices. Sample code can be
downloaded from the uIP web site.
24

Usage considerations with uIP TCP/IP stack
One consideration when using a uIP TCP/IP stack is that it
supports only one TCP segment in transit. If uIP TCP/IP stack
is used with a TCP receiver using a delayed acknowledgment
algorithm, throughput performance can be poor. You can modify
TCP acknowledgment behavior of your PC if you experience this
condition with your default PC setup.
More information can be found at http://support.microsoft.com/
kb/328890. This situation is also discussed in the uIP TCP/IP
reference manual.
Another consideration is that the uIP TCP/IP stack supports one
TCP and one UDP application at a given time. In this demonstration
project, the HTTP web server application uses TCP and DHCP client
runs on UDP. An application multiplexer layer based on connection
port number can be added to the uIP TCP/IP stack to support multiple
TCP or UDP applications.
More on DHCP
Dynamic Host Confi guration Protocol (DHCP) is a protocol used by
networked devices to obtain IP addresses and other parameters
such as default gateway, subnet mask, and an IP address of the
Domain Name Server (DNS) from a DHCP server. The protocol is
defi ned by RFC 2131. DHCP eases the management of the above
tasks and ensures that all IP addresses on the network are unique
and unused IP addresses are returned back to the IP address poll for
reassignment for other devices joining the network.
The demonstration project makes use of the dynamic mode of
DHCP. In dynamic mode, a client is provided with an IP address and
time duration in which this IP address is valid. This time duration is
called lease time.
DHCP operation
There are four main messages exchanged between a DHCP client
and a DHCP server during dynamic IP address assignment. They are
shown in Table 1.
Table 1: DHCP messages.
Message From To Details
DHCP
Discovery
DHCP
Offer
DHCP
Request
DHCP
Acknowledge
Client Server Client discovers DHCP servers and asks for
an IP address.
Server Client Server reserves and IP address and offers it
to the client.
Client Server Client tells all DHCP servers that it accepted
the offer.
Server Client Server initiates fi nal phase of the
confi guration. This message includes the
lease time and other option parameters.
How to use DHCP client
There are certain things to consider while using a DHCP client.
The most important consideration is to ensure that each device
on the network has a unique MAC address. DHCP servers assign
IP addresses based on client MAC addresses. For end customer
production devices the MAC address can be purchased from IEEE.
Another consideration is how to know what IP address is assigned
to a device. One way to fi nd this information is to query the DHCP
server through its management interface. Figure 11 shows that the
RSK board with MAC address 00:11:22:33:44:55 is assigned to an
IP address of 192.168.1.101. On the other hand, the RSK board
with MAC address 00:11:22:33:44:56 is given an IP address of
192.168.1.100.
Figure 11: DHCP client status information on the DHCP server.
Debugging a system with a DHCP server can be tricky. Here are some
recommendations. First, use of a network analyzer is a great help.
Wireshark has been used throughout the development of this project.
It is a PC-based network analyzer software. For more information on
Wireshark, see http://www.wireshark.org.
Second, the IP address of the PC Ethernet port used by the network
analyzer must be on the same network and subnet with the DHCP
server and its clients, e.g. the Renesas target board(s). This can be
achieved by assigning a static IP address to the PC Ethernet port that
is outside the IP addresses that can be given out by the DHCP server,
but still making sure that network and subnet requirements are met.
For example, in Figure 3 the DHCP server is confi gured with a start IP
address of 192.168.1.100. Figure 4 shows that the PC Ethernet port is
confi gured to use the192.168.1.2 and it is outside the range of the IP
addresses that can be given to its clients by the server.
References
1. Group Hardware Manuals for the Renesas device on the RSK board.
2. The uIP Embedded TCP/IP Stack, The uIP 1.0 Reference Manual, June 2006, Adam
Dunkels, Swedish Institute of Computer Science
3. IEEE 802.3 Ethernet, IEEE Standards Association, http://standards.ieee.org/
getieee802/802.3.html
4. HTTP – Hypertext Transfer Protocol. World Wide Web Consortium, http://www.
w3.org/Protocols
5. RFC 2131 Dynamic Host Confi guration Protocol, IETF, http://www.ietf.org/rfc/
rfc2131.txt
6. RFC 2132 DHCP Options and BOOTP Vendor Extensions, IETF, http://www.ietf.org/
rfc/rfc2132.txt
Website and Support
Renesas Electronics Website: http://www.renesas.com/
Inquiries: http://www.renesas.com/inquiry
Quick HEW Demonstration
Renesas Electronics America
Renesas’ HEW demonstration product training module
narrates the use of the High-performance Embedded
Workshop (HEW), a key tool
for developing software for
embedded systems.
www.digikey.com/ptm
www.digikey.com/microcontroller
25

ColdFire Ethernet for
Diverse Applications
by Eric Gregori, Freescale Semiconductor
Ethernet has migrated from PCs to embedded
systems, a much more constrained
environment. It can bring a lot of capabilities
if you’re careful about its implementation
Embedded Ethernet
Ethernet has become a reality for low-cost embedded systems. The
Ethernet standard (IEEE 802.3) was originally designed for networking
computers over local area networks (LAN), but it has since been
adapted for other purposes. Today it has become so popular that
it is hard to fi nd a PC or laptop without an Ethernet port. Now this
capability is migrating to the embedded world, where the ColdFire ®
family excels. The IEEE 802.3 specifi cation defi nes a mechanical/
electrical connection between devices (physical layer) and a multinode
addressable communications protocol (Media Access Control —
MAC — layer).
Ethernet physical layer
The Ethernet physical layer (PHY) defi nes the physical connections
between nodes. The 802.3 standard defi nes many physical layers,
including everything from coaxial cable to fi ber optics. Through
the years, the most common choice for this purpose has changed
drastically from thick multi-strand cables with large connectors
(called thicknet) to the small RJ-45 8-pin connector we use today.
The common modern copper physical layer is referred to as
100Base-TX (a type of 100Base-T). This copper-based twistedpair
medium contains eight wires grouped in four twisted pairs.
Two twisted pairs are used for communication in each direction.
The cable is referred to as a
category 5 (cat 5 for short). The
RJ45 Jack
category 5 standard defi nes a
cable consisting of four twisted
pairs capable of carrying
frequencies up to 100 MHz.
Pin 8
Most Ethernet embedded devices
have integrated MACs (discussed
in the next section) with external
PHY. ColdFire offers a sevenmember
family of microcontroller
Pin 1
units (MCU) with integrated MAC/
PHY called MCF5223x.
Figure 1: The Modern Ethernet Jack.
Most modern buildings and residences are wired using category
5 cables for their PC networks and broadband, making this an
ideal medium for distributed processing/sensing in a building or
residential environment.
Ethernet MAC layer
The MAC protocol layer defi nes the communication that occurs over
the physical layer. Ethernet is a multi-node protocol, so each node
has a unique address. This address is defi ned in the MAC layer. In
Ethernet communication, MAC addresses are 48 bits long (six bytes,
or octets). The device’s MAC address never changes — usually it is
programmed at the factory. The MAC address must be unique, so
MAC addresses are managed and distributed by the IEEE.
The MAC address, along with various other fields, is contained in
the Ethernet MAC header. As the name implies, the header sits in
front of the Ethernet packet. It contains the MAC address of the
source node, the MAC address of the destination node, and a
type field.
Preamble
Destination
Address
Figure 2: Ethernet MAC header.
Source
Address
Frame
Type
Frame User Data
FCS
Checksum
8 Bytes 6 Bytes 6 Bytes 2 Bytes 46 - 1500 Bytes 4 Bytes
Ethernet can be used directly without any additional layers. It
provides a simple point-to-point communication mechanism, with
some error checking (FCS checksum). Ethernet by itself does not
provide the high degree of communications robustness of which
we have become accustomed. Additional layers are required to add
features such as multiple ports, packet re-transmission, packet
timeouts, and connections. These additional layers are defi ned by
the seven-layer OSI model.
Seven-Layer OSI model
The seven-layer OSI model defi nes the functions of the various layers
in a communication stack. The lowest layers (physical and MAC/data
link layers) are traditionally implemented in hardware. The fi ve layers
above the MAC/DDL are usually implemented in software.
The network or IP layer (for a TCP/IP stack) provides an additional
layer of addressing (IP addresses in the hexadecimal format of xx.xx.
xx.xx) and multiplexing. Multiplexing splits a single communications
channel into multiple time-divided communications channels (ports, in
TCP/IP terminology).
26

The transport layer adds the most critical feature to the
communication stack. TCP (transmission control protocol) is one of
the transport layers in TCP/IP. This layer is responsible for creating a
virtual connection between two logical points (not nodes). The logical
points are referred to as sockets. The socket’s API is actually defined
by the session layer.
Last, at the highest level, is the application layer. This application
defines the common protocols used on the Internet: HTTP, SMTP, and
TFTP. This layer can also be used for custom protocols.
Movement up and down the stack is an area of inherent inefficiency
in a communication stack. To improve efficiency, higher-performance
stacks use pointers instead of copying the data multiple times (this is
sometimes referred to as zero copy). Pointer arithmetic is significantly
more efficient with a 32-bit core using true 32-bit registers. This is a
big advantage for the ColdFire 32-bit architecture.
In addition, extracting data from individual fields in a header can
become a single-instruction operation by using advanced addressing
modes with offset capability.
Figure 3: Seven-layer OSI model.
ColdFire family of microcontrollers
The ColdFire family of microcontrollers is based on the 32-bit ColdFire
cores. The ColdFire core is available in four varieties, each a superset
of the core below it. The cores are completely scalable, with the
differences consisting of additional instructions or add-on modules
(for instance, MMU) and longer pipelines to increase frequency
and performance for demanding applications. The current V1 core
contains the base register and instruction set. The V2 core adds
additional instructions and addressing modes to the V1 core, along
with an optional eMAC (Enhanced Multiply/Accumulate unit).
Figure 4: ColdFire cores: scalable instruction sets, features and performance.
Advantage of a 32-bit architecture
The true 32-bit architecture of ColdFire microcontrollers lends
itself well to efficient communication stack data movement. In a
communication stack such as TCP/IP, the packet comes in at the
bottom of the stack and propagates up. Data to be sent starts at the
top of the stack as a buffer, and then works its way to the bottom of
the stack to be sent out as a packet.
Figure 5: Seven-layer OSI model with communication stack overlaid on top.
ColdFire Fast Ethernet Controller (FEC)
The FEC module is the ColdFire interface to the Ethernet world. The
FEC module is consistent from the highest-performance V4-corebased
part all the way down to the V1 core. This consistency means
that drivers written for one Ethernet-enabled ColdFire processor will
work on any Ethernet-enabled ColdFire processor (memory allocation
would be the biggest difference).
The FEC module is a high-performance Ethernet engine with a very
rich heritage. The FEC module started out in the MPC860T. This highperformance,
Power Architecture-based processor quickly became
a powerhouse in the Ethernet world, going into high-performance
routers and telecommunication equipment. The MPC860T was so
popular in the Ethernet world that if you make a call today, chances
are that somewhere along the way the voice data of your call will
pass through an MPC860T.
The MPC860T came out in the mid-1990s. The FEC module has been
tested and improved upon for over ten years in some of the highest
performance Ethernet environments. The FEC module from the
MPC860T is now in the ColdFire line of processors.
ColdFire FEC features
• Ethernet MAC is designed to support 10 Mbps and 100 Mbps
Ethernet/IEEE 802.3 networks
• IEEE 802.3 full-duplex flow control
• Support for full-duplex operation (200 Mbps throughput)
www.digikey.com/microcontroller
27

•
•
•
•
ColdFire TCP/IP stack
ColdFire TCP/UDP/IP stack features
•
•
•
•
•
•
Figure 6:
•
•
•
•
•
•
•
•
Figure 7:
28

DHCP client
The Dynamic Host Configuration Protocol (DHCP) is used to acquire
network parameters at runtime. The DHCP protocol is defined in RFC
2131 and RFC 2132. The stack runs a DHCP client which searches for
a DHCP server (this is referred to as discovery).
Packets are transferred using the UDP layer and BOOTP ports (67
and 68). Because the IP stack does not have an IP address yet,
discovery is done using strictly broadcast addresses. Included in the
discovery packet is a unique transaction ID (xid). A listening DHCP
server sends an offer message containing the xid sent by the client
and the suggested network parameters, again using broadcast
addressing. Encoded in the offer is a unique server ID. The client will
use this server ID when sending a request packet back to the server,
indicating that it accepts the network parameters that were offered.
Finally the server ACK’s the client using its new IP address.
DNS client
The DNS client is used to communicate with the DNS (Domain Name
Server). The purpose of the DNS system is to translate domain names
into IP addresses. The DNS protocol is described in RFC 1035. DNS
can use UDP or TCP, with port 53. The DNS protocol is stateless — all
the information is contained in a single message. This message is
fully documented in RFC 1035.
Available examples and application notes
All application notes mentioned in this article are available at www.
freescale.com.
HTTP web server and flash file system
The HTTP web server and flash file system are described in detail in
application note AN3455, ColdFire Lite HTTP Server.
The features are:
• HTTP 1.0 compliant server with connection persistence and
multiple sessions
• Multiple HTTP connections supported
• Flash file system which supports both ColdFire internal flash and
external SPI flash
• Web pages can be updated in flash over Ethernet or built in at
compile time
• HTTP GET method supported, with a simple mechanism for
adding other methods
• Dynamic HTML (Hypertext Markup Language) support with
replace and conditional tokens
• Serial interface support for Dynamic HTML variables
• Run-time and compile-time flash file systems
• Long filename support with subdirectories
• “DIR” command supported on serial interface
• PC utilities for compressing compile-time and run-time
downloadable images of multi-page web pages
• PC utility for downloading run-time downloadable web page
image through port 80 (to get through firewalls)
• 32-byte ASCII key for web page download security
UDP/TCP clients and servers — Example source code
The ColdFire Lite stack project includes almost a dozen built-in
usage examples. These examples are designed to highlight
various features in the stack and demonstrate how to use them.
The TCP/IP stack and RTOS, along with all the sample applications
listed below, are discussed in AN3470, ColdFire TCP/UDP/IP Stack
and RTOS.
Code examples include:
• ColdFire_Lite
Barebones TCP/IP stack
• ColdFire_Lite_RTOS
How to use the RTOS application
• ColdFire_Lite_TFTP
TFTP server application
• ColdFire_Lite_UDP_client
UDP client application for UDP performance testing
• ColdFire_Lite_UDP_server
UDP server application for UDP performance testing
• ColdFire_Lite_TCP_client
TCP client application for TCP performance testing
• ColdFire_Lite_TCP_server
TCP server application for TCP performance testing
• ColdFire_Lite_TCP_serial_client
TCP to serial/serial to TCP client
• ColdFire_Lite_TCP_serial_server
TCP to serial/serial to TCP server
• ColdFire_Lite_TCP_with_Web_Server
Web (HTTP) server with dynamic HTML
ColdFire_Lite_TCP_alarm
The alarm demo application includes both PC-side and ColdFireside
firmware. This code is an example of a remote sensor
application, where a remote sensor periodically sends data over TCP
to a host server.
Figure 8: ColdFire TCP alarm.
www.digikey.com/microcontroller
29

HTTP client firmware
The HTTP client provides the ability to read web pages and XML data
from the Internet using a ColdFire processor. The HTTP client uses the
DHCP client to automatically acquire an IP address and other TCP/
IP information, including the IP address of any DNS server. Then the
HTTP client uses the DNS client to translate any user-provided URLs
into IP addresses.
The HTTP client uses the GET method to request a page from the
server. Along with the GET request is the HTTP header. The HTTP
header is hard-coded in the HTTP client via constant strings declared
in the fi le emg_http_client.c.
Wget command – An example of using the HTTP client
The Wget command is a command often found in Linux distributions that
transfer files using the HTTP protocol. The Wget command is a consolebased
HTTP client. Using the menuing system provided by the ColdFire
TCP/IP stack (explained in application note AN3470) and the HTTP client,
Wget functionality can be added to the ColdFire TCP/IP stack.
RSS/XML character data filter
To extract the character data (the information you actually want to
read) from the RSS stream, all the meta-text must be fi ltered out. Any
valid HTML must be translated and processed. For instance, the HTML
tag that causes a line break is . This would appear as <br>
in the RSS stream. The fi lter must correctly translate <br> into a
carriage return and line feed.
Other HTML tags that are routinely embedded in character data
include paragraph tags and image tags . In the stream
these tags appear as <p> and <img> respectively. The
paragraph tab can be translated to a carriage return and line feed,
but the image tag must be ignored unless the embedded system can
process images.
The fi lter takes in an XML or RSS data stream and a list of tags. It
outputs only the character data from the selected tags. The tag list is
an array of pointers to those tag strings that need to be fi ltered.
Normally the fi lter returns 0. When the fi lter processes the “>” in a tag
in the list, it returns to the fi lter array the index + 1 for the tag that it
found. Example: after detecting a tag in an RSS or XML stream
the fi lter will return 1. After detecting a tag in a stream
the fi lter will return 2. Normally the fi lter returns 0.
Example embedded appliance — RSS/XML feed reader
The RSS/XML feed reader is an embedded appliance that allows
users to display and even hear real-time content from the World Wide
Web. The purpose of the embedded appliance is to provide instant
real-time information without booting a PC. There are many types
of real-time data available on the web; weather data (current and
forecast), online DVD queue data, online auction data, sports score
data, real-time news data, real-time stock data, medical and health
data, and much more. All this data is available on the web as either
an XML feed or an RSS feed. This appliance connects to the web, gets
the desired feed, and parses the text information or character data
from the feed. That data is displayed on the LCD, sent to the serial
port, and spoken through the speech processor.
For complete details on the RSS feed reader, please see AN3518,
Advanced ColdFire TCP/IP Clients.
Figure 9: The RSS/XML feed reader.
M52233DEMO board from Freescale Semiconductor
The M52233DEMO board is a reference board used to evaluate
Freescale’s ColdFire MC52233 processor. The inexpensive board
includes a serial port, USB BDM debug port, and Ethernet port. The
board along with the free CodeWarrior tools (up to 128K of fl ash)
are all you need to get up and running on your Ethernet projects.
Freescale provides a free public source TCP/IP stack on their
website. This TCP/IP stack is what the application in this article
runs on. The ColdFire TCP/IP stack is documented thoroughly in
application note AN3470.
The demo board includes a 40-pin header fi ving the use access to
most of the Coldfi re signals, a 3-axis accelerometer, a potentiometer,
and two user buttons.
LCD
The parallel LCD is a 4 × 20 character display that uses the standard
Hitachi instruction set. The LCD is used in its 4-bit mode, requiring
only six connections to the micro, the 4-bit data bus, a clock signal
(E), and a register select line (RS). The fi rmware also includes a library
to drive the LCD.
30

Voice synthesizer
The RC Systems V-Stamp voice synthesizer is an easy-to-use, textto-speech
processor. The V-Stamp is a fully self-contained module,
requiring only power, a speaker, a resistor, two capacitors, and a serial
connection to an embedded system. The V-Stamp communicates with
the embedded system using a UART. The module automatically sets
its baud rate to that of the embedded system. From both a hardware
and firmware point of view, there is very little work required to add
the V-Stamp module to the RSS feed reader.
Firmware
Figure 11: HTTP communication protocol.
Figure 10: Firmware block diagram.
HTTP
HTTP is the communication protocol of the World Wide Web. HTTP is
used to transfer web pages (hypertext documents) across the Internet.
An HTTP connection has two parts, the HTTP client (web browser) and
the HTTP server. The HTTP client is used to receive and view the web
pages. The HTTP server is used to store, organize, and transfer the
web pages.
HTTP is defined by RFC 1945 and RFC 2616. RFC 1945 defines
HTTP 1.0, and RFC 2616 defines the latest version, HTTP 1.1.
HTTP is a request-response protocol. The client requests a web
page from the server and the server responds with the web page
contents. HTTP can be used to send any type of data, including
binary data. The client requests a file using the GET method (HTTP
is an ASCII protocol). The server responds with an HTTP header
followed by the file contents. Within the request, the version number
of the HTTP is also embedded in ASCII. This tells the server the
limitations of the client.
Really Simple Syndication (RSS)
RSS feeds are available everywhere on the Internet. The idea behind
the RSS feed is to convey dynamic textual information in a simple
standard format.
RSS originated in 1999 with the idea of providing content in a
simple easy-to-understand format. Instead of describing a complete
document in the way that HTML does, RSS feeds use XML to describe
data. An RSS feed is simply an XML document containing data. The
methods used to convey the data within the XML document are
described in the RSS 2.0 specification. All RSS files must conform
to the XML 1.0 specification. RSS feeds generally use HTTP as the
transport mechanism.
Extensible Markup Language (XML)
The XML 1.0 specification can be found at www.w3.org/TR/REC-xml/.
XML is a language used to describe and parse information. It is very
similar to structures in C.
Data is organized into elements, with each element assigned to a
tag. The data in the element is surrounded by a start tag and an
end tag. The name in the start and end tags defines the element’s
type. The end tag name must be the same as the start tag name,
except the end tag is identified by the addition of a “/” before the
tag name.
Tags
Here is an example of an XML tag:
Advanced ColdFire TCP/IP Clients
TITLE is the type, is the start tag, and is the end
tag. The data is between the tags. Just like a C data structure, the
data is associated with the type. The data between the start and end
tags is referred to as the element’s content.
www.digikey.com/microcontroller
31

Elements can contain other elements, which provide a method of
grouping data of different types under a single name. Just like a C
structure, the particular piece of data is referenced by specifying a
path to the data. a single name. Just like a C structure, the particular
piece of data is referenced by specifying a path to the data.
ColdFire HTTP Server
ColdFire TCP/IP Stack
ColdFire USB Stack
Special characters and escape sequences
The “&”, “” characters are special XML characters.
They are used as indicated above, to defi ne XML tags and escape
sequences. Escape sequences are a method of specifying a character
using a code, as opposed to using a single symbol. Escape sequences
start with an ampersand (&) and end with a semicolon(;).
Because XML ordinarily uses these characters for special functions,
here is how to have them appear in XML data:
• “” is indicated using the escape sequence >
• “&” is indicated using the escape sequence &
CDATA sections: the exception to the rule
All rules have exceptions, and in XML it’s the CDATA section. Any text
specified in a CDATA section is ignored by the XML parser, allowing the
use of special characters without the need for escape sequences. A
CDATA section starts with a “” string. Anything between the brackets is ignored by the XML parser.
•
• < ]]>
• Because the text between the brackets is ignored by the XML
parser, both the tag and the escape sequence are not parsed, but
instead are interpreted as text or character data.
Finding text or character data in an XML document
From the XML 1.0 specifi cation: “all text that is not markup
constitutes the character data of the document.” That would include
all the text between the brackets in a CDATA section, and any text not
between “” brackets in the main body. Escape sequences in
the main body represent a single piece of character data.
To fi lter out the character data from an XML document, simply remove
all tags as well as “” brackets. Then translate the escape
sequences into actual characters.
Sample XML file
In the sample XML document below, notice how data is encapsulated
by tags, and how the tag names describe the data. It even looks like
a C structure. To fi nd the desired data in an XML document, simply
look for the start and end tags with the name of the type of data you
are looking for. The actual data associated with the desired type is
between the tags.
http://www.weather.gov/data/current_obs/KUGN.xml
-
NOAA’s National Weather Service
http://weather.gov/
-
http://weather.gov/images/xml_logo.gif
NOAA’s National Weather Service
http://weather.gov
15 minutes after the hour
60
Chicago / Waukegan, Waukegan Regional Airport, IL
KUGN
42.420
-87.870
Last Updated on Jul 28, 10:52 am CDT
Sat, 28 Jul 2007 10:52:00 -0500 CDT
Overcast
73 F (23 C)
73
23
81
From the Northeast at 13 Gusting to 21 MPH
Northeast
30
12.65
21
29.98” (1014.1 mb)
1014.1
29.98
67 F (19 C)
67
19
73 F (23 C)
73
23
NA
NA
NA
10.00
http://weather.gov/weather/images/fcicons/
ovc.jpg
http://www.weather.gov/data/obhistory/KUGN.html
http://www.nws.noaa.gov/data/METAR/KUGN.1.txt
http://weather.gov/disclaimer.html
http://weather.gov/disclaimer.html
http://weather.gov/notice.html
32

Drawback of XML documents
The problem with XML documents is the flexibility of the tag names.
The creator of the XML document can use any name to describe the
data. To avoid confusion, a standard is required to standardize the tag
names, and the way that data is associated with a specific type. That
standard exists and is called the RSS specification.
The RSS specification
RSS is a dialect of XML — it embeds HTML constructs into the XML
architecture. RSS also defines a set group of elements and a general
template using those elements. There are many elements defined
in the specification, but here we will concentrate on the elements of
interest for the RSS appliance.
Typical RSS file
The name of the channel
URL to the HTML website corresponding to this
channel
Text describing the channel
< title>Item1 Title
URL of item 1
Text for item 1
Item2 Title
URL of item 2
Text for item 2
The organization of the RSS file can be compared to a newspaper.
The channel is the name of the paper, the items are the articles in the
paper, the titles are the titles of the articles, and the descriptions are
the text of the articles.
Sample RSS file
The sample RSS file given here contains the same data as the sample
XML file above. Notice the structure and tag names. The RSS standard
defines the title and description tag names, and those tags contain
the data we want. All RSS 2.0 compliant feeds will contain title and
description tags.
http://www.weather.gov/data/current_obs/KUGN.rss
-
-
Weather at Chicago / Waukegan, Waukegan Regional Airport,
IL - via NOAA’s National Weather Service
http://www.weather.gov/data/current_obs/
Sat, 28 Jul 2007 16:32:11 UT
60
Weather conditions from NOAA’s National Weather
Service.
en-us
robert.bunge@noaa.gov
w-nws.webmaster@noaa.gov
-
http://www.weather.gov/images/xml_logo.gif
NOAA - National Weather Service
http://www.weather.gov/data/current_obs/
-
Overcast and 73 degrees F at Chicago / Waukegan, Waukegan
Regional Airport,IL
http://weather.noaa.gov/weather/current/KUGN.html
-
-
]]>
Winds are Northeast at 13 Gusting to 21 MPH. The pressure is 29.98”
(1014.1 mb) and the humidity is 81%.
The heat index is 73. Last Updated on Jul 28, 10:52 am CDT.
Sat, 28 Jul 2007 10:52:00 -0500 CDT
RSS/XML character data filter
To extract the character data (the information you actually want
to read) from the RSS stream, all the meta-text must be filtered
out. See the previous section, “RSS/XML Character Data Filter,” for
more information.
RSS/XML character data filter state machine
The character data filter is implemented as a finite state machine.
The state machine uses only two global variables, a state variable
and a FILO. The purpose of the FILO is to store characters. Each byte
entered into the filter is shifted left into the FILO. Therefore the most
recent character is at location filo_buff[FILO_BUFF_SIZE–1]. The FILO
buffer size must be larger than the largest tag name expected. The
FILO buffer size is set with the FILO_BUFF_SIZE macro.
#define FILO_BUFF_SIZE 32
States:
STATE_ZERO
STATE_TAGSEARCH
STATE_INTAG
STATE_PRINT
STATE_SKIP
STATE_SKIP_NON_ASCII
STATE_SKIP_SPACE
STATE_CDATA
STATE_CDATA_PRINT
STATE_CDATA_SKIP_AMP
STATE_SKIP_INTAG
STATE_IN_AMPERSAND
Global Variables:
unsigned char filo_buff[FILO_BUFF_SIZE];
unsigned char state;
unsigned char EMG_rss_text_filter(unsigned char data, unsigned char
**tag_filter)
www.digikey.com/microcontroller
33

Figure 14: Character data fi lter usage.
Using the RSS/XML feed reader
Using the RSS/XML feed reader fi rmware is easy:
Figure 12: RSS/XML datafl ow diagram.
The fi lter takes in an XML or RSS data stream and a list of tags.
It outputs only the character data from the selected tags. The
tag list is an array of pointers to those tag strings that need to
be fi ltered.
Normally the fi lter returns 0. When the fi lter processes the “>” in a
tag in the list, it returns into the fi lter array the index+1 for the tag
that it found. Example: after detecting a tag in an RSS or
XML stream the fi lter will return 1. After detecting a
tag in a stream the fi lter will return 2. The fi lter returns 0 if a tag is
not found.
Const unsigned char *tag_filter[] =
{
{(const unsigned char *)”title”},
{(const unsigned char *)”description”},
{(const unsigned char *)””}
};
Figure 13: Sample tag_fi lter pointer array.
1. Set the variable url to the URL or to the desired RSS or XML server.
static const unsigned char url[] =
“http://www.weather.gov/data/current_
obs/KUGN.rss”;
2. Set the tag_fi lter[] to the type of data you want to display.
For RSS feeds, and would be a fi rst choice.
For XML feeds, this could be any tag name depending on the
information.
const unsigned char *tag_filter[] =
{
{(const unsigned char *)”title”},
{(const unsigned char *)”description”},
{(const unsigned char *)””}
};
3. Set the character buffer size large enough to collect your
fi ltered data.
#define RSS_CHARACTER_BUFF_SIZE2048
4. Compile the project and fl ash it to the board.
After the TCP/IP stack comes up, these actions occur:
1. The DHCP client automatically acquires an IP address and DNS IP
address.
2. It displays and speaks a title screen.
3. It connects to the server specifi ed in the URL.
4. The status of the connection is displayed and spoken.
5. The fi le is downloaded from the server using the HTTP client.
6. After the connection closes, the fi le is displayed and spoken.
7. The RSS/XML feed reader sleeps, waiting for either SW1 or SW2
to be pushed. When that happens, a connection is initiated to
the server specifi ed in the URL that starts the download/display/
speak process all over again.
34

XML Streams
For XML streams, the EMG_rss_text_fi lter() return value is used
to determine which tag is applied to the data that comes after the
tag. This allows another const array containing more descriptive
names to be used to describe the data from the tag. Simply use
the EMG_rss_text_fi lter() return value–1 to index into a descriptive
name array, then send the indexed string into the character buffer
before leaving the RSS callback function. The XML fi lter will then
place the data from the tag in the character fi lter directly after the
descriptive name.
Conclusion
Adding Ethernet to embedded products provides a level of
connectivity never before available in the embedded space.
Embedded devices can be networked together using the same
cables and hardware used by the industry to connect PCs together.
The embedded device can become part of the PC network.
Ethernet and TCP/IP enable the embedded device to connect to
the ultimate network, the Internet. After the embedded device
is connected to the Internet it is available to the world, and
controllable or viewable from anywhere. The possibilities are
endless, from remote monitoring and control to distributed control,
and even real-time, world-wide data presentation through the
RSS feed reader.
i.MX35 Processor
Freescale Semiconductor
The i.MX35 processor is the latest series from Freescale.
This chip includes an increased level of integration and
support, while maintaining low-power requirements.
Digi-Key’s product
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and projects. Applications for this processor include
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name a few.
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www.digikey.com/microcontroller
35

Your MCU is Just Starting
to be Connected
by Tom Starnes, Industry Analyst, Objective Analysis
If “the network is the computer,” then
connectivity is what empowers—or limits—
your MCU application. This is an area that
continues to evolve rapidly.
Microcontrollers (MCUs) have utilized serial transmissions
practically from the onset, but the purpose and elegance of those
channels have evolved greatly over the last 30 years. The word
“connectivity” has taken on new prominence in most applications
in the new century, driving on-chip support for networking and
even wireless communications from the microcontroller. The
advantages of more advanced connectivity and the ease with
which it can be obtained make it well worthwhile to take a renewed
look at how your end-application can make use of broader
communications capabilities.
Begin with the basics
In the 1970s, as MCUs were fi rst emerging, UARTs (universal
asynchronous receiver-transmitters) fi rst brought a pre-confi gured
serial port to microprocessors and microcontrollers. UARTs and
synchronous-capable USARTs were largely used to perform simple
data communications. UARTs and USARTs were added to the MCU
as the transistor budget allowed, and serial communication became
more attractive.
Soon, the need was determined to more tightly connect the central
brain of the MCU with nearby peripherals that remained separate
from the MCU due to their complexity, uniqueness, or electrical
characteristics that made them less practical to integrate on-chip. A
serial connection may have been slower than transmitting over the
parallel bus, but it conserved valuable pins (even in the 8 bit era)
and made it easier to use peripherals from a different, perhaps more
specialized, vendor than the controller manufacturer. This gave rise
to the various standard serial modules found in great numbers on
today’s MCUs:
• Philips’ I 2 C (Inter-Integrated Circuit)
• Motorola’s faster SPI (Serial Peripheral Interface)
• Philips’ fairlyspecifi c I 2 S (Inter-IC Sound)
• Motorola’s SCI (Serial Communications Interface)
Tradeoffs between speed and complexity may take a back seat to
how many devices are on the channel and exactly which interface
the desired peripheral supports. Generally, such serial interfaces are
intended to connect only with other chips on the circuit board, often in
a master-slave relationship. The SCI, often bundled with these serial
ports, is really just a UART and more likely to provide a little longer
reach. Buses like the I 2 C, SPI, and I 2 S are used to connect with nearby
peripherals such as E2PROMs, real-time clocks, memory cards
interfaces, analog-to-digital converters, digital-to-analog converters,
sensors, camera interfaces, and audio codecs. For most of today’s
MCUs, the existence of SCI, SPI, I 2 C, and similar serial ports are more
of a requirement than a differentiating feature.
Automotive drivers
More sophisticated, frame-based serial communications were
fi rst driven onto MCUs with the advent of CAN (Controller-Area
Network). In the 1980s, Robert Bosch GmbH initiated CAN as a
means for microcontrollers to communicate among themselves in
an automobile, a platform where numerous MCUs were used. This
harsh environment required robustness and a strict protocol. Since
the number of potential network end-points was growing quickly,
the need for a specifi c host or master could be limiting. Yet, reliable
communications between disparate and optional controllers in the
vehicle have greatly improved the operating conditions of the vehicle
and have become a necessity for engine control, safety systems, and
diagnostics. With the automotive industry’s support, the CAN network
and CAN peripheral chips took hold.
In the 1990s, CAN peripherals started appearing on-chip in MCUs
destined for automotive applications, about the time the protocol
started evolving. While other networks have also found some places
in the automobile for specifi c applications, CAN still forms the
backbone of most automotive systems. CAN has also found a home
in industrial applications, with their similarly harsh environments and
noisy conditions and in medical instruments where special integrity
requirements are highly valued.
CAN and MCUs were mad for each other. CAN was developed to let
the systems that MCUs comprised communicate with each others.
Since automotive applications are the inspiration for much of the
design of MCUs, CAN modules are a natural circuit to include in MCUs.
36

Computer connectivity
The tremendous growth of the personal computer (PC), accompanied
by Ethernet (see Figure 1) and the Internet, took place somewhat
outside of the microcontroller industry but is having a heavy influence
on it. The PC made de facto standards of TCP/IP, Ethernet, and
Wi-Fi for long distance data communications with servers, email,
the Internet, databases, and other systems. The need for system
inter-activity drove TCP/IP and Ethernet to be the backbone of data
communications, even supplanting the circuit-switched telephone
network to a large degree, and attracting creative minds to make the
protocol work for nearly every application. The utility of TCP/IP made it
quite popular and the protocol stack became a well-honed standard,
economies of scale dramatically drive down the prices of chips and
software down.
The ubiquity of the protocol and some confluence of Metcalfe’s
Law and Moore’s Law, has opened untold opportunities for
electronic system connectivity. Whether it is refrigerators reporting
food shortages to the grocery store or air conditioning systems
taking a break during peak electricity rate periods, networks,
Ethernet, and TCP/IP are being employed in every conceivable
application for machines to communicate with hosts, servers,
directly to other machines, hubs, remote monitors, and to control
centers manned or unmanned.
Microcontroller vendors have responded by providing Ethernet
controllers on their MCUs (although it took some time for the transistor
budget to free up) and for OEMs to give serious consideration to
Ethernet as a connectivity option on traditional MCU-based systems.
Today the benefits are difficult to ignore. From software updates
to remote monitoring to long-term customer services,
when TCP/IP brings the Internet to the edge of
the board for a small price adder, the
option can be very attractive. If
nothing else, access to the
Internet gives essentially
unlimited range to
the control or
management of
the system.
Figure 1: Ethernet cable.
The ubiquitous USB
The PC is also responsible for the great popularity of the USB
(Universal Serial Bus). There used to be discussions of whether USB
(Figure 2) would supplant other local connectivity
ports on the PC, especially the spaceconstrained
laptop, but it did not take very
long for the discussion to turn to “how
many USB ports can we put on
this” Once USB ports and
drivers became integral to
the PC and a few devices
converted over to the
convenient standard,
USB caught on
like wildfire.
Figure 2: USB connector.
Soon, MCU-controlled devices such as the mouse, keyboard, and
similar input devices, switched over to USB connections. Printers,
modems, and other output devices made the change, abandoning
interfaces with origins in the mainframe era. USB evolved to be faster
(Table 1), making it more practical for hard drive interfaces. New form
factors put flash memory on a thumb-sized portable storage device
that easily plugs into many hosts. USB also became an intermediary
and a “dongle” port where other connectivity devices can plug in,
such as Ethernet, Bluetooth, Wi-Fi, and memory card adapters. At
some point, the convenience of the USB port drew MCU vendors
to put their own MCU evaluation boards and debugging ports on
USB-enabled cards.
Table 1: USB versions.
Version Mbps Grade Comment
USB 1.1 1.5 low-speed mice, keyboards
12 full-speed printers
USB 2.0 480 high-speed hard drives
USB 3.0 5000 super-speed new connector, emerging
USB gained additional popularity as its facility for supplying current
to attached devices started to be exploited. It is possible to draw
100 mA at 5 V (up to 500 mA also accommodated), which is more
than enough to power numerous applications without an additional
power source. With the slightest effort, this current can recharge
the battery of a truly portable handheld device. This allows USB to
perform the dual functions of transmitting data as well as supplying
power – all with a single cord and connector.
MCUs are convenient for operating the USB port for transmitting
data and even for managing a recharging circuit. While the latter
is usually left to the system engineer to design, integrating a USB
controller onto the MCU eliminates an additional chip in the system.
The cost is minimal and most of the software is readily available
and prepackaged.
The distinction between host (master), device (slave), and the
swings-both-ways, On-The-Go (OTG) varieties of USB controllers
must be considered when picking an MCU with USB capability, but
more USB modules and stacks can support any role the controller
must play. It’s another dimension of USB that should be narrowed
down (along with speed grade and, eventually, physical connector
style) when evaluating how the technology can expand an
application’s utility.
Less wire
The ultimate in connectivity and
communication would require no physical
contact. Wireless communications,
be it using Bluetooth, ZigBee, Wi-Fi,
near-field communications (NFC), or
similar technologies, are robust enough to
link up between devices or with a network or
the Internet without much trouble. Breaking the
tether avoids certain hassles but also removes
the benefit of getting electricity to the device, so
there are some tradeoffs in going wireless. Also,
the nature of radio circuits limits just how much
www.digikey.com/microcontroller
37

these can be integrated onto the mostly-digital MCUs, but the vendors
are still working to get closer to more compact and well-blended
with wireless systems. Range, EMI, and security are other issues to
consider in selecting the radio air interface.
In industrial applications, for instance, having wireless
controllers, especially in a mesh network, means that to
move some equipment or add a sensor on a factory floor may
mean just placing the equipment where it is needed. With a
wireless network, no new cables need to be laid out or routers
reconfigured. The network self-discovers the new equipment (and
probably doesn’t care if it was only moved). If a unit fails, it simply
falls off the grid and the rest of the network continues without it,
though hopefully a flag is raised.
Consumer explosion
As mentioned, many forms of communications have become stand-outs
and true standards in recent years. The high volume of digital consumer
electronics has become a significant factor in establishing such
standards. While CAN is more under-the-hood, USB and Ethernet are far
more visible. The phenomenal boom – and churn – in digital still cameras,
MP3 players and cellular phones—in tandem with the desire to transfer
large amounts of data between PCs, TVs, printers, and the Internet—has
caused an explosion in the need for universal connectivity.
This explosion of consumer electronics needing connectivity opened
huge opportunities for chip vendors to supply vast quantities of
chips and programmers to write the protocol stacks to support the
standards. Lower costs and off-the-shelf software made it even easier
to connect consumer devices in more ways.
Microcontrollers will hook you up
Microcontroller vendors have been taking care of your
connectivity and communications needs. More and more serial
channels, communications methods, and networking peripherals have
been brought into the MCU as the market has called for it. Along with
the hardware implementation, the chip vendors have been assembling
the software that makes it work. Third-party software vendors step
up to the plate to offer improved, more universal, customizable,
and specialized communications software and protocol stacks. The
result is a relatively easy and cost-effective means of adding greater
connectivity to MCU-based equipment.
The more advanced communications protocols require more
horsepower from the processor than a little bit-banging does or a
UART. Some can take advantage of additional RAM for buffering
and forming packets. Some can use Direct Memory Access (DMA)
techniques to block-transfer strings of data to other parts of the
system. The more advanced MCUs typically have more advanced
communications capabilities. However, some advanced connectivity
is available on 16-bit and 8-bit MCUs, as well. Most vendors have
evolved with their markets, so your favorite architecture probably
has a selection of MCUs with a peripheral on board to implement the
technology of your choice.
In my opinion, the best bet for exotic network and communications
will be with 32-bit MCUs. They have the performance, the fl exibility,
and the memory space to handle the code, and they are more likely
to be in markets where overall performance is important, and where
connectivity is a must rather than a luxury. This also means the 32-bit
MCUs will keep up with heavy communications traffi c. However, 32-bit
MCUs are not as expensive as one might believe. The price difference
from a comparably-equipped 8-bit MCU is hardly noticeable.
The established architectures have a good range of MCUs with
CAN peripherals. Namely Renesas, Freescale, Texas Instruments,
STMicroelectronics, and Microchip all have suitable solutions for
this market.
When it comes to USB, almost any vendor has a good range of MCUs
with USB connectivity. USB does not weigh down 8-bit MCUs, and
16-bit controllers should handle USB well.
Ethernet has been appearing on MCUs more frequently the last
few years, and has increasing promise as the Internet becomes
a backbone for all things electronic. We are consistently seeing
suppliers provide solutions with both MAC and PHY integrated on chip.
There are a few MCUs containing an array of communications
facilities. To highlight one solution, ARM-based Stellaris line from
Texas Instruments has MCUs with several serial peripherals all
on-chip including: two CAN 2.0 A/B controllers, a USB 2.0 Full-
Speed Host/Device/OTG module, a 10/100 Ethernet MAC/PHY with
hardware-assist to synchronize industrial networks via the IEEE 1588
Precision Time Protocol, two SSI/SPI controllers, two I 2 C interfaces, an
I 2 S interface, and three UARTs.
Is your application suffi ciently connected for tomorrow
Technical and Design Support Services
Digi-Key offers live technical support 24/7 via telephone, e-mail
and live web chat. Digi-Key’s 130 technicians on staff are
trained by manufacturers to answer product-specifi c questions.
Additionally, these technicians cross-reference part numbers,
assist customers in choosing products, research and aid in
selecting new product, and provide access to in-depth productspecifi
c information as well as specifi cations and performance
data on new products.
Digi-Key’s Design Support Services (DSS) team of application
engineers and technicians provides general information and
complimentary project-specifi c assistance. DSS provides service
to engineers ranging from one-time contacts regarding product
recommendations to ongoing prototype-to-production design
support. DSS strives to guide the customer through the design
process while achieving the best solutions and, ultimately,
streamlining the design cycle. The DSS team provides support
and advice on system design, aids with product selection and
development tools, and provides assistance with other applicable
design issues. Additionally, members of the DSS team produce
application notes, webinars and instructional videos. The DSS team
is available from 8:30 a.m.-5:00 p.m. CST via telephone, e-mail
and web-conferencing software.
38

Are you a Microcontroller Solution Expert Submit your
answers to find out and automatically be entered for
a chance to win a Microchip PIC18 Starter Kit or an F1
Evaluation Platform!
The MPLAB ® Starter Kit for
PIC18F MCU functions as a USB
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Submit your answers to
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for your chance to win!
Sponsored By:
Official Rules: No purchase necessary to enter or claim prize. A purchase will not improve an individual’s chances of
winning with such entry. Employees of Digi-Key (the “sponsor”), business partners, members of immediate families are not
eligible. Void where prohibited by law or internal company policy. Valid entries contingent upon participation in the trivia
contest and providing name and e-mail address. Prizes will be randomly drawn among eligible entries on or about May 7,
2011. One Microchip PIC18 Starter Kit and one Microchip F1 Evaluation Platform will be awarded. Total value of all prizes
will not exceed $500.00. Contest rules declare only One Microchip PIC18 Starter Kit or Microchip F1 Evaluation Platform
will be awarded per winner . Winners will be contacted via e-mail. If a winner cannot be reached within 7 days of initial
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1. Name the only 8-bit MCU provider that offers integrated USB,
CAN, Ethernet, and LCD.
A: Your next door neighbor C: Amazon.com
B: Microchip Technology, Inc. D: Walmart
2. With XLP technology, Microchip is the world-wide leader in
low power. How low is eXtreme Low Power “SLEEP” on the
latest PIC microcontrollers
A: 5 A C: 9 nA
B: 100 nA D: 10 uA
3. With the HiTech C compiler, how much does it cost to start
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B: $5,000
C: Free
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4. Beyond low power “SLEEP” currents, PIC microcontrollers
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A:

Deeply Embedded Devices:
The “Internet of Things”
by Mark Wright and Rodger Richey, Microchip Technology Inc.
The “Internet of Things” consists of
interconnected, deeply embedded devices
that need to communicate while maintaining
extremely long battery life. Fortunately there
are some low-power RF solutions that address
both halves of the problem.
The “Internet of Things” is about connecting products that create,
store, and consume data via the Internet. This allows processing to
provide results that can be more easily used by people. The basic
technical requirements to enable this are vastly different from the
current treadmill of mainstream Internet-connectivity technology.
Mainstream connectivity strives to constantly increase bandwidth,
range and features to counter dwindling margins and prepare for
the next “killer” application. Whether this is HD media serving,
on-demand TV, 4-play (voice, data, Internet and multimedia), Network
Attached Storage (NAS), or the next thing you absolutely must have,
mainstream connectivity requires a wider, faster-pipe mentality.
Mainstream provisioning, however, is fundamentally disjointed from
the requirements of the “Internet of Things.” While an Internet gamer
will pay $150 to replace his 802.11b/g access point with the latest
802.11a/b/g/n access point, in order to reduce game “latency” or
increase their virtual “survivability,” this is not a price option for
adding connectivity to a thermostat, temperature sensor, garagedoor
opener, coffee maker, or lawn sprinkler. In short, the “Internet
of Things” dictates a signifi cantly different adoption model than
mainstream broadband support.
Applications can be categorized as open, embedded, and deeply
embedded. Open systems are compute-based products with
purpose-loaded functions. Open systems may change their nature
from one use to another. A laptop that is confi gured to be a word
processor in one setting and an Internet-connected media player
in another is an example of this. Due to the varying uses of open
systems, the capabilities must be fl exible yet high-performance
in nature, with the limitations usually driven by cost. Embedded
systems are fi xed function. They may be very high- or lowperformance,
with a limited energy footprint. Deeply embedded
systems are single-purpose devices that are used to detect
something in the environment, perform a basic level of processing
and then do something with the results.
Table 1: Comparison of device categories.
Categories Product Examples Battery Life Data Rate Range
Open PC 4 - 8 hours High Max.
Embedded Access Point, iReader, AC Powered or
Pocket Dictionary up to 2 years
High 30 m - Max.
Deeply
Embedded
Sprinkler Valve, Locks,
Power Monitor
The “Internet of Things” is primarily driven by deeply embedded
devices. These devices are low- bandwidth, low-repetition
data capture, and low-bandwidth data usage “appliances” that
communicate with each other and provide data via user interfaces.
There are embedded appliances, such as high-resolution video
security cameras, video VOIP phones, and a handful of others that
require high-bandwidth streaming capabilities. This article instead
targets the countless products that simply require packets of data to
be intermittently delivered.
Figure 1: Device categories.
2 years + Low - Med. 30 m
Data-rate requirements and the corresponding power consumption
vary signifi cantly between the different device categories. Open-type
devices utilize Pentium class or similar processing, and run complex
OS-based protocols for communication. Such devices require mains
power, or utilize large batteries and have battery life measured in
hours. Battery-operated embedded devices are products for which
it is critical to reduce power consumption, design complexity, and
cost through the optimization of computation occurring in the device.
This is done through the use of specialized hardware, or less fl exible
purpose-driven software. Deeply embedded devices build upon
this optimization and often require battery operation, which creates
a critical need for low power consumption. These products utilize
low-power microcontrollers such as the 16-bit PIC24F family from
Microchip, which features low-power sleep currents down to 20 nA
and allows the use of AA or coin-cell batteries for up to 20 years of
operational life.
40

Examples of deeply embedded, Internet-connected devices include
information displays for the home that can integrate heating and
cooling control with lighting, music, and information displays (e.g.
a web browser); security still cameras that provide an extra level of
coverage for monitored services; appliances that allow time-of-start
control from utilities for smart-energy control, to reduce consumers’
electricity bills; heavy equipment with sensors that can provide
remote indication when in need of pending service; and toys or
multimedia handsets that could be configured for subscription
services, allowing updates during off periods.
The 802.11 protocol provides two basic methods of connectivity. The
primary method is called infrastructure, or basic service set, and is
implemented as a structured network with at least one central point
that routes traffic among the devices and onto other networks. In this
method, the central point is commonly called an access point, and all
communications occur through the access point. The second method
allows “unrelated” devices to connect temporarily. This mode is called
ad hoc, or independent basic service set. Ad hoc communication occurs
from device to device, but allows many devices to share the common
network. A primary advantage of 802.11 over other wireless protocols
is its intrinsic ability to connect devices to the Internet. However, this
functionality is provided primarily through the infrastructure mode of
operation. The Microchip TCP/IP stack and Microchip 802.11 radio
combination supports both infrastructure and ad hoc modes of operation.
Figure 2: Basic methods of connectivity.
One example of a use for a deeply embedded Wi-Fi solution is for
vehicle diagnostics. Considerable effort is spent designing the hardware
and software for user interfaces in these types of applications. However,
PDAs such as the iPod Touch or cellular phones such as the iPhone
are perfectly designed for user interfaces with a rich and intuitive
feature set. Most include Wi-Fi connectivity, which allows the use
of infrastructure or ad hoc modes in the Microchip Wi-Fi module. As
shown in Figure 3, the PDA or phone can connect to the Microchip Wi-Fi
module, and the PIC24F 16-bit microcontroller runs the Microchip TCP/
IP stack for ad hoc mode. The PIC24F microcontroller connects to the
vehicle using any of the standard On-Board Diagnostic (OBD) interfaces,
such as J1850, J1939, ISO 15765-4, etc. Vehicle status, such as RPM,
MPH, and battery voltage, can be displayed in a variety of forms such
as raw values, graphs, or gauges. Once disconnected, the PIC24F can
connect to a central server using infrastructure mode to upload data, or
download new firmware or parameters.
Figure 3: Application example.
Latency is not a critical factor for data transfers in most deeply
embedded devices. This means the data transfer has so little
latency that a user does not discern a delay from an action to the
corresponding reaction. Latency is often critical for handheld remotecontrol
devices, because users get frustrated and consider it a poor
user experience if the time for a local reaction to a button push on the
device is discernable (more than 250 ms).
The 802.11 specification has a mode called “power-save poll”
within the infrastructure service. It allows a device to go to sleep
while maintaining a connection to the access point. A device can
wake immediately and begin communication. Latency can be a little
more than 100 ms for an external client to begin transferring data
to a sleeping device. This is an ideal mode for remote controls using
infrastructure mode, as it provides the ability to power down without
a user-perceived reduction in latency. Battery life is only days with
this mode if the unit is frequently used, so this usage model should
be considered with a charging station. This scenario makes the usage
model for such a device similar to that of a cellular phone.
“Power-save poll” mode is also an efficient way to reduce power
consumption in devices where latency is not an important issue, such
as those that transfer data more than four times a minute. In such
cases, the act of reconnecting to the network consumes more energy
than keeping the device connected via power-save poll. For example,
the Microchip Wi-Fi radio provides the “power-save poll” mode
autonomously to the microcontroller. An added advantage of this is that
the entire client system can shut down during the sleep periods. An
interrupt from the radio will provide the wake indication, in case there
is data waiting on the AP. Additionally, for remote-control applications,
a wake-on-button-press or wake-on-motion can be provided via the
microcontroller, to maintain the illusion of always being on for the user.
For deeply embedded devices where latency is not critical, the best
methodology for increasing battery life is to turn off the radio. The off
state with leakage is the hibernate mode on the Microchip Wi-Fi radio.
Once outstanding traffic is resolved via the TCP/IP stack, a single
GPIO pin is used to deselect the device. This operation automatically
disconnects power from the Wi-Fi radio. This mechanism allows the
microcontroller and Wi-Fi radio combination to utilize about 120 nA in
power-down mode. Such a combination is ideal for deeply embedded
devices, because their low active power consumption stretches the
system’s battery life.
www.digikey.com/microcontroller
41

In all of the aforementioned deeply embedded devices, latency
is not critical. Other applications where latency is not critical
include security or environmental sensors, data-upload services
for medical monitoring, and consumer news devices, as well as
information servers.
Deeply embedded devices don’t need 300 Mbps, 54 Mbps or often
even 11 Mbps of throughput. A majority of deeply embedded devices
use a low amount of bandwidth. They have data for transmission
a few times a day, or expect to receive data possibly once a day.
The amount of data they deal with is on the order of 100 bytes. By
keeping external memory minimized or not using it at all, the overall
system cost and power consumption remain low.
A normal infrastructure connection provides about a 5-10 second
reconnect period from the hibernation stage. The connect processing
between the Wi-Fi radio and an access point takes about 176 ms.
Connecting takes longer than this, so the majority of the time is
spent in the delays associated with the access point dealing with the
connection. This can be easily seen by virtue of the time it takes a
standard laptop (a high-end open system) to connect to a network.
This time can be reduced by using the static addressing feature of the
Microchip TCP/IP stack. With such an operation, the connect time with
security can be reduced to less than a second.
Ad hoc connection from a power up can take less than 200 ms.
For point-to-point-only remote-control devices, ad hoc operation is
suitable because the achievable connection times are short. This
method of operation is not often used for remotes because while
it does resolve the connection-time problem, the limited use of the
wireless technology for simple point–to-point only communications
without LAN or internet connectivity can be better served by other
wireless technologies, such as basic RF transceivers or the IEEE
802.15.4 protocol.
A very good application of the ad hoc mode of operation is as a
default mechanism to enable easy confi guration of the device onto
the network of interest. Deeply embedded products that do not
have a screen/keyboard to enter data need a method for the end
user to confi gure the network, as well as the security parameters
of their network. In this case, the codes can be entered using a
temporary network. To use a temporary network, the product must
be preconfi gured to start either searching for a pre-determined
infrastructure network, or by creating a pre-determined ad hoc
network. In either case, another computer or Wi-Fi-enabled device
(e.g. iPhone, Smartphone, etc.) connects to the product using the
pre-determined network, and then confi gures the product to the
fi nal desired network. Once the appropriate network information
is entered, a command can be sent to the product to restart in the
desired network.
One advantage of 802.11 for deeply embedded devices is the
ability to use pre-existing networks and the Internet. There is some
concern regarding the impact to performance for other computers
that use the network, when a low-bandwidth, deeply embedded
device is also attached to that network. Wireless communication
is a shared-bandwidth, media-access mechanism. There is a fi nite
amount of bandwidth available for all to use before the airwaves get
saturated with signals. The biggest impact is from clients utilizing
the available bandwidth. Thus, adding a second 802.11g laptop
to a network that already has an 802.11g-connected laptop on it
will reduce the available bandwidth by 50 percent. The hibernate
mode described earlier for power savings also serves, in this
case, to minimize the effect on the network of embedded devices.
Embedded devices should be confi gured to buffer their information
and burst as required. Such usage will allow the devices to get on
the network, transfer their data, and then get off the network. The
effect of this will be maximum power savings and minimal impact
on network-bandwidth capabilities.
Figure 4: Example of mixed devices in a network.
A critical need of deeply embedded systems is to keep the
communication system easy to implement and use. While the
802.11 protocol makes an ideal candidate for communication for
these devices, many manufacturers are specialized in the art of
their own product, and not in wireless IP communications. There
is often no room in a critically costed product for more memory
to run an operating system, in order to use an off-the-shelf driver
that traditional 802.11 solutions offer. These drivers are created for
complex operating systems, such as Windows, Windows Embedded
CE, or Linux.
A signifi cant benefi t of a solution like the Microchip 802.11 one is
the ease of implementation to the developer. Along with the basic
networking features of security, infrastructure, and ad hoc; the
stack supports various services that a deeply embedded product
developer would require. Some of the services supported are ICMP,
HTTP, SSL, DHCP, FTP, SMTP, SNMP, TFTP, DNS, and Telnet. These
are suffi cient for serving Web pages, sending and receiving data
fi les, and handling e-mail services. The value to the customer is
the ability to minimize code-space requirements by selecting only
the services they require, accelerated time-to-market, and allowing
concentration on device application and user interface, rather than
on the underlying communications protocol.
The “Internet of Things” is about connecting a diverse set of simple,
deeply embedded devices to the tools we already use. It allows
servers and other instruments that can work in the background to
provide a clearer understanding of what is happening—whether
the interest is in energy conservation, product maintenance, health
and safety, or just information retrieval. The Microchip 802.11
solution has been designed with the mindset for deeply embedded
devices. This solution takes into consideration the speed, bandwidth,
and latency needs of embedded devices—these being much
42

less than what most people demand for their day-to-day Internet
connectivity experience. This makes the solution much lower in
power and easier to use than standard IP-connection alternatives.
The solution is also compatible with the cost constraints of
deeply embedded devices. These characteristics allow the system
developer to concentrate on application development rather than on
networking knowledge.
While it is said that the “Internet of Things” will progress to a
billion new connected things by 2011, the majority of these will
be in embedded and deeply embedded devices. The unique
characteristic of IP connectivity is that having devices connected
and providing improved effi ciency is not the only benefi t. The
real return is the progression of benefi ts that will result from the
interconnecting of devices to a wider and automated information
database. This can include better performance through longer
operation within optimal ranges, new revenue streams that will
give users simplicity in dealing with things that otherwise go into
disrepair, and also increased sales pull-through via product and
information co-marketing.
Intro to PIC24FJDA Family
Microchip Technology
The PIC24FJDA family from Microchip features graphic
acceleration and direct interface to STN, TFT, and OLED
displays. The series comes with 64-pin QFN, TQFN, and for
the fi rst time BGA packages.
The product training
module for this
series provides
in-depth lists of
the products’ many
features, explains the
properties of Power
Consumption, and
a cost comparison
chart for budget planning.
This module can be experienced with or without audio in
approximately 15 minutes
and is 24 pages in length.
www.digikey.com/ptm
PIC24F04KA201 Family
As more electronic applications require low power or battery
power, energy conservation becomes paramount. Products with
Microchip’s nanoWatt XLP Technology offer the industry’s lowest
currents for Run and Sleep modes. The PIC24F04KA201 family is
ideal for low cost, low pin-count applications (14-20 pins) which
require up to 4 KB Flash that also need 16-bit performance (16
MIPS). This family includes a range of peripherals including timers,
UART, SPI, I 2 C, ADC, comparators and CTMU for precise time
measurement or touch sensing. With full analog and self write
capability down to 1.8 V, the PIC24 “KA” family will extend the
battery life in your next design.
Use the free Microchip XLP Battery Life Estimator to select the
target MCU, battery type, and energy profi le to get an estimate of
battery life for your application. It’s easy to get started with the
XLP MCUs, using the XLP 16-bit Development Board (DM240311),
which includes current measurement terminals and fl exible power
sources (AAA, coin cells or energy harvesting modules).
Example applications for the new PIC24F04KA microcontrollers include:
• Medical (portable and home medical devices, oxygen fl ow
meters, lifestyle/fi tness monitors)
• Industrial (energy harvesting/scavenging, water/gas/heat
meters, portable gas sensors, remote sensor networks, asset
tracking, sealed/harsh environment sensors)
• Consumer (security-system dongles, sealed disposable
electronics, portable electronics, smart cards)
www.digikey.com/microchip-mcu
www.digikey.com/microcontroller
43

Peripheral Reflex System
Avoids MCU Overload
contributed by Energy Micro
Normally, MCUs spend much of their time
passing information between peripherals. That
doesn’t have to be the case.
The Peripheral Refl ex System (PRS) is a network which lets the
different peripheral modules communicate directly with each other
without involving the CPU. Peripheral modules which send out Refl ex
signals are called producers. The PRS routes these refl ex signals to
consumer peripherals which apply actions depending on the Refl ex
signals received. The format for the Refl ex signals is not given, but
edge triggers and other functionality can be applied by the PRS.
Overview
An overview of one channel and how four different peripherals can
be connected using PRS is given in Figure 1. The PRS contains eight
interconnect channels, and each of these can select between all of
the output Refl ex signals offered by the producers. The consumers
can then choose which PRS channel to listen to and perform actions
based on the Refl ex signals routed through that channel. The Refl ex
signals can be both pulse signals and level signals. Synchronous PRS
pulses are one HFPERCLK cycle long, and can either be sent out by
a producer (e.g. ADC conversion complete) or be generated from the
edge detector in the PRS channel. Level signals can have an arbitrary
waveform, but will be synchronized with the HFPERCLK.
Producer
Side
Channel 0
Signals from
producer
peripherals
TIMER0
Overflow Pulse
ACMP
Output Level
.
.
.
.
.
PRS
x8
SIGSEL[2:0]
SOURCESEL[5:0]
EDSEL[1:0]
SWPULSE[0]
SWLEVEL[0]
ADC0
Start single conv.
Reg
APB bus
Signals to
consumer
perpherals
TIME1
CC1 Input
Consumer
Side
Figure 1 shows four peripherals connected to two PRS channels.
On one channel is TIMER0 and ADC0 and the ACMP and TIMER1 are
connected to a second channel. An overfl ow from TIMER0 can start an
ADC single conversion and an ACMP output can be used as input for a
Compare/Capture channel on TIMER1.
General operation
Channel functions
Different functions can be applied to a Refl ex signal within the
PRS. Each channel includes an edge detector to enable generation
of pulse signals from level signals. It is also possible to generate
output Refl ex signals by software writing to PRS_SWPULSE and
PRS_SWLEVEL registers. PRS_SWLEVEL is a programmable level
for each channel and holds the value it is programmed to. The
PRS_SWPULSE will give out a one-cycle high pulse if it is written to
1, otherwise a 0 is asserted. The SWLEVEL and SWPULSE signals
are then XOR’ed with the selected input from the producers to form
the output signal sent to the consumers listening to the channel.
This is illustrated in Figure 1.
The efm32lib function void PRS_
SourceSignalSet(unsigned int ch, uint32_t
source, uint32_t signal, PRS_Edge_TypeDef
edge) can be used to easily confi gure the PRS channels. By
specifying the PRS channel producing peripheral signal from
the peripheral and the edge for pulse generation, the function
confi gures the PRS accordingly.
Producers
Each PRS channel can choose between signals from several
producers, which is configured in SOURCESEL in PRS_CHx_CTRL.
Each of these producers outputs one or more signals which can
be selected by setting the SIGSEL field in PRS_CHx_CTRL. Setting
the SOURCESEL bits to 0 (Off) leads to a constant 0 output from
the input mux. An overview of the available producers is given in
Table 1.
Consumers
Consumer peripherals (Table 2) can be set to listen to a PRS channel
and perform an action based on the signal received on that channel.
Most consumers expect pulse input, while some can handle level
inputs as well.
Figure 1: PRS overview.
44

Table 1: Reflex producers.
Module Reflex Output Output Format
ACMP Comparator Output Level
ADC Single Conversion Done Pulse
Scan Conversion Done
Pulse
DAC Channel 0 Conversion Done Pulse
Channel 0 Conversion Done Pulse
GPIO Pin 0 Input Level
Pin 1 Input
Level
Pin 2 Input
Level
Pin 3 Input
Level
Pin 4 Input
Level
Pin 5 Input
Level
Pin 6 Input
Level
Pin 7 Input
Level
Pin 8 Input
Level
Pin 9 Input
Level
Pin 10 Input
Level
Pin 11 Input
Level
Pin 12 Input
Level
Pin 13 Input
Level
Pin 14 Input
Level
Pin 15 Input
Level
RTC Overflow Pulse
Compare Match 0
Pulse
Compare Match 1
Pulse
TIMER Underflow Pulse
Overflow
Pulse
CC0 Output
Level
CC1 Ouput
Level
CC2 Output
Level
UART TX Complete Pulse
RX Data Received
Pulse
USART TX Complete Pulse
RX Data Received
Pulse
IrDA Decoder Output
Level
VCMP Comparator Output Level
Table 2: Reflex consumers.
Module Reflex Input Input Format
ADC Single Mode Trigger Pulse
Scan Mode Trigger
Pulse
DAC Channel 0 Trigger Pulse
Channel 1 Trigger
Pulse
TIMER CC0 Input Pulse/Level
CC1 Input
Pulse/Level
CC2 Input
Pulse/Level
DTI Fault Source 0 (TIMER0 only) Pulse
DTI Fault Source 1 (TIMER0 only) Pulse
DTI Input (TIMER0 only)
Pulse/Level
UART TX/RX Enable Pulse
USART TX/RX Enable Pulse
IrDA Encoder Input (USART0 only) Level
Software examples
This section describes four software examples that explore possible
interactions between peripherals using the PRS:
• TIMER triggered ADC conversion
• Pulse Width Measurement with the ACMP and TIMER
• GPIO triggered UART transmission
• Software triggered DAC conversion
TIMER triggered ADC conversion
Figure 2 shows how to set up ADC0 to start a single conversion every
time that TIMER0 overflows. TIMER0 sends a one HFPERCLK cycle
high pulse sent from TIMER0 to the ADC0 through the PRS on each
overflow, and the ADC does a single conversion which is displayed
on the LCD of the STK/DK development boards. The ADC consumes
pulse signals, which are the same signals produced by the TIMER. In
this case there is no edge detection needed, so the PRS leaves the
incoming signal unchanged.
Producer
Side
Channel 5
Signals from
producer
peripherals
TIMER0
Overflow Pulse
1 HFPERCLK Pulse
SIGSEL[2:0]
SOURCESEL[5:0]
EDSEL[1:0]
SWPULSE[5]
SWLEVEL[5]
ADC0
Start single conv.
APB bus
Signals to
consumer
perpherals
Figure 2: TIMER0 overflow starting ADC0 single conversions using the PRS.
PRS
Consumer
Side
The ADC is configured with 8-bit resolution and Vdd as both
reference and input. When the ADC finishes the conversion it
generates a single conversion complete interrupt. The CPU will then
fetch the result and display it on the LCD. The displayed result is a
direct reading from the ADC0_SINGLEDATA register which is always
255, given that the input is the same as the reference. The DMA can
also be used to fetch the conversion result and that is covered by
the AN0021 Analog to Digital Converter.
The software project prs_timer_adc implements this example
and can be used on both STK and DK development boards.
Pulse width measurement with ACMP and TIMER
Figure 3 illustrates how to measure the pulse width or period of an
arbitrary waveform. The ACMP is used to send a level signal through
the PRS. TIMER0 consumes both pulse and level signals so the PRS
leaves the incoming signal unchanged. On TIMER0 the PRS signal is
used as input for CC0 channel. TIMER0 starts counting on a positive
edge and captures the counter value on a negative edge.
Reg
1 HFPERCLK Pulse
www.digikey.com/microcontroller
45

Channel 5
SIGSEL[2:0]
SOURCESEL[5:0]
EDSEL[1:0]
APB bus
must be used to generate a pulse signal on a GPIO positive edge
transition. The clock pulse enables the USART TX and transmits the data
that was placed in the TX buffer. For the GPIO to generate PRS signals,
the PRS Sense must be enabled in the GPIO_INSENSE register.
Signals from
producer
peripherals
SWPULSE[5]
SWLEVEL[5]
Reg
Signals to
consumer
perpherals
The software project prs_gpio_uart implements this example
and is intended for the DK only. To enable the USART TX, pin PD0 must
be connected to VMCU to generate a positive edge. The EFM32 will then
send the character ‘X’ through SERIAL A with a 57600 baud rate, no
parity and one stop bit.
Producer
Side
ACMP
Output Level
PRS
TIMER0
Reload&Start + Capture&Stop
Consumer
Side
Software generated PRS pulse triggers DAC conversion
Figure 5 shows how to generate a PRS pulse by software. The PRS
pulse will trigger a DAC conversion which outputs a 0.5 V signal on
pin PB11. It is possible to generate both pulse and level signals by
software. In this case a pulse signal is generated because it is the type
of signal consumed by the DAC. DAC conversions can also be started
by software in the DAC itself. This example only shows how this can be
done through the PRS as well.
Level
Figure 3: ACMP level output used as PRS signal for TIMER0 CC0 channel input.
Level
Channel 5
SIGSEL[2:0]
Figure 3 also shows the level output from the ACMP sent through the PRS
to the TIMER which measures the pulse width using the capture feature.
The software project prs_pulse_width implements this
example and can be used on both STK and DK. To trigger the pulse
width measurement, pin PC4 (P4.7 on the DK protoboard) must be
connected to VMCU to generate a high level that will trigger the ACMP
and start the TIMER. When the connection is released, the output of
the ACMP will be low again and the TIMER captures the counter value
and displays it on the LCD.
GPIO triggered USART transmission
Figure 4 illustrates how to use an external signal coming through the GPIO
to enable the USART transmitter. It shows a positive edge from a GPIO
pin sent on the producer side through the PRS edge detector to create
a one HFPERCLK cycle pulse on the consumer side. The GPIO produces
level signals which are not consumed by the UART so the edge detector
Producer
Side
Channel 5
Signals from
producer
peripherals
GPIO
Output Level
Positive Edge
PRS
SIGSEL[2:0]
SOURCESEL[5:0]
EDSEL[1:0]
SWPULSE[5]
SWLEVEL[5]
UART
Enable TX
Figure 4: USART TX enabled by GPIO signal using the PRS.
Reg
1 HFPERCLK Pulse
APB bus
Signals to
consumer
perpherals
Consumer
Side
Producer
Side
Signals from
producer
peripherals
Figure 5: Software triggered PRS signal.
SOURCESEL[5:0]
EDSEL[1:0]
SWPULSE[5]
SWLEVEL[5]
APB bus
Figure 5 shows a one HFPERCLK cycle pulse triggered from software.
Pulse and level signals can be generated by software by writing directly
to the PRS_SWPULSE and PRS_SWLEVEL registers respectively. They
can also be generated using functions from the efm32lib:
• void PRS_PulseTrigger(uint32_t channels)
generates pulse signals
• void PRS_LevelSet(uint32_t level,
uint32_t mask) generates level signals
PRS
DAC0
Start conv.
Signals to
consumer
perpherals
Consumer
Side
The software project prs_soft_dac implements this example
and can be used on both STK and DK.
Monitoring of PRS signals
The PRS channels can be monitored using peripherals that consume
PRS signals. One example is using a TIMER to make a capture when
there is activity on the PRS channel it is connected to. The software
project main_prs_channel_scan exemplifi es how this can
be accomplished and can be used on both STK and DK.
Reg
1 HFPERCLK Pulse
46

The function PRS_ScanChannel(TIMER_TypeDef
*timer, TIMER_PRSSEL_TypeDef prsCh,
TIMER_Edge_TypeDef edgeType) in the main_
prs_channel_scan project can be used to monitor activity on a
specifi c PRS channel. It sets the CC0 channel on the chosen TIMER to
capture a selected signal edge. The project can be used on both STK
and DK and the parameters are as follows:
• timer: pointer to the TIMER peripheral register c\block
• prsCh: PRS channel to be monitored
• edgeType: signal edge to be monitored/captured
This function will hang on a while loop waiting for activity in the PRS
channel. When such activity occurs, it writes PRS and the channel
number on the LCD. To generate activity on this line, the user must
connect PC4 to VMCU to generate a rising edge transition on the PRS
channel using the ACMP.
Another option is to have a capture interrupt instead of polling. That
way the program will not hang and the processor will be available to
execute other tasks. When a capture is triggered, the user knows that
there was activity on the selected PRS channel.
Innovations in Connectivity:
a look inside Digi-Key’s state-of-the-art Weather Center
iDigi Server
Ethernet, WiFi, Cellular
Computer
HTML,
Gadgets, Widgets
Node
(Wired/Wireless)
Drivers
Gateway
(Cellular, WiFi,
Ethernet, Satellite)
Drivers
Internet
(Cloud)
Cell Phone
Digi-Key Server
WiFi, Cellular
Android, iPhone,
Blackberry Apps
Weather Center Structure
12VDC
Power Rail
In a wireless world, devices like the Digi-Key
Weather Center utilize the best in electronic
components to test conditions in an environment
where temperatures range from sizzling to
subzero. Above is a diagram depicting the process
by which Digi-Key’s Weather Center conveys the
data collected to computers and mobile devices.
This connectivity is achieved by Digi-Key’s
custom-made weather tracking system—
composed of the best in wireless, sensor,
microcontroller, and lighting technology.
Outer Design
The Digi-Key Weather Center was constructed in
a simple “T” shaped design. Measuring three feet
across, the top beam is made of three-inch “C”
channel. This provides a place for sensor modules,
an anemometer, and any future additions.
The trunk of Digi-Key’s Weather Center is
approximately seven feet tall and composed of
three-inch square tubing. Mounting brackets for
solar panels and the electronic box are attached.
The Weather Center is supported by a square
plate, measuring two feet across.
Inside the Weather Center
The heart of the Weather Center, the main box
located in the middle of the Weather Center’s
trunk, is from BUD’s NBA series, Digi-Key part
number 377-1139-ND. This box is rated at IP65
of IEC 529 and NEMA 1, 2, 4 and 4x specifi cations
with temperature ranges from -40°C to over 70°C.
While the Digi-Key Weather Center has seen
nearly 100°F of heat in the summer and has been
exposed to -38°F temperatures in the winter, the
center has remained resilient.
To provide venting for the center’s box, Bud’s
NBX-10910-ND and the NBX-10911-ND moisture
vents were installed. Although the center has
experienced harsh weather conditions, no moisture
or debris has been detected within the box.
The top beam is made of “C” channel, which provides a place
for sensor modules, an anemometer, and any future additions.
To interface the box to the sensors, Switchcraft’s
SC1390-ND Jack and the SC1381-ND Plug were
utilized. These connectors are rated at IP68 when
properly mated.
On the inside of the box, Injectorall Electrics’ FR4
unclad board material (PC8-UNCLAD-ND) was
installed to create a proper back panel. On the panel
the primary circuit board and two power distribution
strips by Molex (WM5737-ND) were applied.
This inside look at the mechanics behind Digi-
Key’s Weather Center is the second in a series of
articles that will explore the development of the
Weather Center’s technology and the innovations
of connectivity. Additional articles will appear in
upcoming issues of TechZone magazines. For
more information about the Digi-Key Weather
Center, visit connectivity.digikey.com.
An update was made in November 2010 to include three solar
panels in order to collect as much solar energy as possible.
www.digikey.com/microcontroller
47

CAN Primer: Creating
Your Own Network
by Bob Boys, ARM
CAN is a flexible network that is easy to
implement. If you are considering networking
topologies for your next embedded design,
this article will set you on the right path.
CAN is extensively used in automobiles and trucks and can be found
in multiple applications. There are many “application” layers available
for CAN, such as ISO 15765 (cars), J1939 (trucks), and CANopen
(factory automation), but it is very easy to develop your own protocol
to fi t and simplify your needs. Modern CAN transceivers provide a
stable and reliable CAN physical environment without the need for
expensive coaxial cables. Most of the mystery of CAN has dissipated
over the years. There is plenty of example CAN software available to
help you quickly develop your own network.
A CAN controller is a sophisticated device. Nearly all the features
of the CAN protocol described below are automatically handled by
the controller with almost no intervention by the host processor. All
you need to do is confi gure the controller by writing to its registers,
write data to the controller, and the controller then does all the
housekeeping work to get your message on the bus.
The controller will also read any frames found on the bus and hold
them in a small FIFO memory. It will notify the host processor that this
data is available, which is then read from the controller. The controller
also contains a hardware fi lter mechanism that can be programmed
to ignore the CAN frames you do not want passed to the processor.
For the purposes of this article; we will assume a CAN network
consists of the physical layer (the voltages and the wires) and a frame
consisting of an ID and a varying number of data bytes. CAN has the
following general attributes:
1. 11- or 29-bit ID and from zero to eight data bytes. These can be
dynamically changed “on the fl y.”
2. Peer-to-Peer network. Every node can see all messages from all
other nodes. A node cannot read its own messages.
3. Nodes are easy to add. Attach one to the network with two wires
plus a ground.
4. Higher priority messages are sent fi rst depending on the value of
the ID. A lower ID has the highest priority.
5. Automatic retransmission of defective frames. A node will “busoff”
if it causes too many errors.
6. Speeds from approximately 10 Kbps to 1 Mbps. All nodes must
operate at the same frequency.
7. The twisted differential pair provides excellent noise immunity
and some decent bus fault protection.
8. The CAN system will work with the ground connection at
different DC levels or no ground at all.
The CAN system layout
A CAN network consists of at least two nodes connected together
with a pair of twisted wires, as shown in Figure 1. A ground wire can
be included with the twisted pair or separately as part of the chassis.
One twist per inch (or more) will suffi ce, and the integrity of the
ground is not necessary for normal operation. As in any differential
systems, the voltage levels between the wire pair are important, and
not their values to ground. CAN is completely described in ISO 11898.
The maximum length of the network is dependent on the frequency,
number of nodes and propagation speed of the wire. It is relatively
easy to have a 20 node (or more), 500 Kbps system running 30 or 40
feet (or more). The drops should be less than three feet and randomly
spaced to reduce standing waves. These issues all become more
important at higher bus speeds.
Figure 1: A CAN network.
Since the twisted pair is a transmission line, 120 ohm termination
resistors are needed at both ends of the backbone. Do not put any
resistors at the nodes. Your total resistance value as measured
between the two twisted wires will be 60 ohms. CAN is a broadcast
system. Any node can “broadcast” a message using a CAN frame
on a bus that is in idle mode. Every node will see this message. A
“message” can be considered the same as a CAN frame until you
need to use more than one frame to send a long message. It is up to
the individual node if it must react to a CAN frame or just ignore it.
48

Figure 2: Schematic diagram from the
Keil MCBSTM32E evaluation board.
A node schematic
Figure 2 shows the schematic diagram from the Keil MCBSTM32E
evaluation board. IC1 is a Texas Instruments CAN transceiver that
performs the conversion between the single-ended CAN controller
CAN Tx and CAN Rx signals to the bidirectional differential pair of
the CAN bus called CANH and CANL (High and Low). This schematic
is complete.
The STM32 CAN I/O is TTL, CMOS and 5 V tolerant, making it
exceptionally easy to design the interface. This transceiver IC1
connects to the STM32 microprocessor IC2, which contains an
integral CAN controller via two pins: D (Driver input) and R (Receiver
output). The corresponding nomenclature on the STM32 is CAN Rx
and CAN Tx. CAN Tx connects to D. CAN Rx connects to R. Some
processors have multiple CAN controllers. These are usually used
in routers, gateways or to create more receiver FIFO memory for
intentionally slowed down CPUs (for EMI reasons). For general use, a
node normally needs only one controller. If it had at least two, it could
talk to itself.
RS on IC1 (slope control) is used to adjust the rise and fall times of
the output edges to limit EMI from the twisted pair. Note R4 is a 120
ohm termination resistor. This evaluation board is meant to be used
with one other board as a small test network. If this board is used as
a node, and is not at one of the ends, this resistor should be removed
and external resistors used. P17 corresponds to a generally accepted
standard for CAN on DB9 connectors. P17 Pin 7 is the CAN Hi bus line
and pin 6 is CAN Lo. If CAN Hi and CAN Lo are reversed, the network
will not operate properly. It might not work at all.
There are three physical layers used in CAN: Hi-Speed, Fault Tolerant
and Single Wire. Hi-Speed is the most common and is the one we will
use in this article. Fault Tolerant offers more robustness as its name
implies and is used more often in European autos. Single Wire is used
by General Motors as a low-speed body network along with Hi-Speed
main network.
Hi-Speed in cars has a speed of 500 Kbps, trucks are 250 kbps.
CANopen runs up to 1 Mbps. Fault Tolerant is usually 125 kbps, and
GM Single Wire is normally 33.33 kbps. One Mbps in a large system is
difficult to handle. 500 kbps is easier.
To change from one to the other requires only the transceiver chip
to be exchanged and probably changing the speed. These three
layers cannot be physically connected to each other as the voltage
levels are different. Use a router or gateway to join different CAN
networks together. Any CAN controller will properly service all three
layers of CAN.
The Hi-Speed CAN physical layer is a pair of twisted wires with a
120 ohm termination resistor at each end and twisted wire drops to the
individual CAN nodes. A node can be directly connected to the bus.
CAN Hi voltage, with respect to ground, changes between 2.5 to 4
volts nominal. CAN Lo changes from 2.5 to 1 volt. Therefore, the
difference between the two is either 0 volts (is logical “1”) or 3 volts
(logical “0”). 0 is known as the “dominant” state and 3 volts is the
“recessive” state.
These two signals, CAN Hi and CAN Lo, are 180 degrees out of phase.
Bus idle is when the voltage difference is zero.
The CAN frame
The CAN frame has many fields but can be simplified to a
Programming Model as shown in Figure 3. These fields must be
written by software or read from the CAN controller registers. The CAN
configuration registers are not included.
Figure 3: CAN Frame Programming Model.
• IDE: Identifier Extension: 1-bit - specifies if the ID field is 11 or
29 bits.
If IDE = 0, then the ID is 11 bits.
If IDE = 1, then the ID is 29 bits.
• DLC: Data Length Code: 4 bits - specifies number of data bytes
in frame from 0 through 8.
• ID: Identifier: 11 or 29 bits as set by IDE. This part of the CAN
frame sets the priority.
• Data Bytes: 0 through 8 bytes. A CAN frame with only an ID field
and no data bytes is valid and useful.
www.digikey.com/microcontroller
49

ID: Identifier: 11 or 29 bits
The Identifi er can be used for any purpose. It is often used as a node
address or to identify requests and responses. CAN does not specify
what the ID should be.11-bit is sometimes called Standard CAN and
29-bit is called Extended CAN.
1. If two or more CAN messages are put on the bus at the same
time; the one with the highest priority (the lowest value) ID will
immediately get through. The others will be delayed and will be
resent as soon as possible.
2. An ID of 0 has the highest priority and will always get through.
An 11-bit ID has priority over any 29-bit ID.
3. The ID size can be changed at any time for a mix of 11- and
29-bit IDs. The controller can easily sort this out.
4. Messages tend to start transmitting at the same time. It is not
permissible for a CAN node to start transmitting if another is
already transmitting. This will cause a bus error.
5. Note that a CAN controller can be confi gured to pass only certain
messages to its host processor. Choose ID values carefully to
take advantage of this, if needed. This can take a large work load
off of a node’s processor.
6. Use the ID for data, node addressing, commands and request/
response sequences. Commercial protocols use these in
practice. Choose any method or create your own to best suit
your purpose.
7. Make sure two nodes will never send the same ID value at the
same time. It is illegal but possible to do this. If two messages
sent at the same time are identical, they will be seen as one. If
the data bytes are different, this will result in a bus error and the
frames will be resent continuously, creating havoc on the bus
until bus-off occurs.
Data bytes
Select from zero to eight data bytes using the 4-bit DLC fi eld.
1. Any number of data bytes can be mixed on the CAN bus. The
controller can easily sort this out.
2. By always using only one number of data bytes,
software will be much simpler to write and maintain.
3. The data bytes can contain anything. It will not be prioritized like
the ID. CAN does not specify data contents.
4. Commercial protocols such as J1939 use these for data as well
as control bits for multi-frame transmission schemes.
Remote frames
Though not used often, a remote frame is a quick method of getting a
response from another node(s). It is a request for data. The requesting
node sends out a shortened CAN frame with only a user specifi ed ID
number and the number of data bytes it expects to receive (the DLC
is set). No data fi eld is sent. The responding node(s) sees this ID and
DLC, recognizes that it has the desired information and sends back
a standard CAN frame with the same ID, DLC and with its data bytes
attached. All of this (except that the response node recognizes the ID
and DLC) is implemented in the CAN controller hardware. Everything
else must be confi gured by the user software.
Bus loading
Many CAN networks work on a bus loading from 15 to 35 percent
and this is increasing. A higher bus loading can cause lower priority
messages to be delayed, but these messages will still get through in
a timely fashion. It is quite diffi cult to achieve 100 percent bus loading
although one can come quite close. Overall system performance does
not drop greatly at high bus loading.
It is possible to get very high bus loads for a very short period of time
in any CAN network. CAN does not automatically space out messages.
It is possible to get a series of back-to-back messages that will
equal nearly 100 percent bus loading. One solution is to select only
those messages needed by a node by programming its acceptance
fi lter. Another is to have your software space out the messages. This
problem is diffi cult to diagnose.
Bus speed
Bus speed in a system is a balancing act between things such as
propagation delays (from bus length) and EMI emissions versus
necessary data throughput. Run the network as fast as possible for
stable operation and with enough throughput. Do not run it faster than
necessary, but make some room for later expansion.
If the network is not stable, make sure there are two good termination
resistors at each end of the network. Try slowing the CAN speed
down to see if this helps. Resistors can be ordinary 120 ohm 1/2 watt
carbon type. This is not critical.
TIP: How to determine the frequency of a CAN signal: (This is the best
and sometimes only way to determine this.)
1. Connect an oscilloscope hot lead to CAN Hi and its ground to CAN
Lo. The scope ground must be isolated from the CAN ground. You
can go from ground to one of the CAN leads, but the signals will
be lower and noisier.
2. Display a trace. A storage scope may be needed to see just one
trace due to the non-repetitive nature of CAN.
3. Pick the smallest width signal pulse and measure its time period
in seconds as accurately as possible.
4. Invert this value (divide into 1)to obtain the CAN speed in bits per
second.
Bus errors
Recall that all the nodes (including the transmitting node) check each
CAN frame for errors. If an error is detected, the following occurs:
1. Any or all of the nodes will signify this fact by driving the bus to
logical 0 (dominant state) for at least six CAN bits.
2. This violates the Bit Stuffi ng rule (never greater than 5 bits the
same polarity), so every node sees this as an error.
3. This so called “Error Frame” signals to all nodes a serious error
has occurred.
4. The transmitting bus abandons the current frame and adds four
to its 8-bit TEC (Transmit Error counter) register.
5. If this TEC equals 0xFF, the transmitting node goes BUS OFF and
takes itself off the bus (it is zero at RESET).
50

6. If not, it attempts to retransmit its message. It will still have to go
through the priority process with other messages.
7. All other nodes also abandon reading the current frame, and
adds four to each REC (Receive Error Counter) register.
8. Any nodes that have messages queued up for transmission will
transmit now. All others start listening to the bus.
9. Hopefully, this time the message(s) will be broadcast and
received error free. Each time a frame is transmitted and/or
received successfully, the corresponding TEC and REC registers
are decremented (usually by only one).
TIP: Error counters These are two 8-bit registers in every CAN
controller and you can read these with your software. This is a good
idea because it gives some indication of general bus health and
stability. In a good CAN network, TEC and REC will equal zero. If it
starts having higher values, something has happened to your network.
The usual suspect is bad hardware. The problem is usually in either
the wires or the transceiver chip.
Don’t forget that if something happens to the integrity of the twisted
pair, such as CAN Lo disconnected; it might still work but with greatly
reduced noise immunity (that is what differential signals do best). If
the network is in a very noisy environment, there might be a lot more
transient bus errors. This is very tricky to debug without knowledge of
the REC and TEC register contents. Put this in the software and report
it to the diagnostic routines.
In a general sense, TEC represents a given node’s errors and REC
indicates the other nodes’ errors.
Bus off: As mentioned, if a transmitting node detects it has put too
many bad frames on the bus, it will disconnect itself. It will assume
that there is something very wrong with itself. To get back on the bus
depends on how the controller is configured. It can take a controller
RESET or a certain number of good frames received or what is
configured to get back on.
TIP: How can you create a Bus Error for testing
Have a node send a message at the wrong frequency. When this
frame tries to get on the bus, this is certain to create a bus error
condition. Some CAN controllers can send a one-shot frame.
BUS faults
This is different from a bus error. We normally think of a bus fault as
something that has happened to the “wires” or the output transistors
of the transceiver chip. Not all bus faults will result in a bus error. A bus
error can be thought of as the CAN controllers’ reaction to a problem on
the bus such as noise, faulty node that includes a bus fault.
What happens if one of the twisted pair opens or is shorted out
CAN has an automatic mechanism for this. Not all transceiver chips
implement all of them. You can usually short CAN Lo to ground (ISO
11898 says CAN short Hi also) or open one CAN line. The ground needs
to be connected for these to function. You cannot short both Hi and
Lo together (Fault Tolerant will work) or open both up. You can cut the
ground or have a large ground loop present and CAN will still work.
These will be detected as a bus error as described above. At least one
node must try to transmit a frame in a bus fault condition to trigger a
bus error. A bus in idle mode cannot trigger a bus error. When the bus
fault is removed, in many systems the network will come back alive,
if so configured. CAN has excellent noise immunity because of the
twisted pair. The common mode noise gets cancelled out and the CAN
signal is not affected (because it is 180 degrees out of phase).
The ground: The ground is not needed for CAN operation if the
twisted pair is intact. This is readily shown with simple experiments.
One experiment showed a small network still worked properly with
two nodes having a 40 volts DC ground difference.
However, it is a good idea to include a good ground in the system
design. Some bus faults need the ground to allow the transceiver
to compensate.
Here are some bonus items that are not part of the CAN specification
that might prove helpful in your system:
1) Transmitting data sets greater than 8 bytes:
Clearly, transmitting a data set greater than 8 bytes will take multiple
frames and this will require some planning. Such schemes can
become very complicated as they have to deal with a wide-ranging
set of contingencies. By focusing on a narrow requirement set, design
of a simpler protocol is possible.
Most current schemes use the first data byte to contain the number of
total data bytes to follow plus a counter to help determine which data
byte is which. The ID usually identifies the node plus whether it is a
request or response message. To use an existing protocol, see ISO
15765. This is what automobiles use. This includes OBDII diagnostics
which is public information. This is a good example where one
message can be comprised of many CAN frames.
2) Periodic, Request/Response and Command Frames:
Periodic: This technique sends a frame out periodically – several
times a second is typical. This frame will contain data that any node
can use and is identified by its ID. Examples are speed, position,
pressure and events.
Request/Response: A node sends out a frame requesting certain
specified information. Any other nodes that have the requested
information then put it on the bus. The ID identifies the Request
frame and the Response by changing one bit of the Request ID. ID
0x248 is a Request frame and 0x648 is its Response. The Request
frame data bytes will specify what information is requested. The
Response frame will contain the requested information or an error
message.
Command: A frame commanding some event is performed. The ID
usually contains the address of the commanded node and the data
bytes the actual command(s). Sometimes an acknowledge frame
is returned.
TIP: Consider a blend of these three types of traffic depending on your
system’s needs.
3) Time-outs:
Automotive CAN networks use time-outs. This concept is easily and
effectively transferred to systems in other fields. A time-out occurs
when a node fails to respond to a request in a timely fashion. Timeouts
are handled completely by software. The CAN specification does
not provide this mechanism. A time-out is helpful to recover from
problems with the network such as severe bus errors, catastrophic
bus faults, faulty nodes or intermittent connections.
www.digikey.com/microcontroller
51

The result is usually a limp-home mode in which a node will attempt
to run itself without information from the rest of the network. In some
cases, a punitive limp-home mode is entered that forces the user to
perform repairs.
A good example is if the transmission fails and proper shifting
becomes impossible. In this case, the module will go into limp-home
mode and the transmission might be put into one gear, such as
second, to allow the vehicle to still be driven.
This can be for safety reasons or to prevent further damage to the
power train.
Heart-beats and Address Claiming: The other side to a time-out
is a heartbeat. Periodic messages can be sent out to determine that
all nodes are on the bus and active. CANopen uses such heartbeats.
J1939 has a software mechanism in which each node can declare
itself to be on the bus and be recognized by the other nodes. This
is called “Address Claiming” and occurs during the system startup.
These mechanisms are provided by your software.
Sequence of transmitting data on the CAN bus:
1. Any node(s), seeing the bus idle for the required minimum time,
can start sending a CAN frame.
2. All other nodes start receiving it except those also starting to
transmit a message. (They all start at the same time.)
3. If any other node starts transmitting, the priority process starts.
The node with the highest priority continues on and those with a
lesser priority stop sending, immediately turn into a receiver and
receive the higher priority message.
4. At this point, only one node is transmitting a message and no
other nodes will start at this time.
5. When the transmitting node has completed sending its message,
it waits one bit time for the 1-bit ACK fi eld to be pulled to a logic
0 by any other node (or usually all of them) to signify the frame
was received without errors.
6. If this happens, the transmitting node assumes the message
reached its recipient, sends the end-of-frame bits and goes
into receive mode or starts to send its next message if it has
one. The receiving nodes pass the received message to their
host processors for processing unless the acceptance fi ltering
prevents this action.
7. At this time, any node can start sending any messages or the bus
goes into the idle state. Go to 1.
8. If this does not happen (ACK bit not set), then the transmitting
node retransmits the message at the earliest time allowed. If
the ACK bit is never set, the transmitting node will send this
message forever.
Transmitting notes:
• How does a node know when it should transmit a message
Create the CAN frame you want to send by loading up the IDE,
ID, DLC. Any data byte registers in the CAN controller and then,
in most controllers, you set a bit that triggers sending the frame
as soon as legally possible. After this, the controller takes care
of sending all frame bits. Until the controller signals otherwise
to the processor, you can assume the message was sent.
• What if there is an error All nodes, including the transmitting
node, monitor the bus for any errors. If an error condition is
detected, a node (or nodes) signify to the other nodes there is an
error by holding the bus at logical 0 for at least 6 bus cycles. At
this point, all nodes take appropriate action. The message being
sent (and now aborted) will be resent but only a certain number
of times.
• What if no node wants or uses the message Nothing.
The ACK bit only says that the CAN frame was transmitted
without errors and at least one node saw this frame error free.
Remember the transmitting frame cannot ACK itself. CAN does
not provide any acknowledgment mechanism that a frame was
used or not received by its intended recipient. If needed, you will
have to provide this in your software as many systems do.
TIP: In a periodic system, if a node misses a message, it does
not matter much as another copy will be along shortly.
Sequence of receiving data from the CAN bus:
1. All nodes except those currently transmitting frames are in
listening mode.
2. A CAN frame is sent using the procedure as described previously
in “Sequence of Transmitting data on the CAN Bus.”
3. This frame is received by all listening nodes. If deemed to be
a valid CAN message with no errors, the ACK bit is set. In CAN
terminology, the bus is set to the “dominant” state as opposed to
the “recessive” state.
4. The frame is sent through the controller’s acceptance fi lter
mechanism. If this frame is rejected, it is discarded. If accepted,
it is sent to the controller FIFO memory. If the FIFO is full, the
oldest frame is lost.
5. The host processor is alerted when a valid frame is ready to be
read from the FIFO. This is done either by an interrupt or a bit
set in a controller register. This frame must be read as soon as
possible.
6. The host processor decides what to do with this message as
determined by your software.
Receiving notes:
•
is available. Polling is where the host processor “polls” or
continuously tests the bit mentioned in sequence 5. Polling runs
the risk of losing or “dropping” a frame but is sometimes easier to
implement and debug. Interrupts cause the processor to jump to
an interrupt handler in which the frame is read from the controller.
Using interrupts is the recommended method.
• What happens if a message is “dropped” This can cause
some problems as CAN itself does not have a mechanism
for acknowledging a CAN frame. If desired, this must be
added to your software. In the case of Periodic Messages, it
doesn’t normally matter as a replacement message will be
along shortly.
52

• How fast do I have to read the FIFO to not drop messages
CAN controllers and their errata sheets
Test tools
Bit stuffing
Conclusion
CAN demonstration software
®
www.digikey.com/microcontroller
53

STMicroelectronics CAN controller for Cortex-M3 processors
Shown is a block diagram of the CAN controller. Here are the main
points of all CAN controllers:
1. I/O Pins: These connect to the CAN transceiver chip pins R and D
as previously described.
2. Parallel-Serial Converters: CAN is a serial bus while the
processor is parallel. Conversion happens here.
3. Tx mailbox: The messages to be transmitted are written here. ID,
data (if any) and the DLC go here.
4. Acceptance Filter: This passes only specifi ed messages to the
processor via the FIFOs. By default at RESET, these fi lters pass
all messages to the FIFOs. Your software must confi gure them to
fi lter messages.
5. FIFO 0 & 1: Each Receive FIFO can hold three CAN messages.
They provide a buffering system to the processor.
6. Control, Status, Confi guration registers: Your software
must confi gure these registers, usually at initialization.
Various fl ags and switches are found here. Examples are
set CAN speed, request transmission, manage receive
messages, enable interrupts and obtain diagnostic
information. Keil provides examples on how to set and use
these registers.
All CAN controllers have the same basic architecture. Different
controllers will have differences in the number of receive FIFO
buffers, transmit buffers, size of acceptance fi lters and the bit
mapping, addresses and defi nitions of the various confi guration
registers. All CAN controllers are licensed by Robert Bosch GmbH
in Germany and therefore they are able to exert considerable
control over basic CAN attributes to make them consistent with
various manufacturers.
This means that all CAN controllers can communicate with other
brands in a reliable and predictable manner.
Figure 4: STMicroelectronics CAN controller for Cortex-M3 processors.
Keil example CAN program
1. Start μVision by clicking on its
icon on your Desktop.
2. Select Project/Open Project. Open the fi le C:\Keil\ARM\Boards\
Keil\MCBSTM32\CAN\CAN.Uv2.
3. Make sure “Simulator” is selected in the Target window.
4. There is a typo in a source fi le. In the fi le CanDemo.c,
go to line 126. It will probably be:
delay (45000000); // Wait for initial display (~5s)
This delay will be too long. Please change this to a lower value.
45000 works well.
5. Compile the source fi les by clicking on the Build icon.
They will compile with no errors or warnings.
6. Click on the Options for Target icon.
Then, select the Debug tab and confi rm
“Use Simulator” is checked.
7. Enter the Debug mode by clicking on the debug icon.
Select OK when the Evaluation Mode box appears.
8. Position the Toolbox, CAN: Communication and CAN: Controller
windows as appropriate.
9. Click on the RUN icon.
Note: Stop the program
with the STOP icon.
10. Note CAN messages with an ID of 0x21 will appear in the CAN:
Communications window. You can see both the transmit and
receive frames. The CAN controller is in a special Test Mode that
allows it to see its own messages.
11. In the Toolbox window, click on the
“Analog Sweep 0…3.3 V” button.
12. Changing data values representing output from the A/D convertor
will now appear in the CAN messages.
The Keil CAN demonstration software: How it works…
Keil provides a working CAN example with their development tools.
You have already compiled and run this example. You can view and
edit the C source fi les whether in debug mode or not, but to compile
them you must not be in debug mode. This example uses almost no
assembly code as it is (nearly) entirely written in C. Any source fi le
can be opened in μVision, if not already visible, by clicking on File/
Open and selecting it. There are three source fi les we will look at:
Can.h: This fi le defi nes a structure to contain the information used to
construct the CAN frame and create two instances of it.
Can.c: This C code initializes the CAN controller, writes and transmits
a message, receives a message, confi gures the Acceptance Filters
and provides the transmit and receive interrupt handlers.
CanDemo.c: The main function is located in this fi le. CanDemo.c is
the heart of the demonstration program and calls the functions in
Can.C.
54

1) Can.h
The CAN structure CAN_Msg: (lines 23-29, 42 & 43)
The structure declaration in Can.h is shown. You should now be able
to recognize each of these elements. You can enter either an 11- or
29-bit identifier. Two instances of CAN.msg are invoked and are
shown below: CAN_TxMsg and CAN_RxMsg. CanDemo.c writes to
these to create the CAN messages with data.
The prototypes for functions used in Can.c are listed in Can.h in lines
32 to 40. These are visible in μVision.
23 typedef struct {
24 unsigned int id; // 29 bit identifier
25 unsigned char data[8]; // Data field
26 unsigned char len; // Length of data
field in bytes
27 unsigned char format; // 0 - STANDARD,
1- EXTENDED
IDENTIFIER
28 unsigned char type; // 0 - DATA FRAME,
1 - REMOTE FRAME
29 } CAN_msg;
42 extern CAN_msg CAN_TxMsg; // CAN message for
sending
43 extern CAN_msg CAN_RxMsg; // CAN message for
receiving
2) Can.c
Configuring the CAN controller (Can.C)
There are several things that must be done to properly configure the
CAN controller. These are done in Can.C by functions that are called
by CanDemo.c. Examples are found in the function CAN_setup as
shown in μVision:
1. Enable and set the clock for the CAN controller. The clock must
be stable for CAN. No R-C oscillators here.
2. Configure GPIO ports PB8 and PB9 for the transmit and receive
lines to the transceiver chip.
3. Enable the interrupts for the transmit and receive functions.
4. Set CAN_BTR: This is a 32 CAN controller register in which things
such as bit timing, bus frequency, sample point and silent and
loop back modes are set. In the Keil example, the baud rate is
set to 500 Kbps. All CAN controllers on a network should have
consistent BTR values for stable operation.
Sometimes timing settings can cause strange problems. If you
experience some unusual problems, you might want to study CAN
timing in greater detail. For small systems, the default settings
or those suggested by the processor manufacturer will work
satisfactorily. You can adjust these settings for the most robust
bus performance.
All CAN controllers have the same general settings for bit timing
because of the licensing agreements with Robert Bosch GmbH.
For a detailed explanation of CAN bit timing, see www.port.de/pdf/
CAN_Bit_Timing.pdf, and for the calculations, see page 505 of the ST
Reference Manual RM0008.
Other functions in Can.c
• CAN_start: Starts the CAN controller by ending the
initialization sequence.
• CAN_waitReady: Waits until transmit mailbox is ready – then can
add another message to be transmitted.
• CAN_wrMsg: Writes a message to the CAN controller and transmit it.
• CAN_rdMsg: Reads a message from the CAN controller and
releases it to be sent to the STM32 processor.
• CAN_wrFilter: Configures the acceptance filter. This is not
discussed in this article.
• USB_HP_CAN_TX_IRQHandler: The transmit interrupt handler.
• USB_LP_CAN_RX0_IRQHandler: The receive interrupt handler.
These functions are called by CanDemo.c and in the main function.
3) CanDemo.c
This contains the main function and contains the example program that
reads the voltage on the A/D converter and sends its value as a CAN
data byte with an 11-bit ID of 0x21. CanDemo.c contains functions to
configure and read the A/D converter, display the A/D values on the LCD
and call the functions that initialize the CAN controller.
Transmitting a CAN Message:
Lines 131 to 135 put the frame values into the structure CAN_TxMsg.
(Except for the data byte from the A/D converter.)
131 CAN_TxMsg.id = 33; // initialise
message to send
132 for (i = 0; i < 8; i++) CAN_TxMsg.data[i] = 0;
133 CAN_TxMsg.len = 1;
134 CAN_TxMsg.format = STANDARD_FORMAT;
135 CAN_TxMsg.type = DATA_FRAME;
This CAN message will send one data byte. For example, if you
change the value in the member CAN_TxMsg.len to “3,” three data
bytes will be sent on the bus. What data will be in them depends on
the contents of the array CAN_TxMsg.data.
If you send more data bytes than you have data, it is a good idea to fill
the empty data bytes with either 0 or 0xFF.
141 CAN_TxMsg.data[0]= adc_Get (); // data[0] field
= ADC value
142 CAN_wrMsg (&CAN_TxMsg); // transmit
message
143 val_Tx= CAN_TxMsg.data[0]; // send to LCD
screen
Line 141 puts the A/D value into the data member CAN_TxMsg.data in
data byte 0 and line 142 transmits it.
www.digikey.com/microcontroller
55

Receiving a CAN Message:
Lines 148 to 151 indicate when a CAN message is received, but
something more must be going on here. Line 151 shows that the data
byte received and inserted in the array[0] is sent to be displayed on
the LCD. How exactly does the CAN data byte get into the member
array CAN_RxMsg.data[0]
If you right click on line 210 and select Show Source at Current Line,
this will be displayed in the source fi le.
148 if (CAN_RxRdy) {
149 CAN_RxRdy = 0;
151 val_Rx = CAN_RxMsg.data[0];
It was stated earlier in this article that the function to read the CAN
data was located in Can.c. If we look in Can.c, we fi nd the function
CAN_rdMsg at lines 130 to 159. Examining it, clearly it is here that
the array[0] is loaded at line 148. How does this function get called
It is not called from CanDemo.c.
If we set a breakpoint on Can.c line 132 (the fi rst assembly instruction
of the function CAN_rdMsg) by double-clicking on the left side of Line
132, we can check the Call Stack window to see from where it was
called. This is shown in the screen shot below. This would indicate
line 148 in the main function called CAN_rdMsg. Examining the
assembly code at line 148 shows this cannot be true.
We can use the Trace function of μVision that is available in Simulator
mode to fi gure out how CAN_rdMsg is called.
Figure 5: CAN Call Stack window.
1. Click on Enable Trace Recording icon.
2. Run the program to the breakpoint set previously at line 132.
3. Click on View Trace Records.
View the Disassembly window
that opens up as shown in next window.
The yellow arrow points to the start of the function CAN_rdMsg. The
arrow represents the program counter.
The grey area shows a recording of the instructions that were
executed. The white area displays unexecuted instructions.
Just before line 132 is the source line 213: that calls CAN_rdMsg.
This is actually the assembly instruction at addresses 0x8000A10
BL.W CAN_rdMsg. Reading higher to 210, we can see this source line
comes from the function USB_LP_CAN_RX0_IRQHandler, which is the
Receive Interrupt Handler in Can.c.
So, this interrupt handler called the function that reads the CAN frame
from the CAN controller and inserts it into the structure.
Figure 6: Trace Window showing source code behind current instruction.
If you have more than one CAN controller in your processor, you can
operate these as parallel receivers. Divide the messages with the
Acceptance Filters. This will help capture all the messages on a very
busy bus without losing any. Each CAN controller will handle its share
of the messages. This effectively multiplies the number of FIFO buffer
memories and is an excellent method of getting all the CAN frames.
Exception, PC and data tracing
The ST Cortex-M3 processor possesses signifi cant debugging
capabilities. These features are grouped under the Serial Wire Viewer
and are supported by Keil μVision and the USB-JTAG adapter ULINK2
and ULINK-ME. Recall that Can.c contains two interrupt handlers: for
transmit and receive. These can be displayed in real-time (no CPU
cycles are stolen) in the Trace Records window as shown below. This
works only with a real target Cortex-M3 connected to μVision with a
ULINK2 or ULINLK-ME USB to JTAG adapter.
The Serial Wire Viewer can be used to display PC samples, data read
and write cycles, exceptions and other events. The ITM is a print type
instrumentation output.
To show our example using the Serial Wire Viewer and a STM32 chip:
1. Connect an STM32 processor to μVision and run the same CAN
program using the ULINK Cortex debugger.
2. Activate the Serial Wire Viewer as described in the appendix of
www.keil.com/download/fi les/labst.pdf.
3. Confi gure the Logic Analyzer to display CAN_RxMsg.data[0].
This will also display it in the Trace Records.
4. Set a breakpoint at the instruction at line 148in Can.c. This is the
fi rst instruction after the write to the array CAN_RxMsg. data[0].
This is needed because the instruction the breakpoint is set on is
not executed. We want to see and record this write, so we must
execute this source line.
5. Run the program to the breakpoint. The resulting Exception Trace
window is displayed in Figure 7.
Figure 7: Exception Trace window.
56

Two IRQ events are shown. Note an IRQ is a subset of Exceptions.
Referring to the ST RM0008 reference manual, IRQ 19 is the CAN
Transmit IRQ and IRQ 20 is the Receive IRQ. The Trace Records
window will also be displayed (Figure 8).
Figure 8: Trace Records window.
We can see the following lines:
• 3rd and 4th Line: Exception Entry and Exit: 35: This is the
transmit IRQ. Translate the 35 into IRQ19 in the Exception Trace
window (Figure 6).
• 5th Line: Exception Entry: 36: This is the entry of the receive
IRQ 20 – this is the Receive IRQ Handler.
• 6th Line: Data Write: The value 0x8F is written to address
0c2000004C by the instruction at 0x8004910. You can confi rm
that these values represent an assembly instruction that is
part of source line 148 and that the address written to is
CAN_RxMsg.data[0].
That fi nishes a partial demonstration of the Serial Wire Viewer
trace feature of the Cortex-M3 processor. Visit www.keil.com for
more information concerning the Serial Wire Viewer interface in
Cortex-M3 processors.
An example CAN network
Figure 9 shows a real two-node CAN network using Keil
MCBSTM32 (right) and the MCBSTM32E evaluation boards using the
same example code discussed in this article. The Tx of one node is
transmitted to the Rx of the other node and this is clearly seen on
the LCDs.
Note the twisted differential pair of wires CAN Hi and CAN Lo.
Note that no ground wire is used in this small network.
This setup is part of the Keil lab available for the STM32:
www.keil.com/download/fi les/labst.pdf. Full details are in the lab.
How can I learn more about these CAN examples
With a hardware board, you can generate and receive real CAN
messages and connect to other nodes or a CAN test analyzer. The lab
for the Keil MCBSTM32 board has instructions on how to do this.
This document has some interesting CAN examples. For instance, you
can use the Cortex-M3 Serial Wire Viewer to see the CAN messages
and interrupts displayed in real-time. You can compile these examples
with the evaluation version of the software. Please see www.keil.com/
download/fi les/labst.pdf.
STMicroelectronics supplies a complete software library for
all their peripherals in the STM32 family using the Cortex-M3
processor. This includes CAN support. Search www.st.com/stm32
for STM32F10xFWLib. A zip fi le, UM0427.zip, and an application
note, UM0427.pdf, are available. Keil μVision project and source
fi les are included. There is no charge for these libraries. Keil
uses portions of these libraries in their own examples programs.
These are identifi ed by the letters STLIB in the Keil μVision
project fi lename.
Keil makes NXP evaluation boards with CAN examples. Luminary
Micro also offers some with CAN controllers that are supported
by Keil examples. You now know how CAN works and are familiar
with the Keil software and will have no problem getting a real CAN
system operating. You have already run an accurate simulation
of a CAN network. If you obtain real target hardware, such as the
MCBSTM32, you can also connect up to any CAN network and
communicate with it.
Keil offers a complete CAN stack for all ARM7, ARM9 and
Cortex-M3/M1 processors. This comes as part of RL-ARM. (Please
visit www.keil.com/rl-arm/ for more information.) This comprehensive
package contains the RTX RTOS source (the actual RTOS is already
included free with the MDK toolset), USB, TCP/IP networking and the
CAN interface.
MCBSTM32E Evaluation Board (MCBSTM32EXL-ND)
The Keil MCBSTM32E Evaluation Board introduces you to
the STMicroelectronics Cortex-M3 family of ARM devices
and allows you to create and test working programs for
this advanced architecture. Featuring a QVGA LCD display
plus a wide range of
interfaces such as USB,
CAN, MicroSD Card and
UART, the MCBSTM32E is
a great starting point for
your Cortex-M3 project.
Figure 9: A two node CAN network using Keil MCBSTM32 and the MCBSTM32E
evaluation boards.
www.devtoolsxpress.com
www.digikey.com/microcontroller
57

Power Debugging ARM Cortex-M3
and Cortex-M4 Applications
by Lotta Frimanson and Anders Lundgren, IAR Systems
Your application is now working properly,
but you’re still over your power budget.
This article shows you how to debug that
problem, too.
Power debugging is a recent innovation that provides software
developers with information about how the software implementation
in an embedded system affects system-level power consumption. By
coupling source code to power consumption, testing and tuning for
power optimization is enabled.
Long battery lifetime is a very important factor for many embedded
systems in almost any market segment--medical, consumer
electronics, home automation, and many more. Power consumption
has traditionally been a design goal that only the hardware developers
have been able to infl uence. But in an active system, power
consumption depends not only on the design of the hardware but also
how it is used, which in turn is controlled by the system software.
The technology for power debugging is based on the ability to
sample power consumption and correlate each sample with the
program’s instruction sequence and hence with the source code.
One diffi culty is achieving high precision sampling. It would be ideal
to be able to sample power consumption with the same frequency
the system clock uses, but power system capacitances reduce the
reliability of such measurements. Usually this is not a problem since
from the software developer’s perspective, it is more interesting
to correlate the power consumption with the source code and
various events in the program execution rather than with individual
instructions, so the resolution needed is much lower than one
sample per instruction.
Typically within the debug probe, a resistor is connected in series with
the supply to the development board. The voltage drop across this
resistor is measured, fed to a differential amplifi er and then sampled
by an A/D converter.
The key to accurate power debugging is a good correlation between
the instruction trace and the power samples. The best correlation can
be achieved if a complete instruction trace is available, as is the case
for ARM MCUs with ETM (Embedded Trace Macrocell) support. The
drawback with using ETM is that it requires a special debug probe
and ETM support in the device itself.
Figure 1: The debug module on Cortex-M3/M4.
Less accurate but still giving good correlation is to use the PC (Program
Counter) sampling facility available in the ARM Cortex-M3/M4 cores
(Figure 1). The DWT (Discrete Wavelet Transform) module implements
the PC sampler; it samples the PC periodically around 10,000 times per
second and triggers an ITM (Instrumentation Trace Macrocell) packet for
each sample taken. The ITM is the formatter for events originating from
the DWT. It packetizes the events and timestamps them. The debug
probe (J-Link Ultra) samples the power consumption of the device using
an A/D converter. By time stamping the sampled power values and the
PC samples, the debugger is able to present power data on the same
time axis as graphs like the interrupt log and variable plots as well as to
correlate power data with the source code.
As stated before, power debugging is based on the ability to sample
the power consumption and correlate each sample with the source
code. For example, in IAR Embedded Workbench the power samples
can be displayed in different formats. The Power Log window (Figure
2) is a log of all collected power samples. This window can be useful
to fi nd peaks in the power sampling, and since the power samples are
correlated with the executed code it is possible to double-click on a
value in the Power Log window and get to the corresponding code.
Figure 2: Power Log window.
58

Figure 3: Timeline window.
Another way of viewing the power samples is via the Timeline window
(Figure 3). In the Timeline window, the power samples are displayed
on a time scale together with the call stack and up to four application
variables that you can select.
Power profiling
On a Cortex-M3 device the debugger can utilize the PC sampling
possibility in the DWT module. This allows the debugger to sample the
PC and provide statistical profiling. The profiler finds the function that
correlates with the sampled PC value and builds an internal database
of how often the functions are executed to generate function profiling
information. The profiling information for each function in an application
will be displayed in a debugger while the application is running.
Low-power mode diagnostics
Many embedded applications spend most of their time waiting for
something to happen: receiving data on a serial port, watching an
I/O pin change state, or waiting for a time delay to expire. If the
processor is still running at full speed when it is idle, battery life is
being consumed while very little is being accomplished. So in many
applications, the microprocessor is only active during a very small
amount of the total time and by placing it in a low-power mode during
the idle time the battery life can be extended by orders of magnitude.
One approach is to have a task-oriented design and to use an
RTOS; in a task-oriented design a task can be defined with the
lowest priority and it will only run when there is no other task that
needs to run. This idle task is the perfect place to implement power
management. In practice every time the idle task is activated it puts
the processor into a low-power mode. Many microprocessors and
other silicon devices have a number of different low-power modes in
which different parts of the processor can be turned off when they are
not needed. The oscillator can, for example, be turned off or switched
to a lower frequency; peripheral units and timers can be turned
off; and the CPU then stops executing instructions. The different
low-power modes have different power consumption rates based on
which peripherals are left on.
Interrupt handling
In an event-driven system, for example, when the system is activated
the power consumption increases as the MCU comes into active
mode along with any peripheral devices. Once execution is suspended
by an interrupt with a higher priority, any peripheral devices that were
already active are not turned off, even though the thread with the
higher priority is not using them. Instead more peripheral devices may
be activated by the new thread, further pushing up consumption.
Even though system performance might be good, more optimizations
can still be made in the power domain. Power debugging will make it
easier to discover the extraordinary increase in power consumption
that occurs when an interrupt hits and identifies it as abnormal. A
closer examination of the Timeline window could have shown that
unused peripheral devices were activated and consuming power for a
longer period than necessary.
DMA versus polled I/O
DMA has traditionally been used to increase transfer speed. In the
MCU world chip vendors have invented a plethora of DMA techniques
to increase flexibility and speed and to lower power consumption. In
some architectures the CPU can even be put into sleep mode during
the DMA transfer. Power debugging allows the developer to experiment
and see directly in the debugger what effects these DMA techniques
will have compared to a traditional CPU-driven polled approach.
Finding conflicting hardware setups
To avoid floating inputs it is a common design practice to tie unused
MCU I/O pins to ground. If the software by mistake configures one of
the grounded I/O pins as a logical ‘1’ output, a current as high as 25
mA may be drained on that pin. This high unexpected current is easily
observed by reading the current value from the power graph; it is also
possible to find the corresponding erratic initialization code by looking
at the power graph at application startup. A similar situation will arise
if an I/O pin is designed to be an input and is driven by an external
circuit, but the software incorrectly configures the input pin as output.
Waiting for device status
One common mistake that could cause unnecessary power to be
consumed is to use a poll loop to wait for a status change of, for
example, a peripheral device. While code constructions execute
without interruption until the status value changes into the expected
state. Another related code construction is the implementation of a
software delay as a for or while loop.
In both of these situations the code could be changed to minimize the
power consumption. Time delays are better implemented by using a
hardware timer. The timer interrupt is set up and after that the CPU goes
into a low-power mode until it is awakened by the interrupt. Also a polling
of a device status change should be solved with interrupts if possible or
by using a timer interrupt so that the CPU can sleep between the polls.
Depending on the characteristics of the embedded system it could
be difficult to find these situations using power debugging. One way
forward is to use the different power debugging windows to get to
know the power profile of the application so that abnormal behavior
can more easily be identified.
Finally, power debugging allows the developer to verify the power
consumption as a factor of the clock frequency. A system that spends
very little time in sleep mode at 50 MHz is expected to spend 50 percent
of the time in sleep mode when running at 100 MHz. The power data in
the debugger will allow the developer to verify expected behavior and
if nonlinear dependency on the clock frequency exists, to choose the
operating frequency that gives the lowest power consumption. Power
consumption in a CMOS MCU is theoretically given by the formula:
PPPP = ffff ∗ UUUU2 ∗ kkkk
where f is the clock frequency, U is the supply voltage and k is a
constant.
www.digikey.com/microcontroller
59

Analog interference
Mixing analog and digital circuits on the same board has its own
challenges. Board layout and routing become important in order
to keep the analog noise levels at a low level in order to ensure
accurate sampling of low-level analog signals. Doing a good
mixed-signal design requires careful hardware considerations and
skills. Software design can also affect the quality of the analog
measurements. Performing a lot of I/O activity at the same time
as sampling analog signals will cause many digital lines to toggle
state at the same time – a candidate for introducing extra noise
into the A/D converter.
Power debugging will help to identify interference from digital and
power supply lines affecting the analog parts. Interrupt activity
can easily be displayed in the Timeline window together with
power data. Be sure to study the power graph right before the A/D
converter interrupts. Power spikes in the vicinity of A/D conversions
could be the source of noise and must be investigated. All data
presented in the timeline window is correlated to the executed
code; simply double-clicking on a suspicious power sample will
bring up the corresponding C source code.
Conclusion
Power debugging techniques provide embedded developers the
ability to understand the effect of source code on their application’s
power consumption. By careful analysis of power “hot spots” and
the review of programming methods used, engineers can make
signifi cant battery lifetime savings even during the early stages of
project development.
Figure 4: Power spike due to stepper motor interfering with A/D-sampling.
We’re changing how engineers think about
design using Cortex-M0 solutions with:
Lowest active power – as low as 130 μA/MHz
Superior Code Density – 50% less code for most tasks
Higher performance – LPC1100 runs at over 45 DMIPS
Smallest size – the LPC1102 has a footprint of 5 mm 2
Low-cost toolchain – LPCXpresso for less than $30
Cortex-M0: a simple choice
www.digikey.com/nxp-mcu
60

The Heartbeat Behind Portable
Medical Devices: Ultra-Low-Power
Mixed-Signal Microcontrollers
by Shahram Tadayon, Silicon Laboratories
Low-power, low-noise, low-cost MCUs are
powering the next generation of portable
medical devices.
The proliferation of sophisticated yet affordable personal medical devices is
transforming the health care industry, enabling consumers to monitor vital
signs and other key aspects of their health at home and on the go without
costly and inconvenient visits to the doctor’s office. According to Gartner,
Inc., portable consumer medical devices such as blood glucose monitors,
blood pressure monitors, insulin pumps, and heart rate monitors, represent
the fastest-growing segment in the medical equipment market. A recent
medical semiconductor report by Databeans projects that the home medical
device segment will experience a compound annual growth rate (CAGR) of
nine percent over the next five years.
The explosive growth of the personal medical device market stems
from a variety of factors: a steadily “graying” (aging) population
requiring more frequent health monitoring; skyrocketing costs of
traditional physician-directed medical care; growing consumer
awareness of the benefits of wellness products; widespread
availability of personal medical devices, both online and in
retail outlets; and the increasing sophistication, ease of use and
affordability of consumer health care products enabled by continuing
advances in semiconductor technology.
While consumer products are generally price sensitive, the consumer
portable health market adds other stringent requirements in order
for devices to be successful in the market. Above all, they must be
highly reliable and accurate in order to detect and help prevent health
problems. These requirements are regulated by government entities
such as the Food and Drug Administration (FDA) in the United States.
In order to succeed in the increasingly competitive home health care
market, portable medical devices should offer the following features:
• Ease of use
• Highly reliable and safe (government-regulated) operation
• Easy, secure connectivity
• Low-power operation (long battery life)
• Support for a wide range of voltages (especially lower voltages)
• High measurement accuracy
• Small form factors
• Affordable cost
To be able to deliver this array of product features to consumers at
economical prices, medical device developers must reduce system
cost by limiting the number of discrete components within the
design. Semiconductor suppliers also are tasked with supplying
highly integrated embedded control solutions that enable increased
performance and reliability within strict power and cost budgets.
At the heart of these portable device designs are highly integrated
mixed-signal microcontrollers (MCUs) designed to deliver exceptional
processing performance at the lowest supply currents.
Ease of use is essential for all portable medical products because it
reduces errors in measurement resulting from operator error. Such
devices should require minimal user interaction for proper operation,
simple user input (for example, fewer buttons and simpler software
menus) and large, backlit easy-to-read displays. To support these
features, MCUs must provide field-programmable, non-volatile
memory storage (typically in-system programmable flash memory),
as well as flexible I/O configurations to make the best use of a limited
number of pins.
While many portable medical devices today simply display health
monitoring results and leave the interpretation and logging to end users
and their physicians, newer devices feature simple connectivity to log
and transmit results automatically. Typically, these more sophisticated
products will connect to personal computers or mobile health
appliances with software that can track results, or they will securely
transmit information wirelessly to medical professionals, caretakers or
web-based applications – a practice known as telemedicine.
The health care equipment market has adopted an optimized USB
device standard, the Personal Health Care Device (PHCD) Class
(Figure 1), which leverages the ubiquitous USB interface to enable
standardized transmission of data and messages regardless of device
manufacturer. Moving forward, wireless transmission of data
Figure 1: USB personal healthcare device class supports easy connectivity.
www.digikey.com/microcontroller
61

will make connectivity even easier with simple, yet reliable wireless
connections for even greater convenience. MCUs will need to provide
a variety of integrated connectivity interface methods, such as
integrated USB controllers with precision oscillators.
RF transmitters and transceivers working in concert with MCUs
can enable wireless connectivity for telemedicine applications. In
addition, wireless MCUs – highly integrated devices that combine
a low-power MCU core with a high-performance RF transceiver in
the same package – are now widely available. Silicon Labs’ Si10xx
wireless MCUs, for example, provide the ultra-low-power operation
required by battery-powered portable medical applications, coupled
with extended range and exceptional RF sensitivity enabled by an
integrated sub-GHz transceiver.
Whatever the connectivity method or system architecture used,
communication protocol stacks will require more code space in the
MCU. As a result, more memory in smaller footprint devices will be in
greater demand.
While choices in high-performance, low-power MCUs and
communications options will be important, all medical devices will
need to accurately and consistently measure and some aspect of a
person’s health, be it light (for blood oxygen), conductivity (for blood
glucose), pressure (for blood pressure), or temperature. In the health
care market, there is simply no room for errors in measurement.
Mixed-signal MCUs must give superior analog voltage measurement
results in the presence of noisy digital processor and communications
signals in small spaces. This is one of the most challenging
engineering problems faced by semiconductor suppliers, and such
specifi cations will be scrutinized by product engineers, especially
when faced with low battery voltages for the IC. Measurements must
be low in noise and distortion (good signal-to-noise and distortion
ratios) and highly linear. Analog-to-digital converter (ADC) operation
must be allowed even when the MCU is in operation; the end user
will expect to observe functions during measurement, and it is likely
that the MCU will interpret results in real time. Furthermore, all chip
features should be permitted even at the lowest battery voltages;
what good is the MCU if you cannot make a measurement over the
full battery life In short, MCU suppliers in this market must integrate
accurate analog measurements without compromise.
The next design challenge for the MCU supplier is the demand for
long battery life in the end product. “Portable” generally means that
the device is battery powered. Typically, added features result in
greater power consumption, but developers will not design a portable
medical product that requires end users to use large, heavy batteries
or to change them frequently.
MCUs must support three parts of a low-power strategy: low-power
while in active mode, low-power while in standby mode and reduced
time in an active state. The portable device, and thus the MCU, will
be in an off or lower power state most of the time; however, it will
often maintain some sort of function such as a clock/calendar or
alarm when not in use. While active power consumption is important,
minimizing the time awake is the key to extending battery life. MCU
designers must engineer ways to wake the MCU clock and analog
circuits for fast measurements and then allow the MCU to settle back
to a low-power state. For example, making a voltage measurement
with an ADC requires a voltage reference. Such voltage references
typically require tens of milliseconds to turn on and stabilize before
a measurement can be made. During this time the MCU is on and
draining the battery.
Silicon Labs’ ultra-low-power C8051F9xx MCUs (Figure 2) wake up
in microseconds like many power-effi cient MCUs, but the on-chip
voltage reference is designed to also wake within 2 microseconds,
allowing accurate ADC measurements to begin quickly. The ADC is
also designed to rapidly accumulate many measurements without
CPU intervention for improved results while further minimizing time
awake. The less time awake, the less current is drawn from the
battery while giving good results.
Figure 2: Fast wake times and short operation intervals will extend battery life.
Another important trend in MCU design involves supporting new
battery use confi gurations and technologies (Figure 3). Rechargeable
batteries are popular and typically need higher voltage support, so
integrated on-chip voltage regulators are mandatory. An emerging
trend is to use only one alkaline battery to reduce product size or to
save cost when the end user expects the supplier to ship an installed
battery. Until recently, this approach required the added cost and
space of a discrete DC-DC switching regulator to boost the alkaline
battery voltage for proper MCU operation (alkaline batteries have a
useful life to 0.9 V). Not only do these switching regulators create a
large amount of noise in voltage measurements, they must remain
on at all times to allow the MCU to wake from sleep mode, thereby
draining power and reducing battery life.
Sophisticated low-power MCUs such as Silicon Labs F9xx devices include
an integrated DC-DC regulator that addresses these issues. The result is
lower noise, less cost, reduced footprint, and better control, allowing the
DC-DC regulator to be off while the MCU is in its low-power state, thus
extending battery life. Even though this DC-DC regulator is integrated, it
should still output the boosted voltage supply externally to the rest of the
system for a true low-power, single-battery solution.
Figure 3: MCUs should support a wide range of voltages supplied by batteries.
62

While MCU suppliers continue to innovate and integrate powerand
battery-saving features, the trend toward energy effi ciency
would not be fully advantageous if the cost and footprint of
the MCU grew substantially. The goal is to help the embedded
developer deliver a lower cost, smaller end product as well as
reduce power consumption. Such solutions must reduce the bill
of materials and device size. The best MCUs will deliver plenty
of performance, integrated connectivity, memory and superior
analog peripherals in the smallest form factors. In other words,
semiconductor suppliers must provide increased functional
density without compromise.
Note the ultra-low-power MCU example in Figure 4 – 64 kB of fl ash
code storage, 4 kB of data RAM, an ADC, and two voltage regulators
(LDO and DC-DC boost convertor) within a 4 mm x 4 mm footprint
(in some cases even smaller). This compact mixed-signal MCU
design allows a complete measurement and interface system on a
single chip without sacrifi cing performance or battery life. Product
designers will be careful to choose MCUs like this with the right set
of peripherals to obtain the optimal cost/performance benefi t.
Embedded developers and product managers are under
continuous pressure to push the envelope of reduced cost, size,
power consumption, and increased performance in their portable
medical device designs. The answer is to use highly integrated
mixed-signal MCUs to deliver products to a market that demands
the very best in performance and affordability in the smallest form
factors. Functionally dense mixed-signal MCUs will provide the
heartbeat for the next generation of portable medical devices, and
health care equipment makers that deliver optimized products that
meet consumer needs will enjoy the benefits of this fast-growing
market segment.
Figure 4: F9xx ultra-low-power MCU architecture.
megaAVR: The Next Step in Capacity and Performance
When your designs need some extra muscle, you need the megaAVR. Ideal for
applications requiring large amounts of code, the megaAVR offers substantial
program and data memories with performance up to 20 MIPS. Innovative
picoPower technology minimizes power consumption. All megaAVRs offer
self-programmability for fast, secure, cost-effective in-circuit upgrades. You
can even upgrade the fl ash while running your application.
Based on industry-leading, proven technology, the megaAVR family offers our
widest selection of devices in terms of memories, pin counts and peripherals.
Choose from general-purpose devices to models with specialized peripherals
like USB, or LCD controllers, or CAN, LIN and Power Stage Controllers. It’s
easy to fi nd the perfect fi t for your project in the megaAVR product family.
Key Features
• Broad family — megaAVR offers our widest selection of devices in
terms of memories, pin counts and peripherals, enabling reuse of code
and knowledge across projects.
• picoPower technology — Selected megaAVR features ultra-lowpower
consumption and individually selectable low-power sleep modes
that make it ideal for battery-powered applications.
• High integration — The megaAVR features on-chip fl ash, SRAM,
internal EEPROM, SPI, TWI, and USART, USB, CAN, and LIN, watchdog
timer, a choice of internal or external precision oscillator, and general
purpose I/O pins, simplifying your design and reducing bill-of-materials.
• Analog functions — Advanced analog capabilities, such as ADC, DAC,
built-in temperature sensor and internal voltage reference, brown
out detector, a fast analog comparator and a programmable analog
gain amplifi er. The high level of integration allows designs with fewer
external analog components.
• Rapid development — megaAVR microcontrollers speed development
with powerful in-system programming and on-chip debug. In addition,
in-system programming simplifi es production line programming and
fi eld upgrades
www.digikey.com/atmel-mcu
www.digikey.com/microcontroller
63

USB 3.0—
Are We There Yet
by John Donovan, Low-Power Design
SuperSpeed USB may be slow out of the blocks,
but with a 10x speed advantage and lower power
profile than its predecessors, its compelling
advantages make it look like a sure winner.
Firewire 800
Firewire 400
0.2
0.2
49.6
31.6
39.3
39.9
40
73.6
74.5
75.8
If there was a universal serial bus in 1995, it was RS-232. Every PC in the
world had one, although you could connect only one device to it at a time.
Reconfiguring the port for new devices and/or applications required you
to either be a “power user” or have an engineering degree.
In January 1996, Intel introduced the Universal Serial Bus (USB), a
bidirectional, low-cost, low- to mid-speed peripheral bus that could
support as many as 127 devices, all of which could be added to the
bus in “plug-and-play” (initially “plug-and-pray”) fashion. USB 1.0
supported a data transfer rate of 12 Mb/s, which worked well for disk
drives. In 1998, USB 1.1 added a slower (1.5 Mb/s) rate to support
keyboards, mice, and other human-interface devices (HID).
Addressing the need for speed, the USB 2.0 specifi cation was released
in 2000 and standardized in 2001, promising a data rate of 480 Mb/s.
However, because of the overhead involved in the protocol and USB’s
heavy reliance on the processor for transaction arbitration and scheduling,
speeds closer to half that rate were more typical. Still, a theoretical 40x
increase in bus speed in four years was pretty impressive.
USB has since become the most successful PC peripheral
interconnect ever defi ned, with over 10 billion USB 2.0 products
installed today, a number that is rising rapidly. In-Stat predicts that
nearly 4.5 billion USB ports will ship in 2014, of which 1.7 billion will
support the new “SuperSpeed” USB 3.0 spec.
Facing competition from other high-speed interconnect protocols
(Figure 1), like 400 and 800 Mbps IEEE-1394 (FireWire) and HDMI
(both of which targeted high-data rate streaming of video), the USB
Implementers Forum (USB-IF) formalized the specifi cation for USB 3.0
in 2008, which promises a “SuperSpeed” data rate of 5 Gb/sec, a 10x
improvement over USB 2.0.
Design goals
With USB 2.0 having become universal, the key goal was to make
it faster. Since smart phone users can now sideload video fi les ten
times faster, this will supposedly keep HDMI or FireWire sockets from
proliferating on these devices.
SATA 3Gbps (direct)
eSATA
USB 2.0
Access Time (ms)
Average Read (MB/s)
Read Burst (MB/s)
Max Read (MB/s) USB 3.0
Min Read (MB/s)
The primary goals for USB 3.0 are to:
• Preserve the USB model of smart host and simple device.
• Leverage the existing USB infrastructure. This means
maintaining the same software architecture and easing the
migration from legacy products.
• Improve power management.
• Maintain ease-of-use.
• Preserve users’ investment in USB 2.0 devices.
0.1
0.1
0.2
0.1
0 50
29.8
36.3
36.8
36.8
Figure 1: Communications protocols speed comparison.
With minor modifi cations, USB software stacks will continue to
recognize the following three device classes:
• Communications Device Class (CDC), which presents the USB
port to an application as a standard COM port. Supporting bulk
transfers, the CDC provides high-bandwidth with a reasonable
amount of simplicity.
• Human Interface Device (HID) Class, which supports mice,
keyboards, touchscreens and other input devices. Bandwidth is
limited to 64 kb/s.
• Mass Storage Class (MSC), which supports moving large
amounts of data to and from fl ash drives, digital cameras, and
fl ash card readers.
69.8
99.6
91.7
119.8
120
121.1
194.5
227.9
216.3
184.4
196.8
213.1
100 150 200 250
64

USB 3.0 is clearly overkill for HID applications, but it’s definitely a
new contender for embedded CDC and MSC applications, particularly
those involving streaming high-definition video. Its power advantage
over legacy USB makes it a serious consideration for portable devices.
Architectural innovations
Achieving a 10x speed improvement while reducing power
consumption involved making serious architectural changes to both
the protocol and associated hardware. At the same time, some tradeoffs
(and clever workarounds) were necessary to maintain backward
compatibility with legacy USB 2.0 products.
For starters, USB 3.0 maintains the same tiered star topology as USB 2.0,
maintaining compatibility by adding two more twisted pairs to the
cable to supplement the USB 2.0 data pair, which is left untouched.
The two additional signal pairs create a dual simplex SuperSpeed
data path, with one pair for transmit and one for receive. This enables
backward compatibility by including both SuperSpeed and non-
SuperSpeed bus interfaces.
Super
Speed
SuperSpeed
Extended
Connector(s)
SuperSpeed
Function
High-
Speed
SuperSpeed
Hub
Non-SuperSpeed
Full-
Speed
Non-
SuperSpeed
Function
USB 2.0
Hub
Low-
Speed
USB 3.0 Hub
USB 3.0 Host
Extended
Connector(s)
Non-SuperSpeed
(USB 2.0)
Composite Cable
USB 3.0 Peripheral Device
Note: Simultaneous operation of SuperSpeed and non-SuperSpeed
modes is not allowed for peripheral devices
Figure 2: USB 3.0 dual-bus architecture. (Used with permission from USB-IF).
Polling is also eliminated. A USB 2.0 host continuously polls all
peripheral devices to see if they have data to send to the host
controller. All devices must therefore be on at all times, which not only
wastes power but adds unnecessary traffic to the bus. In USB 3.0,
polling is replaced by asynchronous notification. The host waits until
an application tells it that there is a peripheral with data it needs to
send to the host. The host then contacts that peripheral and requests
that it send the data. When both are ready, the data is transferred.
USB 2.0 is inherently a broadcast protocol. USB 3.0 uses directed
data transfer to and from the host and only the target peripheral. Only
that peripheral turns on its transceiver, while others on the bus remain
in powered-down mode.
Numerous innovations in the USB 3.0 architecture set it apart from its
predecessors (Figure 3).
Chip to Chip Port-to-Port End-to-End
Host
Device Driver/Application
USB System Software
Notifications
Transaction
Packets
Transactions
Data
Packets
Link Management Packets
Pkt
Delims
8b/10b
encode/
decode
Spread
Clock CDR
Link Control/Mgmt
Link Cmds
Scramble/
descramble
LFPS
Elasticity
Buffer/Skips
Hub
Pipe Bundle (per Function Interface)
Pkt
Delims
8b/10b
encode/
decode
Default Control Pipe
Spread
Clock CDR
Link Control/Mgmt
Link Cmds
Scramble/
descramble
LFPS
Elasticity
Buffer/Skips
Notifications
PHY
The SuperSpeed USB physical connection is comprised of two
differential data pairs: one transmit path and one receive path, both
operating at 5 GB/s. Each differential link is initialized by enabling
its receiver termination. In the absence of signaling, low frequency
periodic signaling (LFPS) is used to signal initialization and power
management information. Data is packetized and passed directly to
the intended receiver. Since USB 3.0 does not include a reference
clock, each PHY has its own clock domain with spread spectrum
clocking (SSC) modulation. The transmitter encodes data and control
characters into symbols using an 8b/10b code, ensuring enough
transitions that the receiver can accurately recover clock and data.
Link layer
SuperSpeed USB moves firmly into the realm of high-speed packet
processing. The link layer handles link initialization and flow control,
packet framing, link power management and error detection, and
recovery. There are separate Link Management Packets (LMP),
Transaction Packets (TP), Isochronous Timestamp Packets (ITP) and
Data Packets (DP); all start with a distinct 14 byte header packet,
consisting of 12 bytes of header information and a two byte CRC-16
code. This is not your dad’s USB.
Protocol layer
SuperSpeed USB is not a polled protocol, as devices may
asynchronously transmit notifications to the host. Host-transmitted
protocol packets are routed through intervening hubs, taking a direct
path to a peripheral device. The transmitter can transmit multiple
bursts of back-to-back sequences of data packets, while the receiver
can simultaneously transmit data acknowledgements without
interrupting the burst of data packets. This is a far more efficient use
of bus bandwidth than the half-duplex, non-bursting nature of traffic
on earlier USB buses.
Table 1 summarizes the main differences between high-speed USB
2.0 and SuperSpeed 3.0.
Power management
First, SuperSpeed makes more power available to connected
devices. The amount of power available on the USB bus (for
recharging cell phones and other portable devices, for example)
is increased from 5 V @ 500 mA in USB 2.0 to 5 V @ 900 mA for
USB 3.0. This is a distinct advantage as more portable devices have
come to rely on the USB bus not just for data transfer but also for
battery recharging.
Device
Transaction
Packets
Function
Device
Transactions
Data
Packets
Link Management Packets
Pkt
Delims
8b/10b
encode/
decode
Spread
Clock CDR
Link Control/Mgmt
Link Cmds
Scramble/
descramble
LFPS
Elasticity
Buffer/Skips
Figure 3: USB 3.0 logical architecture. (Used with permission from USB-IF).
USB Function
Power
Management
USB Device
Power
Management
(Suspend)
Localized
Link Power
Management
Device or Host PROTOCOL LINK PHYSICAL
www.digikey.com/microcontroller
65

Table 1: USB 2.0 versus 3.0. (Used with permission from USB-IF).
Characteristic USB 2.0 USB 3.0
Data rate Low-speed (1.5 Mbps), full-speed (12
Mbps), and high-speed (480 Mbps).
Data
interface
Cable signal
count
Bus transaction
protocol
Power
management
Bus power
Port state
Data transfer
types
Half-duplex, two-wire differential
signaling. Unidirectional data fl ow
with negotiated directional bus
transitions.
Two: two for low-/full-/high- speed
data path.
Host directed, polled traffic flow. Packet
traffic is broadcast to all devices.
Port-level suspend with tow levels
of entry/exit latency. Device-level
power management.
Support for low/high bus-powered
devices with lower power limits for
unconfigured and suspended devices.
Port hardware detects connect
events. System software uses port
command to transitions the port
into an enabled state (USB data
communication fl ows).
Four data transfer types: control,
bulk, Interrupt, and Isochronous.
SuperSpeed (5.0 Gpbs).
Dual-simplex, four-wire differential
signaling separate from USB
2.0 signaling. Simultaneous
bi-directional data fl ows.
Six: four for SuperSpeed data path.
Two for non-SuperSpeed data path.
Host directed, asynchronous traffi c
fl ow. Packet traffi c is explicitly routed.
Multi-level link power management
supporting idle, sleep, and suspend
states. Link-, Device-, and Functionlevel
power management.
Same as for USB 2.0 with a 50%
increase for unconfigured power and
an 80% increase for configured power.
Port hardware detects connect
events and brings the port into
operational state ready for
SuperSpeed data communication.
USB 2.0 types with SuperSpeed
constraints. Bulk has streams
capability.
More importantly, SuperSpeed USB enables considerable power
savings by enabling both upstream and downstream ports to initiate
lower power states on the link. In addition, multiple link power
states are defi ned, enabling local power management control and,
therefore, improved power usage effi ciency. Eliminating polling
and broadcasting also went a long way toward reducing power
requirements. Finally, the increased speed and effi ciency of USB
3.0 bus, combined with the ability to use data streaming for bulk
transfers, further reduces the power profi le of these devices.
Typically, the faster a data transfer completes, the faster system
components can return to a low-power state. The USB-IF estimates
the system power necessary to complete a 20 MB SuperSpeed data
transfer will be 25 percent lower than is possible using USB 2.0.
The SuperSpeed specifi cation brings over Link Power Management
(LPM) from USB 2.0. LPM was fi rst introduced in the Enhanced Host
Controller Interface (EHCI) to accommodate high-speed, PCI-based
USB interfaces. Because of the diffi culty of implementing it, LPM was
slow to appear in USB 2.0 devices. It is now required in USB 3.0 and
for SuperSpeed devices supporting legacy high-speed peripherals.
LPM is an adaptive power management model that uses link-state
awareness to reduce power usage.
LPM defi nes a fast host transition from an enabled state to L1
Sleep (~10 µs) or L2 Suspend (after 3 ms of inactivity). Return from
L1 sleep varies from ~70 µs to 1 ms; return from L2 Suspend mode is
OS dependent. The fast transitions and close control of power at the
link level enables LPM to manage power consumption in SuperSpeed
systems with greater precision than was previously possible.
Link power management enables a link to be placed into a lower
power state when the link partners are idle. The longer a pair of
link partners remain idle, the deeper the power savings that can
be achieved by progressing from UO (link active) to Ul (link standby
with fast exit) to U2 (link standby with slower exit), and fi nally to U3
(suspend). Table 2 summarizes the logical link states.
Table 2: Logical link states. (Used with permission from USB-IF).
Link State Description Key Characteristics Device Clock Exit Latency
U0 Link active - On N/A
U1 Link idle, fast exit RX & TX quiesced On or off µs
U2 Link idle, slow exit Clock gen circuit also On or off µs-ms
quiesced
U3 Suspend Portions of device power
removed
Off
ms
Most SuperSpeed devices, sensing inactivity on the link, will
automatically reduce power to the PHY and transition from U0 to U1.
Further inactivity will cause these devices to progressively lower
power. The host or devices may further idle the link (U2), or the host
may even suspend it (U3).
Both devices and downstream ports can initiate Ul and U2 entry.
Downstream ports have inactivity timers used to initiate Ul and U2
entry. Downstream port inactivity timeouts are programmed by system
software. Devices may have additional information available that they can
use to decide to initiate Ul or U2 entry more aggressively than inactivity
timers. Devices can save significant power by initiating Ul or U2 more
aggressively rather than waiting for downstream port inactivity timeouts.
While the advantages of SuperSpeed USB are impressive, these
devices are just beginning to appear in a world dominated by USB 2.0.
For backward, compatibility SuperSpeed devices must support both
USB 2.0 and 3.0 link speeds, maintaining separate controllers and
PHYs for full-speed, high-speed and SuperSpeed links. By maintaining
a parallel system to support legacy devices, SuperSpeed’s designers
accepted higher cost and complexity as a price worth paying to avoid
compromising the speed advantage of their new architecture.
Adoption ramp
No new standard, whatever its technical advantages, is adopted
overnight. That is certainly true with USB 3.0, which needs to
see a critical mass of devices in the fi eld before it will take off.
Since consumers have long been content with USB 2.0, and since
SuperSpeed devices will initially be more expensive, consumers
will need to be convinced of compelling application benefi ts before
it is likely to see broad adoption. Streaming multimedia is almost
undoubtedly the killer app that will make this happen.
One of the major things holding back USB 3.0 is the lack of support
for it in core logic chipsets. Intel made much of its support for the
standard at IDF 2009, and there was plenty of talk about it at the
USB pavilion. However, at IDF 2010 Intel made no production silicon
announcements—reportedly because of the diffi culty of developing
bug-free silicon—and there does not appear to be any plan to include
it in either Sandy Bridge or Atom processors for the next year or so.
Intel’s apparent hesitation about supporting the standard will clearly
stall its adoption in the marketplace and give Intel-based embedded
developers pause about including it in their designs. Despite its recent
hesitation, Intel will almost undoubtedly support USB 3.0 by next year.
Meanwhile, the USB-IF announced more than 100 SuperSpeedcertifi
ed products at IDF 2010, so this train, while still getting up
to speed, has clearly left the station. It is now up to embedded
developers to determine whether USB 3.0 is appropriate for their
applications, and if so, to get on board.
66

ANNUAL
COMPONENT
REFERENCE
GUIDE
YOUR COMPLETE GUIDE TO
MICROCONTROLLER SOLUTIONS
2011

A
Analog Devices, Inc.
DSP Emulators/Programmers........201-203
ICs/Semiconductors
Microcontrollers ......................... 202-203
MicroConverters..................... 202-203
Cypress Semiconductor
Development Kits.......................... 149-152
Accessories ................................151-152
Programmers ......................149, 151-152
Software .....................................151-152
IC/Semiconductors
Microcontrollers .........................150, 152
Mixed Signal.................................. 150
PSoC® .......................................... 150
Freescale Semiconductor, Inc.
Development Tools
Development Kits ......................188, 195
Evaluation Boards/Kits .............180, 186,
.......................................188, 195, 197
Programmers .....................189, 195, 197
Software ........................................... 197
ICs/Semiconductors
Digital Signal Processors.................. 197
Microcontrollers ......................... 179-195
Microprocessors .................189-194, 196
K
Keil
C-Compiler
Evaluation Boards ............................ 200
L
SUPPLIER INDEX
SUPPLIER INDEX
D
Atmel
Development Tools and Kits
8051 Architecture................................ 93
Adapters ............................................. 89
ARM® Thumb® .................................. 84
AVR®....................................... 85, 89-90
USB .................................................... 90
FPSLIC.................................................. 85
Microcontrollers
ARM® Thumb® .................................. 84
AVR®............................................. 85-90
Battery Management ....................... 85
CAN ................................................. 86
LCD ................................................. 85
Lighting and Motor Control .............. 86
USB ................................................. 85
CAN .................................................... 91
Flash.........................................89, 91-92
Smart Card ......................................... 91
USB .................................................... 91
B
Digi International
Development Kits
Programmable Boards........................ 94
Digi-Key
Evaluation Boards ............................... 135
E
Fujitsu Microelectronics America,
Inc.
Evaluation Board ...........................177-178
Kits.................................................177-178
Microcontrollers
Graphics Display .............................. 178
Low Pin Count ............................177-178
Future Designs, Inc. (FDI)
Development Tools and Kits
Demo Boards and Kits...................... 158
Programmer Kits............................... 158
I
Logic
Microcontroller Development Kits ........ 108
Logical Systems
Programming/Prototyping Adapters ....... 82
M
Maxim Integrated Products
Integrated Circuits
Microcontrollers ................................ 153
Evaluation Kits............................... 153
MAXQ ........................................ 153
Energy Micro
BNS Solutions
Development Kits and Tools ................ 219
Cirrus Logic, Inc.
C
Development Tools and Kits ................ 219
Microcontrollers, ARM®....................... 219
Custom Computer Services (CCS)
C-Compiler .......................................... 135
Development Kits............................. 84, 93
Microcontrollers
Flash................................................... 93
Equinox Technologies
Programmers ......................................... 82
FlexiPanel
F
Microcontrollers
PIC ................................................... 135
Programmers ...................................... 82
IAR Systems Software, Inc.
C-Compiler .......................................... 200
Evaluation Boards and Kits ................. 200
Infineon Technologies
Development Kits/Tools
Development Starter Kits........... 198-199
Microcontrollers
8051 ......................................... 198, 200
C116SV1.................................... 198-199
C116SV2.................................... 198-199
TriCore .......................................... 199
Intel
MCS® 51 Microcontrollers................... 220
MCS® 96 Microcontrollers................... 220
Microchip Technology, Inc.
Development Tools ....................... 134-135
Debuggers ........................................ 134
Demo Kits......................................... 135
Device Adapters................................ 134
Emulators ......................................... 134
Processor Modules........................... 134
Programmers .................................... 134
Socket Modules ................................ 134
Software ........................................... 135
Transition Sockets ............................ 134
Microcontrollers
Application Specific ....................121-123
CAN .........................................121-122
Ethernet......................................... 121
LCD ............................................... 123
Motor Control................................. 121
USB ............................................... 122
dsPIC......................................... 126-130
16-Bit ...................................... 126-130
Extreme Low Power....................131-133
PIC
16-Bit ...................................... 123-125
32-Bit ...................................... 125-126
PIC10..............................................113
PIC12..............................................113
PIC16..........................111-112, 114-117
PIC18................................112, 117-120
www.digikey.com/microcontroller
(TZM112.US)
69

SUPPLIER INDEX
microEngineering Labs, Inc.
Compiler, PicBasic ............................... 136
N
R
Rabbit Semiconductor
Development Kits and Tools .............95-97,
.................................................... 99-100
TCP/IP ........................................... 96-97
Microprocessors ................................97-99
Sharp Microelectronics
Microcontrollers ................................... 108
Silicon Laboratories, Inc.
Texas Instruments
Development Tools and Kits
Demo Boards and Evaluation Kits
...............................................159, 170
Evaluation Kits .................................. 169
Programmers .................................... 159
Digital Signal Processors .............. 165-169
Microcontrollers ..............137-139, 159-164
ARM® .........................................137-139
Cortex ..................................137-139
Development Kits ............................. 139
Motor Control ....................................... 139
Modular Boards ................................ 139
National Semiconductor
ICs/Semiconductors
Microcontrollers ................................ 220
Development Kits................................. 107
Microcontrollers, C8051 ................. 101-106
Renesas Electronics America, Inc.
NetBurner, Inc.
Development Kits................................. 178
Microprocessor Modules ..................... 178
NXP Semiconductors
Development Tools and Kits ..........157-158
Evaluation Boards/Kits ...............157-158
Microcontrollers ............................ 154-156
P
Development Tools .............................. 219
Accessories ...................................... 219
Adapters ........................................... 219
Demo Kits ......................................... 219
Emulators ......................................... 219
Evaluation Kits .................................. 219
Software ........................................... 219
Microcontrollers/Microprocessors
.................................................. 204-219
740 .................................................... 217
H8 .............................................. 204-206
H8S ........................................... 206-209
H8SX ................................................ 209
M16C ......................................... 210-212
M32C ......................................... 212-213
R8C ........................................... 214-216
Super H ...................................217-219
Tiny ...............204-205, 211-212, 214-216
SofTec Microsystems SRL
Development Tools .............................. 178
Evaluation Kits ..................................... 178
Spectrum Digital, Inc.
Development Kits and Tools
Evaluation Boards and Kits .............. 170
DSP ............................................... 170
Toshiba America Electronic Components
Development Tools
Evaluation and Starter Kits ............... 152
Microcontroller, Flash .......................... 152
X
Xeltek
Programmers, Universal ........................ 83
Socket Adapters ..................................... 83
XMOS
Development Kits................................. 196
Microprocessors .................................. 196
RF Solutions
Panasonic
Microcontrollers, Flash ......................... 198
Parallax, Inc.
BASIC Stamp
Accessories ...................................... 109
Books ............................................... 109
Carrier Boards .................................. 109
Kits ................................................... 109
Modules ............................................ 109
“Board of Education” Kit ....................... 109
BASIC Stamp ................................... 109
Propeller ...............................................110
Phyton, Inc.
Adapters ................................................ 83
Programmers ......................................... 83
PIC Emulators...................................... 136
Adapters ........................................... 136
Daughter Boards............................... 136
RPM Systems Corporation
Programmers Universal
In-System Programming ..................... 83
S
Segger Microcontroller Systems
Evaluation Boards and Kits ..................201
STMicroelectronics
Development Tools and Kits ......... 175-177,
......................................................... 219
Evaluation Boards .............. 175-177, 219
Programmers ............................. 175-177
Microcontrollers ............................. 171-174
TechTools
T
Emulator, ClearView ............................ 136
Emulator, EPROM/PIC ........................ 136
Logic Analyzer ..................................... 136
Programmer, PIC ................................. 136
QuickWriter .......................................... 136
Z
Zilog
Development Tools ....................... 146-148
Accessory Kits .................................. 146
Adapters .................................... 146-148
Development Kits ............................. 146
Emulators ......................................... 146
ePIR .............................................. 146
IR ...................................................... 148
Modules ............................................ 146
Programmers .................................... 146
Microcontrollers/Microprocessors
.................................................. 140-149
Application Specific ............140, 145-146
Ethernet ......................................... 146
Motor Control ................................. 145
Remote Control ............................. 140
Crimzon ........................................ 140
eZ80 Acclaim! ............................... 146
eZ80 AcclaimPlus! ........................ 146
Z8 Encore!® .............................. 140-142
Z8 Encore!® MC ............................... 145
Z8 Encore! XP® ........................ 143-145
ZNEO ............................................ 140
70
70 (TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

A
Adapters
Programming/Prototyping ........ 82-83, 136,
........................................... 146-147, 219
D
Development Kits and Tools
Accessories ..................134, 146, 152, 158
Adapters .................... 82-83, 89, 134, 136,
..........................................146, 148, 219
BASIC Stamp Kits ............................... 109
Daughter Boards.......................... 136, 203
Debug Tools ...........134-135, 158, 189, 198
Demo Kits ......135, 152, 158-159, 186, 188
Development/Starter Kits ......85, 90, 93-97,
...... 99-100, 108, 139, 151-152, 175-176,
....................188, 195-196, 198-199, 219
Emulators.................90, 93, 134, 136, 146,
...................148, 152, 189, 202-203, 219
EPROM .....................................136, 152
PIC ................................................... 136
ePIR ................................................. 146
Evaluation Boards and Kits ............ 84, 90,
..................... 93, 135, 150-153, 157-159,
...................169-170, 175-178, 180, 186,
...................................188, 195-203, 219
DSP ....................................170, 201-203
Programmers ............................. 82-83, 85,
......................89-90, 109, 134, 136, 146,
...................148-149, 151, 158, 175-178,
............................189, 197, 201-202, 219
Reference Design Kits ......................... 107
Remote Control Design ....................... 148
Software ....................... 134-136, 169-170,
.......................................... 197, 200, 219
C-Compiler .................135-136, 200, 219
Web Server Kit .................................... 148
I
Integrated Circuits/Semiconductors
DSP (Digital Signal Processor) .... 165-169,
............................................197, 201-203
Microcontrollers
8051 Architecture ......... 93, 101-106, 153,
................................ 155-157, 198, 200
ARM® ............84, 156, 173-174, 177, 219
Cortex ...................137-139, 154-155
AVR® ............................................. 85-90
Battery Management ....................... 85
LCD ................................................. 85
Lighting and Motor Control .............. 86
BASIC Stamp ................................... 109
BlueStreak ........................................ 108
C166S V1 .................................. 198-199
C166S V2 .................................. 198-199
CAN ............................................ 91, 103
EFM32 Gecko ..................................... 84
Extreme Low Power ....................131-133
Flash ................................89, 91-93, 102,
................. 104-106, 113-130, 140-146,
........................150, 152-153, 159-161,
................. 163-164, 171-174, 179-188,
............................... 195, 198, 202-220
Graphics Display .............................. 178
Low Pin Count ............................177-178
MCS® 51 .......................................... 220
MCS® 96 .......................................... 220
MP3 .................................................... 93
OTP ........ 111-112, 140, 147-148, 161-163
PIC ......................................111-130, 135
Propeller ............................................110
PSoC® ............................................. 150
Smart Card ......................................... 91
USB .....................................91, 102, 152
Microprocessors .....................97-100, 149,
...........................................189-194, 196
Modules ........................................97-100
Mixed Signal Product ........................... 150
Programmable Logic
FPSLIC ............................................... 85
TriCore ............................................. 199
K
Kits
BASIC Stamp Kits ............................... 109
M
Memory
Cards ..................................................... 89
Motor Control
Modular Boards ................................... 139
PRODUCT INDEX
Additional Information
PROGRAMMING:
DIGI-REEL ® :
®
Digi-Key has the capability to program a wide variety of devices. For more information
regarding programming, contact the Custom Department at 1-800-344-4539 (ext.
5725) or email: custom.orders@digikey.com.
Equipment: • BP Microsystems Models BP-2600 and BP-3710 MK II • Capability to
support over 21,000 devices ranging from something as small as a SOT23-6 up to a
144-TQFP
New Packaging and Feeding Options: Any of the following combinations available:
• Tube-In, Tube-Out • Tray-In, Tray-Out • Tape-In, Tape-Out
Labeling: Hover Davis Print-On-Demand Labeler and various labeling sizes available.
A Digi-Reel is a custom quantity reel of continuous cut-tape made from a manufacturer’s
reel. A 15-inch leader and trailer, complete with sprocket drive holes, are attached so
that the sprocket holes are aligned enabling direct and flawless feeding into automated
board assembly equipment. It is then rewound on a plastic reel according to Electronics
Industries Alliance (EIA) standards. In most instances, we can assemble this item
specifically for your order and ship it the same day. If you place this item on your order, it
will show up backordered. We will contact you if we are unable to fulfill your order.
A $7.00 “reeling fee” will be charged for each reel and will be included in the cost of
your reel.
Digi-Reels are a custom product and are non-cancelable and non-returnable.
DESIGN SUPPORT SERVICES:
Design Support Services is the latest addition to Digi-Key’s three-tier technical support
group. DSS is capable of providing engineering assistance at any given point within
your product development cycle. Services provided by these engineers include:
In-Depth Application Assistance: • Assists with application questions on products
from our 350+ manufacturers • Provides development tool selection and support
• Facilitates manufacturer’s support to provide solutions for unusually complex
problems • Provides component recommendations for the functional blocks of your
design concept
Component Selection Advice: • Recommends components throughout your
product development cycle • Consolidates information on new products, end-of-life
components, and product availability to one source
Our Application Engineers are specialized to provide design assistance in (not limited
to) the following product areas: Microcontrollers, ARM Processors, RF Modules
— RFiD, Blue Tooth and Zigbee, FPGAs, DSPs, Audio, Power and Lighting designs.
RoHS COMPLIANT PRODUCT:
Digi-Key continues to work with its more than 350+ supplier partners to provide
customers with RoHS compliant product. Symbols are used to identify compliant
product in the catalog. When an entire page or series of product is compliant, a
symbol appears at the top of the page or section. In situations where a series of product
is not all compliant, the compliant product is identified by a symbol beside the Digi-
Key part number. Our Integrated Circuits section will identify compliant product with
an asterisk (*) beside the part number description. Please note that due to inventory
turns, fluctuations, and catalog cycle times, the most current and accurate information
is available at digikey.com/environment or by calling 1-800-344-4539. Product that is
available in cut tape and/or full reels should be reviewed prior to ordering to ensure that
you receive your preference.
STATIC PROTECTION:
Protection of static sensitive parts is a MUST in today’s semiconductor market.
TECHNICAL SUPPORT:
Among the more than 100 individuals who comprise Digi-Key’s technical support group
are our Technical Support Specialists and Product Managers. These individuals field
the hundreds of thousands of telephone calls and inquiries Digi-Key receives each year
regarding product specifications and applications. Technical Support Specialists are
available to answer questions and offer product suggestions from 6 p.m. CT Sunday
through 6 a.m. CT Saturday via telephone, email, and live web chat. Digi-Key’s factorytrained
Product Managers work directly with our supplier partners and provide expertise
in specific product areas.
To ensure the quality that Digi-Key customers have come to expect, the Digi-Key
Static Control Program includes proper static safety protection in the following areas:
Receiving, Incoming Inspection, and C roduct Storage Order icing inal
Inspection acaging and Shipping
Shielded metallized bags are used in order picking and any time static sensitive product
is being handled within the building. 100% recyclable paper packaging (low static
generating) is used in packaging and shipping.
As our program is continuously updated with the latest static control technology, you
can be reassured that Digi-Key’s static sensitive parts are quality safe, all the way to
your door step!
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380
(TZM112.US)
71
71

Digi-Key Terms and Conditions
All orders placed with Digi-Key Corporation (“Digi-Key”) for products available
from Digi-Key (the “Products”) are subject to these terms and conditions (the
“Agreement”). Any purported change to the terms of this Agreement that is submitted
by a purchaser in any additional documentation is hereby expressly rejected. Orders
placed on forms deviating from the order form provided in this catalog (the “Order
Form”) may be accepted, but solely on the basis that the terms of such Order Form
and this Agreement will prevail.
1. Order Validation and Acceptance
When you place an order, we may verify your method of payment, shipping address and/or
tax exempt identification number, if any, before processing your order. Your placement of an
order with Digi-Key is an offer to purchase our Products. Digi-Key may accept your order by
processing your payment and shipping the Product, or may, for any reason, decline to accept
your order or any part of your order. No order shall be considered to be accepted by Digi-Key
until the Product has been shipped. If we decline to accept your order, we will attempt to
notify you using the email address or other contact information you have provided with your
order. Delivery dates provided in connection with any order are estimates only and do not
represent fixed or guaranteed delivery dates.
2. Quantity Limitations
Digi-Key may limit or cancel quantities available for purchase on any order on any basis, and
to alter the availability or duration of any special offers at any time. Digi-Key may reject any
order, or any part of an order.
3. Electronic Communication
When you place an order with Digi-Key, you are required to provide valid contact information,
which we may use to communicate with you regarding the status of your order, advise you
regarding shipment of backordered products, and to provide you with any other notices,
disclosures or other communications relating to your order. You agree that Digi-Key will not
be responsible for any damage you incur, or information you do not receive, as a result of
your failure to provide valid contact information.
4. Pricing and Product Information
Digi-Key purchases all Products directly from their respective original manufacturer. Digi-Key
makes reasonable efforts to provide current and accurate information relating to the Products
and prices, but does not guarantee the currency or accuracy of any such information.
Information relating to Products is subject to change without notice. Prices are subject to
change at any time prior to Digi-Key's acceptance of your order. In the event we discover a
material error in the description or availability of a Product that affects your outstanding order
with Digi-Key, or an error in pricing, we will notify you of the corrected version, and you may
choose to accept the corrected version, or cancel the order. If you choose to cancel the order,
and your credit card has already been charged for a purchase, Digi-Key will issue a credit to
your credit card in the amount of the charge.
5. Late Payments; Dishonored Checks
You shall pay Digi-Key all costs incurred by Digi-Key in collecting any past due amount from
you, including all court costs, collection costs, and attorney's fees. If a check you give us for
payment is dishonored for any reason by the bank or other institution on which it is drawn,
you agree to pay us $20.00 as a service charge (if the check cannot be redeposited) pursuant
to Minnesota Statutes § 604.113.
6. Out of Stock
If product you order is out of stock at time of order placement, you may elect to have it
shipped on a subsequent shipment. Additional shipping charges will apply to each shipment.
Backorders will be held based on your request.
7. Export Compliance
In addition to the United States and its territories, Digi-Key accepts international orders.
Some Products may not be available for shipment outside the United States. All orders of
international origin or destination are subject to export control laws, restrictions, regulations
and orders of the United States. You agree to comply with all applicable export control laws,
restrictions, regulations and orders of the United States or applicable foreign agencies or
authorities. You shall not, directly or indirectly, sell, export, transfer, assign, use, or dispose of
Products in a manner which may result in any non-compliance with applicable export control
laws, restrictions, regulations, and orders of the United States or applicable foreign agencies
or authorities. You are responsible for obtaining any license or other official authorizations
that may be required to export, re-export or import Products. Diversion contrary to U.S. law
is prohibited.
8. Freight Damage
If you receive merchandise that has been damaged in transit, it is important to keep the
shipping carton, packing material and parts intact. Please contact a Digi-Key Customer
Service representative immediately to initiate a claim.
9. Disclaimer of Warranties
Digi-Key agrees to transfer to you, at the time of sale, to the extent transferable, whatever
warranties Digi-Key receives from manufacturers with respect to the Products sold by Digi-
Key to you. COPIES OF SUCH MANUFACTURERS' WARRANTIES ARE AVAILABLE
PRIOR TO THE PURCHASE OF PRODUCTS BY CONTACTING DIGI-KEY. DIGI-KEY,
AND ITS AFFILIATES, INCLUDING, WITHOUT LIMITATION, DIGI-KEY INTERNATIONAL
SALES CORPORATION (THE “DIGI-KEY PARTIES”), MAKE NO EXPRESS OR IMPLIED
WARRANTIES OR REPRESENTATIONS WITH RESPECT TO ANY PRODUCT AND THE
DIGI-KEY PARTIES EXPRESSLY DISCLAIM ALL WARRANTIES OF ANY KIND, EXPRESS,
IMPLIED, STATUTORY OR OTHERWISE, INCLUDING, BUT NOT LIMITED TO, IMPLIED
WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, AND
NONINFRINGEMENT WITH REGARD TO THE PRODUCTS. THE DIGI-KEY PARTIES DO
NOT WARRANT THAT THIS CATALOG IS ERROR-FREE OR THAT ERRORS IN THE
CATALOG WILL BE CORRECTED. THE DIGI-KEY PARTIES DO NOT WARRANT THE
ACCURACY OR COMPLETENESS OF THIS CATALOG. THE PRODUCTS ARE SOLD ON
AN AS-AVAILABLE BASIS.
Your obligations and Digi-Key's remedies with respect to defective or nonconforming
products, are solely and exclusively as stated in this Agreement.
10. Additional Disclaimers
Without limiting the disclaimers set forth in Section 9 above:
a. No Use as Critical Components
Products sold by Digi-Key are not authorized for use in life safety, life support, life sustaining,
surgical, human implant, nuclear, military, or aircraft applications or for any use or application
in which the failure of a single component could cause substantial harm to persons or
property, unless an authorized officer of the manufacturer has signed an agreement
specifically governing such use. YOU AGREE TO INDEMNIFY THE DIGI-KEY PARTIES
AND THE MANUFACTURER OF THE PRODUCTS FOR ALL DAMAGES THAT MAY BE
INCURRED DUE TO USE OF PRODUCTS IN THESE APPLICATIONS.
b. Technical Assistance and Design Support Services
Digi-Key offers its Technical Assistance and Design Support Services solely as a convenience
to Digi-Key customers. Digi-Key Technical Assistance and Design Support Services personnel
strive to provide useful information regarding the Products. Digi-Key does not guarantee that
any information or recommendation provided is accurate, complete, or correct, and Digi-
Key shall have no responsibility or liability whatsoever in connection with any information or
recommendation provided, or your reliance on such information or recommendation. You are
solely responsible for analyzing and determining the appropriateness of any information or
recommendation provided by Digi-Key Technical Assistance and Design Support Services
Personnel, and any reliance on such information or recommendation is at your sole risk and
discretion.
c. Geographic Limitations
Not all Digi-Key products or services are available to all persons or in all geographic
locations. Digi-Key reserves the right to limit the provision of Products and services to any
person, geographic area, or jurisdiction and to limit the quantities of any products or services
that it provides.
d. Infringement Disclaimer
The Products may be subject to patent, trademark, copyright, design and other rights of third
parties. Digi-Key shall in no event whatsoever be responsible or liable in the event of any
claim of infringement of any such rights. If an order includes software or other intellectual
property, such software or other intellectual property is provided by Digi-Key to you subject to
the copyright and user license, the terms and conditions of which are set forth in the license
agreement accompanying such software or other intellectual property. Nothing herein shall
be construed to grant any rights or license to use any software or other intellectual property in
any manner or for any purpose not expressly permitted by such license agreement.
11. Limitation of Liability
IN NO EVENT SHALL ANY OF THE DIGI-KEY PARTIES BE LIABLE TO YOU OR TO
ANY THIRD PARTY FOR ANY INDIRECT, INCIDENTAL, SPECIAL, CONSEQUENTIAL,
PUNITIVE OR EXEMPLARY DAMAGES (INCLUDING WITHOUT LIMITATION LOST
PROFITS, LOST SAVINGS, OR LOSS OF BUSINESS OPPORTUNITY) ARISING
OUT OF OR RELATING TO (I) ANY PRODUCT OR SERVICE PROVIDED OR TO BE
PROVIDED BY DIGI-KEY, OR THE USE OR INABILITY TO USE THE SAME, (II) ANY
CLAIM ATTRIBUTABLE TO ERRORS, OMISSIONS, OR OTHER INACCURACIES IN
THIS CATALOG, OR (III) ANY OTHER MATTER RELATING TO THE PRODUCTS OR
SERVICES OF ANY OF THE DIGI-KEY PARTIES; EVEN IF ANY OF THE DIGI-KEY
PARTIES HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. SUBJECT
TO THE FOREGOING, IN NO EVENT SHALL THE LIABILITY OF ANY OF THE DIGI-KEY
PARTIES FOR PRODUCTS EXCEED THE PURCHASE PRICE FOR THE PRODUCTS,
REGARDLESS OF THE LEGAL THEORY ASSERTED FOR SUCH LIABILITY, WHETHER
IN CONTRACT, TORT, WARRANTY OR OTHERWISE.
Any cause of action against any of the Digi-Key Parties with respect to Products or services
must be instituted within one (1) year from the date of purchase or provision of the applicable
Products or services.
12. Indemnification
You understand and agree that you are personally responsible for your use or inability to use
the Products and your reliance upon any information or recommendation provided by Digi-
Key Technical Assistance and Design Support Services Personnel. You agree to indemnify,
defend and hold harmless the Digi-Key Parties and Digi-Key’s joint venturers, business
partners, licensors, employees, and agents from and against all claims, losses, expenses,
damages and costs (including, but not limited to, direct, incidental, consequential, exemplary
and indirect damages), and reasonable attorneys' fees, resulting from or arising out of your
use, misuse, or inability to use the Products and any service of Digi-Key, your reliance upon
any information or recommendation provided by Digi-Key Technical Assistance and Design
Support Services Personnel, or any violation by you of this Agreement.
13. Force Majeure
Digi-Key will not be liable for delays in delivery or for failure to perform its obligations due to
causes beyond its reasonable control including, but not limited to, product allocations, material
shortages, labor disputes, transportation delays, unforeseen circumstances, acts of God, acts
or omissions of other parties, acts or omissions of civil or military authorities, Government
priorities, fires, strikes, floods, severe weather conditions, computer interruptions, terrorism,
epidemics, quarantine restrictions, riots or war. Digi-Key's time for delivery or performance
will be extended by the period of such delay or Digi-Key may, at its option, cancel any order
or remaining part thereof, without liability by giving notice to you.
14. General Provisions
This Agreement constitutes the entire agreement of the parties with respect to the subject
matter hereof. No waiver by Digi-Key of any breach or default hereunder shall be deemed to
be a waiver of any preceding or subsequent breach or default. If any part of the Agreement
is determined by a court of competent jurisdiction to be invalid or unenforceable, it will not
impact any other provision of the Agreement, all of which will remain in full force and effect.
Any and all disputes relating to the Agreement are governed by, and will be interpreted in
accordance with, the laws of the State of Minnesota, without regard to any conflict of laws
provisions. The 1980 United Nations Convention on Contracts for the International Sale of
Goods and the United Nations Convention on the Limitation Period in the International Sale
of Goods, and any subsequent revisions thereto, do not apply to this Agreement. Any Dispute
will be venued in a state or federal court situated in Minneapolis, Minnesota, and you hereby
irrevocably submit to the personal jurisdiction of such courts for that purpose. No rights,
duties, agreements or obligations hereunder, may be assigned or transferred by operation
of law, merger or otherwise, without the prior written consent of Digi-Key. The obligations,
rights, terms and conditions hereof will be binding upon and inure solely to the benefit of the
parties hereto and their permitted respective successors and assigns. Any amendment to this
Agreement must be in writing and signed by an authorized representative of Digi-Key.
72 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

15. Currency Information
This catalog is designed exclusively for purchases in U.S. dollars. For orders in currencies
other than U.S. dollars, please visit www.digikey.com, click on “Change Country” and select
the appropriate country/currency-specific website for ordering information. Print catalogs for
certain non-U.S. currency countries (including Canada) are available upon request. If ordering
by phone, please advise Digi-Key’s sales representative of your currency preference when
placing your order.
16. Payment
Digi-Key offers the following payment methods for payments in U.S. dollars:
For United States customers: We offer check, money order, MasterCard, VISA, American
Express, Discover, C.O.D. and prepaid by wire transfer as well as open account credit to
qualified institutions and businesses. Payment must be made in the currency in which the
order was placed.
For Canadian customers: We offer all of the above payment options except Discover and
C.O.D.
For Other International customers: We offer MasterCard, VISA, American Express,
prepaid by wire transfer, cashier's check in U.S. funds, as well as open account credit to
qualified institutions and businesses. We cannot accept personal checks or certified personal
checks. Money orders can result in significant delays. Use of Letters of Credit must be
approved in advance by Digi-Key's Accounting Department.
Credit Application: To obtain a credit application for open account credit, contact any sales
representative by:
for .S. and Canadian customers, calling 8-44-45 or 218-681-664,
for all other customers, calling 218-681-, or
for all customers, faxing your reuest to 218-681-8.
Or, you may download a credit application from our website, www.digikey.com (click on
“Contact Us”, then click on “Net 30 Term Credit Application” in the “Accounting” box). Please
allow sufficient time for the credit application process. To avoid delay on your initial order you
may elect an alternative payment method.
17. Shipping Charges
Except as otherwise provided, (1) shipping or freight charges and insurance will be paid by
the customer*, (2) all sales are made FOB Digi-Key’s warehouse in Thief River Falls, MN,
USA, and (3) shipping or freight charges from Digi-Key's warehouse in Thief River Falls, MN,
USA are prepaid and added to the invoice, billed collect or billed to a third party.
* When a check or money order accompanies your order, Digi-Key pays all shipping and
insurance (our choice for method of shipping) to all addresses in the U.S. and Canada.
Shipments of excessive weight or size, or with otherwise unique circumstances, may require
additional charges. Digi-Key will notify you prior to shipment if these conditions exist.
For International Shipments: Availability of ship methods is dependent on the destination
country. The shipping costs will be prepaid and added to your order. Except as otherwise
agreed by Digi-Key, all duties, tariffs, taxes and brokerage fees will be your responsibility.
How to Order:
❒ elephone: 800-344-439 S Canaa o 218-681-6674
Our friendly sales representatives are ready to serve you 24 hours a day, 7 days a week,
365 days a year. For most efficient service, please have ready a list of quantities and
part numbers and, if paying by credit card, your MasterCard, VISA, American Express or
Discover card. Note: Calls may be recorded or monitored for quality and training purposes.
❒ Fax: 218-681-3380
Digi-Key Fax lines can be accessed 24 hours a day, 7 days a week, 365 days a year.
Depending on the shipping method; fax orders will be processed and shipped according to
the “Orders entered by times” listed under Shipment. Orders received after these cutoff times
will be processed and shipped the next business day. Please include your daytime telephone
number and/or email address in case we have any questions about your order.
❒ By Internet: www.digikey.com
Order on-line 24 hours a day, 7 days a week, 365 days a year. Digi-Key’s Top Rated
website receives hundreds-of-thousands of orders each year. Internet orders entered after
normal business hours are promptly processed and shipped the next business day.
❒ ail: Simpl ail o e o:
Digi-Key Corporation
701 Brooks Avenue South
PO Box 677
Thief River Falls, MN 56701-0677
International customers please see “Currency Information” in the Digi-Key Terms and
Conditions for more information.
Duplicate Mailings:
If you receive more than one catalog with the same name and address, please return the
labels to Digi-Key and pass the catalog along to a friend. Also, if you do not require multiple
copies to the same company address, contact a sales representative to verify your mailing
information. A forms based communications method for catalog issues (Receive, Remove,
Change of Address) can be accessed at www.digikey.com by clicking “Contact Us”.
Alternatively, you may mail, telephone or fax Digi-Key your request.
Recycling And The Environment:
Digi-Key is committed to the environment and you, our valued customer. We use Geämi,
a 100% recyclable packaging product. Both the outer and inner tissue can be put in your
newspaper bin for recycling. This catalog was produced with paper containing 33% post
consumer fiber and may be recycled through a paper board recycling program.
Privacy Policy:
Your privacy as a customer is very important to us. We want you to know how your
customer information is used. Once you make a purchase, request a catalog or other
information from Digi-Key, your name, shipping/mailing address, telephone number, email
address and fax number are included in our customer file. This information is used to
ensure a quick, efficient flow of products and services to you. This information may also be
used for other purposes as outlined below.
Postal Addresses: Digi-Key may use your mailing address to send the Digi-Key catalog
to keep you updated on our most current products and services. Occasionally, Digi-Key
may make the names and addresses of our customer list available to carefully screened
companies that offer products and/or services that may be of interest to you.
See the International Shipping Rates set forth on www.digikey.com (click on “Site Map”, then
click on “Shipping Rates/Options” under “Shipping Information”, then click on “International
Shipping Rates”).
18. Handling Charge
There is no minimum order or handling fee.
19. Taxes
Prices shown do not include any federal, state or local taxes, or any other taxes imposed by
any government authority, including, without limitation, sales, use, excise, value-added or
similar taxes. Where applicable, such taxes and charges shall be billed as a separate item
and paid by you. Orders are accepted with the understanding that such taxes and charges
shall be added, as required by law. Digi-Key charges sales tax unless you have a valid
sales tax exemption certificate on file with Digi-Key. Digi-Key will not refund tax amounts
collected in the event a valid sales tax certificate is not provided. If you provide a certificate
that is not accepted for any reason by any governmental or regulatory authority, and Digi-
Key is required to pay tax on your purchase, you will reimburse Digi-Key for the amount of
such tax, and Digi-Key's reasonable expenses incurred in connection with the payment and
collection of such tax. Fax your resale certificate and your customer number to 218-681-7931,
Attention: Sales Tax.
20. Return Policy
In most cases, Digi-Key will accept merchandise returns subject to the terms outlined in this
Section and will replace the Product or refund your money at your option.
To facilitate processing of returned merchandise:
lease contact a Customer Service representative to obtain an RM Returned Merchandise
Authorization) number prior to returning product.
or all returns not relating to manufacturers’ warranties, returns must be made within days
of date of invoice, be accompanied by the original invoice number and a brief explanation of
the reason for the return, and be in original packaging and in resalable condition.
Return freight charge must be prepaid. Sorry, C.O.. returns cannot be accepted.
roducts returned solely due to customer error may be subect to a restocing charge.
To the extent that igi-Key purchases a roduct from a manufacturer specically for you,
such Products may be Non-Cancelable/Non-Returnable.
ot-In Catalog Items and parts specied as on-Cancelable/on-Returnable at time of
quote or sale are not returnable.
Returns relating to manufacturers’ warranties are subect to the terms and conditions of the
applicable manufacturer’s warranty and the applicable manufacturer’s return policies for
the Product (e.g., some Products may require return directly to the manufacturer). Please
contact a Digi-Key Customer Service representative for details.
By returning a Product to Digi-Key, you represent and warrant that the returned Product was
purchased from Digi-Key.
© 2010, Digi-Key Corporation. All rights reserved.
Ordering / Contact Information
Additional Information
Shipment:
Digi-Key’s warehouse is open
and staffed Monday through
Friday, 7:30am-9:00pm Central
Time (subject to holidays). Orders are shipped only on these business days. Orders and
correspondence received on Saturday and Sunday will be addressed/shipped on the
following Monday and included in that day’s business.
Digi-Key’s cut-off times for Same-Day Shipment Monday-Friday are as follows:
Orders entered by 6pm CT – ll SS Options Express Mail delayed 1 day.
Orders entered by pm CT – edEx ground.
Orders entered by 8pm CT – ll S air and surface options ll edEx air options.
Customer Service:
Voice: 800-858-3616 in (US & Canada) or 218-681-6674
Fax: 218-681-3380
Internet: www.digikey.com (click “Contact Us”)
Mail: Digi-Key Corporation
Attn: Customer Service
PO Box 677
Thief River Falls, MN 56701-0677
A friendly, competent staff of customer service representatives is available 24 hours a day,
7 days a week, 365 days a year to assist you. Please have your sales order or invoice
number available when you call.
Email Addresses: Email addresses may be used to communicate information of interest
to you about Digi-Key. This includes Order Shipment/Tracking Information, Obsolete Part
Bulletins, Service Change Information or other Digi-Key promotional emails. Emails may be
sent by Digi-Key or an authorized agent working for Digi-Key. All authorized agents operate
with a confidentiality agreement. Information sent in this manner will always include “opt
out” options. Email addresses are never rented, sold or traded to third parties.
Opt Out: You may elect to opt out of any of the above uses of your customer information by
completing the “Opt Out” form in our privacy statement on our website or by contacting us
by telephone, fax or mail.
Other Uses Of Customer Information: Digi-Key is under contract to provide point of
sale information to many of its product suppliers for market research and payment of
commission to the supplier’s agents. If you have an open account with Digi-Key, credit
and payment history will periodically be shared with credit reporting agencies. Customer
information is also used for marketing and market research for Digi-Key Corporation. Digi-
Key or an authorized agent working for Digi-Key may complete these activities. All customer
information is kept confidential. Digi-Key will share customer information with government
agencies if required by law.
Note: We reserve the right to make changes to our privacy policy at any time without prior
notification.
ISO 9001:2000 Certified:
Digi-Key’s operations from order entry through shipping have been certified since March 17,
1994. A copy of Digi-Key Corporation’s current ISO Certificate is available by request.
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
73
73

What’s New! See See www.digikey.com/new
Atmel’s easy-to-use evaluation and demonstration kit for
ATxmega128A1
ATAVRXPLAIN Evaluation and Demonstration Kit
Atmel’s Xplain is an easy-to-use evaluation and demonstration
kit for ATxmega128A1, offering complete hardware for
evaluating the highly accurate analog functionality of the
device. The ADC can be used to read a temperature sensor
and a potentiometer, and the DAC can be used to generate
sound on a mono speaker. Xplain also demonstrates how to
interface external memories; the kit features 8MB SDRAM and 8MB data flash connected to the
ATxmega128A1. Eight push buttons and eight LEDs are available for user interaction. The USB
interface is a communication gateway between the ATxmega128A1 and a USB COM port.
SAM3U Series Microcontroller
Atmel’s SAM3U series is the first 32-bit ARM
Cortex-M3 micrococontroller with high-speed
480 Mbps USB + Phy
With today’s exponential growth in data rates,
system designers demand solutions capable of
moving more data faster and more efficiently than
ever before. Atmel’s Cortex® M3-based SAM3U
delivers high-speed interfaces combined with an
innovative high data bandwidth architecture that
make it the ideal device for applications with
intensive communication requirements.
The 96MHz SAM3U interates multiple hih-speed peripherals, includin an on-chip
hih-speed USB device and Phy at 480Mps. A comination o a 5-layer system
bus matrix, 23 DMA channels and distributed memory prevents bottlenecks with
minimum processor overhead. With sophisticated power management techniques and
an operatin voltae down to 1.62V, the SAM3U maximizes attery usae and provides
true 1.8V operation. The SAM3U is availale in Flash memory densities o 64K, 128K and
256Kytes with 100- and 144-pin QFP and BGA pacae options.
SAM3U-EK Development Board
Atmel and Digi-Key introduce the SAM3U-EK Development Board
Atmel’s SAM3U series is a 32-bit ARM Cortex M3 Flash microcontroller with high-speed
480Mps USB Phy.
The SAM3U-EK Evaluation Kit SAM3U-EK allows the evaluation o the SAM3U series
devices. With enough features to demonstrate most of the product’s capabilities to
the users, the SAM3U-EK eatures extension connectors to allow the users to add new
interfaces that they are not on-board.
Features:
ATxmea128A1 microcontroller
External memory
- 8MB SDRAM
- 8MB serial data flash
AT90USB1287
- Communication gateway
- Programmer for Atmel® AVR® XMEGA
Analo input to ADC
- Temperature sensor
- Potentiometer
Analo output rom DAC
- Mono speaker via audio amplifier
Diital IO
- UART communication through USB
gateway
- 8 micro switch buttons
- 8 LEDs
- 8 spare analog pins
- 8 spare digital pins
Features:
High-Speed Bridging: The SAM3U is desined to sustain 100 Mps data rates etween multiple hih-speed
peripherals, includin HS USB 2.0, SDIO/SDCard 2.0, MMC 4.3, External Bus Interace and SPI.
Data Speedway: To exploit the SAM3U’s high-speed communications peripherals fully, the device is built
around a high data-bandwidth architecture that enables one to run tasks in parallel and ensures uninterrupted
internal and external data flows with minimum processor overhead. The device can be put in backup mode with
the core and peripherals powered down, in which power consumption is only 2.5A.
Safety and Security: The SAM3U ensures robust operation thanks to multiple system functions, including
a Memory Protection Unit, dual-an Flash and acup cloc mechanism. A 128-it uniue ID enales
traceability or seed for encryption.
Low Power Consumption: The SAM3U incorporates power manaement techniues that minimize power
consumption under all conditions of use, whether in active mode or low-power modes.
SAM3U Ecosystem: Atmel’s SAM3U Flash MCU is supported by a rapidly growing number of development
tools, real-time operatin systems RTOS, middleware products and technical support services rom industryleading
third parties. Atmel provides a dedicated software package for the SAM3U with register descriptions
and device drivers for all peripherals, along with project examples that ease the use of the microcontroller.
The Atmel SAM3U-EK toolkit contains the following items:
Welcome letter
SAM3U-EK oard
Power supply
Universal input AC/DC power supply with US, Europe and UK plu adapters
One 3V lithium attery type CR1225
One USB cale
One serial RS232 cale
AVR32 32-bit MCU - UC3
MCU’s and Evaluation Kits
The Atmel AVR32 UC3 product family is built on the new AVR32
UC core optimized or hihly interated emedded applications
requiring microcontrollers with on-chip Flash program memory,
high computation throughput, real-time behavior and low power
consumption.
Hih computation throuhputs The AVR32 UC core is sinle
cycle operation and has a tightly coupled SRAM
Deterministic and real-time control The Atomic read-modiywrite
it andin and ast interrupt response provide ine event
control
Low power AVR32 UC core wors smart. It reuires lower us
activity and lower operating frequency than other architectures
Low system cost The Instruction set ives hih code density
resulting in smaller memory usage
Hih reliaility The AVR32 UC saely oots rom the
RC-oscillator.
- The NMI ensures critical event processin and the MPU
secures memory accesses
Easy to use Hih perormance and code density allows sotware
designers to use high level programming methodologies without
execution speed or cost penalty
ATEVK1100 Evaluation Board
The ATEVK1100 is an evaluation it and development system or the AVR32 AT32UC3A
microcontroller. It is euipped with a rich set o peripherals, memory, and maes it easy to try the ull
potential of the AVR32 devices.
Supports the AT32UC3A
Ethernet port
Sensors Liht, Temperature, Potentiometer
4x20 Blue LCD PWM Adustale acliht
Connectors or JTAG, Nexus, USART, USB 2.0, TWI, SPI
SD and MMC Card Reader
For Evaluation / Development o AT32UC3A128, 256, 512, 1128, 1256, 1512
ATEVK1101 Evaluation Board
The ATEVK1101 is an evaluation it and development system or the AVR32 AT32UC3B
microcontroller. It is euipped with a rich set o peripherals, memory, and maes it easy to
try the full potential of the AVR32 devices.
Supports the AT32UC3B
Sensors Liht, Temperature
Connectors or JTAG, Nexus, USART, USB 2.0, TWI, SPI
SD and MMC Card Reader
For Evaluation / Development o AT32UC3B064, 0128, 0256, 164, 1128, 1256
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PSoC Programmable System-on-Chip
From Cypress Semiconductor, CY8CKIT PSoC 3 and PSoC 5 Development Kits
PSoC® from Cypress Semiconductor is a true programmable embedded system-on-chip integrating configurable analog and digital peripheral functions, memory
and a microcontroller on a single chip. With an extremely flexible visual embedded design methodology that includes preconfigured, user-defined peripherals and
hierarchical schematic entry, a design can be changed multiple times and the project can still stay on schedule.
The PSoC3 and PSoC5 amilies extend this prorammale emedded system desin platorm, shatterin desin limitations. The system contains hih-precision
prorammale analo includin 12-it to 20-it delta-sima ADCs, a diital loic lirary with dozens o drop-in peripherals, est-in-class power manaement and rich
connectivity resources. 8-it, 16-it, or 32-it desins can e implemented with the advanced ARM Cortex-M3 or hih-perormance 8051 processors.
Supporting Energy Micro’s energyfriendly
microcontrollers
Energy Micro’s EFM32 Gecko
Development Kit is a platorm
for rapid prototyping of ultra low
power microcontroller applications.
It consists o a motheroard, replaceale MCU oard, and
prototyping board along with a comprehensive software
development environment.
The development kit features a unique Advanced Energy
Monitorin AEM system, which allows desiners to have ull
control over their applications’ energy consumption. This, along
with the ability to isolate the motherboard’s components not
relevant to the end application, allows designers to make their
applications as energy efficient as possible.
Two versions, one with an MCU plug-in board and the other with
the MCU plu-in oard with a 160-sement LCD, are availale.
Microcontrollers and Peripherals
Hubs, Hosts, and Hi-Speed USB
EZ-USB HX2: Cypress TetraHu is a hih perormance multiple Transaction Translator TT USB2.0 hu controller. Each downstream port o the TetraHu
has its own TT to provide the est USB perormance no matter what class o USB device is connected to it. TetraHu is ideal or applications that need
guaranteed performance on each downstream port.
EZ-Host Overview: E-Host is an automotive ualied multiport ull-speed USB host/peripheral controller. E-Host is desined to easily interace to most
hih perormance CPUs to add USB host unctionality. A 16-it RISC processor enales E-Host to act as a coprocessor or operate in standalone mode. Two
uilt in host/peripheral Serial Interace Enines SIEs and our USB transceivers enale up to our downstream ports in host mode and two peripheral ports in
peripheral mode.
EZ-USB FX2LP Overview: Cypress’ FX2LP is a programmable high-speed USB controller. The low power and ultra flexibility of Cypress’ FX2 family of
controllers enables them to be used in a wide range of applications ranging from PCTV dongles to low power printers. For bus powered applications, Cypress
oers the FX2LP USB controller. The FX2LP comes in dierent versions, dependin on desin reuirements. Cypress oers the FX2LP with 24, 26 or 40
prorammale I/O pins tailored to suit many applications.
EFM ® 32 Gecko Development Kit
Features:
Advanced Enery Monitorin includes precise measurement o current and voltae, 0.1 A to 50 mA measurement rane, onoard
logging and display features, and continuous availability at the push of a button
Sotware includes 32KB evaluation versions o KEIL MDK-ARM Microcontroller Development Kit and IAR Emedded Worench
User Interace includes a 320x240 TFT display, 16 user LEDs, 8 rocer-style miniature DIP switches, 4 pushutton switches, miniature
joystick, 1 pushbutton system reset button, and potmeter
Analo Features include amient liht sensor/photo resistor, 3-axis accelerometer, and line-in / line-out analo interace
Communication eatures include two RS232 serial ports, IC interace, and inrared transceiver
Deuin includin onoard SEGGER J-Lin USB emulator and ARM 20-pin JTAG/SWD standard deu in/out connector
Memory eatures include 4 Mit ast-access SRAM, 32 Mit NOR lash. 2 it IC us EEPROM, and 16 Mit SPI Flash
Power includes two separate power domains allowin or accurate current and voltae measurements o the application enery
consumption, external 5V supply, and 5V/500mA USB supply
Prototype Board includes availaility o all EFM32 GPIO pins, 3 power domains 5V unreulated, AEM measured VDDm and VDD, user
LEDs
MCU Board eatures LCD EFM32-G8XX-DK only, 32.768 Hz crystal, 32 MHz crystal, and LEDs indicatin power and reset
Setup Control includes FPGA controllin switches and connections as well as IC EEPROM or identiication o prototype and MCU
boards
See See www.digikey.com/new What’s New!
Kinetis ARM Cortex-M4 Microcontrollers
32-it Kinetis MCUs represent the most scalale portolio o ARM Cortex-M4 MCUs in the industry. The irst phase o the portolio consists o ive MCU amilies with
over 200 pin-, peripheral- and sotware compatile devices with outstandin perormance, memory and eature scalaility. Enaled y innovative 90nm Thin Film Storae
TFS lash technoloy with uniue FlexMemory coniurale emedded EEPROM, Kinetis eatures the latest low-power innovations and hih perormance, hih precision
mixed-sinal capaility. Kinetis MCUs are supported y a maret-leadin enalement undle rom Freescale and ARM 3rd party ecosystem partners.
The Tower System Development Kits are development tools or the K-amilies o Kinetis microcontrollers. These its are part o the Freescale Tower System, a modular,
reusale development platorm that allows desiners to et to maret aster with pacaed evaluation oards, tools and runtime sotware. The K-amily microcontrollers
module can operate as standalone debug tools and can be purchased separately from the kits.
MPC5121e 32-bit Power Architecture Microcontrollers
Freescale Semiconductor and Digi-Key introduce
MPC5121e 32-bit Power Architecture Microcontrollers
Freescale Semiconductors MPC5121e and MPC5123 32-it
embedded processors provide an exceptional computing
platform for OEM, aftermarket, commercial telematics,
and consumer applications, including embedded solutions
reuirin networ connectivity, raphics and a raphical user interace. Based on the e300
core uilt on Power Architecture technoloy, the MPC5121e and MPC5123 emedded
processors will deliver quality, reliability and high performance for years to come.
Features:
e300 core uilt on power architecture technoloy
Up to 400 MHz perormance and 760 MIPS
AXE, a 32-it RISC audio accelerator enine
PowerVR MBX Lite 2D/3D Graphics Enine Not included in the MPC5123
DIU Interated display controller supports up to XGA resolution
12 prorammale serial controllers PSC
More Product Available Online: www.digikey.com
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Low-cost, high-performance
MCUs from Freescale
HC08AS/AZ 8-bit Microcontrollers
Freescale Semiconductor’s
HC08AS/A amily is part o
its low-cost, high-performance
M68HC08 amily o 8-it
microcontroller units MCUs.
All MCUs in this family use the
enhanced M68HC08 central processor unit CPU08 and are availale with a
variety o modules, memory sizes and types, and pacae types.
Low Pin Count MCUs
Fujitsu and Digi-Key introduce Fujitsu’s broadened family of compact,
flexible, and low pin count MCUs
Fujitsu broadens its 8-bit MCU family with the introduction of a
comprehensive rane o low-pin-count LPC products. Fuitsus LPC MCUs
feature high-performance, low-voltage, embedded flash, a precision on-chip
RC oscillator, and an on-chip deu eature. The MB95200 series includes a
complete range of single-chip standard microcontrollers with between 8 and
24 pins, powered y an optimized core and eaturin low-leaae technoloy
and embedded flash. With fast processing capabilities and low power
consumption position, the MB95200 series is an ideal desin choice or appliances such as washin machines,
refrigerators, ovens, smoke detectors, vacuum cleaners and air conditioning units. The MCUs are also ideal
for cordless phones, remote controls, shavers and other handheld consumer products, as well as aftermarket
automotive accessories.
XE164F Microcontroller
Features :
Hih-perormance M68HC08 architecture
Fully upward-compatile oect code with M6805,
M146805, and M68HC05 amilies
Up to 1B o on-chip electrically erasale
programmable read-only memory with security option
60B o lash electrically erasale read-only memory
16-it, 6-channel timer interace module TIMA-6
Cloc enerator module CGM
16-Bit Single-Chip Real Time Signal Controller
The XE164 Series is a new 100-pin device amily o the popular C166 microcontroller architecture. Based on the
enhanced C166S V2 architecture, it outperorms existin 16-it solutions. The XE164 is an improved and next
eneration representation o the ull eatured 16-it sinle-chip CMOS Real Time Sinal Controller with 32-it
performance.
Hih CPU perormance comined with enhanced IO capailities, exile power manaement and new impressive
peripherals such as Universal Serial Interace USIC mae the XE164 the instrument o choice or demandin industrial
applications such as Motor Control, Power Supplies, Transportation and Communication. Interation o external
components such as integrated voltage regulator, EEPROM emulation with additional flash modules and various clock
sources optimize system cost. The XE164 series is part o a amily with 4 dierent PG-LQFP pacaes enalin hih
levels of system integration and scalability with a rich choice of devices.
Features:
100K erase cycles
20-year data retention
-40C to 85C
Built-in EEPROM Emulation with dual
Flash memory
Flash content protection
Low voltae reset
Cloc supervisor
/- 3 On-chip RC oscillator
Sinle-wire deu interace
Low-cost development environment
Serial peripheral interace module SPI
Serial communications interace module SCI
8-it, 15-channel analo-to-diital converter ADC
Flash data security
Up to 2B o on-chip RAM
8.4MHz internal us reuency
Applications:
Low cost applications
Home appliances
Electrical tools
Consumer healthcare products
Atermaret car accessories
Applications:
Servo drives
Appliance motors
HVAC compressors and lowers
Stepper motors
Industrial pumps
Transportation
Power supplies
SMPS and Digital Power Conversion Solutions
Microchip has the benefits of digital power conversion, including higher power
density, lower system cost, and accelerated innovation
Sel contained SMPS solutions and rich peripherals o Microchips dsPIC diital power
devices enable engineers to design solutions that do not require much in the way of
external support chips. Thus, when usin the dsPIC DSC SMPS solution, developers can
otain a 20 reduction in component count over other solutions. In addition to space
and cost-savin eatures, the dsPIC DSC SMPS solution has special eatures that enale advanced power conversion.
Included amon these eatures is an intellient power peripheral. Independent PWM, ADC, and analo comparator
peripherals form the intelligent power peripheral via an internal configurable control fabric that enables them to interact
directly with one another.
Specifications:
Configurable Control Fabric
Controls coordination etween comparators, PWM, and ADC
Set-up via sotware / operates independently o sotware
Precisely times ADC conversions
Controls PWM response to aults
Benefits of Configurable Control Fabric
Provides real-time response without irmware intervention
Expands control rane o options
Adaptale or a wide variety o control methodoloies
Provides ail-sae control
Evaluation Boards:
DM300023 This development board provides an easy and economical way to evaluate the
dsPIC30F202x/1010 SMPS and Diital Power Conversion amily o components and provides an
educational and prototyping platform to investigate digital power conversion and digital Switch Mode
Power Supply SMPS desin. A prototypin tool or all 28-pin, SDIP dsPIC30F, dsPIC33F and PIC24
devices.
DM300027 This low-cost, 16-it, 28-pin Starter Development Board supports 28-dsPIC Diital Sinal
Controller DSC devices or pin PIC24 microcontrollers. This oard is an ideal prototypin tool to help
validate key design requirements using these DSCs and microcontrollers.
AC164133 Buc/Boost Converter PICtail Plus Dauhter Board provides an easy and economical
development platorm or dsPIC SMPS and diital power conversion amily DSCs which are
desined to provide low-cost and ecient control or wide rane o power supply topoloies.
DM240001 The Explorer 16 is a low cost, ecient development oard to evaluate the eatures and
perormance o Microchips new PIC24 Microcontroller, the dsPIC33 Diital Sinal Controller DSC
amilies, and the new 32-it PIC32MX devices. Coupled with the MPLAB ICD 2 In Circuit Deuer
or MPLAB REAL ICE, real-time emulation and deu acilities speed evaluation and prototypin o
application circuitry.
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Microstick for dsPIC33F/PIC24H Devices
Microchip Technology’s development platform for 16-bit digital signal controllers
and microcontrollers
Microchips Microstic or dsPIC33F and PIC24H devices is desined to provide
an easy-to-use, economical development environment or 16-it diital sinal
controllers and microcontrollers. The oard includes an interated deuer/
programmer and a socket for the device under test and pins that facilitates insertion
into a prototyping board for extremely flexible development. The device under
test is socketed for easy change-out. Additionally, the Microstick is supported by
Microchip’s MPLAB integrated development environment.
PIC18F47J53 8-Bit USB Microcontrollers
Microchip’s 28/44-pin, high performance USB microcontrollers with
nanoWatt XLP technology
Microchip Technoloys PIC18F47J53 eatures XLP technoloy or
extreme low power consumption. This new MCU provides up to 128KB
lash proram memory and 4KB RAM. This oers plenty o code space
for Microchip’s free USB stack and for application code. The MCU
eatures ull-speed USB 2.0 capaility, which enales applications that
can perform remote field upgrades, download usage data, and connect to diagnostic equipment. These
performance factors result in lower costs and more flexibility for the end user. The integrated mTouch
sensing capability enables easy implementation of capacitive touch sensing user interfaces, while XLP
technology drastically reduces the amount of power consumed and helps extend battery life. By having
USB integrated on this XLP family of MCUs, there is no need to sacrifice power consumption just to have
USB.
Many portable applications, such as smart card readers, occasionally need to connect to a PC or another
portale device via USB. The ull-speed USB 2.0 capaility o the PIC18F47J53 MCU enales this, and
Microchip offers a free smart card library within its free USB stack. An on-chip, 12-bit analog-to-digital
converter delivers the accuracy required for many advanced sensor, instrumentation, and measurement
applications. With multiple PWMs, timers, and SPI channels with DMA, the PIC18F47J53 MCU is well
suited for portable consumer devices, medical devices, and other applications that require low power
consumption and USB connectivity.
DM320005 Multimedia Expansion Board
Microchip’s flexible solution for development of high impact user
interfaces
Microchip’s Multimedia Expansion Board is an integrated yet
flexible solution for the development of high impact user interfaces.
The oard comes with a 3.2 color TFT touch-screen display and
interaces to any PIC32 starter it, allowin you to choose the
device family that works best for you. Many industrial and consumer
applications have a need for remote controls.
The Multimedia Expansion Board comes with an onboard FCC-certified WiFi module and can
accommodate eneral purpose, Ethernet, and USB PIC32 starter its. Other eatures include a 24-it
stereo audio codec, three-axis accelerometer, joystick, and microSD memory card slot. Simply connect
any PIC32 starter it to the Multimedia Expansion Board, and youre ready to develop, proram, and
debug. Software for the Multimedia Expansion Board is contained within the Microchip Application
Library, which includes libraries for the joystick, accelerometer, CPLD, and more.
Features:
USB powered
Free demo code
0.025 pin headers
Interated USB prorammer/deuer
Easy access to all device sinals or proin
Easily portale
Soceted dsPIC/PIC24
Flexile, easy device replacement
Onoard deu LED, utility LED, and reset switch
Only 20x76mm in size - smaller than a stic o um
Features:
Peripheral pin select or mappin diital peripherals to various I/O or desin lexiility
Sel-prorammin lash supports 10 erase/write cycles and 20 years retention
Chare time measurement unit CTMU supports capacitive touch screens
700nA real time cloc and calendar operation in sleep modes
Hardware RTCC provides cloc, calendar, and alarm unctions
Operatin voltae 2.0 - 3.6V, 5.5V tolerant diital inputs
2 MSSP serial ports or SPI or IC communication
330nA watch do timer operation in Sleep modes
Deep sleep mode ideal or attery applications
3 enhanced Capture / Compare / PWM modules
200nA sleep mode RAM retention
Interated ull speed USB 2.0
2 enhanced USART modules
Three analo comparators
9nA deep sleep mode
8-it parallel port
13 channel, 12-it ADC
Features:
Attach any PIC32 starter it reuired
Power via USB throuh the starter it or
external 9V supply
Fast, hih color imaes
Localized onts
Visual prompts and uttons
24-it stereo audio
Speex voice playac
MP3 music
Touch screen uttons
8-position oystic with ire utton
3-axis orientation / acceleration
FCC certiied Wi-Fi
10/100 Ethernet via PIC32 Ethernet
starter kit
Contents:
(Note: Software is not provided in the box)
Multimedia Expansion Board
Inormation sheet with lins to et started
Start card that directs user to we-ased
instructions for software download and
installation
See See www.digikey.com/new What’s New!
PIC24F Microcontrollers with Integrated Graphics
Microchip’s family of low cost, high
performance PIC24F MCUs with
a fully integrated and advanced
graphics subsystems
The use of graphical menus with
advanced touch buttons or touch
screens is becoming the preferred
method for implementing modern
user interfaces. A graphical user
interface offers greater flexibility for
customization, etter access to context sensitive menus, and the capaility
to accommodate a vast number of use cases. Microchip delivers a family of
low cost, hih perormance PIC24FJ DA microcontrollers that eature ully
integrated and advanced graphics subsystems. A microcontroller in this family
integrates three dedicated graphic acceleration engines. These engines support
a DMA interface to the frame buffer memory, effectively driving graphics
performance in processing and rendering graphics objects, providing easy
switching between fonts and languages, and fast data or image decompression.
Graphics Controller Features:
Three raphics hardware accelerators to acilitate
rendering of block copying, text, and unpacking of
compressed data
Color Loo-Up Tale CLUT with maximum o 256
entries
1/2/4/8/16 its-per-pixel pp color depth set at run
time
Display resolution prorammale accordin to rame
uer
- Supports direct access to external memory on
devices with EPMP
- Resolution supported is up to 480x272 60Hz,
16pp 640x480 30Hz, 16pp or 640x480
60Hz, 8pp
Supports various display interaces
- 4/8/16-it monochrome STN
- 4/8/16-it color STN
- 9/12/18/24-it color TFT 18- and 24-it displays are
connected as 16-it 5-6-5 RGB color ormat
Applications:
Consumer devices, includin thermostats, cordless
phones, remote controls, and gaming accessories
Home appliances, includin coee maers and other
counter-top appliances, ovens, refrigerators, and
washing machines
Industrial devices, includin point o sale euipment
and remote terminals
Portale medical devices, includin lucometers, loodpressure
monitors, and portable ECGs
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
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mTouch Development Kit and 8-Bit MCU
Microchip’s mTouch technology for flexible, royal-free solutions with GUI-based tools
Microchip’s mTouch projected capacitive touch-screen sensing
technology is the first in a series of patent-pending releases
supporting projected capacitive touch-screen solutions. Microchip
has also added the mTouch projected capacitive development kit,
as well as the PIC16F707 8-it microcontroller MCU, which
eatures two 16-channel capacitive sensin modules CSMs that
can run in parallel for increased sampling speed.
PIC18F K90 Family Microcontrollers
Microchip Technology’s PIC18F K90 family microcontrollers enable higher system integration
Microchip Technoloys PIC18F K90 amily 8-it microcontrollers are low-power, 5V, 8-it MCUs that include on-chip LCD driver modules and 12-it analo-to-diital
converters. These MCUs are availale in 64- and 80-pin pacaes with memory options that rane rom 32 KB to 128 KB o lash memory, up to 4 KB o RAM, and 1 KB o
on-chip EEPROM.
With 24 channels of mTouch capacitive touch sensing, these MCUs enable higher system integration. They combine the capability to sense a large number of cap-touch
sliders, buttons, and keys with the ability to drive large, segmented LCDs.
mTouch projected capacitive touch-screen technology enables
designers to quickly develop and implement robust glass-front user interfaces that simplify user
interaction via features such as gestures. Typical applications include global positioning systems,
thermostats, mobile handheld units, and other devices that use smaller displays with a finger input.
Building upon the mTouch capacitive touch-sensing technology, this royalty-free, robust technology now
wors throuh loves and on suraces that contain liuids. It also enales Braille to e used on capacitive
touch-sensing interfaces. Designers can integrate mTouch capacitive touch-sensing functionality with
their existin application code in an 8, 16 or 32-it PIC MCU, thus reducin total system costs.
Features:
mTouch Projected Capacitive Development Kit
The mTouch proected capacitive development it includes a 3.5-inch sensor mounted on
a sensor oard, a proected-capacitive oard with the PIC16F707 MCU, and ully unctional
firmware. The kit enables users to connect sensors to up to 24 channels without modifying the
firmware. The open source code supports sensors with up to 32 channels, and the kit includes
a raphical user interace GUI tool that enales users to easily adust ey parameters that are
important to their designs.
PIC16F707 Microcontroller
XLP 16-bit Energy Harvesting Development Board (DV164133)
The XLP 16-it Enery Harvestin
Development Kit is a true development
platorm or realizin enery harvestin
applications. The Microchip nanoWatt XLP
PIC MCUs are ideal or these low power
applications with sleep currents down to
20nA, active mode currents down to 50uA/
MHz, code execution eiciency, and multiple wae-up sources. Powered only y liht, the XLP it enales
rapid prototypin o low power applications such as RF sensors, temperature/environmental sensors,
utility meters, remote controls, and security sensors to name just a few. For software development
and prorammin, the it includes the PICit 3 prorammer/deuer or use with the Microchips ree
MPLAB Interated Development Environment.
The development oard portion o the it eatures the PIC24F16KA102 XLP MCU, on-oard temperature
sensors, data EEPROM, potentiometer, watch crystal, LEDs, and expansion connector or PICtail
modules. Supported PICtails include RF, SD/MMC Cards, Speech Playac, and more.
The power or the it is supplied y Cymets EVAL-08 Solar Enery Harvester. The harvester eatures
a high-efficiency solar panel suitable for use with indoor or outdoor light. The harvester captures,
manages, and stores energy in two Cymbet EnerChip thin-film rechargeable energy storage devices.
The EnerChips supply energy to the XLP development board when light is not available.
Power condition and capacity are monitored y the PIC24F usin Enery Aware sotware alorithms
developed by Microchip and Cymbet. The monitored information can be reported to the PC user interface
via a USB connection. This allows for experimentation and balancing of energy collection vs. energy use,
maximizin the eneits o the harvested enery.
In addition to two CSMs, the low-power PIC16F707 8-it MCU has a wide operatin voltae
rane o 1.8 5.5V with a typical proected-capacitive sensor application operatin current o
approximately 1.5mA at 5V.
Features:
Solar Enery Harvester with EnerChip storae devices providin acup power
Individual disale umpers or oard components such as temperature sensors, LEDs,
EEPROM, and potentiometer thereby removing unwanted standby current.
Expansion PICtail connector with MCU controlled power supply
Prototypin area or addin additional sensors and circuits
PICit 3 Prorammer/Deuer and oard level connector or application sotware
development
PIC24F16KA102 eXtreme Low Power MCU with 20nA sleep currentsCan also e used with
PIC24FJ64GA102
UART to USB ride or use in prototypin and PC communication
Enery Aware sotware reports chare status as a percentae and chare state Charin or
Discharin EnerChips
What’s Included:
Cymet Eval-08 Solar Enery Harvestin Board and Cale
XLP 16-it Development Board
PIC24F16KA102 Microcontroller
PICit 3 Prorammer/Deuer
USB Cale
XLP 16-it Enery Harvestin Development Kit user uide
PIC24F16KA 16-Bit Flash Microcontrollers
Microchip’s PIC24F16KA with nanoWatt XLP
Microchip Technoloys PIC24F16KA 16-it microcontroller is desined or power
constrained and battery-powered applications. This device features unique peripherals
such as DSBOR, DSWDT and RTCC, which run in deep sleep mode for excellent low
power performance.
The PIC24F16KA102 amily includes the new Chare Time Measurement Unit CTMU
interface module, which can be used for capacitive touch sensing, proximity sensing,
and also for precision time measurement.
Features:
Internal oscillator support 31 Hz to 8 MHz, up to 32 MHz with 4X PLL
Fail-sae cloc monitor allows sae shutdown i cloc ails
System supervisors low power BOR, WDT, INT0, and RTCC
Power modes run, doze, idle, sleep, deep sleep
1uS wae-up rom sleep
50nA I/O port leaae
195A at 1MHz run mode
78 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

LPC1102 32-Bit ARM Microcontroller
NXP’s LPC1102 brings unprecedented performance, low power, and simplicity
NXP Semiconductors LPC1102 is tareted at applications reuirin an ultra-miniature oard ootprint. As the newest memer o
the hihly successul LPC11xx microcontroller amily, the LPC1102 delivers the same ey eatures o low power, hih perormance,
and hih value while addin the new dimension o miniaturization. The LPC1102, with 32KB o lash and 8KB o RAM on-chip, is
availale in waer level chip scale pacain WL-CSP with dimensions o 2.17mm x 2.32mm, a thicness o 0.65mm, and a pitch
o 0.5mm.
Key product eatures include a 5-channel 10-it ADC, one UART, one SPI, two 32-it and two 16-it timers, and one 24-it system
timer. SWD deuin and prorammin with our reapoints and two watch points are also included. Eleven I/O unctions
also doule as eneral-purpose input and output GPIO or maximum lexiility. Oerin very low power consumption with active
mode current as low as 130A/MHz, the LPC1102 eatures an internal IRC oscillator that is accurate to 1 over the industrial
temperature and voltae rane. It can also e cloced with an external source.
LPC1100 Series 50-MHz, 32-bit Cortex-M0 Microcontrollers
NXP Semiconductors and Digi-Key introduce the LPC11C00
Cortex-M0 CAN microcontrollers
NXP Semiconductors’
LPC1111/12/13/14 is one o the
worlds irst Cortex-M0 ased
microcontroller series offering
users a cost effective, very
easy to use 32-bit MCU that is
code and tool compatible with
other NXP ARM-based MCU products. With 32-bit performance
combined with multiple power modes and very low deep-sleep
power, the LPC11xx offers industry leading energy efficiency
greatly extending battery life. The LPC11xx sets new benchmarks
in performance efficiency with dramatically improved code
density enabling longer battery life and lower system costs.
LPC1100L 32-Bit MCU
NXP’s LPC1100L MCU offers superior performance at low cost
NXPs LPC1100L is a low priced 32-it MCU solution. This particular MCU is
hiher value and easier to use than existin 8-/16-it microcontrollers y its
unprecedented performance, simplicity, low power, and more importantly,
dramatic reductions in code size or all 8-/16-it applications. The LPC1100L
series oers a seamless entry point or any 8-/16-it customers looin
to start with the scalable ARM architecture throughout their entire range
o product development. Built around the new Cortex-M0 architecture-the
smallest, lowest-power, and most energy-efficient ARM core ever developedthese
MCUs are ideally-equipped for use in battery-powered consumer
devices, smart meters, motor control, and more.
Features:
Serial wire deu and serial wire trace port
Hih-current output driver 20 mA on one pin
Hih-current sin drivers 20 mA on two pins
Power-On Reset POR
Sinle 3.3 V power supply 1.8 V to 3.6 V
Crystal oscillator with an operatin rane o 1 MHz to 25 MHz
Availale as 48-pin LQFP pacae and 33-pin HVQFN pacae
15 GPIO pins can e used as ede and level sensitive interrupt
sources
Processor wae-up rom deep-sleep mode via interrupts rom
various peripherals
Brownout detect with our separate thresholds or interrupt
and forced reset
12 MHz internal RC oscillator trimmed to 1 accuracy that
can optionally be used as a system clock
Applications:
Moile devices
Consumer peripherals
Lihtin
8/16-it applications
Portale devices
PLL allows CPU operation up to the maximum CPU rate
without the need for a high-frequency crystal
May e run rom the main oscillator, the internal RC oscillator,
or the watchdog oscillator
Interated PMU Power Manaement Unit to minimize power
consumption during sleep, deep-sleep, and deep power-down
modes
Cloc eneration unit with divider that can relect the main
oscillator cloc, IRC cloc, CPU cloc, and watchdo cloc.
Applications:
Battery-powered systems
e-Meterin
Consumer peripherals
Remote sensors
16-it applications
Features:
Sinle power supply 1.8 V to 3.6 V
Crystal oscillator with an operatin
rane o 1 MHz to 25 MHz
Uniue device serial numer or
identification
Availale as 48-pin LQFP pacae,
33-pin HVQFN pacae, and 44-pin
PLCC package
Applications:
eMeterin
Alarm systems
Lihtin
White oods
See See www.digikey.com/new What’s New!
LPC122x Cortex-M0 Microcontrollers
NXP’s LPC122x Cortex-M0 microcontrollers add up to 128 kB flash, more analog and
peripherals for customers’ applications
NXP expands its award-winnin and low-power Cortex-M0
microcontroller offerings with the LPC122x series. The LPC122x
series adds more features and performances to customers’
applications, including up to 128 kB of flash, DMA, CRC, 4
timers, RTC, comparators, ADC, Fast-Mode-Plus IC, SPI and
a Windowed Watch-dog timer. The LPC122x’s 128 kB flash
supports an erase sector as small as 512 ytes. Its 12 MHz
internal oscillator with 1 percent accuracy can optionally be used
as a system clock output.
The LPC122x series also eatures the industrys irst division API unction desined or the
ARM Cortex-M0 Core. This eliminates the need o writin division codes in the sotware
and improves the speed of a division by up to four times and greatly improves the system’s
processin perormance and saves code space. The LPC122x series is availale in 48-LQFP
and 64-LQFP pacaes.
In addition, the LPC122x series has an optional interated 40x4 sement display driver, the
LPC12D2x. This is the industrys irst Cortex-M0 microcontroller with an interated display
driver, allowing customers to further integrate their systems’ components with smaller
ootprint and lower cost. LPC12D2x is availale in 100-LQFP pacae.
Features:
Processor core
- ARM Cortex-M0 processor, runnin at
reuencies o up to 30 MHz with zero wait
state from Flash
- ARM Cortex-M0 uilt-in Nested Vectored
Interrupt Controller NVIC
- Serial Wire Debug
- System tick timer
Memory
- Up to 8 kB SRAM
- Up to 128 kB on-chip flash programming
memory
- In-System Prorammin ISP and
In-Application Prorammin IAP via on-chip
bootloader software
Cloc eneration unit
- Crystal oscillator with an operating range of 1
MHz to 25 MHz
- 12 MHz Internal RC IRC oscillator trimmed
to 1 accuracy that can optionally e used as
a system clock
- PLL allows CPU operation up to the
maximum CPU rate without the need for a
high-frequency crystal. May be run from the
system oscillator or the internal RC oscillator
- Clock output function with divider that can
relect the system oscillator cloc, IRC cloc,
main clock, and Watchdog clock
- Real-Time Cloc RTC
Power
- Three reduced power modes Sleep, Deepsleep,
and Deep power-down
- Processor wake-up from Deep-sleep mode via
start logic using 12 port pins
- Brownout detect with three separate
thresholds each for interrupt and forced reset
- Power-On Reset POR
- Interated PMU Power Manaement Unit
Applications
eMeterin
Lihtin
Industrial networin
Alarm systems
White oods
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
79
79

What’s New! See See www.digikey.com/new
RX600 Series Microcontrollers
Renesas’ RX600 series provides MCU performance and powerful signal processing capabilities
Renesas RX600 series microcontrollers deliver the very latest technoloy. The RX600 chips are microcontroller/diital sinal controller hyrids that provide oth
super MCU perormance and powerul sinal processin capailities olstered y the industrys astest emedded lash memory all while achievin very low power
consumption. These versatile and economical MCUs are scalable for many applications. They are supported by a rich ecosystem that offers development tools and
middleware.
SH7216 MCU Series
Development Boards
Renesas’ SH7216 features 200MHz superscalar core and 10ns read
flash memory
Renesas SH7216 series o MCUs
employs a uniue 10ns lash
technology with ample performance
to combine real-time control,
connectivity, and digital signal
processing in one cost-effective
solution. The on-chip 1MB flash
and 128KB RAM provides additional lexiility in selectin the appropriate
sotware or an application, reducin time to maret. The SH7216 series
incorporates a PWM timer, 12-bit ADC, LAN controller, USB, and CAN as
peripheral unctions. The SH7216 series lineup consists o the SH7216
roup with loatin-point unit FPU.
Features:
Up to 400 MIPS perormance
C8051F98x and C8051F99x Low-Power MCU’s
DSP Instructions and FPU to accelerate and enhance real-time alorithms
10ns read access lash eliminates need to execute out o RAM
Up to 1MB on-chip lash, 32KB data lash and 128KB RAM
External memory controller supports SDRAM, SRAM, NOR, and EPROM
Two powerul motor timers to control two rushless motors simultaneously
10/100Mps Ethernet with dedicated DMA and 2KB transmit and receive FIFO
USB FS 2.0 device and CAN
Two 12-it ADC modules, 8 DMA channels, 5x UART, SPI, and IC
Applications:
Industrial Euipment
PLC
General-purpose inverters
AC servos
Medical Applications
AED
Sleep screenin
Telemetry
Building Automation
Commercial uildin access systems
Commercial HVAC
Hih-end ire panels
Silicon Labs and Digi-Key introduce the C8051F9xx family of low power MCU’s
Silicon Las C8051F9xx MCU amily is desined or low power applications includin wireless devices or home automation, RFID tas, pedometers, heat/as meters and
lighting controllers as well as sensor equipment such as alarms, game controllers, and smoke and fire detectors. They provide one of the lowest current consumptions
in oth sleep and active modes main this an optimal choice or small Flash size and low power applications. The C8051F9xx amily has more MIPS, a hiher resolution
ADC, smaller form factor and operates fully down to 1.8 V.
The C8051F98x devices urther expand Silicon Las low power C8051F9xx product amily to address smaller memory, lower power, and more cost-sensitive
microcontroller applications.
The C8051F99x MCUs comine the low power technoloy o the C8051F9xx amily with the ast and accurate capacitive sensin eatures o the QuicSense
C8051F7xx/8xx amilies to address the ast-rowin capacitive touch application maret.
C8051F98x
Features:
Ultra Low power in active and sleep modes
Hihly interated - 12-it ADC, VREF, oscillators, our timers, 25 MIPS CPU all in 3x3 mm pacae
Fully compatile amily 2-64 B Flash MCUs
Benefits:
Enales siniicant attery lie savins
Saves BOM cost and enales a small orm actor oten necessary in attery powered applications
Allows or cost, memory size optimization
C8051F99x
Features:
Ultra Low power in active and sleep modes
Ultra Low power 1 A wae-on-touch
Hih SNR capacitance-to-diital converter with ultra-ast 40 s scan time
Hihly interated 12-it ADC, VREF, oscillators, 4 timers, 25 MIPS CPU all in 3x3 mm pacae
Proven alorithms provided in QuicSense Studio
Benefits:
Enales siniicant attery lie savins
Hihly responsive uttons, sliders, and wheels
Saves BOM cost and enales a complete system solution applications in a small orm actor
QuicSense Studio provides a rapid and trustworthy path to development success
Sinle environment or all human interace unctions
80 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Stellaris ® Robotic Evaluation Board
Stellaris EVALBOT from Texas Instruments makes experimenting with microcontrollers
fun and easy
Texas Instruments Stellaris rootic evaluation oard EVALBOT is an evaluation
platorm or the Stellaris LM3S9B92 microcontroller. The oard also uses a rane
o Texas Instruments analo components or motor drive, power supply, and
communications functions. After a few minutes of assembly, the EVALBOT’s electronics
are ready to run.
When roaming, three AA batteries supply power to the EVALBOT. The EVALBOT
automatically selects USB power when tethered to a PC as a USB device or when debugging. Test points are provided to all key
EVALBOT sinals. Two 20-pin headers enale uture wireless communications usin standardized Texas Instruments low-power
emedded radio modules EM oards. Additional microcontroller sinals are availale on rea out pads arraned in rows adacent
to the microcontroller.
The EVALBOT has factory-installed quick start software resident in on-chip flash memory. For software debugging and flash
prorammin, an interated in-circuit deu interace ICDI reuires only a sinle USB cale or deu and serial port unctions.
The EVALBOT is availale with a Stellaris-speciic version o C/OS-III, The Real-Time Kernel y Jean J. Larosse. This oo
reveals how a real-time ernel wors usin Micriums C/OS-III and the Stellaris EVALBOT as reerences. For those who already
have the book, the board is available separately.
MSP-EXP430G2 LaunchPad
Development Board
Features:
Rootic capailities
Wireless communication expansion port
Stellaris LM3S9B92 microcontroller
MicroSD card connector
I2S audio codec with speaer
USB host and device connectors
RJ45 Ethernet connector
Briht 96 x 16 lue OLED display
Root eatures
- Two DC gear motors provide drive and steering
- Opto sensors detect wheel rotation with 45 resolution
- Sensors or ump detection
On-oard in-circuit deu interace ICDI
Battery powered y three AA atteries or powered throuh USB
Mechanical components assemled y user
Texas Instruments’ MSP-EXP430G2 with the IAR Embedded Workbench Kickstart for MSP430
Texas Instruments MSP-EXP430G2 LaunchPad is an easy-to-use lash prorammer and deuin tool that provides everythin needed to start developin on MSP430 Value Line
devices. It includes a 14-/20-pin DIP soceted taret oard with interated emulation to uicly proram and deu MSP430 Value Line devices in-system throuh the Spy Bi-Wire
2-wire JTAG protocol. The lash memory can e erased and prorammed in seconds with no external power supply reuired due to the MSP430s ultra-low power lash.
Features:
DIP taret socet supportin up to 20 pins enales development on any MSP430 Value Line
device in a DIP pacae N
Built-in lash emulator connects lash-ased MSP430 Value Line devices to a PC or real-time,
in-system programming and debugging via the included mini USB cable
2 prorammale LEDs, 1 power LED
1 prorammale uttons, 1 reset utton
Free and unrestricted compiler/deuer IDEs
- IAR Emedded Worench KicStart and Code Composer Studio oth have ree, downloadale
versions, which can run unrestricted on any MSP430 Value Line device
Multi-ile compilation, resultin in a sinle compiler output ile
VisualSTATE uild interation
Support or MSP435F5xx amily ootstrap loader environment
New data models or MSP430X small, medium, lare
Improved callin convention
Support or 32-it hardware multiplier in C-SP simulator and C lirary
TimerA1 and TimerB1 are now simulated when the C-SP simulator is used
Support or multiple MSP-FET430UIF TI USB FET modules
Static watch window
Symolic memory window
Improved reapoint display
Memory save/restore also in TI-TXT ormat
New eneric header iles
uC/OS-II Kernel Awareness Plu-in in C-SP
Support or deu modules rom Elprotronic, Olimex and Sotauh
See See www.digikey.com/new What’s New!
F2806x Floating-Point Piccolo
Texas Instruments Piccolo MCUs offer floating-point precision and
increased math capabilities
Texas Instruments F2806x series expands Piccolo low-cost, hih
integration 32-bit microcontrollers to include floating-point ease of use along
with increased communication capabilities. The math computing capabilities
are reatly increased not only y a speed ump to 80MHz, ut also y the
addition o the new VCU complex math unit. Flash and RAM size have een
increased, and Piccolo sees new peripherals such as USB with host, DMA,
and HiRes capture. These advances open the door to a wide array o new
application possibilities. For example, the engineers can easily add any variant of power line communication to
their applications without the need for an additional MCU.
There is now a low-cost controlSTICK or instant plu-and-play with your computer. The F28069 controlSTICK
includes on-oard emulation, so its a complete development it, alon with TIs Code Composer Studio v4 IDE
and raphical prorammin. There is also an Experimenters Kit with the F28069 controlCARD. The controlCARD
will also e sold individually and can e plued into all existin evaluation and application its. The F28069
Piccolo Experimenter Kit is an ideal product or OEMs to use or initial device exploration and testin.
Features:
Up to 80MHz, 32-it C28x CPU
16B to 256B emedded lash
12-it ADC, up to 4.6 MSPS
150ps hih-resolution ePWM
Control law accelerator
Pacae options startin at 38-pin
TSSOP
Interated oscillator, voltae reulator,
BOR/POR
Sinle-rail 3.3V device
Floatin-point and ixed-point options
Applications:
Solar inverters
LED lihtin
Electric vehicles
Appliances
Diital power
Motor control
Renewale enery
PLC
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
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TeaClippers MCU Programmers
The TeaClippers are portable, target-powered firmware programmers
for Microchip’s PIC Microcontrollers. Limited Firmware uploads can be
enabled for firmware resale. Encrypted versions are available to protect
content and device verification prior to and during programming. The
Crypto version supports any microcontroller that can self-write to its
own memory. Unique serial numbers and license codes can be written
to each PIC Programmed. The TeaClipper USB Adapter is required to
load the TeaClipper’s with Firmware.
Dim. in mm
LED LED
1 2345
Ø .64 2.54
Description
Digi-Key
Part No.
TeaClipper PIC
Price
Each
Flexipanel
Part No.
High or Low Voltage Programming Clip 658-1019-5-ND 37.80 TEACL-PIC-HV
Evaluation Kits / Accessories
USB Adapter for TeaClipper 658-1026-5-ND 40.50 TEACL-USB
Programming and Prototyping Adapters
C
Description
Digi-Key
Part No.
Price
Each
Logical Systems
Part No.
SOIC to DIP Prototyping Adapters
8-Pin SOIC .150 Wide Socet to 8-Pin .300 Wide DIP Plu 309-1045-ND 60.00 PA8SO1-03-3
8-Pin SOIC .150 Wide Socet to 8-Pin .600 Wide DIP Plu 309-1046-ND 60.00 PA8SO1-03-6
8-Pin SOIC .210 Wide Socet to 8-Pin .300 Wide DIP Plu 309-1047-ND 70.00 PA8SO1-2006-3
8-Pin SOIC .210 Wide Socet to 8-Pin .600 Wide DIP Plu 309-1048-ND 70.00 PA8SO1-2006-6
8-Pin SOIC 300 MIL Wide Socet to 8-Pin 300 MIL Wide
DIP Plu
309-1098-ND 7.50 PA-SOD3SM18-08
14-Pin SOIC .150 Wide Socet to 14-Pin .300 Wide DIP Plu 309-1000-ND 60.00 PA14SO1-03-3
14-Pin SOIC .150 Wide Socet to 14-Pin .600 Wide DIP Plu 309-1001-ND 60.00 PA14SO1-03-6
18-Pin SOIC .300 Wide Socet to 18-Pin .300 Wide DIP Plu 309-1010-ND 70.00 PA18SO1-08H-3
18-Pin SOIC .300 Wide Socet to 18-Pin .600 Wide DIP Plu 309-1011-ND 70.00 PA18SO1-08H-6
20-Pin SOIC .300 Wide Socet to 20-Pin .300 Wide DIP Plu 309-1012-ND 70.00 PA20SO1-08H-3
20-Pin SOIC .300 Wide Socet to 20-Pin .600 Wide DIP Plu 309-1013-ND 70.00 PA20SO1-08H-6
28-Pin SOIC .300 Wide Socet to 28-Pin .300 Wide DIP Plu 309-1023-ND 70.00 PA28SO1-08H-3
28-Pin SOIC .300 Wide Socet to 28-Pin .600 Wide DIP Plu 309-1024-ND 70.00 PA28SO1-08H-6
28-Pin SOIC 300 MIL Wide Socet to 28-Pin 300 MIL Wide
DIP Plu
309-1097-ND 14.00 PA-SOD3SM18-28
SSOP to DIP Prototyping Adapters
20-Pin SSOP Socet to 20-Pin .300 Wide DIP Plu 309-1014-ND 80.00 PA20SS-OT-3
20-Pin SSOP Socet to 18-Pin .600 Wide DIP Plu 309-1016-ND 80.00 PA20SS-P54
28-Pin SSOP Socet to 28-Pin .600 Wide DIP Plu 309-1025-ND 80.00 PA28SS-OT-6
28-Pin SSOP Socet to 28-Pin .600 Wide DIP Plu 309-1026-ND 80.00 PA28SS-P55
PLCC to DIP Prototyping Adapter
32-Pin PLCC Auto-Eect Socet to 28-Pin .600 Wide DIP Plu 309-1089-ND 70.00 PA32-28
32-Pin PLCC Lidded IF Socet to 28-Pin .600 Wide DIP Plu 309-1090-ND 90.00 PA32-28Z
32-Pin PLCC Auto-Eect Socet to 32-Pin .600 Wide DIP Plu 309-1091-ND 100.00 PA32-32
32-Pin PLCC Lidded IF Socet to 32-Pin .600 Wide DIP Plu 309-1092-ND 90.00 PA32-32Z
44-Pin PLCC Auto-Eect Socet to 40-Pin .600 Wide DIP Plu 309-1093-ND 115.00 PA51-44
44-Pin PLCC Lidded IF Socet to 40-Pin .600 Wide DIP Plu 309-1094-ND 135.00 PA51-44
44-Pin PLCC Auto-Eect Socet to 40-Pin .600 Wide DIP Plu 309-1095-ND 115.00 PA280-44
44-Pin PLCC Lidded IF Socet to 40-Pin .600 Wide DIP Plu 309-1096-ND 135.00 PA280-44
44-Pin PLCC Lidded IF Socet to 40-Pin .600 Wide DIP Plu 309-1007-ND 135.00 PA17C42-PD
The EPSILON5 Portable USB ISP Programmer
is a high-speed de velop ment/field/production
pro grammer supporting most In-System
Programmable (ISP) Micro controllers from
Atmel, Philips and Zensys.
The programmer can be operated under PC
control during develop ment and for project
configuration/up loading using the EQTools
Toolsuite. The EPSILON5(AVR-JTAG)
supports high-speed In-System Programming
(ISP) of Atmel AVR Microcontrollers via the
JTAG interface.
EPSILON5 — Portable ISP Programmer:
Features: Supports C Controlled and
Standalone rogramming evelopment
Mode - Using Equinox Development Suite
ES under C control Standalone Mode
- Ideal for field or small-scale production use
EPSILON5 — Portable
ISP Programmer
EPSILON5 — Portable ISP Programmer
Equinox
Development
& Production
Tools for
Embedded
Microcontro lers
no C reuired astest programming times possible due to on-board data, high-speed SI and T
port Supports programming of SH, EEROM, SE bits, Security bits and RC Oscillator Calibration
bytes 2Mbits of on-board non-volatile SH memory for user proect storage Stand alone Mode T
ort - ST IS using T algorithm Euinox evelopment Suite ES roect uilder - To create/
edit rogramming roects roect Manager - To create and maintain roect Collec tions roect pload/
Download Utility - To upload projects to the programmer for use in Standalone Mode
ATmega AVR JTAG Upgrade Bundle: The “ATmega AVR JTAG” License Upgrade for Equinox ISP
Programmers supports high-speed In-System Programming (ISP) of Atmel ATmega AVR Microcontrollers
via their on-chip JTAG port. The JTAG algorithm yields much faster programming times (3-4 times faster)
than the traditional SPI algorithm due to an enhanced protocol and higher bus speed. It is also possible to
program multiple AVR Microcontrollers which are part of a JTAG Chain on the same Target System using
JTAG algorithm.
Note: For more information, please see Digi-Key web site.
483-1000-ND EPSILON5-A1 EPSILON5 — Portable USB ISP
Programmer .................................... $259.95
483-1014-ND EPSILON5(AVR-JTAG) EPSILON5 — Portable USB ISP Programmer
for AVR-JTAG — RoHS Compliant ........... $259.95
483-1015-ND EPSILON5(SAM7) EPSILON5 — Portable USB ISP Programmer
for SAM7 — RoHS Compliant ................ $299.95
483-1008-ND EPSILON5-UPG3 EPSILON5 — Portable USB ISP Programmer
Upgrade JTAG ISP AVR MCU................. $164.95
483-1016-ND EPS-AVRJTAG-BUNDLE Programmer/Device Library Included
RoHS Compliant .............................. $329.95
483-1017-ND EPS-AT91SAM7JTAG-BUNDLE Includes Device Library
RoHS Compliant .............................. $379.95
483-1005-ND EQ-IOCON-3 I/O Connector Module 3 for Atmel
ATmega JTAG ISP ............................. $129.95
483-1007-ND PPM3A1-UPG7 Atmel ATmega AVR - JTAG ISP
Upgrade License ............................... $775.50
483-1013-ND EQ-SFM-MAX-V1.3 Production ISP Programming Module
RoHS Compliant .............................. $299.95
E-mail: sales@equinox-tech.com
Telephone: +44
1204 529000
Fax: +44
535555
© 2000 Copyright EquinoxTechnologies UK Limited. All rightreserved
site: www.equinox-tech.com
RS-232
PORT
DC POWER
(3.1-5.0V)
5
Target ISP Connector
Description
Digi-Key
Part No.
Price
Each
Logical Systems
Part No.
44-Pin PLCC Auto-Eect Socet to 40-Pin .600 Wide DIP Plu 309-1039-ND 115.00 PA44-40-P64-PD
44-Pin PLCC Lidded IF Socet to 40-Pin .600 Wide DIP Plu 309-1040-ND 135.00 PA44-40-P64-PD
QFP to DIP Prototyping Adapters
44-Pin PQFP Socet to 40-Pin .600 Wide DIP Plu 309-1002-ND 165.00 PA16C64-QD-16
44-Pin TQFP Socet to 40-Pin .600 Wide DIP Plu 309-1003-ND 165.00 PA16C64-QD-03
44-Pin TQFP Socet to 40-Pin .600 Wide DIP Plu 309-1008-ND 165.00 PA17C42-QD-03
DIP to PLCC Prototyping Adapters
Emulator Adapter, 40-Pin DIP IF Socet to 44-Pin PLCC Plu 309-1031-ND 145.00 PA40-44-P64-DP
Emulator Adapter, 40-Pin DIP Socet to 44-Pin PLCC Plu 309-1032-ND 125.00 PA40-44-P64-DP-PP
PLCC to PLCC Prototyping Adapter
44-Pin PLCC Auto-eject Socket to 44-Pin PLCC Plug
11 Pinout
309-1041-ND 145.00 PA44-PP
44-Pin PLCC Lidded IF Socet to 44-Pin PLCC Plu
11 Pinout
309-1042-ND 165.00 PA44-PZP
QFP to QFP Prototyping Adapters
44-Pin TQFP Socet to 44-Pin Solder Down QFP Plu
11 Pinout
309-1043-ND 360.00 PA44QF03-44QF
DIP to SO-Plug Prototyping Adapter Kits
8-Pin .300 DIP Board, Two 8-Pin .250 SOIC Plus 309-1050-ND 20.90 PADSO-0803-D250-08/2
8-Pin .300 DIP Board, Two 8-Pin .310 SOIC Plus 309-1051-ND 20.90 PADSO-0803-D310-08/2
18-Pin .300 DIP Board with IF Socet. Two 18-Pin .420
SOIC Plus
309-1059-ND 50.90 PADSO1803-D420-18/2
28-Pin .300 DIP Board, Two 28-Pin .420 SOIC Plus 309-1065-ND 36.90 PADSO-2803-D420-28/2
SOIC to SOIC Prototyping Adapters
18-Pin SOIC .300 Socet to 18-Pin SOIC Connector 309-1075-ND† 70.00 PA-SOD-2808-18
28-Pin SOIC .300 Socet to 28-Pin SOIC Connector 309-1073-ND† 70.00 PA-SOD-2808-28
Additional DIP Boards
28-Pin .300 DIP Board 309-1064-ND 24.00 PA-DSO-2803
Additional SO-Plugs
18-Pin .420 Plus 6 pieces 309-1081-ND 29.70 PA-SOF-D420-18/6
28-Pin .420 Plus 6 pieces 309-1083-ND 38.70 PA-SOF-D420-28/6
† Require SO-Plugs which must be ordered separately.
FS2009 — Portable High-Speed
Multi-Project USB ISP Programmer
The FS2009 is a portable programmer ideal for Development, Field-Service and Production. It supports
high-speed In-System Programming (ISP) of the on-chip FLASH/EEPROM memory of many FLASH
Microcontroller devices including 8051, Atmel AVR, NXP, and Zensys Microcontrollers. Support for
the programming of many 24xxx Serial EEPROM Memories via I2C is also offered along with Atmel
AT91SAM7 support. In Standalone Mode (without a PC) the operator can select from any 1 of 64 pre-loaded
“Programming Projects” using the keypad and Display and then simply presses the key to program the
Target Device.
Features: Supports IS of T1SM devices chargeable upgrade Supports programming via SI and
RT protocols as standard Chargeable upgrade available for programming via T and I2C Supports
Standalone operation i.e. no C reuired after programmer has been congured ery fast programming
speeds suitable for high-throughput production environments p to 64 individual rogramming roects
can be uploaded to the non-volatile On-board SH Store 4Mbytes Robust I/O driver stage
483-1018-ND FS2009(AVR-JTAG) Portable Programmer for AVR-JTAG .......................... $499.95
483-1019-ND FS2009(SAM7) Portable Programmer for SAM7 ................................ $499.95
483-1020-ND FS2009(UN) Portable Programmer for UN ................................... $499.95
PPM4-MK1 — High Speed
Production ISP Programmer Module
The PPM4-MK1 is a state-of-the-art Production ISP Programmer designed for high-speed In-System
Programming (ISP) of FLASH Microcontrollers and Serial Memory devices. It supports programming of
devices by most interfaces including SPI, JTAG, JTAG chain, SCI, I2C (2-wire) and UART Boot Loader.
Capable of operating in “Standalone Mode” where any one of 64 independent “Programming Projects” can
be recalled and executed via the programmer keypad/display interface. Features a 4-wire TTL Remote
Control interface making it ideal for interfacing to any ATE or In-Circuit Tester (ICT). A special Start
Signal can be used to detect when a Test Fixture lid has been closed and thereby automatically start a
programming operation.
483-1021-ND PPM4-MK1(UN) ............................................................................ $999.95
FS2003 — Portable High-Speed ISP
Programmer for 8051 and AVR
Microcontrollers
The FS2003 Programmer supports high-speed In-System Programming (ISP) of many 8051 and Atmel AVR
Micro controllers. It can be utilized in standard “Standalone Mode” without a PC, making it ideally suited for
field-service and/or production ISP environments. The operator simply selects one of the 64 “Pro gram ming
Projects” held locally on the programmer and then presses the “Auto-Program” key to program the target
device. The FS2003 supports SPI and Boot loader UART ISP as standard and can be upgraded to sup port
JTAG ISP.
Programming Modes: Standalone Mode Keypad C no C evelopment Mode Controlled via
Euinox evelopment Suite ES running on C Script Mode Chargeable upgrade
In-System Programming Headers: or SI Euinox 1-way, tmel 1-way, tmel 6-way IC Headers
or RT Euinox 1-way Header or T tmel 1-way IC Header
483-1009-ND FS2003-UPG7 (Upgrade FS2003 JTAG ISP) ........................................ $249.95
82 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

CHIPPROG-ISP-ND
®
EXIT
5 0
PA S RUN ERROR
POWER
START
28
24
20
18
16
14
8
32
42
40 48
START
GOOD
BUSY
ERROR
32
42
40
G OD
BUSY
E ROR
48
START
32
42
40
G OD
BUSY
E ROR
48
START
GOOD
32
42
40
G OD
BUSY
E ROR
48
START
START
START
28
24
20
18
16
14
8
32
48
42
40
32
42
40
G OD
BUSY
E ROR
GOOD
BUSY
ERROR
48
MPQ Series In-System Programmers
for Manufacturing
Features: rograms 4 devices simultaneously rray Ms to program up to 64 devices simultaneously Stores up to 4 program images
in internal lash Stand alone, C or TE controlled Supports target device voltages from 1.8 ~ 5.5 Software upgradeable to support
future devices uilt to survive in manufacturing One year warranty
Description
Digi-Key
Part No.
Price
Each
RPM Systems
Part No.
Four port, for CypressPSoC 770-1000-ND 499.00 MPQ-PSOC
Four port, for ZiLOG Z8-Encore! 770-1002-ND 499.00 MPQ-Z8
Four port, for Atmel AVR (SPI and JTAG) 770-1007-ND 548.00 MPQ-AVR
Four port, for Atmel AVR32 Microcontrollers 770-1008-ND 569.00 MPQ-AVR32
PASS ACTIVE
1 2 3 4
FAIL
SUPERPRO ® Universal Programmers
Features: Two programmers in one ltra-high speed universal programmer Socet adapters to support all ranges of pacage types RM RISC processor
Fig. 1 Fig. 2 Fig. 3 Fig. 4
C
SUPERPRO ® 5004GP ®
SUPERPRO ® ENTER
Fig.
Description
Digi-Key
Part No.
SUPERPRO 500x — Supports Over 58,000 Devices — RoHS Compliant
Price
Each
Xeltek
Part No.
1 Universal Gang Programmer, 144-Pin, Concurrent and Independant 4 Sockets 415-1035-ND 6295.01 SUPERPRO5004GP
2 Universal Programmer, 144-Pin, Supports Stand-Alone and PC Mode 415-1036-ND 1995.00 SUPERPRO5000
SUPERPRO 501S — Supports Over 24,000 Devices
2 Economic Universal Programmer, 48-Pin, Supports Stand-Alone and PC Mode 415-1046-ND 995.00 SUPERPRO501S
SUPERPRO Z — Supports Over 3,469 Devices
3 Universal Programmer, 40-Pin 415-1000-ND 195.00 SUPERPROZ
SUPERPRO 500P — Supports 24,000 Devices
4 Economic Universal Programmer, 48-Pin, PC Mode Only 415-1047-ND 845.00 SUPERPRO500P
Eprom Eraser
—
Eprom Eraser with Electronic Starter, 24-Pin, 12 Pieces 415-1048-ND 125.00 LER121A-110V
Eprom Eraser with Electronic Starter, 24-Pin, 64 Pieces 415-1049-ND 195.00 LER123A-110V
Socket Adapters
Description
Digi-Key
Part No.
Price
Each
Xeltek
Part No.
For SP 3000U/9000U/580U/280U/Z
PLCC32-DIP32 415-1013-ND 105.00 SA015A1T
PLCC20-DIP20 415-1014-ND 105.00 SA001A
PLCC28-DIP28 415-1015-ND 105.00 SA008A
PLCC44-DIP24 415-1017-ND 110.00 SA244
SOIC28-DIP28 415-1018-ND 115.00 SA404
PSOP44-DIP44 415-1023-ND 185.00 SA638
TSOP40-DIP40 415-1024-ND 185.00 SA409T
TSOP56-DIP48 415-1027-ND 225.00 SA628-B011
TQFP32-DIP32 415-1028-ND 185.00 SA636
SDIP42-DIP42 415-1029-ND 195.00 SA028
Description
Digi-Key
Part No.
Price
Each
Xeltek
Part No.
For SP 5000/5004GP
PLCC32-D32 415-1037-ND 185.00 CX2032
PLCC44-D44 415-1038-ND 185.00 CX2044
TSOP48-D48 415-1039-ND 235.00 CX1004
SOP16-D16 415-1040-ND 175.00 CX1016
TSOP40-D40 415-1041-ND 260.00 CX1006
TSOP56-D56 415-1042-ND 300.00 CX1011
SSOP28-D28 415-1043-ND 205.00 CX1025
SOIC28-D28 415-1044-ND 185.00 CX1033
NEW!
Programmers and Adapters
Phyton ChipProg economical and professional quality programmer line spans the range from inexpensive engineering programmers, to low-cost in-system
programmers, as well as gang programmers for low-volume and mid-volume manufacturing. All tools are USB hosted, have a friendly user interface, scripts
for automating common programming tasks, and provide very fast programming. A variety of programming adapters for chip packages and cables for
in-system programming are available.
Programmers
Fig. Description
Digi-Key
Part No.
Price
Each
Phyton
Part No.
1 Stand-a-lone Programmer, 40-DIP CHIPPROG-40-ND 445.00 CHIPPROG-40
2 Stand-a-lone Programmer, 48-DIP CHIPPROG-48-ND 545.00 CHIPPROG-48
3 4-Socket Gang Programmer CHIPPROG-G4-ND 2450.00 CHIPPROG-G4
4 In-System Universal Programmer CHIPPROG-ISP-ND 395.00 CHIPPROG-ISP
Fig. 1 Fig. 2
Fig. 3
28
24
20
18
16
14
8
28
24
20
18
16
14
8
Adapters
28
24
20
18
16
14
8
28
24
20
18
16
14
8
Description
Digi-Key
Part No.
Price
Each
Phyton
Part No.
BH-16 to 28-DIP AE-ISP-MSP430-ND 80.00 AE-ISP-MSP430
BH-10 to 28-DIP AE-ISP-U1-ND 80.00 AE-ISP-U1
32-PLCC to 28-DIP AE-P32-28-ND 80.00 AE-P32-28
28-PLCC to 28-DIP AE-P28U-ND 85.00 AE-P28U
32-PLCC to 32-DIP AE-P32U-ND 80.00 AE-P32U
44-PLCC to 40-DIP AE-P44-I51-ND 120.00 AE-P44-I51
16-SOIC to 16-DIP AE-SC8/16UM-ND 70.00 AE-SC8/16UM
28-SOIC to 28-DIP AE-SC18/28U-ND 80.00 AE-SC18/28U
32-QFP to 28-DIP AE-Q32-AV1-ND 145.00 AE-Q32-AV1
44-SO to 40-DIP AE-SO44-16-ND 115.00 AE-SO44-16
16-SOIC to 16-DIP AE-SC8/16UN-ND 70.00 AE-SC8/16UN
Description
Digi-Key
Part No.
Price
Each
Phyton
Part No.
48-QFP to 48-DIP AE-Q48U-ND 170.00 AE-Q48U
44-PLCC to 44-DIP AE-P44U-ND 120.00 AE-P44U
Adapter Sockets
44-TQFP to 40-DIP AE-T44-I51-ND 165.00 AE-T44-I51
32-TSOP to 32-DIP AE-TS32W-ND 105.00 AE-TS32W
40-TSOP to 40-DIP AE-TS40W-ND 140.00 AE-TS40W
48-TSOP to 40-DIP AE-TS48-16AM-ND 150.00 AE-TS48-16AM
48-TSOP to 40-DIP AE-TS48-NAND-2-ND 150.00 AE-TS48-NAND-2
48-TSOP to 48-DIP AE-TS48U-ND 150.00 AE-TS48U
56-TSOP to 40-DIP AE-TS56-16AM-ND 160.00 AE-TS56-16AM
56-TSOP to 40-DIP AE-TS56-16I-ND 160.00 AE-TS56-16I
44-SOIC to 44-DIP AE-SO44U-ND 115.00 AE-SO44U
Fig. 4
In-System Programmer
BUSY
ERROR
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
83
83

NEW!
EFM32® Gecko Microcontroller Family
EFM32 Gecko Microcontroller Family:
Features: 32-bit ARM Cortex-M3 running up to 32 MHz 1.25 DMIPS/MHz Superior Math Capability
Memory Protection Unit (MPU) Single 1.8 to 3.8 volt power supply -40° to 85°C operation range Up to
128 KB Flash and 16 KB RAM memory Up to 90 GPIO with 20 mA drive strength 16 External Interrupts
External Bus Interface (EBI) Direct memory access Controller (DMA) Peripheral Reflex System for
autonomous operation Hardware AES with 128/256-bit encryption and decryption Integrated high and
low frequency oscillators USARTs with UART and SPI modes up 16 Mbit/s Low Energy UART with
100 nA receive mode 16-bit Timer/Counters with Compare/Capture Low Energy TIMER with optional
pulse outputs Flexible 24-bit Real Time Counter Pulse Counter Configurable LCD Controller driving
up to 4x40 segments 12-bit ADC, 1 M samples/s, 8 channels 12-bit DAC, 500 ksamples/s, 2 channels
Analog Comparators with 8 input mux and capacitive sensing capability On-chip Power-on Reset and
Brown-out Detector
EFM32 Gecko Starter Kit:
Kit Summary: Advanced Energy Monitoring Real-time, accurate energy and power profiling User
interface with touch slider and switches 4x40 LCD SEGGER J-Link debugger Free evaluation compiler
versions energyAware software support
C
Flash RAM
Package Digi-Key
Price Each
Energy Micro
(KB) (KB) LCD ADC AES GPIO
Type Part No.
1 10 25 Part No.
16 4x40 Y Y 90 112-BGA 914-1004-ND 8.10 7.29 6.42 EFM32-G890F128-SK
16 4x40 Y Y 85 100-QFP 914-1005-ND 8.10 7.29 6.42 EFM32-G880F128-SK
16 4x24 Y Y 56 64-QFN 914-1006-ND 8.10 7.29 6.42 EFM32-G840F128-SK
128 16 — Y Y 90 112-BGA 914-1007-ND 8.10 7.29 6.42 EFM32-G290F128-SK
16 — Y Y 85 100-QFP 914-1008-ND 8.10 7.29 6.42 EFM32-G280F128-SK
16 — Y Y 56 64-QFN 914-1009-ND 8.10 7.29 6.42 EFM32-G230F128-SK
16 — Y — 24 32-QFN 914-1010-ND 8.10 7.29 6.42 EFM32-G210F128-SK
EFM Gecko Starter Kit 914-1003-ND 74.25 — — EFM32-G8XX-STK
Prototype Board for EFM32-G8XXX-STK 914-1002-ND 108.00 — — EFM32-GXXX-PTB
AT91 ARM ® Thumb ® Microcontrollers
The est comination o low-power consumption, 32-it perormance and 16-it system cost. The AT91 series
provides the optimal combination of processing power, peripherals and memory blocks for demanding real-time
applications that reuire hih perormance on a tiht power udet. Its wide rane o Real Time Operatin Systems and
sophisticated application development tools minimize the ris and time taen to rin new applications to the maret.
Features: 3-stae instruction execution pipeline or hih instruction throuhout Sinle-cycle memory access throuh
EBI Hardware multiplier-plus-arrel shiter ives DSP capaility PDC channels on-chip DMA ree the processor or the
application Advanced power manaement provides idle mode and disales unused peripherals Low-latency Advanced
Interrupt Controller Operatin Temperature Industrial -40C 85C Watchdo Timer
Program Memory Size
Timer/
Clock
Memory Program RAM Boot ROM I/O
Counters
Speed
Digi-Key
Price Each
Type Bytes Bytes Bytes Pins USART TWI SPI (16-bit) ADC DAC (MHz) VCC Package Part No.
1 25 100
— — 8K — 32 2 — — 3 — — 40 1.8 3.6V 100-TQFP AT91M40800-33AU-ND 8.86 5.57 5.10
— — 8K — 54 2 — 2 6 — — 33 2.7 3.6V 144-LQFP AT91M42800A-33AU-ND 13.46 8.46 7.74
— — 8K — 58 3 — 1 6 8-ch/10-it 2-ch/10-it 33 2.7 3.6V 176-LQFP AT91M55800A-33AU-ND 16.38 10.29 9.43
— — 256K — 32 2 — — 3 — — 75 1.65 1.95V 100-LQFP AT91R40008-66AU-ND 14.71 9.24 8.46
ROM 32K 16K 128K 122 4 1 1 6 — — 180 1.65 1.95V 256-BGA AT91RM9200-CJ-002-ND 30.75 19.31 17.68
ROM 32K 16K 128K 122 4 1 1 6 — — 180 1.65 1.95V 208-PQFP AT91RM9200-QU-002-ND 28.92 18.16 16.62
Flash 256K 32K — 62 3 1 2 9 16-ch/10-it — 60 3.0 3.6V 100-LQFP AT91SAM7A3-AU-ND 16.43 10.32 9.45
Flash 64K 6K — 80 2 1 1 1 4-ch/10-it — 36 1.8 3.6V 128-LQFP AT91SAM7L64-AU-ND 10.60 6.66 6.09
Flash 64K 6K — 80 2 1 1 1 4-ch/10-it — 36 1.8 3.6V 144-LFBGA AT91SAM7L64-CU-ND 10.43 6.55 6.01
Flash 128K 6K — 80 2 1 1 1 4-ch/10-it — 36 1.8 3.6V 128-LQFP AT91SAM7L128-AU-ND 12.56 7.89 7.22
Flash 128K 6K — 80 2 1 1 1 4-ch/10-it — 36 1.8 3.6V 144-LFBGA AT91SAM7L128-CU-ND 14.58 9.16 8.39
Flash 16K 4K — 21 1 1 1 1 8-ch/10-it — 55 1.8 3.3V 48-QFN AT91SAM7S16-MU-ND 5.96 3.74 3.43
Flash 32K 8K — 32 2 1 1 3 8-ch/10-it — 55 3.0 3.6V 64-LQFP AT91SAM7S321-AU-ND 6.45 4.05 3.72
Flash 32K 8K — 32 2 1 1 1 8-ch/10-it — 55 1.8 3.3V 64-QFN AT91SAM7S321-MU-ND 6.77 4.26 3.89
Flash 512K 64K — 32 2 1 1 1 8-ch/10-it — 55 1.8 3.3V 64-LQFP AT91SAM7S512-AU-ND 16.17 10.16 9.30
Flash 512K 64K — 32 2 1 1 1 8-ch/10-it — 55 1.8 3.3V 64-QFN AT91SAM7S512-MU-ND 16.56 10.40 9.52
Flash 32K 8K — 88 2 1 1 1 8-ch/10-it — 55 1.8 3.3V 128-LQFP AT91SAM7SE32-AU-ND 9.95 6.26 5.72
Flash 32K 8K — 88 2 1 1 1 8-ch/10-it — 55 1.8 3.3V 144-LFBGA AT91SAM7SE32-CU-ND 11.83 7.43 6.81
Flash 64K 16K — 32 2 1 1 3 8-ch/10-it — 55 3.0 3.6V 64-LQFP AT91SAM7S64B-AU-ND 8.32 5.23 4.79
Flash 64K 16K — 32 2 1 1 3 8-ch/10-it — 55 3.0 3.6V 64-QFN AT91SAM7S64B-MU-ND 8.64 5.43 4.98
Flash 128K 32K — 32 2 1 1 3 8-ch/10-it — 55 3.0 3.6V 64-LQFP AT91SAM7S128AU001-ND 10.13 6.36 5.83
Flash 128K 32K — 32 2 1 1 3 8-ch/10-it — 55 3.0 3.6V 64-QFN AT91SAM7S128-MU-ND 10.43 6.55 6.01
Flash 256K 64K — 32 2 1 1 3 8-ch/10-it — 55 3.0 3.6V 64-LQFP AT91SAM7S256AU001-ND 12.47 7.83 7.18
Flash 256K 64K — 32 2 1 1 3 8-ch/10-it — 55 3.0 3.6V 64-QFN AT91SAM7S256-MU-ND 12.81 8.05 7.38
Flash 256K 32K — 88 2 1 1 3 8-ch/10-it — 48 3.0 3.6V 128-LQFP AT91SAM7SE256-AU-ND 14.86 9.33 8.55
Flash 256K 32K — 88 2 1 1 3 8-ch/10-it — 48 3.0 3.6V 144-BGA AT91SAM7SE256-CU-ND 16.43 10.32 9.45
Flash 512K 32K — 88 2 1 1 3 8-ch/10-it — 48 3.0 3.6V 128-LQFP AT91SAM7SE512-AU-ND 18.64 11.71 10.72
Flash 512K 32K — 88 2 1 1 3 8-ch/10-it — 48 3.0 3.6V 144-BGA AT91SAM7SE512-CU-ND 20.04 12.59 11.52
Flash 128K 32K — 62 2 1 2 3 8-ch/10-it — 55 1.8 3.3V 100-LQFP AT91SAM7X128B-AU-ND NEW! 11.14 7.00 6.40
Flash 256K 64K — 62 2 1 2 3 8-ch/10-it — 55 1.8 3.3V 100-LQFP AT91SAM7X256B-AU-ND NEW! 13.74 8.63 7.90
Flash 256K 64K — 62 2 1 2 3 8-ch/10-it — 55 1.8 3.3V 100-TFBGA AT91SAM7X256B-CU-ND NEW! 15.11 9.50 8.70
Flash 512K 128K — 62 2 1 2 1 8-ch/10-it — 55 1.8 3.3V 100-LQFP AT91SAM7X512-AU-ND 20.00 12.56 11.50
Flash 512K 128K — 62 2 1 2 1 8-ch/10-it — 55 1.8 3.3V 100-TFBGA AT91SAM7X512-CU-ND 21.50 13.50 12.36
Flash 128K 32K — 62 2 1 2 3 8-ch/10-it — 55 3.0 3.6V 100-LQFP AT91SAM7XC128-AU-ND 6.24 6.00 5.76
Flash 128K 32K — 62 2 1 2 3 8-ch/10-it — 55 1.8 3.3V 100-TFBGA AT91SAM7XC128B-CU-ND NEW! 13.46 8.46 7.74
Flash 256K 64K — 62 2 1 2 3 8-ch/10-it — 55 1.8 3.3V 100-LQFP AT91SAM7XC256B-AU-ND NEW! 14.77 9.28 8.50
Flash 256K 64K — 62 2 1 2 3 8-ch/10-it — 55 1.8 3.3V 100-TFBGA AT91SAM7XC256B-CU-ND NEW! 16.15 10.14 9.29
Flash 512K 128K — 62 2 1 2 1 8-ch/10-it — 55 1.8 3.3V 100-TFBGA AT91SAM7XC512-CU-ND 22.64 14.22 13.02
ROM 16K 8K 32K 96 4 1 2 2 4-ch/10-it — 210 3.0 3.6V 217-LFBGA AT91SAM9260B-CU-ND 17.35 10.90 9.98
ROM 16K 8K 32K 96 4 1 2 2 4-ch/10-it — 210 3.0 3.6V 208-PQFP AT91SAM9260B-QU-ND 17.35 10.90 9.98
ROM — 160K — 96 3 1 2 3 — — 240 1.8 3.3V 217-LFBGA AT91SAM9261B-CU-ND NEW! 22.47 14.11 12.92
ROM 96K 16 32K 160 3 1 2 3 — — 240 1.8 3.3V 324-TFBGA AT91SAM9263B-CU-ND 29.28 18.39 16.84
ROM 64K 32K — 96 4 1 2 2 4-ch/10-it — 400 3.0 3.6V 217-LFBGA AT91SAM9G20B-CU-ND 19.65 12.34 11.31
ROM — 64K — 160 4 2 2 6 8-ch/10-it — 400 1.8 3.3V 324-TFBGA AT91SAM9G45-CU-ND NEW! 25.05 15.73 14.40
ROM 32K 64K — 118 4 2 1 1 6-ch/10-it — 240 3.0 3.6V 144-LFBGA AT91SAM9R64-CU-ND 16.34 10.26 9.41
ROM 32K 64K — 118 4 2 1 3 6-ch/10-it — 240 3.0 3.6V 217-LFBGA AT91SAM9RL64-CU-ND 19.05 11.97 10.96
Flash 128K 16K 32K 96 4 2 2 2 4-ch/10-it — 240 1.65 1.95V 217-BGA AT91SAM9XE128-CU-ND 19.87 12.48 11.42
Flash 128K 16K 32K 96 4 2 2 2 4-ch/10-it — 240 1.65 1.95V 208-PQFP AT91SAM9XE128-QU-ND 19.87 12.48 11.42
Flash 256K 32K 32K 96 4 2 2 2 4-ch/10-it — 240 1.65 1.95V 217-BGA AT91SAM9XE256-CU-ND 22.25 13.98 12.79
Flash 256K 32K 32K 96 4 2 2 2 4-ch/10-it — 240 1.65 1.95V 208-PQFP AT91SAM9XE256-QU-ND 22.25 13.98 12.79
Flash 512K 32K 32K 96 4 2 2 2 4-ch/10-it — 240 1.65 1.95V 217-BGA AT91SAM9XE512-CU-ND 26.98 16.95 15.51
Flash 512K 32K 32K 96 4 2 2 2 4-ch/10-it — 240 1.65 1.95V 208-PQFP AT91SAM9XE512-QU-ND 26.98 16.95 15.51
ROM — 64K 64K 160 4 2 2 6 8-ch/10-it — 400 1.8 3.3V 324-TFBGA AT91SAM9M10-CU-ND NEW! 31.78 19.96 18.28
AT91 ARM ® Thumb ®
Evaluation Kits
AT91EB40A-ND Evaluation Kit or the AT91R40008 ...................................................$208.00
AT91EB55-ND Evaluation Kit or the AT91M55800A .................................................$260.00
AT91RM3400-DK-ND Development Kit or the AT91RM3400 .............................................. $1950.00
AT91SAM7A1-EK-ND Evaluation Board or AT91SAM7A1 ...................................................$600.00
AT91SAM7A3-EK-ND Evaluation Board or AT91SAM7A3 ...................................................$208.00
AT91SAM7L-STK-ND Evaluation Kit or ART91SAM7L — RoHS Compliant .............................$104.00
AT91SAM7SE-EK-ND Evaluation Board or the AT91SAM7SE RoHS Compliant ......................$208.00
AT91SAM7S-EK-ND Evaluation Kit or AT91SAM7S ........................................................$104.00
AT91SAM7X-EK-ND Evaluation Kit or AT91SAM7X256/128 ...............................................$208.00
AT91SAM9G20-EK-ND Evaluation Kit or AT91SAM9G20 — RoHS Compliant ............................$520.00
AT91SAM9RL-EK-ND Evaluation Kit or AT91SAM9RL — RoHS Compliant .............................$780.00
These kits are complete low-cost evaluation platforms, which enable real-time code development
and exploration o the AT91 ARM Thum microcontrollers. The its include Sample mi cro con troller
Evaluation Board with the Anel deu monitor AT91 Gettin Started CD-ROM with data
sheets and examples DB9 serial cale 2.1mm power ac power supply not included Evaluation
copies o compilers and deuers rom Green Hills and ARM SRAM Flash 2 Serial ports
Reset utton and con troller Push uttons LEDs 20- pin JTAG ICE interace con nector Voltae
reulation Cloc enerator Board sel-test proram Current con sumption measurement
capaility Expan sion slots or add-on cards with user speciic memories and peripherals
AT91SAM9XE-EK-ND Evaluation Kit or AT91SAM9XE — RoHS Compliant .............................$520.00
AT91SAM9260-EK-ND Evaluation Kit or AT91SAM9260 RoHS Compliant ............................$520.00
AT91SAM9261-EK-ND Evaluation Kit or AT91SAM926EJ-S — RoHS Compliant .........................$780.00
AT91SAM-ICE-ND Emulator or AT91 ARM7 / ARM9 ....................................................$104.00
AT91SAM9263-EK-ND Evaluation Kit or AT91SAM9263 RoHS Compliant ............................$884.00
ATSAM3U-EK-ND NEW! Evaluation Kit or AT91SAM3U RoHS Compliant .....................$206.96
AT91SAM9G10-EK-ND NEW! Evaluation Kit or SAM9G10 RoHS Compliant ........................$780.00
AT91SAM9G45-EKES-ND NEW! Evaluation Kit or AT91SAM9G45 RoHS Compliant...................$780.00
AT91SAM9M10-G45-EK-ND NEW! Evaluation Kit or AT91SAM9M10 / 9G45 RoHS Compliant ..........$780.00
84 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

FPSLIC ® — Field Pro gram ma ble System Level Integrated Circuit
FPSLIC — PGA + AVR in one Package! The AT94K Series FPSLIC amily is a comination o the popular Atmel AT40K
Series SRAM FPGAs and the hih-perormance Atmel AVR 8-it RISC microcontroller with standard peripherals.
2K 18.4Kits o Distriuted Sinle/Dual Port FPGA User SRAM Hih-perormance DSP Optimized FPGA Core Cell
Dynamically Reconiurale In-System FPGA Coniuration Access FPGA Macro Lirary o Custom Peripherals 16
FPGA Supplied Internal Interrupts to AVR Up to Four External Interrupts to AVR 8 Gloal FPGA Clocs 2 FPGA
Clocs Driven rom AVR Loic FPGA Gloal Cloc Access Availale rom FPGA Core
Features: Timer/Counters 8/16-it 2/1 Watchdo Timer UART 2 TWI I2C PWM 3 JTAG Cloc Speed
25MHz Vcc 3.0V 3.6V
Gates
Core Cells
FPGA
SRAM
Bytes Registers I/O
AVR Program
Memory
Type
AVR Memory Size AVR
RAM EEPROM I/O
Operating
Digi-Key
Price Each
Bytes Bytes Pins ISP Temperature Package Part No.
1 25 100
256 2048 436 46 ROMless 20K — 8 — 0 70°C 84-PLCC AT94K05AL-25AJC-ND 11.70 11.25 10.80
256 2048 436 46 ROMless 20K — 8 — -40 85°C 84-PLCC AT94K05AL-25AJI-ND 13.46 12.94 12.42
256 2048 436 82 ROMless 20K — 8 — 0 70°C 144-LQFP AT94K05AL-25BQC-ND 12.29 11.82 11.34
5K 256 2048 436 82 ROMless 20K — 8 — -40 85°C 144-LQFP AT94K05AL-25BQI-ND 14.89 14.32 13.74
256 2048 436 96 ROMless 20K — 8 — 0 70°C 208-PQFP AT94K05AL-25DQC-ND 14.30 13.75 13.20
256 2048 436 96 ROMless 20K — 8 — -40 85°C 208-PQFP AT94K05AL-25DQI-ND 16.38 15.75 15.12
256 2048 436 — EEPROM 20K 256K 8 es -40 85°C 144-LQFP AT94S05AL-25BQU-ND 17.20 12.07 11.24
576 4096 846 46 ROMless 36K — 16 — 0 70°C 84-PLCC AT94K10AL-25AJC-ND 19.50 18.75 18.00
576 4096 846 46 ROMless 36K — 16 — -40 85°C 84-PLCC AT94K10AL-25AJI-ND 22.43 21.57 20.70
576 4096 846 58 ROMless 36K — 16 — 0 70°C 100-TQFP AT94K10AL-25AQC-ND 20.48 19.69 18.90
10K 576 4096 846 58 ROMless 36K — 16 — -40 85°C 100-TQFP AT94K10AL-25AQI-ND 23.60 22.69 21.78
576 4096 846 84 ROMless 36K — 16 — -40 85°C 144-LQFP AT94K10AL-25BQU-ND 32.25 22.62 21.06
576 4096 846 84 EEPROM 36K 512K 16 es -40 85°C 144-LQFP AT94S10AL-25BQU-ND 44.29 31.05 28.92
576 4096 846 137 EEPROM 36K 512K 16 es 0 70°C 256-CABGA AT94S10AL-25DGC-ND 15.08 14.50 13.92
2304 18432 2862 84 ROMless 36K — 16 — -40 85°C 144-LQFP AT94K40AL-25BQU-ND 43.00 30.16 28.08
40K 2304 18432 2862 162 EEPROM 36K 1024K 16 es 0 70°C 256-CABGA AT94S40AL-25DGC-ND 49.34 47.44 45.54
2304 18432 2862 162 EEPROM 36K 1024K 16 es -40 85°C 256-CABGA AT94S40AL-25DGI-ND 56.75 54.57 52.38
◆ RoHS Compliant
C
AVR ® for USB
®
Flash EEPROM SRAM
USB
Host/
USB
DRAM USB Full
USB
Low
Timers
16-Bit/8- PWM
TWI
ADC
10-Bit
Int.
Clock
Speed
Temperature Digi-Key
Price Each
(KBytes) (Bytes) (Bytes) I/O OTG (Bytes) Speed Speed Bit Channel SPI USART (I2C) ISP (Ch.) BOD WDT RC VCC (MHz) Package Range Part No.
1 25 100
8 512 512 22 — 176 — 1/1 5 1 1 — — 2.7 5.5V 16 32-QFN -40 85°C AT90USB82-16MU-ND 3.70 2.33 2.13
‡ Cut Tape
Kits
16 512 512 22 — 176 — 1/1 5 1 1 — — 2.7 5.5V 16 32-QFN -40 85°C AT90USB162-16MURCT-ND‡ 3.66 2.48 2.24
128 4K 8K 48 1 832 2/2 8 1 1 8 2.7 5.5V 16 64-TQFP -40 85°C AT90USB1287-AU-ND 12.92 8.12 7.42
128 4K 8K 48 1 832 2/2 8 1 1 8 2.7 5.5V 16 64-QFN -40 85°C AT90USB1287-MU-ND 12.92 8.12 7.42
ATAVRUSBRF01-ND ATAVRUSBRF01 Quick Start Kit ....................................................................................................................................................................$71.76
AT90USBKEY2-ND Evaluation Kit for AT90USB ..........................................................................................................................................................................$31.19
ATSTK526-ND Starter Kit for AT90USB82/162 ..................................................................................................................................................................... $206.96
ATEVK525-ND Extension Board Kit for STK525 .................................................................................................................................................................... $156.00
AVR ® Battery Management
Li-ion Flash EEPROM
Battery
ADC
12-Bit
Clock
Speed
Temperature Digi-Key
Price Each
Cells (KBytes) (Bytes) SRAM I/O FET Type Protection (Channels) CC-ADC JTAG VCC (MHz) Package Range Part No.
1 25 100
2 4 40 512 2K 18 P-Ch. 10 18-Bit 4.0 25V 1 48-LQFP -30 85°C ATMEGA406-1AAU-ND 9.79 6.15 5.62
AVR ® for LCD
Timers
16-Bit/
8-Bit
ADC
10-Bit
(Ch.) BOD WDT
Int.
RC
1
Flash EEPROM
PWM
TWI
HW
Temperature Digi-Key
Price Each
(KBytes) (Bytes) SRAM I/O LCD
(Ch.) RTC SPI USART (I2C) ISP
MULT VCC
Package Range Part No.
1 25 100
512 1K 54 4x25 se. 1/2 4 1USI 1 USI 8 1.8 5.5V 1 64-QFN -40 85°C ATMEGA169V-1MC-ND 6.24 6.00 5.76
512 1K 54 4x25 se. 1/2 4 1USI 1 USI 8 2.7 5.5V 16 64-TQFP -40 85°C ATMEGA169P-16AU-ND 7.12 4.48 4.09
16 512 1K 54 4x25 se. 1/2 4 1USI 1 USI 8 1.8 5.5V 8 64-TQFP -40 85°C ATMEGA169PV-8AU-ND 7.12 4.48 4.09
512 1K 54 4x25 se. 1/2 4 1USI 1 USI 8 1.8 5.5V 8 64-QFN -40 85°C ATMEGA169PV-8MCU-ND 6.21 3.91 3.47
512 1K 54 4x25 se. 1/2 4 1USI 1 USI 8 1.8 5.5V 8 64-QFN -40 85°C ATMEGA169PV-8MU-ND 7.12 4.48 4.09
1K 2K 54 4x25 se. 1/2 4 1USI 1 USI 8 2.7 5.5V 16 64-TQFP -40 85°C ATMEGA329-16AU-ND 7.61 4.78 4.35
1K 2K 54 4x25 se. 1/2 4 1USI 1 USI 8 1.8 5.5V 8 64-TQFP -40 85°C ATMEGA329V-8AU-ND 7.61 4.78 4.35
1K 2K 54 4x25 se. 1/2 4 1USI 1 USI 8 2.7 5.5V 20 64-TQFP -40 85°C ATMEGA329P-20AU-ND 7.61 4.78 4.35
1K 2K 54 4x25 se. 1/2 4 1USI 1 USI 8 2.7 5.5V 20 64-QFN -40 85°C ATMEGA329P-20MU-ND 7.61 4.78 4.35
32 1K 2K 54 4x25 se. 1/2 4 1USI 1 USI 8 1.8 5.5V 10 64-TQFP -40 85°C ATMEGA329PV-10AU-ND 7.61 4.78 4.35
1K 2K 54 4x25 se. 1/2 4 1USI 1 USI 8 1.8 5.5V 10 64-QFN -40 85°C ATMEGA329PV-10MU-ND 7.61 4.78 4.35
1K 2K 69 4x40 se. 1/2 4 1USI 1 USI 8 2.7 5.5V 16 100-TQFP -40 85°C ATMEGA3290-16AU-ND 8.64 5.43 4.94
1K 2K 69 4x40 se. 1/2 4 1USI 1 USI 8 1.8 5.5V 8 100-TQFP -40 85°C ATMEGA3290V-8AU-ND 8.64 5.43 4.94
1K 2K 69 4x40 se. 1/2 4 1USI 1 USI 8 1.8 5.5V 10 100-TQFP -40 85°C ATMEGA3290PV-10AU-ND 8.64 5.43 4.94
2K 4K 54 4x25 se. 1/2 4 1USI 1 USI 8 1.8 5.5V 16 64-TQFP -40 85°C ATMEGA649-16AU-ND 10.99 6.90 6.27
2K 4K 54 4x25 se. 1/2 4 1USI 1 USI 8 1.8 5.5V 16 64-QFN -40 85°C ATMEGA649-16MU-ND 10.99 6.90 6.27
64 2K 4K 54 4x25 se. 1/2 4 1USI 1 USI 8 1.8 5.5V 8 64-QFN -40 85°C ATMEGA649V-8MU-ND 10.99 6.90 6.27
2K 4K 69 4x40 se. 1/2 4 1USI 1 USI 8 1.8 5.5V 16 100-TQFP -40 85°C ATMEGA6490-16AU-ND 12.60 7.92 7.57
2K 4K 69 4x40 se. 1/2 4 1USI 1 USI 8 1.8 5.5V 8 100-TQFP -40 85°C ATMEGA6490V-8AU-ND 12.60 7.92 7.57
◆ RoHS Compliant
Kit
ATAVRDB101-ND ATAVRDB101 Display Module ............................................................................................................................................................... $82.16
Clock
Speed
(MHz)
®
For Digi-Reel ® information, please see page 71.
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
85
85

Flash EEPROM
(KBytes) (Bytes)
Kit
AVR ® for CAN
SRAM
(Bytes) I/O CAN
Timers
16-Bit/
8-Bit
PWM
(Ch.) RTC SPI USART
TWI
(I2C) ISP
ADC
10-Bit
(Ch.) BOD WDT Int. RC VCC
Clock
Speed
(MHz)
Package
Temperature
Range
Digi-Key
Part No.
Price Each
1 25 100
32 1K 2K 53 15 2/2 62 1 2 8 2.7 5.5V 16 64-TQFP -40 85°C AT90CAN32-16AU-ND 6.97 4.38 3.98
32 1K 2K 53 15 2/2 62 1 2 8 2.7 5.5V 16 64-QFN -40 85°C AT90CAN32-16MU-ND 6.97 4.38 3.98
64 2K 4K 53 15 2/2 62 1 2 8 2.7 5.5V 16 64-TQFP -40 85°C AT90CAN64-16AU-ND 8.80 5.53 5.05
64 2K 4K 53 15 2/2 62 1 2 8 2.7 5.5V 16 64-QFN -40 85°C AT90CAN64-16MU-ND 8.80 5.53 5.05
128 4K 4K 53 15 2/2 62 1 2 8 2.7 5.5V 16 64-TQFP -40 85°C AT90CAN128-16AU-ND 11.07 6.96 6.36
128 4K 4K 53 15 2/2 62 1 2 8 2.7 5.5V 16 64-QFN -40 85°C AT90CAN128-16MU-ND 11.07 6.96 6.36
ATDVK90CAN1-ND
Development Kit for AT90CAN128 MCU..................................................................................................................................................$119.60
C
AVR ® for Lighting and Motor Control
Flash EEPROM
(KBytes) (Bytes)
SRAM
(Bytes) I/O DALI
Timers
16-Bit/
8-Bit
PWM
(Ch.) SPI USART ISP
ADC
10-Bit
(Ch.) BOD WDT
Int.
RC
Clock Speed
(MHz)
Temperature
Range
ATAVRFBKIT-ND ATAVRFBKIT Ballast Demo Kit ............................................................................................................................................................... $206.96
ATAVRMC200-ND ATAVRMC200 AC Induction Motor Control ................................................................................................................................................... $310.96
ATAVRMC303-ND NEW! Controller Board for 3-Phase BLDC, Brushed DC, Stepper Motor .............................................................................................................................$71.76
ATAVRMC323-ND NEW! BLDC Motor Control Kit with DC Motor ........................................................................................................................................................ $279.76
Digi-Key
Part No.
Price Each
1 25 100
VCC
Package
8 512 512 27 1/1 10 1 1 11 2.7 5.5V 16 32-QFN -40 105°C AT90PWM3-16MQ-ND 3.87 2.43 2.21
8 512 512 27 1/1 10 1 1 11 2.7 5.5V 16 32-QFN -40 105°C AT90PWM3B-16MU-ND 3.70 2.33 2.13
8 512 512 27 1/1 10 1 1 11 2.7 5.5V 16 32-SOIC -40 105°C AT90PWM3B-16SU-ND 3.70 2.33 2.13
16 512 1024 19 1/1 7 1 1 8 2.7 5.5V 16 24-SOIC -40 105°C AT90PWM216-16SU-ND 3.54 2.23 2.04
16 512 1024 27 1/1 10 1 1 11 2.7 5.5V 16 32-SOIC -40 105°C AT90PWM316-16SU-ND 3.71 2.33 2.21
Kits
tinyAVR ®
Flash EEPROM
(KBytes) (Bytes)
1
2
Timers
16-Bit/
8-Bit
◆ RoHS Compliant ‡ Cut Tape † Tape and Reel
ADC
10-Bit
(Ch.)
SRAM I/O
PWM
TWI
Ana.
Clock
Temperature Digi-Key
Price Each
(Bytes) Pins
Channels SPI USART (I2C) ISP Comp. BOD WDT Int. RC Speed VCC Package Range Part No.
1 25 100
— 32 4 1/ 2 — — — — 8 — 12MHz 1.8 5.5V 23-SOT -40 85°C ATTIN10-TSHRCT-ND◆‡ NEW! 1.08 .68 .62
— 32 4 1/ 2 — — — — 8 — 12MHz 1.8 5.5V 23-SOT -40 85°C ATTIN10-TSHRTR-ND◆† NEW! 2733.12/4,500
64 — 6 /1 — — — — — 1.2MHz 1.8 5.5V 8-SOIC 0 70°C ATTIN12V-1SC-ND 1.04 1.00 .96
64 64 6 /1 2 — — — 4 20MHz 2.7 5.5V 20-MLF® -40 85°C ATTIN13-20MU-ND 1.89 1.19 1.08
64 64 6 /1 2 — — — 4 10MHz 1.8 5.5V 20-MLF® -40 85°C ATTIN13V-10MU-ND 1.89 1.19 1.08
64 64 6 /1 2 — — — 4 10MHz 1.8 5.5V 10-QFN -40 85°C ATTIN13V-10MMU-ND 1.96 1.23 1.11
64 64 6 /1 2 — — — 4 10MHz 1.8 5.5V 8-Dip -40 85°C ATTIN13V-10PU-ND 1.91 1.21 1.09
64 64 6 /1 2 — — — 4 10MHz 1.8 5.5V 8-SOIC -40 85°C ATTIN13V-10SU-ND 1.81 1.14 1.04
64 64 6 /1 2 — — — 4 10MHz 1.8 5.5V 8-SOIC -40 85°C ATTIN13V-10SSU-ND 1.81 1.14 1.04
64 64 6 /1 2 — — — 4 20MHz 1.8 5.5V 8-SOIC -40 85°C ATTIN13-20SU-ND◆ 1.81 1.14 1.04
64 64 6 /1 2 — — — 4 20MHz 1.8 5.5V 10-QFN -40 85°C ATTIN13A-MMU-ND◆ 1.95 1.23 1.11
64 64 6 /1 2 — — — 4 20MHz 1.8 5.5V 20-QFN -40 85°C ATTIN13A-MU-ND◆ 1.88 1.19 1.08
64 64 6 /1 2 — — — 4 20MHz 1.8 5.5V 8-DIP -40 85°C ATTIN13A-PU-ND◆ 1.90 1.20 1.09
64 64 6 /1 2 — — — 4 20MHz 1.8 5.5V 8-SOIC -40 85°C ATTIN13A-SH-ND◆ 1.80 1.13 1.04
64 64 6 /1 2 — — — 4 20MHz 1.8 5.5V 8-SOIC -40 85°C ATTIN13A-SSH-ND◆ 1.80 1.13 1.04
64 64 6 /1 2 — — — 4 20MHz 1.8 5.5V 8-SOIC -40 85°C ATTIN13A-SSU-ND◆ 1.80 1.13 1.04
64 64 6 /1 2 — — — 4 20MHz 1.8 5.5V 8-SOIC -40 85°C ATTIN13A-SU-ND◆ 1.80 1.13 1.04
128 128 18 1/1 4 USI 1 USI — 20MHz 2.7 5.5V 20-MLF® -40 85°C ATTIN2313-20MU-ND 2.65 1.67 1.52
128 128 18 1/1 4 USI 1 USI — 20MHz 2.7 5.5V 20-Dip -40 85°C ATTIN2313-20PU-ND 2.67 1.68 1.53
128 128 18 1/1 4 USI 1 USI — 20MHz 2.7 5.5V 20-SOIC -40 85°C ATTIN2313-20SU-ND 2.56 1.62 1.48
128 128 18 1/1 4 USI 1 USI — 10MHz 1.8 5.5V 30-QFN -40 85°C ATTIN2313V-10MU-ND 2.65 1.67 1.52
128 128 18 1/1 4 USI 1 USI — 10MHz 1.8 5.5V 20-Dip -40 85°C ATTIN2313V-10PU-ND 2.67 1.68 1.53
128 128 18 1/1 4 USI 1 USI — 10MHz 1.8 5.5V 20-SOIC -40 85°C ATTIN2313V-10SU-ND 2.56 1.62 1.48
128 128 12 1/1 4 USI — USI 8 20MHz 2.7 5.5V 20-QFN -40 85°C ATTIN24-20MU-ND 2.50 1.58 1.43
128 128 12 1/1 4 USI — USI 8 20MHz 2.7 5.5V 14-Dip -40 85°C ATTIN24-20PU-ND 2.52 1.59 1.44
128 128 12 1/1 4 USI — USI 8 20MHz 2.7 5.5V 14-SOIC -40 85°C ATTIN24-20SSU-ND 2.42 1.52 1.39
128 128 12 1/1 4 USI — USI 8 10MHz 1.8 5.5V 20-QFN -40 85°C ATTIN24V-10MU-ND 2.50 1.58 1.43
128 128 12 1/1 4 USI — USI 8 10MHz 1.8 5.5V 14-Dip -40 85°C ATTIN24V-10PU-ND 2.52 1.59 1.44
128 128 12 1/1 4 USI — USI 8 10MHz 1.8 5.5V 14-SOIC -40 85°C ATTIN24V-10SSU-ND 2.42 1.52 1.39
128 128 6 /2 4 USI — USI 4 20MHz 2.7 5.5V 20-QFN -40 85°C ATTIN25-20MU-ND 1.98 1.25 1.13
128 128 6 /2 4 USI — USI 4 20MHz 2.7 5.5V 8-Dip -40 85°C ATTIN25-20PU-ND 2.00 1.26 1.14
128 128 6 /2 4 USI — USI 4 20MHz 2.7 5.5V 8-SOIC -40 85°C ATTIN25-20SU-ND 1.89 1.19 1.09
128 128 6 /2 4 USI — USI 4 20MHz 2.7 5.5V 8-SOIC -40 85°C ATTIN25-20SSU-ND 1.89 1.19 1.09
128 128 6 /2 4 USI — USI 4 10MHz 1.8 5.5V 20-QFN -40 85°C ATTIN25V-10MU-ND 1.98 1.25 1.13
128 128 6 /2 4 USI — USI 4 10MHz 1.8 5.5V 8-Dip -40 85°C ATTIN25V-10PU-ND 2.00 1.26 1.14
128 128 6 /2 4 USI — USI 4 10MHz 1.8 5.5V 8-SOIC -40 85°C ATTIN25V-10SU-ND 1.89 1.19 1.09
128 128 6 /2 4 USI — USI 4 10MHz 1.8 5.5V 8-SOIC -40 85°C ATTIN25V-10SSU-ND 1.89 1.19 1.09
128 128 16 /2 2 USI — USI 11 16MHz 4.5 5.5V 20-QFN 0 70°C ATTIN26-16MC-ND 1.50 1.44 1.38
128 128 16 /2 2 USI — USI 11 16MHz 4.5 5.5V 32-QFN -40 85°C ATTIN26-16MU-ND 2.95 1.86 1.70
128 128 16 /2 2 USI — USI 11 16MHz 4.5 5.5V 20-Dip -40 85°C ATTIN26-16PU-ND 3.06 1.92 1.75
128 128 16 /2 2 USI — USI 11 16MHz 4.5 5.5V 20-SOIC -40 85°C ATTIN26-16SU-ND 2.95 1.86 1.70
128 128 16 /2 2 USI — USI 11 8MHz 2.7 5.5V 32-QFN -40 85°C ATTIN26L-8MU-ND 2.95 1.86 1.70
128 128 16 /2 2 USI — USI 11 8MHz 2.7 5.5V 20-Dip -40 85°C ATTIN26L-8PU-ND 3.06 1.92 1.75
128 128 16 /2 2 USI — USI 11 8MHz 2.7 5.5V 20-SOIC -40 85°C ATTIN26L-8SU-ND 2.95 1.86 1.70
128 128 16 1/1 5 1USI — USI 11 20MHz 2.7 5.5V 32-QFN -40 85°C ATTIN261-20MU-ND 2.80 1.76 1.58
128 128 16 1/1 5 1USI — USI 11 20MHz 2.7 5.5V 20-Dip -40 85°C ATTIN261-20PU-ND 2.90 1.83 1.63
128 128 16 1/1 5 1USI — USI 11 20MHz 2.7 5.5V 20-SOIC -40 85°C ATTIN261-20SU-ND 2.80 1.76 1.58
128 128 16 1/1 5 1USI — USI 11 10MHz 1.8 5.5V 32-QFN -40 85°C ATTIN261V-10MU-ND 2.80 1.76 1.58
128 128 16 1/1 5 1USI — USI 11 10MHz 1.8 5.5V 20-Dip -40 85°C ATTIN261V-10PU-ND 2.90 1.83 1.63
128 128 16 1/1 5 1USI — USI 11 10MHz 1.8 5.5V 20-SOIC -40 85°C ATTIN261V-10SU-ND 2.80 1.76 1.58
— — 11 /1 — — — — — — — 4MHz 2.7 5.5V 32-TQFP -40 85°C ATTIN28L-4AU-ND 2.90 1.83 1.66
— — 11 /1 — — — — — — — 4MHz 2.7 5.5V 32-QFN -40 85°C ATTIN28L-4MU-ND 2.90 1.83 1.66
— — 11 /1 — — — — — — — 4MHz 2.7 5.5V 28-Dip -40 85°C ATTIN28L-4PU-ND 3.01 1.89 1.71
— — 11 /1 — — — — — — — 1.2MHz 1.8 5.5V 32-TQFP -40 85°C ATTIN28V-1AU-ND 2.90 1.83 1.66
— — 11 /1 — — — — — — — 1.2MHz 1.8 5.5V 32-QFN -40 85°C ATTIN28V-1MU-ND 2.90 1.83 1.66
— — 11 /1 — — — — — — — 1.2MHz 1.8 5.5V 28-Dip -40 85°C ATTIN28V-1PU-ND 3.01 1.89 1.71
®
For Digi-Reel ® information, please see page 71.
®
(Continued)
86 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Flash EEPROM
(KBytes) (Bytes)
4
tinyAVR ® (Cont.)
®
Timers
ADC
Flash EEPROM SRAM I/O 16-Bit/ PWM
TWI 10-Bit Ana.
Clock
Temperature Digi-Key
Price Each
(KBytes) (Bytes) (Bytes) Pins 8-Bit Channels SPI USART (I2C) ISP (Ch.) Comp. BOD WDT Int. RC Speed VCC Package Range Part No.
1 25 100
64 256 16 /2 4 — — 4 8MHz 0.7 1.8V 20-QFN -40 85°C ATTIN43U-MU-ND NEW! 2.93 1.84 1.68
64 256 16 /2 4 — — 4 8MHz 0.7 1.8V 20-SOIC -40 85°C ATTIN43U-SU-ND NEW! 2.84 1.79 1.64
256 256 12 1/1 4 USI — USI 8 10MHz 1.8 5.5V 20-QFN -40 85°C ATTIN44A-MU-ND◆ 2.49 1.57 1.43
256 256 12 1/1 4 USI — USI 8 10MHz 1.8 5.5V 14-PDIP -40 85°C ATTIN44A-PU-ND◆ 2.52 1.58 1.44
256 256 12 1/1 4 USI — USI 8 10MHz 1.8 5.5V 14-SOIC -40 85°C ATTIN44A-SSU-ND◆ 2.41 1.52 1.39
256 256 6 /2 4 USI — USI 4 20MHz 2.7 5.5V 20-MLF® -40 85°C ATTIN45-20MU-ND 2.29 1.44 1.31
256 256 6 /2 4 USI — USI 4 20MHz 2.7 5.5V 8-Dip -40 85°C ATTIN45-20PU-ND 2.31 1.46 1.32
256 256 6 /2 4 USI — USI 4 20MHz 2.7 5.5V 8-SOIC -40 85°C ATTIN45-20SU-ND 2.20 1.39 1.27
256 256 6 /2 4 USI — USI 4 20MHz 2.7 5.5V 8-TSSOP -40 85°C ATTIN45-20XU-ND 2.20 1.39 1.27
4 256 256 6 /2 4 USI — USI 4 10MHz 1.8 5.5V 20-MLF® -40 85°C ATTIN45V-10MU-ND 2.29 1.44 1.31
256 256 6 /2 4 USI — USI 4 10MHz 1.8 5.5V 8-Dip -40 85°C ATTIN45V-10PU-ND 2.31 1.46 1.32
256 256 6 /2 4 USI — USI 4 10MHz 1.8 5.5V 8-SOIC -40 85°C ATTIN45V-10SU-ND 2.20 1.39 1.27
256 256 6 /2 4 USI — USI 4 10MHz 1.8 5.5V 8-TSSOP -40 85°C ATTIN45V-10XU-ND 2.20 1.39 1.27
256 256 16 1/1 5 USI — USI 11 20MHz 2.7 5.5V 32-QFN -40 85°C ATTIN461-20MU-ND 2.95 1.85 1.69
256 256 16 1/1 5 USI — USI 11 20MHz 2.7 5.5V 20-SOIC -40 85C ATTIN461-20SU-ND 2.95 1.85 1.69
256 256 16 1/1 5 USI — USI 11 10MHz 1.8 5.5V 20-SOIC -40 85C ATTIN461V-10SU-ND 2.95 1.85 1.69
64 256 28 1/1 1 — 8 12MHz 1.8 5.5V 32-TQFP -40 85C ATTIN48-AU-ND 2.57 1.62 1.48
64 256 28 1/1 1 — 8 12MHz 1.8 5.5V 32-QFN -40 85C ATTIN48-MU-ND 2.57 1.62 1.48
64 256 24 1/1 1 — 8 12MHz 1.8 5.5V 28-Dip -40 85C ATTIN48-PU-ND 2.67 1.68 1.53
512 512 12 1/1 4 USI — USI 8 20MHz 2.7 5.5V 20-QFN -40 85C ATTIN84-20MU-ND 2.99 1.88 1.67
512 512 12 1/1 4 USI — USI 8 20MHz 2.7 5.5V 14-Dip -40 85C ATTIN84-20PU-ND 3.01 1.89 1.68
512 512 12 1/1 4 USI — USI 8 20MHz 2.7 5.5V 14-SOIC -40 85C ATTIN84-20SSU-ND 2.90 1.83 1.62
512 512 12 1/1 4 USI — USI 8 10MHz 1.8 5.5V 20-QFN -40 85C ATTIN84V-10MU-ND 2.99 1.88 1.67
512 512 12 1/1 4 USI — USI 8 10MHz 1.8 5.5V 14-SOIC -40 85C ATTIN84V-10SSU-ND 2.90 1.83 1.62
512 512 6 /2 4 USI — USI 4 20MHz 2.7 5.5V 20-QFN -40 85C ATTIN85-20MU-ND 2.24 1.41 1.33
512 512 6 /2 4 USI — USI 4 20MHz 2.7 5.5V 8-Dip -40 85C ATTIN85-20PU-ND 2.26 1.42 1.34
512 512 6 /2 4 USI — USI 4 20MHz 2.7 5.5V 8-SOIC -40 85C ATTIN85-20SU-ND 2.15 1.35 1.29
8
512 512 6 /2 4 USI — USI 4 10MHz 1.8 5.5V 8-Dip -40 85C ATTIN85V-10PU-ND 2.26 1.42 1.34
512 512 6 /2 4 USI — USI 4 10MHz 1.8 5.5V 8-SOIC -40 85C ATTIN85V-10SU-ND 2.15 1.35 1.29
512 512 16 1/1 5 USI — USI 11 20MHz 2.7 5.5V 32-QFN -40 85C ATTIN861-20MU-ND 3.03 1.91 1.70
512 512 16 1/1 5 USI — USI 11 20MHz 2.7 5.5V 20-SOIC -40 85C ATTIN861-20SU-ND 3.03 1.91 1.70
512 512 16 1/1 5 USI — USI 11 10MHz 1.8 5.5V 32-QFN -40 85C ATTIN861V-10MU-ND 3.03 1.91 1.70
512 512 16 1/1 5 USI — USI 11 10MHz 1.8 5.5V 20-Dip -40 85C ATTIN861V-10PU-ND 3.14 1.98 1.76
512 512 16 1/1 5 USI — USI 11 10MHz 1.8 5.5V 20-SOIC -40 85C ATTIN861V-10SU-ND 3.03 1.91 1.70
64 512 24 1/1 2 — 8 12MHz 1.8 5.5V 28-Dip -40 85C ATTIN88-PU-ND 2.96 1.87 1.70
64 512 28 1/1 2 — 8 12MHz 1.8 5.5V 32-TQFP -40 85C ATTIN88-AU-ND 2.86 1.80 1.64
64 512 28 1/1 2 — 8 12MHz 1.8 5.5V 32-QFN -40 85C ATTIN88-MU-ND 2.86 1.80 1.64
◆ RoHS Compliant ‡ Cut Tape † Tape and Reel
SRAM
(Bytes) I/O
Timers
16/8-bit
PWM
Channels RTC SPI USART
TWI
(I2C) ISP
ADC
10-Bit
(Ch.)
Ana.
Int.
Comp. BOD WDT RC
HW
MULT
Clock
Speed
Temperature
Range
Digi-Key
Part No.
Price Each
1 25 100
VCC
Package
256 512 23 1/2 6 1USART 1 8 2.7 5.5V 20MHz 32-TQFP -40 85C ATMEGA48-20AU-ND 2.73 1.72 1.60
256 512 23 1/2 6 1USART 1 8 2.7 5.5V 20MHz 32-QFN -40 85C ATMEGA48-20MU-ND 2.73 1.72 1.60
256 512 23 1/2 6 1USART 1 8 2.7 5.5V 20MHz 28-QFN -40 85C ATMEGA48-20MMU-ND 2.86 1.80 1.66
256 512 23 1/2 6 1USART 1 8 2.7 5.5V 20MHz 28-Dip -40 85C ATMEGA48-20PU-ND 2.84 1.79 1.65
256 512 23 1/2 6 1USART 1 8 1.8 5.5V 10MHz 32-TQFP -40 85C ATMEGA48V-10AU-ND 2.73 1.72 1.60
256 512 23 1/2 6 1USART 1 8 1.8 5.5V 10MHz 32-QFN -40 85C ATMEGA48V-10MU-ND 2.73 1.72 1.60
256 512 23 1/2 6 1USART 1 8 1.8 5.5V 10MHz 28-Dip -40 85C ATMEGA48V-10PU-ND 2.84 1.79 1.65
256 512 23 1/2 6 1USART 1 8 2.7 5.5V 20MHz 32-TQFP -40 85C ATMEGA48P-20AU-ND 3.05 1.92 1.75
256 512 23 1/2 6 1USART 1 8 2.7 5.5V 20MHz 32-QFN -40 85C ATMEGA48P-20MU-ND 3.05 1.92 1.75
256 512 23 1/2 6 1USART 1 8 2.7 5.5V 20MHz 28-Dip -40 85C ATMEGA48P-20PU-ND 3.15 1.99 1.81
256 512 23 1/2 6 1USART 1 8 1.8 5.5V 10MHz 32-TQFP -40 85C ATMEGA48PV-10AU-ND 3.05 1.92 1.75
256 512 23 1/2 6 1USART 1 8 1.8 5.5V 10MHz 32-QFN -40 85C ATMEGA48PV-10MU-ND 3.05 1.92 1.75
256 512 23 1/2 6 1USART 1 8 1.8 5.5V 10MHz 28-Dip -40 85C ATMEGA48PV-10PU-ND 3.15 1.99 1.81
512 1K 23 1/2 3 1 1 8 4.5 5.5V 16MHz 28-Dip -40 85C ATMEGA8-16PU-ND 3.66 2.30 2.14
512 1K 23 1/2 3 1 1 8 2.7 5.5V 8MHz 28-Dip -40 85C ATMEGA8L-8PU-ND 3.66 2.30 2.14
512 1K 23 1/2 3 1 1 8 4.5 5.5V 16MHz 32-TQFP -40 85C ATMEGA8-16AU-ND 3.55 2.23 2.08
512 1K 23 1/2 3 1 1 8 4.5 5.5V 16MHz 32-QFN -40 85C ATMEGA8-16MU-ND 3.55 2.23 2.08
512 1K 23 1/2 3 1 1 8 2.7 5.5V 8MHz 32-TQFP -40 85C ATMEGA8L-8AU-ND 3.55 2.23 2.08
512 1K 23 1/2 3 1 1 8 2.7 5.5V 8MHz 32-QFN -40 85C ATMEGA8L-8MU-ND 3.55 2.23 2.08
512 1K 23 1/2 6 1USART 1 8 2.7 5.5V 20MHz 32-TQFP -40 85C ATMEGA88PA-AU-ND 3.57 2.25 2.05
512 1K 23 1/2 6 1USART 1 8 2.7 5.5V 20MHz 32-QFN -40 85C ATMEGA88PA-MU-ND 3.57 2.25 2.05
512 1K 23 1/2 6 1USART 1 8 2.7 5.5V 20MHz 28-Dip -40 85C ATMEGA88PA-PU-ND 3.68 2.31 2.11
512 512 35 1/1 3 — 1 1 — — 4.5 5.5V 16MHz 44-TQFP -40 85C ATMEGA8515-16AU-ND 3.76 2.36 2.16
512 512 35 1/1 3 — 1 1 — — 4.5 5.5V 16MHz 44-PLCC -40 85C ATMEGA8515-16JU-ND 3.87 2.43 2.21
512 512 35 1/1 3 — 1 1 — — 4.5 5.5V 16MHz 44-QFN -40 85C ATMEGA8515-16MU-ND 3.76 2.36 2.16
8
512 512 35 1/1 3 — 1 1 — — 4.5 5.5V 16MHz 40-Dip -40 85C ATMEGA8515-16PU-ND 3.87 2.43 2.21
512 512 35 1/1 3 — 1 1 — — 2.7 5.5V 8MHz 44-TQFP -40 85C ATMEGA8515L-8AU-ND 3.76 2.36 2.16
512 512 35 1/1 3 — 1 1 — — 2.7 5.5V 8MHz 44-QFN 0 70C ATMEGA8515L-8MC-ND 3.19 3.07 2.94
512 512 35 1/1 3 — 1 1 — — 2.7 5.5V 8MHz 44-QFN -40 85C ATMEGA8515L-8MU-ND 3.76 2.36 2.16
512 512 35 1/1 3 — 1 1 — — 2.7 5.5V 8MHz 40-Dip -40 85C ATMEGA8515L-8PU-ND 3.87 2.43 2.21
512 512 35 1/1 3 — 1 1 — — 2.7 5.5V 8MHz 44-PLCC -40 85C ATMEGA8515L-8JU-ND 3.87 2.43 2.21
512 512 32 1/2 4 — 1 1 8 4.5 5.5V 16MHz 44-TQFP -40 85C ATMEGA8535-16AU-ND 4.04 2.54 2.32
512 512 32 1/2 4 — 1 1 8 4.5 5.5V 16MHz 44-PLCC -40 85C ATMEGA8535-16JU-ND 4.15 2.61 2.38
512 512 32 1/2 4 — 1 1 8 4.5 5.5V 16MHz 44-QFN -40 85C ATMEGA8535-16MI-ND 3.45 3.32 3.18
512 512 32 1/2 4 — 1 1 8 4.5 5.5V 16MHz 40-Dip -40 85C ATMEGA8535-16PU-ND 4.15 2.61 2.38
512 512 32 1/2 4 — 1 1 8 2.7 5.5V 8MHz 44-TQFP -40 85C ATMEGA8535L-8AU-ND 4.04 2.54 2.32
512 512 32 1/2 4 — 1 1 8 2.7 5.5V 8MHz 44-PLCC -40 85C ATMEGA8535L-8JU-ND 4.15 2.61 2.38
512 512 32 1/2 4 — 1 1 8 2.7 5.5V 8MHz 44-QFN -40 85C ATMEGA8535L-8MU-ND 4.04 2.54 2.32
512 512 32 1/2 4 — 1 1 8 2.7 5.5V 8MHz 40-Dip -40 85C ATMEGA8535L-8PU-ND 4.15 2.61 2.38
◆ RoHS Compliant
(Continued)
C
®
For Digi-Reel ® information, please see page 71.
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
87
87

megaAVR ® (Cont.)
C
Flash EEPROM
(KBytes) (Bytes)
16
32
64
128
256
◆ RoHS Compliant
SRAM
(Bytes) I/O
Timers
16/8-bit
PWM
Channels RTC SPI USART
TWI
(I2C) ISP
ADC
10-Bit
(Ch.)
Ana.
Int.
Comp. BOD WDT RC
HW
MULT
Clock
Speed
Temperature
Range
Digi-Key
Part No.
Price Each
1 25 100
VCC
Package
512 1K 32 1/2 4 1 1 8 2.7 5.5V 16MHz 44-TQFP -40 85C ATMEGA16-16AU-ND 6.73 4.23 3.84
512 1K 32 1/2 4 1 1 8 2.7 5.5V 16MHz 44-QFN -40 85C ATMEGA16-16MU-ND 6.73 4.23 3.84
512 1K 32 1/2 4 1 1 8 2.7 5.5V 16MHz 40-Dip -40 85C ATMEGA16-16PU-ND 6.84 4.30 3.90
512 1K 32 1/2 4 1 1 8 2.7 5.5V 8MHz 44-TQFP -40 85C ATMEGA16L-8AU-ND 6.73 4.23 3.84
512 1K 32 1/2 4 1 1 8 2.7 5.5V 8MHz 44-QFN 0 70C ATMEGA16L-8MC-ND 3.97 3.82 3.66
512 1K 32 1/2 4 1 1 8 2.7 5.5V 8MHz 44-QFN -40 85C ATMEGA16L-8MI-ND 3.97 3.82 3.66
512 1K 32 1/2 4 1 1 8 2.7 5.5V 8MHz 44-QFN -40 85C ATMEGA16L-8MU-ND 6.73 4.23 3.84
512 1K 32 1/2 4 1 1 8 2.7 5.5V 8MHz 40-Dip -40 85C ATMEGA16L-8PU-ND 6.84 4.30 3.90
512 1K 35 2/2 6 1 2 — — 2.7 5.5V 16MHz 44-TQFP -40 85C ATMEGA162-16AU-ND 6.67 4.19 3.78
512 1K 35 2/2 6 1 2 — — 2.7 5.5V 16MHz 44-QFN -40 85C ATMEGA162-16MU-ND 6.67 4.19 3.78
512 1K 35 2/2 6 1 2 — — 2.7 5.5V 16MHz 40-Dip -40 85C ATMEGA162-16PU-ND 6.77 4.26 3.83
512 1K 35 2/2 6 1 2 — — 2.7 5.5V 8MHz 44-TQFP -40 85C ATMEGA162V-8AU-ND 6.67 4.19 3.78
512 1K 35 2/2 6 1 2 — — 2.7 5.5V 8MHz 44-QFN -40 85C ATMEGA162V-8MI-ND 4.10 3.94 3.78
512 1K 35 2/2 6 1 2 — — 2.7 5.5V 8MHz 44-QFN -40 85C ATMEGA162V-8MU-ND 6.67 4.19 3.78
512 1K 35 2/2 6 1 2 — — 2.7 5.5V 8MHz 40-Dip -40 85C ATMEGA162V-8PU-ND 6.77 4.26 3.83
512 1K 23 1/2 6 1USART 1 8 1.8 5.5V 20MHz 32-TQFP -40 85C ATMEGA168-20AU-ND 4.32 2.72 2.48
512 1K 23 1/2 6 1USART 1 8 1.8 5.5V 20MHz 32-QFN -40 85C ATMEGA168-20MU-ND 4.32 2.72 2.48
512 1K 23 1/2 6 1USART 1 8 1.8 5.5V 20MHz 28-Dip -40 85C ATMEGA168-20PU-ND 4.43 2.79 2.53
512 1K 23 1/2 6 1USART 1 8 1.8 5.5V 10MHz 32-TQFP -40 85C ATMEGA168V-10AU-ND 4.32 2.72 2.48
512 1K 23 1/2 6 1USART 1 8 1.8 5.5V 10MHz 32-QFN -40 85C ATMEGA168V-10MU-ND 4.32 2.72 2.48
512 1K 23 1/2 6 1USART 1 8 1.8 5.5V 10MHz 28-Dip -40 85C ATMEGA168V-10PU-ND 4.43 2.79 2.53
512 1K 54 1/2 4 1 2 — — 2.7 5.5V 8MHz 64-QFN -40 85C ATMEGA169L-8MI-ND 6.67 6.42 6.16
1K 2K 32 1/2 4 1 1 8 4.0 5.5V 16MHz 44-TQFP -40 85C ATMEGA32-16AU-ND 8.17 5.13 4.66
1K 2K 32 1/2 4 1 1 8 4.0 5.5V 16MHz 44-QFN -40 85C ATMEGA32-16MU-ND 8.17 5.13 4.66
1K 2K 32 1/2 4 1 1 8 4.0 5.5V 16MHz 40-Dip -40 85C ATMEGA32-16PU-ND 8.28 5.20 4.71
1K 2K 32 1/2 4 1 1 8 1.8 5.5V 8MHz 44-TQFP -40 85C ATMEGA32L-8AU-ND 8.17 5.13 4.66
1K 2K 32 1/2 4 1 1 8 1.8 5.5V 8MHz 44-QFN -40 85C ATMEGA32L-8MU-ND 8.17 5.13 4.66
1K 2K 32 1/2 4 1 1 8 2.7 5.5V 8MHz 40-Dip 0 70C ATMEGA32L-8PU-ND 8.28 5.20 4.71
1K 1K 22 1/1 4 1 1 8 2.7 5.5V 16MHz 32-TQFP -40 85C ATMEGA32U2-AU-ND◆ NEW! 4.40 2.77 2.64
1K 2.5K 26 2/2 4 1 1 8 2.7 5.5V 16MHz 44-TQFP -40 85C ATMEGA32U4-AU-ND◆ NEW! 6.04 3.79 3.47
1K 2.5K 26 2/2 4 1 1 8 2.7 5.5V 16MHz 44-QFN -40 85C ATMEGA32U4-MU-ND◆ NEW! 6.04 3.79 3.47
1K 2K 54 1/2 4 1USI 1 USI 8 2.7 5.5V 16MHz 64-TQFP -40 85C ATMEGA325-16AU-ND 6.88 4.32 3.93
1K 2K 54 1/2 4 1USI 1 USI 8 2.7 5.5V 16MHz 64-QFN -40 85C ATMEGA325-16MU-ND 6.88 4.32 3.93
1K 2K 54 1/2 4 1USI 1 USI 8 1.8 5.5V 8MHz 64-TQFP -40 85C ATMEGA325V-8AU-ND 6.88 4.32 3.93
1K 2K 54 1/2 4 1USI 1 USI 8 1.8 5.5V 8MHz 64-QFN -40 85C ATMEGA325V-8MU-ND 6.88 4.32 3.93
1K 2K 69 1/2 4 1USI 1 USI 8 2.7 5.5V 16MHz 100-TQFP -40 85C ATMEGA3250-16AU-ND 7.25 4.55 4.14
1K 2K 69 1/2 4 1USI 1 USI 8 1.8 5.5V 8MHz 100-TQFP -40 85C ATMEGA3250V-8AU-ND 7.25 4.55 4.14
1K 2K 23 1/2 6 1USART 1 8 1.8 5.5V 10MHz 32-TQFP -40 85C ATMEGA328P-AU-ND◆ 4.87 3.06 2.80
1K 2K 23 1/2 6 1USART 1 8 1.8 5.5V 10MHz 32-QFN -40 85°C ATMEGA328P-MU-ND◆ 4.87 3.06 2.80
1K 2K 23 1/2 6 1USART 1 8 1.8 5.5V 10MHz 28-PDIP -40 85°C ATMEGA328P-PU-ND◆ 4.98 3.13 2.85
2K 4K 54 2/2 8 1 2 8 2.7 5.5V 16MHz 64-TQFP -40 85°C ATMEGA64A-AU-ND◆ NEW! 7.33 4.61 4.21
2K 4K 54 2/2 8 1 2 8 2.7 5.5V 16MHz 64-TQFP -40 85C ATMEGA64-16AU-ND 11.83 7.43 7.00
2K 4K 54 2/2 8 1 2 8 2.7 5.5V 16MHz 64-QFN -40 85C ATMEGA64-16MI-ND 7.22 6.94 6.66
2K 4K 54 2/2 8 1 2 8 2.7 5.5V 16MHz 64-QFN -40 85C ATMEGA64-16MU-ND 11.83 7.43 7.00
2K 4K 54 2/2 8 1 2 8 2.7 5.5V 8MHz 64-TQFP -40 85C ATMEGA64L-8AU-ND 11.83 7.43 7.00
2K 4K 54 2/2 8 1 2 8 2.7 5.5V 8MHz 64-QFN 0 70C ATMEGA64L-8MC-ND 7.22 6.94 6.66
2K 4K 54 2/2 8 1 2 8 2.7 5.5V 8MHz 64-QFN -40 85C ATMEGA64L-8MU-ND 11.83 7.43 7.00
2K 4K 32 1/2 6 1USART 1 8 1.8 5.5V 10MHz 44-TQFP -40 85C ATMEGA644V-10AU-ND 7.87 4.95 4.49
2K 4K 32 1/2 6 1USART 1 8 1.8 5.5V 10MHz 44-QFN -40 85C ATMEGA644V-10MU-ND 7.87 4.95 4.49
2K 4K 32 1/2 6 1USART 1 8 1.8 5.5V 10MHz 40-Dip -40 85C ATMEGA644V-10PU-ND 7.98 5.01 4.55
2K 4K 32 1/2 6 1USART 1 8 2.7 5.5V 20MHz 44-TQFP -40 85C ATMEGA644-20AU-ND 7.87 4.95 4.49
2K 4K 32 1/2 6 1USART 1 8 2.7 5.5V 20MHz 44-QFN -40 85C ATMEGA644-20MU-ND 7.87 4.95 4.49
2K 4K 32 1/2 6 1USART 1 8 2.7 5.5V 20MHz 40-Dip -40 85C ATMEGA644-20PU-ND 7.98 5.01 4.55
2K 4K 32 1/2 6 1USART 2 8 1.8 5.5V 20MHz 44-TQFP -40 85C ATMEGA644PA-AU-ND◆ NEW! 7.39 4.65 4.25
2K 4K 32 1/2 6 1USART 2 8 1.8 5.5V 20MHz 44-VQFN -40 85C ATMEGA644PA-MU-ND◆ NEW! 7.39 4.65 4.25
2K 4K 32 1/2 6 1USART 2 8 1.8 5.5V 20MHz 40-PDIP -40 85C ATMEGA644PA-PU-ND◆ NEW! 7.50 4.71 4.30
2K 4K 54 1/2 4 1USI 1 USI 8 1.8 5.5V 16MHz 64-TQFP -40 85C ATMEGA645-16AU-ND 9.01 5.66 5.14
2K 4K 54 1/2 4 1USI 1 USI 8 1.8 5.5V 8MHz 64-TQFP -40 85C ATMEGA645V-8AU-ND 9.01 5.66 5.14
2K 4K 54 1/2 4 1USI 1 USI 8 1.8 5.5V 8MHz 64-QFN -40 85C ATMEGA645V-8MU-ND 9.01 5.66 5.14
2K 4K 69 1/2 4 1USI 1 USI 8 1.8 5.5V 16MHz 100-TQFP -40 85C ATMEGA6450-16AU-ND 10.36 6.51 5.92
2K 4K 69 1/2 4 1USI 1 USI 8 1.8 5.5V 8MHz 100-TQFP -40 85C ATMEGA6450V-8AU-ND 10.36 6.51 5.92
4K 8K 86 4/2 16 1USART 4 16 2.7 5.5V 16MHz 100-TQFP -40 85C ATMEGA640-16AU-ND 11.80 7.42 6.81
4K 8K 86 4/2 16 1USART 4 16 1.8 5.5V 8MHz 100-TQFP -40 85C ATMEGA640V-8AU-ND 11.80 7.42 6.81
4K 8K 86 4/2 16 1USART 4 16 1.8 5.5V 8MHz 100-CBGA -40 85C ATMEGA640V-8CU-ND 12.88 8.09 7.33
4K 4K 53 2/2 8 1 2 8 4.5 5.5V 16MHz 64-QFN 0 70C ATMEGA128-16MC-ND 9.10 8.75 8.40
4K 4K 53 2/2 8 1 2 8 4.5 5.5V 16MHz 64-TQFP -40 85C ATMEGA128-16AU-ND 17.21 10.81 9.88
4K 4K 53 2/2 8 1 2 8 4.5 5.5V 16MHz 64-QFN -40 85C ATMEGA128-16MU-ND 17.21 10.81 9.88
4K 4K 53 2/2 8 1 2 8 2.7 5.5V 16MHz 64-TQFP -40 85C ATMEGA128A-AU-ND◆ NEW! 9.23 5.80 5.30
4K 4K 53 2/2 8 1 2 8 2.7 5.5V 16MHz 64-QFN -40 85C ATMEGA128A-MU-ND◆ NEW! 9.23 5.80 5.30
4K 4K 53 2/2 8 1 2 8 2.7 5.5V 8MHz 64-TQFP -40 85C ATMEGA128L-8AU-ND 17.21 10.81 9.88
4K 4K 53 2/2 8 1 2 8 2.7 5.5V 8MHz 64-QFN -40 85C ATMEGA128L-8MU-ND 17.21 10.81 9.88
4K 16K 32 2/2 6 1 2 8 1.8 5.5V 16MHz 44-TQFP -40 85C ATMEGA1284P-AU-ND◆ 8.03 5.04 4.61
4K 16K 32 2/2 6 1 2 8 1.8 5.5V 16MHz 44-QFN -40 85C ATMEGA1284P-MU-ND◆ 8.03 5.04 4.61
4K 16K 32 2/2 6 1 2 8 1.8 5.5V 16MHz 40-PDIP -40 85C ATMEGA1284P-PU-ND◆ 8.13 5.11 4.66
4K 8K 86 4/2 16 1USART 4 16 2.7 5.5V 16MHz 100-TQFP -40 85C ATMEGA1280-16AU-ND 16.13 10.13 9.26
4K 8K 86 4/2 16 1USART 4 16 2.7 5.5V 16MHz 100-CBGA -40 85C ATMEGA1280-16CU-ND 17.20 10.81 9.78
4K 8K 86 4/2 16 1USART 4 16 1.8 5.5V 8MHz 100-TQFP -40 85C ATMEGA1280V-8AU-ND 16.13 10.13 9.26
4K 8K 86 4/2 16 1USART 4 16 1.8 5.5V 8MHz 100-CBGA -40 85C ATMEGA1280V-8CU-ND 17.20 10.81 9.78
4K 8K 54 4/2 10 1USART 2 8 2.7 5.5V 16MHz 64-TQFP -40 85C ATMEGA1281-16AU-ND 13.12 8.24 7.32
4K 8K 54 4/2 10 1USART 2 8 2.7 5.5V 16MHz 64-QFN -40 85C ATMEGA1281-16MU-ND 13.12 8.24 7.32
4K 8K 54 4/2 10 1USART 2 8 1.8 5.5V 8MHz 64-TQFP -40 85C ATMEGA1281V-8AU-ND 13.12 8.24 7.32
4K 8K 54 4/2 10 1USART 2 8 1.8 5.5V 8MHz 64-QFN -40 85C ATMEGA1281V-8MU-ND 13.12 8.24 7.32
4K 8K 86 4/2 16 1USART 4 16 4.5 5.5V 16MHz 100-TQFP -40 85C ATMEGA2560-16AU-ND 17.97 11.29 10.22
4K 8K 86 4/2 16 1USART 4 16 1.8 5.5V 8MHz 100-TQFP -40 85C ATMEGA2560V-8AU-ND 17.97 11.29 10.22
4K 8K 86 4/2 16 1USART 4 16 1.8 5.5V 8MHz 100-CBGA -40 85C ATMEGA2560V-8CU-ND 19.05 11.97 10.74
4K 8K 54 4/2 10 1USART 2 8 4.5 5.5V 16MHz 64-TQFP -40 85C ATMEGA2561-16AU-ND 17.79 11.17 10.21
4K 8K 54 4/2 10 1USART 2 8 4.5 5.5V 16MHz 64-QFN -40 85C ATMEGA2561-16MU-ND 17.79 11.17 10.21
4K 8K 54 4/2 10 1USART 2 8 1.8 5.5V 8MHz 64-TQFP -40 85C ATMEGA2561V-8AU-ND 17.79 11.17 10.21
4K 8K 54 4/2 10 1USART 2 8 1.8 5.5V 8MHz 64-QFN -40 85C ATMEGA2561V-8MU-ND 17.79 11.17 10.21
®
For Digi-Reel ® information, please see page 71.
88 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

picoPower AVR ®
Flash EEPROM
(KBytes) (Bytes)
16
32
64
Timer
16-Bit/
8-Bit
ADC
10-Bit
(Ch.)
SRAM I/O
PWM
TWI
Ana.
Int. HW
Clock
Temp. Digi-Key
Price Each
(Bytes) Pins
Ch. RTC SPI USART (I2C) ISP Comp. BOD WDT RC MULT VCC Speed Package Range Part No.
1 25 100
512 1K 32 1/2 6 1USART 2 8 2.7 5.5V 20MHz 44-TQFP -4085°C ATMEGA164P-20AU-ND 5.49 3.45 3.16
512 1K 32 1/2 6 1USART 2 8 2.7 5.5V 20MHz 44-QFN -4085°C ATMEGA164P-20MU-ND 5.49 3.45 3.16
512 1K 32 1/2 6 1USART 2 8 2.7 5.5V 20MHz 40-Dip -4085°C ATMEGA164P-20PU-ND 5.60 3.52 3.21
512 1K 32 1/2 6 1USART 2 8 1.8 5.5V 10MHz 44-TQFP -4085°C ATMEGA164PV-10AU-ND 5.49 3.45 3.16
512 1K 32 1/2 6 1USART 2 8 1.8 5.5V 10MHz 44-QFN -4085°C ATMEGA164PV-10MU-ND 5.49 3.45 3.16
512 1K 32 1/2 6 1USART 2 8 1.8 5.5V 10MHz 40-Dip -4085°C ATMEGA164PV-10PU-ND 5.60 3.52 3.21
512 1K 54 1/2 4 1USI 1 USI 8 2.7 5.5V 16MHz 64-TQFP -4085°C ATMEGA165P-16AU-ND 6.41 4.03 3.68
512 1K 54 1/2 4 1USI 1 USI 8 2.7 5.5V 16MHz 64-QFN -4085°C ATMEGA165P-16MU-ND 6.41 4.03 3.68
512 1K 54 1/2 4 1USI 1 USI 8 1.8 5.5V 8MHz 64-TQFP -4085°C ATMEGA165PV-8AU-ND 6.41 4.03 3.68
512 1K 54 1/2 4 1USI 1 USI 8 1.8 5.5V 8MHz 64-QFN -4085°C ATMEGA165PV-8MU-ND 6.41 4.03 3.68
1K 2K 32 1/2 6 1USART 2 8 2.7 5.5V 20MHz 44-TQFP -4085°C ATMEGA324P-20AU-ND 7.05 4.43 4.05
1K 2K 32 1/2 6 1USART 2 8 2.7 5.5V 20MHz 44-QFN -4085°C ATMEGA324P-20MU-ND 7.05 4.43 4.05
1K 2K 32 1/2 6 1USART 2 8 2.7 5.5V 20MHz 40-Dip -4085°C ATMEGA324P-20PU-ND 7.16 4.50 4.10
1K 2K 32 1/2 6 1USART 2 8 1.8 5.5V 10MHz 44-TQFP -4085°C ATMEGA324PV-10AU-ND 7.05 4.43 4.05
1K 2K 32 1/2 6 1USART 2 8 1.8 5.5V 10MHz 44-QFN -4085°C ATMEGA324PV-10MU-ND 7.05 4.43 4.05
1K 2K 32 1/2 6 1USART 2 8 1.8 5.5V 10MHz 40-Dip -4085°C ATMEGA324PV-10PU-ND 7.16 4.50 4.10
1K 2K 54 1/2 4 1USI 1 USI 8 2.7 5.5V 20MHz 64-TQFP -4085°C ATMEGA325P-20AU-ND 6.99 4.39 3.99
1K 2K 54 1/2 4 1USI 1 USI 8 2.7 5.5V 20MHz 64-QFN -4085°C ATMEGA325P-20MU-ND 6.99 4.39 3.99
1K 2K 54 1/2 4 1USI 1 USI 8 1.8 5.5V 10MHz 64-TQFP -4085°C ATMEGA325PV-10AU-ND 6.99 4.39 3.99
1K 2K 69 1/2 4 1USI 1 USI 8 2.7 5.5V 20MHz 100-TQFP -4085°C ATMEGA3250P-20AU-ND 7.25 4.55 4.14
1K 2K 69 1/2 4 1USI 1 USI 8 1.8 5.5V 10MHz 100-TQFP -4085°C ATMEGA3250PV-10AU-ND 7.25 4.55 4.14
2K 4K 32 1/2 6 1USART 2 8 2.7 5.5V 20MHz 44-TQFP -4085°C ATMEGA644P-20AU-ND 8.08 5.08 4.69
2K 4K 32 1/2 6 1USART 2 8 2.7 5.5V 20MHz 44-QFN -4085°C ATMEGA644P-20MU-ND 8.08 5.08 4.69
2K 4K 32 1/2 6 1USART 2 8 2.7 5.5V 20MHz 40-Dip -4085°C ATMEGA644P-20PU-ND 8.19 5.15 4.74
2K 4K 32 1/2 6 1USART 2 8 1.8 5.5V 10MHz 44-TQFP -4085°C ATMEGA644PV-10AU-ND 8.08 5.08 4.69
2K 4K 32 1/2 6 1USART 2 8 1.8 5.5V 10MHz 40-Dip -4085°C ATMEGA644PV-10PU-ND 8.19 5.15 4.74
C
AVR ® XMEGA High Performance Low
Power Flash Microcontrollers
Operating Temperature: Industrial -4C ~ 85C
Memory Size (Bytes) DMA I/O
Frequency
Max. VCC 16-bit PWM
12-bit
A/D
12-bit
D/A
Digi-Key
Price Each
Flash EEPROM SRAM Channels Pins (MHz) (V) Timers Channels SPI TWI USART Channels Channels Package Part No.
1 25 100
16K
1K 2K 4 36 32 1.6 3.6 5 16 2 2 5 12 2 44-TQFP ATXMEGA16A4-AU-ND 5.20 3.27 2.99
1K 2K 4 36 32 1.6 3.6 5 16 2 2 5 12 2 44-QFN ATXMEGA16A4-MH-ND 5.20 3.27 2.99
32K
2K 4K 4 36 32 1.6 3.6 5 16 2 2 5 12 2 44-TQFP ATXMEGA32A4-AU-ND 5.88 3.70 3.38
2K 4K 4 36 32 1.6 3.6 5 16 2 2 5 12 2 44-QFN ATXMEGA32A4-MH-ND 5.88 3.70 3.38
2K 4K 4 78 32 1.6 3.6 8 24 4 4 8 16 4 100-TQFP ATXMEGA64A1-AU-ND 8.06 5.07 4.51
64K
2K 4K 4 78 32 1.6 3.6 8 24 4 4 8 16 4 100-CBGA ATXMEGA64A1-CU-ND 9.14 5.74 5.10
2K 4K 4 50 32 1.8 3.6 7 22 4 4 7 16 2 64-TQFP ATXMEGA64A3-AU-ND 8.21 5.16 4.72
2K 4K 4 50 32 1.8 3.6 7 22 4 4 7 16 2 64-QFN ATXMEGA64A3-MH-ND 8.21 5.16 4.72
2K 8K 4 78 32 1.6 3.6 8 24 4 4 8 16 4 100-TQFP ATXMEGA128A1-AU-ND 10.20 6.41 5.86
128K
2K 8K 4 78 32 1.6 3.6 8 24 4 4 8 16 4 100-CBGA ATXMEGA128A1-CU-ND 11.27 7.08 6.38
2K 8K 4 50 32 1.8 3.6 7 22 4 4 7 16 2 64-TQFP ATXMEGA128A3-AU-ND 10.43 6.56 5.99
2K 8K 4 50 32 1.8 3.6 7 22 4 4 7 16 2 64-QFN ATXMEGA128A3-MH-ND 10.43 6.56 5.99
192K
256K
4K 16K 4 50 32 1.8 3.6 7 22 4 4 7 16 2 64-TQFP ATXMEGA192A3-AU-ND 11.52 7.24 6.62
4K 16K 4 50 32 1.8 3.6 7 22 4 4 7 16 2 64-QFN ATXMEGA192A3-MH-ND 11.52 7.24 6.62
4K 16K 4 50 32 1.8 3.6 7 22 4 4 7 16 2 64-TQFP ATXMEGA256A3-AU-ND 13.55 8.51 7.78
4K 16K 4 50 32 1.8 3.6 7 22 4 4 7 16 2 64-QFN ATXMEGA256A3-MH-ND 13.55 8.51 7.78
Adapters
The AVR ® ICE50 is a top-of-the-line development tool for complete in-circuit emulation of most AVR 8-bit
RISC microcontrollers.
Description
Digi-Key
Part No.
Price
Each
ICE50 Extension Memory Card ATICE50MEM-ND 240.50
Replacement POD for ICE40, ICE50 ATICE50POD-ND 455.00
Probe with Flex Cables ATICE50PROBE-ND 79.30
Personality Adapter for ATmega169 ATADAP169_TOP-ND 195.00
Personality Adapter for ATmega8 ATADAPMEGA8-ND 40.30
Personality Adapter for ATmega32 ATADAPMEGA32-ND 40.30
The ICE50 and the AVR Studio4 user interface give the user complete control of the internal resources of the
microcontroller, helping to reduce development time by making debugging easier.
Digi-Key
Price
Description
Part No.
Each
Personality Adapter for ATmega162 ATADAPMEGA162-ND 40.30
Personality Adapter for ATtiny2313 ATADAPT2313-ND 40.30
Personality Adapter for ATtiny13 ATADAPTINY13-ND 40.30
Personality Adapter for ATtiny26 ATADAPTINY26-ND 40.30
ICE50 Adapter Test ATADAPTEST-ND 40.30
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
89
89

C
ATSTK500 Starter Kit
The ATSTK500 is a starter it and development system or Atmels AVR lash microcontrollers. The ATSTK500 ives
designers a quick start to develop code on the AVR combined with features for using the starter kit to develop prototypes
and test new desins. The ATSTK500 interaces with AVR Studio ® , Atmels Interated Development Environment IDE
for code writing and debugging.
ATSTK500-ND ................................................................................................ $82.16
Description
Digi-Key
Part No.
Price
Each
Module or STK520 ATSTK520-ND 82.16
CAN Extension or STK500/501 ATADAPCAN01-ND 19.76
Starter Kit or AT90USB ATSTK525-ND 206.96
Starter Kit or AT90USB82/162 ATSTK526-ND 206.96
Extension Board Kit or STK525 ATEVK525-ND 156.00
BC100 Development Kit
The BC100 is a reerence desin/development it that tarets attery charin. The it can e used to chare various attery
types, as lon as the reuirements to charin voltae and currents are within the output rane that the it oers 1.2V
38V, 5A Max. The it can e used to develop applications such as attery charers, attery acup, un-interruptale power
supply and switch mode power supply.
ATAVRBC100-ND ............................................................................................ $206.96
USB Development Kit
Description
USB Host/Function Development Kit or AT43USB380
OTG/Host FunctionProcessor
Evaluation Kits
Programmer/Emulator
Description
Digi-Key
Part No.
Price
Each
ISP In-System Prorammer ATAVRISP2-ND 35.36
JTAGICE Emulator or AVR 2/OCD ATJTAGICE2-ND 310.96
Proe JTAGICE with Flex Cales ATJTAGPROBE-ND 40.56
ATAVRONEKIT Deuer/Prorammer ATAVRONEKIT-ND 622.96
AVR ® Dragon
Digi-Key
Part No.
Price
Each
AT43DK380-PDC2-ND 1298.70
Digi-Key
Price
Description
Part No.
Each
Buttery Evaluation Kit ATAVRBFL-ND 20.79
The AVR Dragon supports all programming modes for the AVR device family. The Dragon is also capable of full emulation
support or devices with 32KB or less lash memory. Firmware or the device is easily upraded usin AVR Studio® to
support new devices.
ATAVRDRAGON-ND ........................................................................................... $50.96
AVR ® 32 32-Bit Microcontrollers
Features: Core Power Supply Voltae 1.65V 1.95V I/O Power Supply Voltae 3.0V 3.6V
Operatin Temperature -40C 85C
MIPS
210
80
72
SRAM Flash Cache I/O
Ethernet Ext. Bus
Frequency
Digi-Key
Price Each
(KBytes) (KBytes) (Inst/Data) Pins
USB
MAC 10/100 Interface UART Max. (MHz) Package Part No.
1 25 100
32 — 16KB/16KB 160 Hih-Speed 2 es 4 150 256-CTBGA AT32AP7000-CTUT-ND 21.82 14.56 13.41
32 — 16KB/16KB 85 Hih-Speed — es 4 150 196-CBGA AT32AP7002-CTUT-ND 18.49 12.34 11.37
32 128 — 109 Full-Speed OTG 1 es 4 66 144-LQFP AT32UC3A0128-ALUT-ND 12.32 7.74 7.08
32 128 — 69 Full-Speed OTG 1 No 4 66 100-TQFP AT32UC3A1128-AUT-ND 11.05 6.94 6.35
64 256 — 109 Full-Speed OTG 1 es 4 66 144-LQFP AT32UC3A0256-ALUT-ND 15.13 9.51 8.69
64 256 — 69 Full-Speed OTG 1 No 4 66 100-TQFP AT32UC3A1256-AUT-ND 13.57 8.52 7.79
64 256 — 109 Full-Speed OTG — No 4 66 144-LQFP AT32UC3A3256-ALUT-ND 17.74 11.15 10.19
64 256 — 109 Full-Speed OTG — No 4 66 144-TBGA AT32UC3A3256-CTUT-ND 17.96 11.28 10.29
64 512 — 109 Full-Speed OTG 1 es 4 66 144-LQFP AT32UC3A0512-ALUT-ND 17.86 11.22 10.26
64 512 — 109 Full-Speed OTG 1 es 4 66 144-LQFP AT32UC3A0512-ALUR-ND 8286.70/800
64 512 — 69 Full-Speed OTG 1 No 4 66 100-TQFP AT32UC3A1512-AUT-ND 16.02 10.06 9.20
64 512 — 69 Full-Speed OTG 1 No 4 66 100-TQFP AT32UC3A1512-AUR-ND 9218.55/1,000
16 64 — 44 Full-Speed OTG — — 3 60 64-TQFP AT32UC3B064-A2UT-ND 8.44 5.30 4.85
16 64 — 28 Full-Speed — — 2 60 48-QFN AT32UC3B164-1UT-ND 7.87 4.95 4.52
32 128 — 44 Full-Speed OTG — — 3 60 64-TQFP AT32UC3B0128-A2UT-ND 10.20 6.41 5.86
32 128 — 44 Full-Speed OTG — — 3 60 64-QFN AT32UC3B0128-2UT-ND 10.20 6.41 5.86
32 128 — 28 Full-Speed — — 2 60 48-QFN AT32UC3B1128-Z1UT-ND 9.63 6.05 5.53
32 256 — 44 Full-Speed OTG — — 3 60 64-TQFP AT32UC3B0256-A2UT-ND 12.52 7.87 7.19
32 256 — 44 Full-Speed OTG — — 3 60 64-QFN AT32UC3B0256-2UT-ND 12.52 7.87 7.19
32 256 — 28 Full-Speed — — 2 60 48-TQFP AT32UC3B1256-AUT-ND 10.74 6.75 6.17
32 256 — 28 Full-Speed — — 2 60 48-QFN AT32UC3B1256-1UT-ND 10.74 6.75 6.17
ATEVK1100 Evaluation Kit
The ATEVK1100 is an evaluation it and development system or the AVR32 AT32UC3A microcontroller. It is euipped with
a rich set of peripherals, memory, and makes it easy to try the full potential of the AVR32 devices.
ATEVK1100-ND .............................................................................................. $175.76
ATEVK1101 Evaluation Kit
The ATEVK1101 is an evaluation it and development system or the AVR32 AT32UC3B microcontroller. It is euipped
with a rich set of peripherals, memory, and makes it easy to try the full potential of the AVR32 devices.
ATEVK1101-ND ......................................................................................................$123.76
ATEVK1104 Evaluation Kit
The ATEVK1104 is an evaluation it or the AT32UC3A3256 which comines Atmels state-o-the-art AVR32
microcontroller with an unrivalled selection of communication interface like USB device including On-The-Go functionality,
SDcard, NAND lash with ECC and stereo 16-it DAC.
ATEVK1104-ND .............................................................................................. $175.76
ATEVK1105 Evaluation Kit
The ATEVK1105 is an evaluation it or the AT32UC3A0512 which demonstrates Atmels state-o-the-art AVR32
microcontroller in Hi-Fi audio decodin and streamin applications. The it contains reerence hardware and sotware or
generic MP3 player docking stations.
ATEVK1105-ND .............................................................................................. $186.16
ATNGW100 Network Gateway Kit
The ATNGW100 is an ideal development oard or the AT32AP7000. The ATNGW100 has two Ethernet ports, SD and
MMC card reader and connectors or USB and JTAG. The oard is preloaded with Linux ® and shipped with I/O interace
drivers that can be called from your own code.
ATNGW100-ND .............................................................................................. $134.16
NEW! ATEXTWIFI Evaluation Kit
The Wi-Fi Extension Board has an SD card form factor, and connects easily to any 32-bit AVR UC3 evaluation kit with
an SD card socet. The Wi-Fi TCP/IP stac is included in the AVR UC3 Sotware Framewor, and supports oth SPI and
SDIO communications with the Wi-Fi Extension Board.
For use with EVK11xx series development oards
ATEXTWIFI-ND............................................................................................... $206.96
NEW! ATAVRXPLAIN Evaluation Kit
Xplain is an easy to use evaluation and demonstration kit for ATxmega128A1, offering complete hardware for evaluating
the highly accurate analog functionality of the device. The ADC can be used to read a temperature sensor and a
potentiometer, and the DAC can be used to generate sound on a mono speaker.
Xplain also demonstrates how to interface external memories; the kit features 8MB SDRAM and 8MB DataFlash connected
to the ATxmega128A1. Eight push buttons and eight LEDs are available for user interaction.
ATAVRXPLAIN-ND ............................................................................................ $30.16
ATSTK600 Starter Kit
The Atmel AVR ® STK600 is a complete starter it and development system or the AVR and AVR32 lash microcontrollers.
It is desined to ive desiners a uic start to develop code on the AVR, comined with advanced eatures or usin the
starter it to prototype and test new desins. The STK600 is shipped with a ATmea2560 device oard.
ATSTK600-ND ............................................................................................... $206.96
Description
Digi-Key
Part No.
Price
Each
ATSTK600 Socket and Adapter Boards
Socet and Adapter Board, 40-PDIP Devices ATSTK600-DIP40-ND 102.96
Socet and Adapter Board, 44-TQFP Devices ATSTK600-TQFP44-ND 102.70
Socet and Adapter Board, 100-TQFP Devices ATSTK600-TQFP100-ND 102.96
Socket and Adapter Board, TinyX3U Devices ATSTK600-TINX3U-ND 102.96
Socet and Adapter Board, TQFP32 Devices ATSTK600-TQFP32-ND 102.96
Socet and Adapter Board, SOIC Devices ATSTK600-SOIC-ND 102.96
Socet and Adapter Board, 64-TQFP Devices ATSTK600-TQFP64-2-ND 102.96
Socet Board and Expansion Module, 144-TQFP Devices ATSTK600-UC3A0X-144-ND 102.96
Socet and Adapter Board, 48-TQFP Devices ATSTK600-TQFP48-ND 102.96
Socet and Adapter Board, 64-TQFP Devices, 0.8mm Pitch ATSTK600-TQFP64-ND 102.96
Socet and Adapter Board, Tiny 4/5/9/10 Devices ATSTK600-ATTIN10-ND NEW! 50.96
90 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Microcontrollers
Operating Temperature: Industrial -4C ~ 85C, Commercial C ~ C
CAN
Memory Size (Bytes) I/O Serial Communication
Timer
Counter
Clock
Speed VCC Operating
Digi-Key
Price Each
Program Ram EEprom Pins UART SPI CAN WDT 16-Bits A/D MHz (V) Temperature Package Part No.
1 25 100
256 2K 36 1 es
No 3
40 3.0 5.5 Industrial 44-VQFP AT89C51CC03URLRCT-ND† 8.93 8.59 8.25
4K 256 2K 36 1 es
2.0
8-ch/
es 3
A & B
10-it
40 3.0 5.5 Industrial 64-VQFP AT89C51CC03URDRCT-ND† 9.06 8.72 8.37
256 2K 36 1 es No 3 40 3.0 5.5 Industrial 44-PLCC AT89C51CC03USLRCT-ND† 8.74 8.40 8.07
256 2K 20 1 —
es 3
40 3.0 5.5 Industrial 32-VQFP T89C51CC02UARATIM-ND 5.77 5.55 5.33
256 2K 20 1 — es 3 40 3.0 5.5 Industrial 64-BGA T89C51CC01CA7CTIM-ND 6.08 5.85 5.62
16K
256 2K 20 1 — 2.0 es 3 8-ch/ 40 3.0 5.5 Industrial 28-SOIC AT89C51CC02UA-TISUM-ND 8.60 6.66 6.24
256 2K 20 1 — A & B es 3 10-it 40 3.0 5.5 Industrial 28-PLCC AT89C51CC02UA-SISUM-ND 8.60 6.66 6.24
256 2K 20 1 — es 3 40 3.0 5.5 Industrial 32-VQFP AT89C51CC02CA-RATUM-ND 8.60 6.66 6.24
256 2K 20 1 — es 3 40 3.0 5.5 Industrial 32-VQFP AT89C51CC02UA-RATUM-ND 8.60 6.66 6.24
256 2K 34 1 —
es 3
40 3.0 5.5 Industrial 44-VQFP AT89C51CC01UARLTUM-ND 9.57 7.41 6.95
32K 256 2K 34 1 —
2.0
8-ch/
es 3
A & B
10-it
40 3.0 5.5 Industrial 44-VQFP AT89C51CC01CA-RLTUM-ND 9.57 7.41 6.95
256 2K 34 1 — es 3 40 3.0 5.5 Industrial 44-PLCC AT89C51CC01CA-SLSUM-ND 9.57 7.41 6.95
256 2K 36 1 es
es 3
40 3.0 5.5 Industrial 64-VQFP AT89C51CC03CRDTIM-ND 7.02 6.75 6.48
256 2K 36 1 es es 3 40 3.0 5.5 Industrial 64-VQFP AT89C51CC03URDTIM-ND 11.61 8.10 7.13
256 2K 36 1 es es 3 40 3.0 5.5 Industrial 64-VQFP AT89C51CC03UA-RDTUM-ND 11.61 8.99 8.43
256 2K 36 1 es es 3 40 3.0 5.5 Industrial 44-PLCC AT89C51CC03UASLSUM-ND 11.61 8.99 8.43
256 2K 36 1 es No 3 40 3.0 5.5 Industrial 44-PLCC AT89C51CC03CSLRCT-ND† 8.74 8.40 8.07
64K 256 2K 36 1 es
2.0
8-ch/
es 3
A & B
10-it
40 3.0 5.5 Industrial 52-PLCC AT89C51CC03CS3RCT-ND† 8.87 8.53 8.19
256 2K 36 1 es es 3 40 3.0 5.5 Industrial 64-VQFP AT89C51CC03CRDRCT-ND† 9.06 8.72 8.37
256 2K 36 1 — es 3 40 3.0 5.5 Industrial 44-VQFP AT89C51CC03CA-RLTUM-ND 11.61 8.99 8.43
256 2K 36 1 — es 3 40 3.0 5.5 Industrial 44-VQFP AT89C51CC03UA-RLTUM-ND 11.61 8.99 8.43
256 2K 36 1 es es 3 40 3.0 5.5 Industrial 52-PLCC AT89C51CC03UA-S3SUM-ND 11.61 8.99 8.43
256 2K 36 1 es es 3 40 3.0 5.5 Industrial 52-PLCC AT89C51CC03CA-S3SUM-ND 11.61 8.99 8.43
◆ RoHS Compliant
Smart Card
Interface
Type
† Cut Tape
Flash
(Kbytes)
Mask ROM
(Kbytes)
F.max.
(MHz)
VCC
(V) ISP Package
Digi-Key
Part No.
Price Each
1 25 100
USB — — — 3.6 5.5 — 64-VQFP AT83C22OK103RDTIM-ND 7.28 7.00 6.72
USB 32 — 16 3.0 5.5 es 64-VQFP AT89C5122D-RDTUM-ND 11.18 8.44 7.04
USB 32 — 16 3.0 5.5 es 64-VQFP AT89C5122D-RDRUMCT-ND† 11.40 8.61 7.17
USB 32 — 16 3.0 5.5 es 64-VQFP AT89C5122D-RDRUMTR-ND§ 9540.00/1,500
USB 32 — 16 3.0 5.5 es 64-VQFP AT89C5122DRDRIMCT-ND† 7.48 7.19 6.90
USB 32 — 16 3.0 5.5 es 64-QFN AT89C5122D-PSTUM-ND 5.85 5.63 5.40
Serial — — 16 2.85 5.5 — 52-PLCC T85C5121-S3SIL-ND 5.36 5.15 4.95
Serial — — 16 2.85 5.5 — 24-SSOP T89C5121-ICUIL-ND 5.30 5.10 4.90
— — — 48 3.0 5.5 — 48-VQFP AT83C26-RKTUL-ND 4.13 3.12 2.60
◆ RoHS Compliant † Cut Tape § Tape and Reel
Lighting
Memory Size (Bytes) I/O Serial Communication
Timer
Counter
Clock
Speed VCC Operating
Digi-Key
Price Each
Program Ram EEprom Pins UART SPI TWI WDT 16-Bits A/D MHz (V) Temperature Package Part No.
1 25 100
4K 256 256 2 — — — es -/2 6-ch/ 24 3.0 3.6 Ind. 20-SOIC AT89EB5114-TGSIL-ND 4.45 4.28 4.11
USB
Memory Size (Bytes) I/O Serial Communication
Timer
Counter
Clock
Speed VCC Operating
Digi-Key
Price Each
Program Ram EEprom Pins UART SPI TWI WDT 16-Bits A/D MHz (V) Temperature Package Part No.
1 25 100
32K — 34 1
— es -/2 — 16 3.6 5.5 Ind. 32-QFN AT89C5130A-PUTUM-ND 6.45 5.00 4.68
16K 32K — 34 1
Master/
Slave
— es -/2 — 16 3.6 5.5 Ind. 64-VQFP AT89C5130A-RDTUM-ND 7.10 5.50 5.15
32K — 34 1 — es -/2 — 16 3.6 5.5 Ind. 52-PLCC AT89C5130A-S3SUM-ND 8.39 6.49 6.09
32K
256 4K 34 1 Master/ — es -/3 — 24 2.7 5.5 Ind. 52-PLCC AT89C5131A-S3SUM-ND 8.60 6.66 6.24
256 4K 34 1 Slave — es -/3 — 24 2.7 5.5 Ind. 28-SOIC AT89C5131A-TISIL-ND 10.11 7.05 6.20
64K 2304 — 44 1
Master/
Slave
— es -/2 8-bit 20 3.0 Ind. 80-TQFP AT89C5132-ROTUL-ND 13.55 10.49 9.83
◆ RoHS Compliant
Single Cycle Core
Memory Size (Bytes) I/O Serial Communication Timer Counter Clock Speed VCC Operating
Digi-Key
Price Each
Program Ram EEprom Pins UART SPI TWI WDT 16-Bits A/D MHz (V) Temperature Package Part No.
1 25 100
2K
256 — 15 1 1 — es -/2 — 20 2.4 5.5 Ind 20-Dip AT89LP2052-20PU-ND 2.37 1.95 1.84
256 — 15 EUART 1 — es -/2 — 20 2.4 5.5 Ind. 20-SOIC AT89LP2052-20SU-ND 2.37 1.95 1.84
256 — 15
1 — es -/2 — 20 2.4 5.5 Ind 20-Dip AT89LP4052-20PU-ND 2.58 2.13 2.00
4K 256 — 15
1
EUART
1 — es -/2 — 20 2.4 5.5 Ind. 20-SOIC AT89LP4052-20SU-ND 2.58 2.13 2.00
256 — 15 1 — es -/2 — 20 2.4 5.5 Ind 20-TSSOP AT89LP4052-20XU-ND 2.58 2.13 2.00
®
®
(Continued)
C
®
For Digi-Reel ® information, please see page 71.
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
91
91

C
General Purpose
Microcontrollers (Cont.)
Memory Size (Bytes) I/O Serial Communication
Timer
Counter
10
Bit
Clock
Speed VCC Operating
Digi-Key
Price Each
Program Ram EEprom Pins UART SPI TWI WDT 16-Bits A/D MHz (V) Temperature Package Part No.
1 25 100
128 — 15 1 — — — -/2 — 24 4.0 6.0 Ind. 20-Dip AT89C2051-24PU-ND 1.68 1.60 1.50
2K
128 — 15 1 — — — -/2 — 24 4.0 6.0 Ind. 20-SOIC AT89C2051-24SU-ND 1.68 1.60 1.50
128 — 15 1 — — — -/2 — 24 4.0 6.0 Ind. 20-SOIC AT89C4051-24SU-ND 1.87 1.77 1.67
128 — 32 1 — — es -/2 — 24 4.0 5.5 Ind. 44-TQFP AT89S51-24AU-ND 1.87 1.77 1.67
4K
128 — 32 1 — — es -/2 — 24 4.0 5.5 Ind. 44-PLCC AT89S51-24JU-ND 1.87 1.77 1.67
128 — 32 1 — — es -/2 — 24 4.0 5.5 Ind. 40-Dip AT89S51-24PU-ND 1.87 1.77 1.67
128 — 34 2
Master/
Slave
— es -/3 — 40 2.7 5.5 Ind. 44-PLCC AT89C51RE2-SLSUM-ND 11.18 8.66 8.12
8K
256 — 32 1 — — es -/3 — 24 4.0 5.5 Ind. 44-TQFP AT89S52-24AU-ND 2.06 1.95 1.84
256 — 32 1 — — es -/3 — 24 4.0 5.5 Ind. 44-PLCC AT89S52-24JU-ND 2.06 1.95 1.84
256 — 32 1 — — es -/3 — 24 4.0 5.5 Ind. 40-Dip AT89S52-24PU-ND 2.06 1.95 1.84
256 2K 32 1 Master/ — es -/3 — 24 2.7 5.5 Ind. 44-TQFP AT89S8253-24AU-ND 4.31 4.07 3.83
12K
256 2K 32 1 Slave — es -/3 — 24 2.7 5.5 Ind. 44-PLCC AT89S8253-24JU-ND 4.31 4.07 3.83
256 2K 20 1 — — es -/3
40 3.0 5.5 Ind. 32-VQFP AT89C5115-RATUM-ND 9.68 7.49 7.02
10-it
256 2K 20 1 — — es -/3 40 3.0 5.5 Ind. 28-SOIC T89C5115-TISUM-ND 4.94 4.75 4.56
1280 — 32 1
— es -/3 — 40 2.7 5.5 Ind. 40-Dip AT89C51RB2-3CSUM-ND 7.53 5.83 5.46
1280 — 32 1 — es -/3 — 40 2.7 5.5 Ind. 44-VQFP AT89C51RB2-RLTIL-ND 4.37 4.20 4.04
1280 — 32 1 — es -/3 — 40 2.7 5.5 Ind. 44-VQFP AT89C51RB2-RLTUL-ND 8.17 6.33 5.93
16K
1280 — 32 1 Master/ — es -/3 — 40 2.7 5.5 Ind. 44-VQFP AT89C51RB2-RLTUM-ND 7.53 5.83 5.46
1280 — 32 1 Slave — es -/3 — 60 2.7 5.5 Ind. 44-PLCC AT89C51RB2-SLSIM-ND 7.22 5.04 4.44
1280 — 32 1 — es -/3 — 60 2.7 5.5 Ind. 44-PLCC AT89C51RB2-SLSUM-ND 7.53 5.83 5.46
1280 — 32 1 — es -/3 — 40 2.7 5.5 Ind. 44-VQFP AT89C51RB2RLRIMCT-ND† 4.62 4.44 4.26
1280 — 32 1 — es -/3 — 40 2.7 5.5 Ind. 44-VQFP AT89C51RB2RLRILCT-ND† 8.40 7.03 5.86
256 — 32 1 — — es -/3 — 12 2.7 6.0 Com. 44-TQFP AT89LV55-12AC-ND 4.09 3.02 2.70
256 — 32 1 — — es -/3 — 12 2.7 6.0 Ind. 44-TQFP AT89LV55-12AI-ND 2.47 2.38 2.28
20K 256 — 32 1 — — es -/3 — 12 2.7 6.0 Com. 44-PLCC AT89LV55-12JC-ND 4.09 3.02 2.70
256 — 32 1 — — es -/3 — 12 2.7 6.0 Com. 40-Dip AT89LV55-12PC-ND 4.09 3.02 2.70
256 — 32 1 — — es -/3 — 12 2.7 6.0 Ind. 40-Dip AT89LV55-12PI-ND 4.09 3.02 2.70
1024 — 32 1
— es -/3 — 40 2.7 3.5 Com. 44-VQFP AT89C51IC2-RLTIL-ND 5.30 5.10 4.90
1024 — 32 1 — es -/3 — 40 2.7 3.5 Com. 44-VQFP AT89C51IC2-RLTUL-ND 9.03 6.99 6.56
1024 — 32 1 — es -/3 — 40 2.7 5.5 Ind. 44-VQFP AT89C51IC2-RLTUM-ND 8.82 6.83 6.40
1024 — 32 1 — es -/3 — 40 2.7 3.6 Com. 44-PLCC AT89C51IC2-SLSUL-ND 9.03 6.99 6.56
1024 — 32 1 — es -/3 — 40 2.7 5.5 Ind. 44-PLCC AT89C51IC2SLRIMCT-ND† 5.66 5.44 5.22
1024 — 32 1 — es -/3 — 40 2.7 3.5 Ind. 44-PLCC AT89C51IC2SLRILCT-ND† 10.29 8.62 7.18
1024 — 32 1 — es -/3 — 40 2.7 5.5 Ind. 44-PLCC AT89C51IC2-SLRULTR-ND§ 3354.00/500
1024 — 32 1 — es -/3 — 40 2.7 5.5 Ind. 44-VQFP AT89C51IC2-RLRULCT-ND† 5.59 5.38 5.16
Master/
1024 — 32 1
32K
Slave
— es -/3 — 40 2.7 5.5 Ind. 44-VQFP AT89C51IC2RLRIMCT-ND† 5.79 5.57 5.34
1024 — 32 1 — es -/3 — 40 2.7 3.5 Ind. 44-VQFP AT89C51IC2RLRILCT-ND† 6.36 6.12 5.88
1024 — 32 1 — es -/3 — 40 2.7 5.5 Ind. 40-DIP AT89C51RC2-3CSUM-ND 9.46 7.33 6.87
1024 — 32 1 — es -/3 — 48 2.7 3.6 Ind. 44-VQFP AT89C51RC2-RLTUL-ND 9.68 7.49 7.02
1024 — 32 1 — es -/3 — 48 2.7 5.5 Ind. 44-VQFP AT89C51RC2-RLTUM-ND 8.60 6.66 6.24
1024 — 32 1 — es -/3 — 48 2.7 3.6 Ind. 44-PLCC AT89C51RC2-SLSIM-ND 7.74 5.40 4.75
1280 — 32 1 — es -/3 — 40 2.7 5.5 Ind. 44-VQFP AT89C51RC2RLRILCT-ND† 5.93 5.71 5.48
1280 — 32 1 — es -/3 — 40 2.7 5.5 Ind. 44-PLCC AT89C51RC2SLRILCT-ND† 5.72 5.50 5.28
1280 — 32 1 — es -/3 — 40 2.7 5.5 Ind. 44-VQFP AT89C51RC2RLRIMCT-ND† 5.40 5.19 4.98
256 2K 34 1 — — es -/3 — 40 3.0 5.5 Ind. 44-VQFP AT89C51AC2-RLTUM-ND 10.32 7.99 7.49
2048 2K 32 1
— es -/3 8-ch/ 40 2.7 5.5 Ind. 44-VQFP AT89C51ID2-RLTUM-ND 12.69 9.82 9.21
2048 2K 32 1 — es -/3 10-Bit 40 2.7 5.5 Ind. 44-PLCC AT89C51ID2-SLSUM-ND 12.69 9.82 9.21
2048 2K 32 1
Master/
Slave
es es -/3 — 40 2.7 5.5 Ind. 44-VQFP AT89C51ID2RLRIMCT-ND† 6.83 6.57 6.30
2048 2K 32 1 es es -/3 — 40 2.7 5.5 Ind. 44-VQFP AT89C51ID2-RLRUMCT-ND† 7.80 7.50 7.20
2048 2K 32 1 es es -/3 — 40 2.7 5.5 Ind. 44-PLCC AT89C51ID2-SLRUMTR-ND§ 4680.00/500
1792 2048 34 1
— es -/3 — 40 2.7 5.5 Ind. 44-PLCC AT89C51RD2-SLSUM-ND 9.03 6.99 6.56
1792 2048 34 1 Slave — es -3 — 40 2.7 5.5 Ind. 44-PLCC AT89C51RD2-SLRUMCT-ND† 9.25 7.16 —
1792 2048 34 1 — es -/3 — 40 2.7 5.5 Ind. 44-PLCC AT89C51RD2-SLRUMTR-ND§ 3354.00/500
64K 2304 2K 32 1
— es -/3
60 3.0 5.5 Ind. 44-PLCC AT89C51AC3-SLSUM-ND 10.75 8.32 7.80
2304 2K 32 1 — es -/3 8-ch/ 60 3.0 5.5 Ind. 44-VQFP AT89C51AC3-RLTUM-ND 10.75 8.32 7.80
2304 2K 32 1 — es -/3 10-it 60 3.0 5.5 Ind. 52-PLCC AT89C51AC3-S3SUM-ND 10.75 8.32 7.80
2304 2K 32 1 — es -/3 60 3.0 5.5 Ind. 64-VQFP AT89C51AC3-RDTUM-ND 10.75 8.32 7.80
1792 2048 32 1 Master/
Slave
— es -/3 — 40 2.7 5.5 Ind. 44-VQFP AT89C51ED2-RLTUM-ND 10.32 7.99 7.49
1792 2048 32 1 — es -/3 — 40 2.7 5.5 Ind. 64-VQFP AT89C51ED2-RDTUM-ND 10.97 8.49 7.96
1792 2048 32 1 — es -/3 — 40 2.7 5.5 Ind. 44-PLCC AT89C51ED2-SLSUM-ND 10.32 7.99 7.49
1792 2048 48 1 — es -/3 — 40 2.7 5.5 Ind. 68-PLCC AT89C51ED2-SMSUM-ND 10.97 8.49 7.96
256 2K 48
1
EUART
— es -/3 — 60 2.7 5.5 Ind. 68-PLCC T89C51RD2-SMSIM-ND 6.76 6.50 6.24
◆ RoHS Compliant † Cut Tape § Tape and Reel
®
For Digi-Reel ® information, please see page 71.
®
92 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

AT89STK-06 Starter Kit
8051 Microcontroller Kits
The AT89STK-06 Starter Kit is dedicated to the T89C51CC01/CC02 and AT89C51CC03 CAN
microcontrollers. The AT89STK-06 can also be used for AT89C51AC3, T89C51AC2 and T89C5115
(Flash microcontroller with ADC). For T89C51CC02 CAN and T89C5115, optional adaptor is required:
CANADAPT28. The board is designed to allow an easy evaluation of the product using demonstration
software.
AT89STK-06-ND Starter Kit .......................................................................... $187.20
ATWEBEVK-01 Evaluation Kit
The @Web Evaluation Kit allows the user to evaluate the full range of options available in integrating TCP/IP
software into Atmel C51 Flash MCUs. Once the user has completed the demo he will be able to Read and
Write information to and from the Flash memory of the microcontroller through the Internet.
Moreover, the user will see how all of the information recorded on the microcontroller is available using
standard PC tools such as a Web browser, Hyperterminal, and Dial-up Networking.
Kit Includes:
Evaluation oard with T8C51C2 Controller Ex ternal speaer Serial RS-22 ull Modem Cable 9V
battery and cable C-ROM including documentation and software
ATWEBEVK-01-ND ...................................................................................... $260.00
AT89C5131 MCU/USB Starter Kit
This starter kit is designed to help developers using AT89C5131 USB Flash microcontroller. The kit
comprises an evaluation board, the In-System Programming Tool (FLIP), and a HID (Human Interface
Device) keyboard demonstration program.
AT89STK-05-ND Starter Kit for AT89C5131 ........................................................... $187.20
AT89STK-10 Quick Start Kit
This kit includes an evaluation board dedicated to the AT89C5130/31A and AT8xC5122D microcontrollers,
enabling you to run an application based on the Mass Storage Package. Kit Includes: Flash Evaluation
Board and lash memory atalash Card S products C-ROM
AT89STK-10-ND........................................................................................... $187.20
AT89STK-11 Starter Kit
The AT89STK-11 Starter Kit is dedicated to the In-System Programmable Flash C51 microcontrollers. The
board is designed to allow an easy evaluation of the product using demonstration software.
AT89STK-11-ND ..........................................................................................$187.20
ATOCD51 Emulator System
The AT890CD emulator system is designed to allow an easy connection to Atmel AT8xC51 microcontrollers
and uses the USB interface (standard USB B plug to A plug cable) connection to PC platforms. The Software
package is fully integrated into Keil® µvision IDE.A
AT89OCD-01-ND .........................................................................................$187.20
C
89C51SND1 MP3 Player Emulator
The AT89EMK-01 Development System for Atmel 89C51SND1 Microcontrollers derivatives with 6/12 clocks/cycle is very effective in meeting the diverse demands of emulation operations.
Features:
Emulates 8C51S1 erivatives with 6/12 Clocs/Cycle 62K Code Memory Real-Time Emulation reuency up to 2MHz/ IS and 2 Mode Support MS-indows ebugger for C and ssembler Keil
ision2 ebugger Compatible and CC Emulation Headers IS rogrammer Included Serially ined to C at 115Kbaud
AT89EMK-01-ND Emulator for MP3 SND1 MCU .................................................................................................................................................................................. $1592.50
NEW!
EFM ® 32 Gecko
Development Kits
The EFM32 Gecko Development Kit is a platform for rapid prototyping of ultra low power microcontroller
applications. It consists of a mother board, a replaceable MCU-board and a prototyping-board, along with a
comprehensive software development environment.
Advanced Energy Monitor (AEM): Precise measurement of current and voltage 0.1µ ~ 5m
measurement range Onboard logging and display features lways available by pushing a button
Software: Comprehensive set of board support functions 2K evaluation versions of KEI MDK-ARM
Microcontroller Development Kit and IAR Embedded Workbench®
User Interface: 2x24 TT display 16 ser Es 8 rocer style miniature I switches 4
pushbutton switches Miniature oystic 1 system reset pushbutton switch otmeter
Communication: 2 RS22 serial ports I2C interface Infrared transceiver
Debugging: Onboard SEER -in S emulator RM 2 pin T/S standard ebug in/out
connector
Memory: 4 Mbit fast access SRM 2 Mbit OR lash 2 bit I2C bus EEROM 16 Mbit SI lash
Power: Two separate power domains allowing for accurate current and voltage measurements of the
application energy consumption External 5 supply 5 / 5m S supply
MCU Board: C EM2-8-K only 2.68 Hz crystal 2 MHz crystal Es indicating power
and reset
914-1000-ND (EFM32-G2XX-DK) EFM32 Gecko Development Kit with EFM32G290F128 MCU Plug-in Board ..........................................................................................................$324.00
914-1001-ND (EFM32-G8XX-DK) EFM32 Gecko Development Kit with EFM32G890F128 MCU Plug-in Board with 160 Segment LCD ...............................................................................$324.00
EFM ® 32 Flash
Microcontrollers
Memory Size (Bytes) I/O
Timer
ADC DAC ACMP
Digi-Key
Cut Tape Price Each
Flash Ram Pins I2C (PWM) RTC WDT (Pins) (Pins) (Pins) Package Part No.
1 25 100
Energy Micro
Part No.
24 1 2 (6) 1 1 1 (4) 1 (1) 2 (4) 32-QFN 914-1011-1-ND 6.70 5.57 5.06 EFM32G210F128
24 1 2 (6) 1 1 1 (4) 1 (1) 2 (4) 32-QFN 914-1011-2-ND† 3415.50/1,000 EFM32G210F128
56 1 3 (9) 1 1 1 (8) 2 (2) 2 (16) 64-QFN 914-1012-1-ND 7.55 6.27 5.70 EFM32G230F128
56 1 3 (9) 1 1 1 (8) 2 (2) 2 (16) 64-QFN 914-1012-2-ND† 3847.50/1,000 EFM32G230F128
85 1 3 (9) 1 1 1 (8) 2 (2) 2 (16) 100-QFP 914-1013-1-ND 8.08 6.71 6.10 EFM32G280F128
85 1 3 (9) 1 1 1 (8) 2 (2) 2 (16) 100-QFP 914-1013-2-ND† 4117.50/1,000 EFM32G280F128
®
128K
† Tape and Reel
16K
90 1 3 (9) 1 1 1 (8) 2 (2) 2 (16) 112-BGA 914-1014-1-ND 8.24 6.85 6.22 EFM32G290F128
90 1 3 (9) 1 1 1 (8) 2 (2) 2 (16) 112-BGA 914-1014-2-ND† 4198.50/1,000 EFM32G290F128
56 1 3 (9) 1 1 1 (8) 2 (2) 2 (8) 64-QFN 914-1015-1-ND 9.43 7.84 7.12 EFM32G840F128
56 1 3 (9) 1 1 1 (8) 2 (2) 2 (8) 64-QFN 914-1015-2-ND† 4806.00/1,000 EFM32G840F128
85 1 3 (9) 1 1 1 (8) 2 (2) 2 (16) 100-QFP 914-1016-1-ND 10.12 8.41 7.64 EFM32G880F128
85 1 3 (9) 1 1 1 (8) 2 (2) 2 (16) 100-QFP 914-1016-2-ND† 5157.00/1,000 EFM32G880F128
90 1 3 (9) 1 1 1 (8) 2 (2) 2 (16) 112-BGA 914-1017-1-ND 10.31 8.56 7.78 EFM32G890F128
90 1 3 (9) 1 1 1 (8) 2 (2) 2 (16) 112-BGA 914-1017-2-ND† 5251.50/1,000 EFM32G890F128
®
For Digi-Reel ® information, please see page 71.
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
93
93

C
Digi Connect ® SP Family
The Digi Connect SP device server delivers a powerful, compact and cost-effective off-the-shelf hardware
platform for embedded networking solutions. The device server is the ideal platform for your custom web
and network enabled embedded applications. Combining Digi and NetSilicon® technology, it eliminates the
hardware design effort and delivers a true device networking solution that is powerful enough to meet your
future performance requirements.
Features: 2-bit ETRM high-performance RISC processor S52 55MHz 4M lash and 16M
RM integrated Switch-selectable RS-22/422/485 interface -M Throughput up to 2,4 bps ,
8 data bits; 1, 1.5, 2 stop bits; Mark/space/even/odd parity; Full signal support with software/hardware flow
control uto-sensing 1/1 Mbit Ethernet interface and networ lin
Description
Digi-Key
Part No.
Price
Each
Digi-International
Part No.
Device Server Adapter 602-1035-ND 189.00 DC-SP-01-C
Adapter Development Kit 602-1013-ND 1495.00 DC-SP-01-GN
Adapter Development Kit (No Raven Debugger) 602-1014-ND 738.00 DC-SP-01-GN-NR
Adapter Customizable model with JTAG interface 602-1015-ND 249.00 DC-SP-01-JT
Digi Connect ® ME Family
The Digi Connect ME is a connector-style embedded module that enables manufacturers to keep pace with ever-evolving
networking technology by easily adding secure web-enabled network connectivity to their products. The Digi Connect ME
comines true plu-and-play unctionality with the reedom and lexiility o complete product customization options.
Features:
32-it NETARM hih-perormance RISC processor NS7520 55MHz Wired 10/100Base-T networ interace 1
hih-speed TTL serial interace Five shared General Purpose Input/Output GPIO ports Data rate 10/100 Mps autosensin
3.3VDC 250mA typical 825mW
Description
Digi-Key
Part No.
Price
Each
Digi-International
Part No.
8MB SDRAM, 2MB Flash, Standard Firmware 602-1053-ND 49.00 DC-ME-01T-S
8MB SDRAM, 2MB Flash, Standard Firmware, 10-pieces 602-1029-ND 450.00 DC-ME-01T-S-10
8MB SDRAM, 2MB Flash, Customizale 602-1054-ND 49.00 DC-ME-01T-C
8MB SDRAM, 2MB Flash, Customizale, 10-pieces 602-1030-ND 450.00 DC-ME-01T-C-10
8MB SDRAM, 4MB Flash, Customizale 602-1055-ND 55.00 DC-ME4-01T-C
8MB SDRAM, 4MB Flash, Customizale, 10-pieces 602-1031-ND 500.00 DC-ME4-01T-C-10
Interation Kit or use with S models 602-1057-ND 249.00 DC-ME-01T-KT
JumpStart Kit or ME with NETOS 602-1086-ND 499.00 DC-ME-NET
Customizale with JTAG Interace, 8MB SDRAM, 2MB Flash 602-1058-ND 99.00 DC-ME-01T-JT
Customizale with JTAG Interace, 8MB SDRAM, 4MB Flash 602-1059-ND 99.00 DC-ME4-01T-JT
JumpStart Kit or Microsot .NET Micro Framewor 602-1088-ND 299.00 DC-ME-MF
8MB SDRAM, 2MB Flash, Module ME 9210 602-1134-ND 99.00 DC-ME-401-JT
8MB SDRAM, 4MB Flash, Module ME 9210 602-1135-ND 99.00 DC-ME-402-JT
JumpStart Kit or ME 9210 with NETOS7 602-1136-ND 299.00 DC-ME-9210-NET
JumpStart Kit or ME 9210 or Emedded Linux 602-1137-ND 249.00 DC-ME-9210-LX
8MB SDRAM, 4MB Flash, ME 9210 sinle-unit pac 602-1138-ND 60.00 DC-ME-402-C
Encryption Engine 602-1139-ND 55.00 DC-ME-401-C
◆ RoHS Compliant
Digi Connect ® EM Family
The Digi Connect EM board-mount embedded module delivers true web-enabled and secure device networking
that is easy and cost-effective to implement, while being powerful enough to meet future performance needs.
Features:
2-bit ETRM high-performance RISC processor S52 55MHz ired 1/1ase-T networ interface
2 high-speed TT serial interfaces 4M lash memory, 8M RM 2-bit ETRM high-performance RISC
processor S52 55MHz Serial eripheral Interface SI shared eneral urpose Input/Output IO
ports ata rate 1/1 Mbps auto-sensing .C 2m max 81m
Description
Digi-Key
Part No.
Price
Each
Digi-International
Part No.
8MB SDRAM, 4MB Flash, Std. Firmware 602-1039-ND◆ 79.00 DC-EM-02T-S
8MB SDRAM, 4MB Flash, Customizable 602-1040-ND◆ 79.00 DC-EM-02T-C
JumpStart Kit for EM with NET+OS 602-1087-ND 499.00 DC-EM-NET
◆ RoHS Compliant
ConnectCore 7U
First member of the ConnectCore embedded core processor module family utilizing the high performance
NS7520 processor with ARM7TDMI core. Built on leading Digi 32-bit NET+ARM technology, it provides the
ideal base core processor platform for products in a wide variety of applications that demand an additional
level of performance and connectivity.
Features: 2-bit RM and 16-bit Thumb instruction sets which can be mixed for performance/code density
tradeoffs 15 general purpose 2-bit registers 1/1 Mbps MII H interface 2 channels support
Ethernet module 4 channels support 2 serial modules
Description
Digi-Key
Part No.
Price
Each
Digi-International
Part No.
Module with 2MB Flash and 16MB SDRAM 602-1094-ND◆ 99.00 CC-7U-Z111-Z1
Module with 8MB Flash and 16MB SDRAM 602-1060-ND 119.00 FS-352
Module with 8MB Flash and 16MB SDRAM 602-1095-ND◆ 119.00 CC-7U-Z113-Z1
FS Forth UNC90 with 32MB SDRAM, 16MB
Flash, (Atmel AT91RM9200 MCU @ 180MHz) 602-1046-ND 159.00 FS-373
Development Kit for NET+OS 602-1018-ND 1495.00 FS-998
Biometric Design Kit - IKENDI Fingerprint 602-1019-ND 720.00 FS-9007
Compact Flash Design Kit with 802.1b wireless 602-1020-ND 720.00 FS-9021
Java Design Kit - Java (Mika) 602-1021-ND 720.00 FS-9022
JTAG SuperBooster for programming flash
memories with software - 3 volt. 602-1036-ND◆ 714.00 FS-985
JTAG SuperBooster for programming flash
memories with software - 5 volt. 602-1028-ND 714.00 FS-984
◆ RoHS Compliant
ConnectCore 9C
A powerful ARM9-based core module that enables OEMs to design in core processing functionality and
networking capabilities with a single, high-performance solution. It delivers complete embedded network
connectivity along with additional bandwidth to handle sophisticated embedded applications including building
automation systems, POS systems, RFID readers, instrumentation, networked displays, transportation
systems, industrial automation systems and many more.
Features:
2-bit S6 high performance RISC processor 155MHz with MM p to 4 high-speed TT serial ports
p to 4 SI ports I 2 C v1. bus interface S 2. Host/evice Interface C Controller eneral
urpose Timers/Counters/M 4 programmable external interrupts p to 55 shared eneral urpose
Input/Output IO ports Real-time cloc
Description
ConnectCore 9P
Compact high-performance 32-bit NET+ARM processor module family combines superior performance and
design integration flexibility with complete embedded software platform support. ConnectCore 9P modules
are a complete set of integrated peripherals and component connectivity options in a compact and versatile
form factor.
Features:
ConnectCore9P 9750: 2-bit ETRM RM26E-S high-performance RISC processor S5
2MHz p to 128M lash and 64M SRM Standard population 2M lash and 16M RM
Integrated 2-bit CI v2.2/Cardbus ridge MHz 16 eneral urpose Timers/Counters p to 5
GPIO port options
ConnectCore9P 9360: 2-bit ETRM RM26E-S high-performance RISC processor S6
1MHz p to 128M lash and 128M SRM Standard population 2M lash and 2M RM
8 eneral urpose Timers/Counters or 4 M functions p to IO port options
ConnectCore 9P Family: Integrated 1/1 Mbps Ethernet MC/H p to four serial interfaces w/RT
and SI mode Integrated S 2. compliant host/device interface On-chip I 2 C bus interface (100/400
Hz lexible C controller with support for TT/ST displays External memory bus interface Real-
Time Cloc RTC with support for external battery bacup 8K serial EEROM for conguration storage
On-board T interface
Description
Embedded Core Modules
These high performance, Samsung processor based, modules are members of FS Forth-System’s ModARM9
family of modular solutions for embedded systems. These modules include SDRAM, flash and control logic
in a compact 60x44mm form factor. Low power consumption allows for battery powered applications. Other
typical applications include those in Industrial Automation, Retail Point-Of-Sale, Medical Instrumentation and
Data Acquisition.
Features:
C Controller ST and TT
Touch screen interface
S 1.1 Host and evice Controller
2/64/128 Mytes lash 16/2/64/128Mytes SRM
RT channels
A9M2410: Samsung’s SC241 microcontroller RM2T core 2MHz with MM
Description
Digi One SP
Digi-Key
Part No.
Digi-Key
Part No.
Digi-Key
Part No.
Price
Each
16MB SDRAM, 32MB Flash with NS9750 602-1062-ND 195.60 FS-364
64MB SDRAM, 32MB Flash with NS9750 602-1043-ND◆ 320.00 FS-380
32MB SDRAM, 32MB Flash with NS9360 602-1063-ND◆ 178.80 FS-382
(9360) Development Kit for LxNETES - Linux 602-1026-ND◆ 2495.01 FS-9064
(9750) Development Kit for LxNETES - Linux 602-1025-ND 2111.56 FS-9053
(9750) Development Kit of NET+OS 602-1024-ND 2111.56 FS-9032
Price
Each
Price
Each
FS Forth A9M2410 Module with 32MB SDRAM,
32MB Flash with 10Mbps Ethernet 602-1048-ND 215.00 FS-362
Digi-International
Part No.
Module with 16MB SDRAM, 4MB Flash, Ethernet
Dual Stacked USB Connectors 602-1093-ND◆ 139.00 CC-9C-V212-Z6
JumpStart Kit for 9C with NET+OS 602-1079-ND◆ 499.00 CC-9C-NET
JumpStart Kit for 9C with Windows CE 602-1080-ND◆ 499.00 CC-9C-CE6
JumpStart Kit for 9C with Embedded Linux 602-1081-ND 499.00 CC-9C-LX
◆ RoHS Compliant
Digi-International
Part No.
(9360) JumpStart Kit for 9P with 2.5NET+OS 602-1082-ND 499.00 CC-9P-NET
(9360) JumpStart Kit for 9P with Windows CE 602-1083-ND◆ 518.75 CC-9P-CE6
◆ RoHS Compliant
Digi-International
Part No.
The Digi One SP delivers efficient serial-to-Ethernet connectivity and is ideal for applications where TCP
Socket, UDP Socket or UDP multicast functionality is needed.
Description
Digi-Key
Part No.
Price
Each
Digi-International
Part No.
Device Server 1-port Serial to Ethernet 602-1075-ND 182.00 70001851
94 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Jackrabbit Low-Cost Single-Board Computer
Model BL1800: Board Size: 2.5 x .5 x .4 64mm x 8mm x 24mm Input Voltage: 8C ~ 4C,
switching regulator, 4m typical 24C General Purpose I/O: 14 bidirectional, 6 inputs, 4 outputs
CMOS compatible High Power Outputs: sining 1 mp and 1 sourcing 5m 1 Analog Input: 9-bit
resolution, 8-bit accuracy, .1 ~ 2.8 input range, 5ms typical acuisition time 2 Analog Outputs: Filtered/
buffered M outputs Processor: Rabbit 2, cloc, 2.5MHz Memory: SRM 128K, flash 256K Timers:
ive 8-bit cascadable timers, one 1-bit timer with 2 match registers Serial Ports: (2) RS-232 (or one with CTS/
RTS) rated @ 1KV ESD, (1) RS-485 rated @ 15kV ESD, (1) 5V CMOS compatible (programming port), 2 serial ports
can be cloced Serial Rate: Selectable baud rates up to 115,200 bps (RS-232), 230,400 bps (RS-485). 5 Volt CMOS
compatible port up to 7.37Mbps
Additional Features: watchdog/supervisor, time/date clock, and backup battery
Model BL1810: Same as 18, except with 14.MHz cloc, 128K flash, linear regulator .5~25, sining
(200mA) and 1 sourcing (100mA) high-voltage outputs, and CMOS port baud rate of 3.69Mbps.
Model BL1820: Same as BL1810, except with no battery backup, (2) RS-232 and (2) 5V CMOS compatible
(programming port)
Low-Cost Single-Board Computer
Features: Rabbit microprocessor operating at up to .4MHz 512K SRM and 512K flash memory options
26 igital I/O 16 protected digital inputs and 1 high-current digital outputs 8 Single-ended or 4 differential analog
channels with cc monitoring option 11-bit single-ended or 12-bit differential channels M outputs Six serial
ports attery-baced real-time cloc atchdog supervisor
The LP3500 can be mounted to a panel or on a plastic-enclosure base.
Description
Jackrabbit Development Kit
Digi-Key Part No. 316-1000-ND (101-0363) Only $139.00
Includes Jackrabbit BL1810, manual, schematics, AC adapter, prototyping board, programming
cable, documentation on CD ROM, additional parts, and complete Dynamic C® SE software
development system (not a trial version).
Digi-Key
Part No.
Price
Each
Rabbit
Part No.
Model BL1800 316-1079-ND 99.00 20-101-0356
Model BL1810 316-1080-ND 69.00 20-101-0357
Model BL1820 316-1081-ND 49.00 20-101-0358
Description
Digi-Key
Part No.
Price
Each
Rabbit
Part No.
Fox Tool Kit for 3500 316-1056-ND 200.00 101-0529
LP3500 Fox 316-1115-ND◆ 199.00 20-101-0525
◆ RoHS Compliant
C
Coyote BL2500 Ethernet-Enabled Single-Board Computer
Features: Rabbit at 2.4 MHz 1ase-T, R-45 256K lash Memory 128K SRM Compact board
size of .5 x .5 1 x 1 mm 24 digital I/O plus 1 / input and 2 / outputs along with 4 Es Six serial
ports
BL4S100 Single-Board Computer
The BL4S100 delivers an integrated hardware and software platform to easily implement a ZigBee enabled
Ethernet gateway ideal for monitoring and control. The series is designed to support the rapidly-increasing
use of ZigBee connectivity for companies looking to deploy wireless networking.
Features: Rabbit 4 running at 4MHz On-board Rabbit RIO® device for exceptional I/O functionality
and flexibility eb Server functionality Easy implementation of mesh networing with nown good
hardware ynamic C® software environment to reduce development time
Starter Package Kit: Affordable package includes all the tools needed to develop and debug a design
Plastic Enclosure: Consisting of a base and a cover, provides a secure way to protect a BL4S100 singleboard
computer.
Model BL4S100: igee RO eature Set 1M lash Memory 512K SRM
Model BL4S110: 1M lash Memory 512K SRM
Model BL4S150: igee RO eature Set 2M lash Memory 1M SRM
Model BL4S160: 2M lash Memory 1M SRM
Description
Digi-Key
Part No.
Price
Each
Rabbit
Part No.
Starter Package Kit 316-1157-ND 111.25 101-1268
Plastic Enclosure 316-1159-ND 29.00 101-1279
Model BL4S100 316-1168-ND◆ 149.00 20-101-1255
Model BL4S110 316-1169-ND◆ 129.00 20-101-1256
Model BL4S150 316-1170-ND◆ 159.00 20-101-1257
Model BL4S160 316-1171-ND◆ 139.00 20-101-1258
◆ RoHS Compliant
BL4S200 Single-Board Computer
Rabbit’s BL4S200 series of single-board computers deliver the features and wireless connectivity to support
networking for industrial control applications. The series offers a full-featured control and communications
solution for industrial applications. It is designed to provide the microprocessor control and I/O used for
reading instruments, timing events precisely, controlling motors, relays and solenoids.
Features: ses Rabbit 4 and Rabbit 5 microprocessors Choice of i-i, igee or Ethernet
connectivity 4 digital I/O and up to 5 serial ports 8 input and 2 output analog channels dvanced I/O
subsystem is software configurable reducing the load on the processor I/O features include event/capture
counting, quadrature decoders, PWMs and PPMs
Digi-Key
Price Rabbit
Description
Part No.
Each Part No.
Model BL2500 316-1179-ND 189.00 20-101-0575
Model BL4S200: ses RCM41 RabbitCore module 1/1ase-T Ethernet connectivity Socet for up
to 1 GB miniSD memory card
Model BL4S210: ses RCM41 RabbitCore module 1ase-T Ethernet connectivity
Model BL4S230: ses RCM451 RabbitCore module igee enabled connectivity
Model BL5S220: ses RCM54 RabbitCore module IEEE 82.11b/g i-i connectivity
BL4S200 Tool Kit Contents: ynamic C® C-ROM, with complete product documentation rinted getting
started manual and Rabbit 4/5 posters emonstration board with pushbutton switches and Es to
demonstrate the I/O capabilities of the 4S2 S programming cable to connect the 4S2 to your
C’s S port niversal C adapter, 12C, 1 includes Canada/apan/nited States, ustralia/ew
Zealand, United Kingdom, and European style plugs
Description
Digi-Key
Part No.
Price
Each
Rabbit
Part No.
Model BL4S200 316-1164-ND◆ 269.00 20-101-1220
Model BL4S210 316-1172-ND◆ 229.00 20-101-1259
Model BL4S230 316-1173-ND◆ 249.00 20-101-1261
Modle BL5S220 316-1177-ND◆ 279.00 20-101-1260
BL4S200 Tool Kit (RCM5400-Based) 316-1176-ND 111.25 101-1270
◆ RoHS Compliant
Smart Screen OP7100 with Touchscreen
The Smart Screen’s C-programmability provides the flexibility required for almost any display application. The
Smart Screen is ideal for remote terminals, automated machinery, and control systems Features: 1/4
display 2 x 24 pixels Touchscreen matrix ertical or horizontal orientation ide viewing angle 16
digital I/O Meets EM 4 water resistance
Interface OP7200 with Touchscreen
Features: Small Size 4.4 x 5. x 1. 112mm x 144mm x 4mm 1/4 CM display 2 x 24 pixels
with white E baclight -ey eypad C controller and SRM compatible with O1 4 Status E’s
24 igital I/O Rabbit 2 microprocessor operating 22.1MHz udible alarm buzzer 128K SRM
and 256K flash memory standard One R-45 Ethernet port our serial ports On-board bacup battery
atchdog External reset input Meets EM 4 watertightness specications when front-panel mounted
Interface OP6800 with Ethernet Port
Features: 122 x 2 raphic display -ey eypad Es 24 igital I/O Rabbit 2 micro proces
sor at 22.1MHz 128K static RM and 256K flash memory One R-45 Ethernet port our serial ports
attery-bacable real-time cloc, battery in cluded atchdog Reset generator Meets EM 4 watertightness
specifications when front-panel mounted
Digi-Key
Price Rabbit
Description
Part No.
Each Part No.
Smartscreen OP7100 with Touchscreen 316-1175-ND 549.00 20-101-0303
Digi-Key
Price Rabbit
Description
Part No.
Each Part No.
Intelligent Operator Interface 316-1154-ND◆ 449.00 20-101-0535
20” Cable for Panel Mount Keyboard/display 316-1052-ND 15.00 540-0066
◆ RoHS Compliant
Digi-Key
Price Rabbit
Description
Part No.
Each Part No.
Model OP6800 with Ethernet Port 316-1060-ND 249.00 101-0492
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
95
95

RabbitCore Application Development Kits
C
Wi-Fi
Application Kit
Jumpstart your wireless application design with a complete application kit. Integrating Wi-Fi (IEEE 802.11b)
with a RabbitCore Development Kit, embedded system integrators can now enable a wireless embedded
system. Wireless connectivity eliminates Ethernet cables allowing for greater flexibility and mobility of
wireless embedded Networks.
Includes:
insys i-i card RCM1 microprocessor core module rototyping board ynamic C®
development system and complete documentation on C-ROM Serial cable for programming and
debugging 1-pin 15 Conversion Cable Manuals C adapter .S./Canada only
316-1039-ND (101-0911) ............................................................................ $359.40
Serial to Ethernet Kit
Designers now have a Serial-to-Ethernet Application Kit that is easy to use. The simple 3-Step Setup for
transmitting data from a digital volt meter via a serial port to a TCP/IP stream enables even the newest
user to quickly develop a Serial-to-Ethernet application. The kit features digital volt meter software
libraries, sample programs and a menuing system, in addition to the Dynamic C ® integrated development
en vironment.
Includes:
RCM1 micro processor core module roto typing board ynamic C development system and
complete documentation on C-ROM Serial cable for programming and debugging ull Modem
Cable 1-pin Conversion Cable Ether net Crossover Cable etting Started manual Keypad/
display unit C adapter .S./Canada only
316-1042-ND (101-0689) ............................................................................ $349.00
Embedded PLC
Application Kit
This kit enables a Rabbit 3000 based single-board computer to be programmed using a standard software
environment that is commonly used to program PLC’s (Programmable Logic Controllers).
Features:
Communication parameters are congurable using the Embedded C tility for the Rabbit rocessor
Rabbit 44.2MHz 1ase-T, R-45 standard lash Memory 512K SRM 256K 512K
igital Inputs 16 igital Outputs 8 nalog Inputs One 1-bit resolution nalog Outputs Two -bit
M 6 serial ports
316-1120-ND (101-1108) ............................................................................ $599.00
Color Touchscreen
Application Kit
The Reach Technology Color Touchscreen with a RabbitCore creates an application kit that provides
embedded systems integrators the ability to add advanced interface functionality to embedded systems.
Color touchscreens provide real-time feedback, allowing for better control in industrial-automation
applications.
Includes:
RCM2 RabbitCore with rototyping oard Reach Technology SC raphics Touch Terminal
with EM 4 steel enclosure Supplemental C’s ynamic C® development system and complete
documentation on C-ROM ser manuals, sample programs and libraries 5 serial and conversion
cables Two C adapters .S./Canada only
316-1075-ND (101-1062) ............................................................................ $999.00
ZigBee Application Kit
This kit combines MaxStream®’s XBee RF modem with the popular RCM3720 RabbitCore module along
with and easy-to-use interface to help customers build a practical ZigBee wireless control network.
Features:
Rabbit processor at 22.1MHz 1ase-T interface, R-45, 2 Es lash Memory 512K SRM
256K MaxStream ee ISM 2.4Hz 82.15.4 standard igee compliant Transmit ower Output
1m dm Receiver Sensitivity -2 dm 1 ER Supported etwor Topologies oint-to-point,
Point-to-multipoint, Peer-to-peer, Mesh
316-1118-ND (101-1137) ............................................................................ $399.00
Camera Interface
Application Kit
This kit combines a VGA camera with a popular RabbitCore module that has removable memory to provide
an event-capture application.
Features:
RabbitCore module 44MHz, and 1/1ase-T Ethernet 512K lash/512K SRM, 16M and
socet for removable memory camera module, servo motors and IR motion sensor Time stamped
photos and event notication options such as email notication and T upload Image Resolution 64 x
48 / 2 x 24 / 16 x 128 / 8 x 64 Color p to 8-bit gray, 16-bit R or standard E
preview images Sensor Type assive infrared sensor Motor Type Micro-servo
316-1119-ND (101-1121) ............................................................................ $499.00
Wireless Control Application Kit
The Wireless control Application Kit provides a reference to interface a license-free 900MHz or
2.4GHz wireless data module to a new or existing Rabbit-based embedded system. Features:
ow power 5 with low-EMI Rabbit® microprocessor p to 512K each of lash and
SRM 26 industrialized digital I/O / inputs and M outputs 6 serial ports, one relay 2
dedicated function ports for easy connection to Serial Flash, keypad/display and other devices
Two MaxStream® license-free R Modules, CC approved Complete software libraries and
samples
316-1132-ND (101-1165) ............................................................................ $472.88
Bluetooth Application/Add-On Kits
This kit provides all of the hardware and software necessary to develop a Bluetooth application. It
includes an RCM3100, Embedded Blue eb506-AHC-IN Bluetooth Radio Module, prototyping board and
miscellaneous cables and hardware. This kit also includes the Dynamic C ® Integrated Development
Environment, Bluetooth drivers, libraries, sample programs and manuals.
Features:
luetooth radio modules plug directly into supported RCMs and SCs Simple serial RT
communications and control Seamless connectivity with any luetooth device 2.4Hz HSS reuency
Hopping Spread Spectrum technology ensures high reliability and is robust to interference ow current
consumption for long battery life Complete with sample applications and source code Internal Surfacemount
antenna
316-1072-ND (101-1040) Application Kit ........................................................... $399.00
316-1073-ND (101-1042) Add-On Kit............................................................... $99.00
RCM4010 RabbitCore SMB Network Storage
Application Kit
This kit enables a RabbitCore module to use the SMB (Server Message Block) protocol, more commonly
known as Windows File Sharing, for a high-capacity storage space over a network connection.
Features:
Core Module RabbitCore RCM41 IE Hard rive 25 Hard rive Chassis Eagle Consus S
with power supply ower Supply 12C 12/24C Rabbit S programming cable
316-1156-ND (101-1218) ............................................................................ $349.00
RCM4300 RabbitCore Development Kit
The kit includes a RCM4300 core module with a miniSD card, a prototyping board, accessories, and
development tools to get you up and running quickly. Along with our industry-proven Dynamic C® integrated
development software — incorporating an editor, compiler, and in-circuit debugger — there is also the FAT
file system familiar to many programmers, RabbitWeb for creating HTML web pages, and Rabbit’s Secure
Socket Layer (SSL) utility.
316-1134-ND (101-1177) Development Kit ......................................................... $299.00
316-1141-ND (20-101-1138) ........................................................................ $114.00
316-1142-ND (20-101-1139) ........................................................................ $99.00
RCM4300 RabbitCore Simple Sensor
Application Kit
The Simple Sensor Application Kit provides sample applications based on 1-Wire devices to help users
better understand and implement the 1-Wire communications bus using a prototyping board and a
RabbitCore module
Kit Contents:
RCM4 RabbitCore evelopment Kit
Simple Sensor rotoype oard with 1-ire devices
S246 SST addressable switch, S182 temperature sensor, S245 / converter, S248 line
driver
Complete ynamic C software C with several sample programs
niversal ower Supply
316-1178-ND (101-1288) ............................................................................ $349.00
RCM4400W Wi-Fi Development Kit
Jumpstart your evaluation and design efforts with a complete Rabbit 4000 development kit, which includes
a microprocessor core module, development board with prototyping area, Dynamic C ® 10 development
system and complete documentation on CD-ROM, serial cable for programming and debugging, Getting
Started manual, and AC adapter (U.S./Canada only).
316-1133-ND (101-1173) Development Kit ......................................................... $299.00
316-1143-ND (20-101-1202) ........................................................................ $119.00
316-1147-ND (20-101-1221) ........................................................................ $119.00
RCM4510W RabbitCore Development/Add-On Kits
The RCM4510W RabbitCore module mounts directly on a user-designed motherboard and acts as the
controlling microprocessor for the embedded system. The motherboard supplies power to the RCM4510W
and allows many different CMOS-compatible devices to interface with the core module. Integrated on the
RCM4510W is a Digi® XBee ZNet 2.5 RF module for ZigBee/802-15-4 embedded implementation.
Features:
RabbitCore module running 2.4MHz esigned for igee®/82.15.4 wireless connectivity 512K
flash memory, 512K data SRM p to 4 general-purpose I/O lines congurable p to additional
general-purpose I/O lines (up to 4 of which may be set up as analog inputs) available through the on-board
igee compliant R module Small size 1.84 x 2.85 x .54 4mm x 2mm x 14mm
316-1158-ND (101-1272) Mesh Network Add-On Kit ............................................... $299.00
316-1144-ND (20-101-1207) RoHS Compliant ................................................. $89.00
RCM5400W RabbitCore Development Kit
The RCM5400W RabbitCore module series provides Wi-Fi/802.11b/g functionality, enabling you to create
low-cost, embedded wireless control and communications solutions for embedded control applications.
Features: Rabbit® 5 running .MHz p to 2M of serial flash lines of digital I/O
Integrated IEEE 82.11b/g i-i p to 6 serial ports Small size 1.84 x 2.85 x .5 4mm x 2mm
x 13mm)
316-1138-ND (101-1262) Development Kit ......................................................... $299.00
316-1148-ND (20-101-1246) RoHS Compliant ................................................. $119.00
316-1149-ND (20-101-1247) RoHS Compliant ................................................. $134.00
96 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Rabbit Cloning Board, Power Supply and Converter Cable
Rabbit Cloning Board:
Copies designated portions of flash memory from one Rabbit-based controller (the master) to another (the
clone). Dynamic C ® version 6.50 or later is needed to use the cloning board.
Benefits: The Rabbit Cloning oard replaces a C or EROM burner as the primary tool to load programs,
thus reducing costs and worspace rograms may be loaded uicly onto blan, soldered on flash
devices High-speed transfers at 5,6 bps or 115,2 bps Higher-speed data transfer of up to 21,6
bps starting with ynamic C version .5 Ideal for low-volume cloning production
Universal Power Supply: 110/240 VAC, 12VDC
RS-232-to-USB Converter Cable: Required for USB only PCs
Description
Digi-Key
Part No.
Price
Each
Rabbit
Part No.
Cloning Board 316-1101-ND 89.00 20-101-0589
Universal Power Supply 316-1162-ND 35.00 101-1291
RS-232 to USB Converter Cable 316-1181-ND 39.00 20-151-0178
Rabbit 3000A
Microprocessor
Programming the Rabbit 3000A:
Microprocessor hardware and software development is easy for Rabbit users. The Rabbit 3000A is
programmed using the industry-proven Dynamic C® software development system from sister division
Z-World.
Key Features:
ow-EMI typically 1 d /m m
ltra-low power modes 1.8 ~ .6 5 tolerant I/O
55.5MHz cloc speed
56 digital I/O
6 serial ports supporting Ir and Sync 4 of which support SI 2 support SC/HC
ulse capture and measurement
uadrature encoder inputs
M outputs
Standard Features:
lueless memory and I/O interface
irect support for 1M code/data space up to 6M with glueless interface
attery-bacable real-time cloc
atchdog timer
Remote boot/program
Slave port interface
Design Advantages:
Extensive Ethernet/Internet support and royalty-free TC/I stac with source and sample programs
ynamic C development environment for real-time development and debugging
Exceptionally fast performance for math, logic and I/O
Digi-Key
Price Each Rabbit
Description
Part No.
2 10 100 Part No.
Rabbit 3000A, 55.5MHz, 128LQFP 316-1061-ND 14.50 13.13 12.50 20-668-0011
RabbitCore RCM3400
Analog Core Module
Features:
• . operation owerful Rabbit microprocessor ow-EMI typically 1 d /m m
RCM4 512K lash/512K SRM, RCM41 256K lash/256K SRM 8 channel 12-bit / with program
mable gain 4 digital I/O, uxiliary I/O bus 5 serial ports Ir, SC/HC, synch, SI MC
ID installed
Design Advantages:
Ready-made platform for fast time-to-maret
Compact size simplies integration
ynamic C ® development environment for real-time development and debugging
Exceptionally fast performance for math, logic, and I/O
Description
Rabbit RCM3400 RabbitCore
Development Kit
Digi-Key Part No. 316-1027-ND (101-0587) Only $399.00
The RCM3400 Development Kit includes an RCM3400 core module, a prototyping board, AC adapter
(U.S. only), 10-pin header to DE9 programming cable with integrated level-matching circuitry, complete
Dynamic C ® SE software development system (not a trial version) with documentation on CD-ROM and
a bag of accessory parts for use on the Prototyping Board.
RabbitCore Wi-Fi Add On Kit
Digi-Key Part No. 316-1067-ND (101-0998) Only $199.00
The Wi-Fi Add On Kit includes Interposer Board (boards are not interchangeable between RCMs with
different footprints, CompactFlash Wi-Fi Board, LinkSys Wi-Fi CompactFlash Card, 20-pin to 20-pin IDC
header connection ribbon cable, 10-pin IDC header to DE9F serial cable, Sample Programs and software
related specifically to the Wi-Fi Add on Kits on CD, Dynamic C ® upgrade to 9.21 or higher on CD, Getting
Started instruction and Miscellaneous connection and mounting hardware including standoffs, if necessary
Digi-Key
Part No.
Price
Each
Rabbit
Part No.
RCM3400 316-1099-ND 69.00 20-101-0561
RCM3410 316-1100-ND 59.00 20-101-0562
RabbitCore RCM3100
Core Module
The RCM3100 features a battery-backable real-time clock, glueless memory and I/O interfacing, and
ultra-low power “sleepy” modes. A fully enabled 8-bit slave port permits easy master-slave interfacing with
another processor-based system, and an alternate I/O bus can be configured for 8 data lines and 6 address
lines (shared with parallel I/O).
Features:
• ctual Size 1.85 x 1.65 x .55 4mm x 42mm x 14mm 2.4MHz cloc speed . operation
owerful Rabbit microprocessor ow-EMI typically 1 d /m m RCM1 512K
lash/512K SRM RCM11 256K lash/128K SRM 54 digital I/O 6 serial ports Ir, SC/
HC, sync, SI uxiliary I/O bus ltra-low power sleepy modes ulse capture and measurement
uadrature encoder inputs M outputs
Design Advantages:
Ready-made platform for fast time-to-maret Compact size simplies integration in compatible with
Ethernet RCM for parallel product development ynamic C development environment for real-time
development and debugging Exceptionally fast performance for math, logic, and I/O
Digi-Key
Price
Rabbit
Description
Part No.
Each
Part No.
RCM3100 316-1095-ND 65.00 20-101-0517
RCM3110 316-1096-ND 45.00 20-101-0518
RabbitCore RCM3000
Core Module
Features:
ctual Size 2. x 1.85 x .86 6mm x 4mm x 22mm 2.4MHz cloc speed 1ase-T
owerful Rabbit microprocessor ow-EMI typically 1 d /m m uilt-in Ethernet for
simplied connectivity . operation RCM p to 512K lash/512K SRM RCM1 256K
lash/128K SRM 52 digital I/O 6 serial ports Ir, SC/HC, sync, SI uxiliary I/O bus
ltra-low power sleepy modes ulse capture and measurement uadrature encoder inputs M
outputs
Design Advantage:
Ready-made platform for fast time-to-maret ynamic C development environment for real-time
development and debugging
Digi-Key
Price
Rabbit
Description
Part No.
Each
Part No.
RCM3000 316-1093-ND 79.00 20-101-0507
RCM3010 316-1094-ND 59.00 20-101-0508
Rabbit 2000 8-Bit Microprocessor
Rabbit 2000 Advantages:
rchitecture for enhanced math performance
lueless memory and I/O interface
Remote cold boot
Slave interface
4 serial ports
4-plus multifunctional I/O pins
attery-bacable real-time cloc
atchdog timer
ive 8-bit cascadable timers and one 1-bit timer with match registers
488 microsecond periodic interrupt
Clocing options for low power applications
Description
Rabbit RCM3100 RabbitCore Development Kit
Digi-Key Part No. 316-1020-ND (101-0533) Only $239.00
The RCM3100 Development Kit includes an RCM3110 core module (with Rabbit 3000
microprocessor, Flash, SRAM, serial ports, and I/O ports), a prototyping board, complete Dynamic C
SE software development system (not a trial version) with documentation on CD-ROM, AC adapter
(U.S. only) and serial cable for programming and debugging.
Digi-Key
Part No.
Price Each
2 10 100
Rabbit
Part No.
Rabbit 2000 316-1062-ND 12.34 11.38 10.41 20-668-0003
C
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
97
97

RabbitCore 2000
Microprocessor Core Module
Description
Digi-Key
Part No.
Price
Each
Rabbit
Part No.
RCM2020 316-1082-ND 39.00 20-101-0383
RCM2000 316-1083-ND 69.00 20-101-0404
RCM2010 316-1084-ND 49.00 20-101-0405
RABBITCORE 2000
Board Size: 1.90” x 2.30” x 0.55” (48.3mm x
58.4mm x 14.0mm)
In put Voltage: 4.5 ~ 5.25C
Current: 98mA @ 18.432MHz, 5VDC (130mA @
25.8MHz, 5VDC)
Processor: Rabbit 2000 @ 25.8MHz (18.432MHz
for 2010 and 2020)
Gen eral Purpose I/O: 40 parallel I/O lines grouped
in five 8-bit ports (shared with serial ports)
Memory, I/O Interface: 13 Address lines, 8 data
lines, I/0 read/write, buffer enable, status, clock
Additional Digital Inputs: (2), start up mode (for
master/slave), reset in
Additional Digital Outputs: Watchdog output,
reset out
Clock: 25.8MHz
SRAM: 512K (128K for 2010 and 2020)
Flash: 256K
Timers: Five 8-bit cascadable timers, one 10-bit
timers with 2 match registers
Serial Ports: 4 CMOS-compatible ports. Max
asynchronous baud rate is 806,400bps, maximum
synchronous is 6.45Mbps. Two ports are configurable
as clocked ports
Slave Interface: Allows the RabbitCore 2000 to be
used as an intelligent peripheral device slaved to a
master processor
Additional Features: Watchdog supervisor, time/
date clock, backup battery circuitry and connections
for user-supplied battery. Mates to your board via
dual 40-pin male connectors.
C
RabbitCore RCM2100 Series Microprocessor Core Module
Features:
Ethernet Port for 2100 and 2110 series only
512K SRM 128K for 211 and 21
512K lash 256K for 211 and 21
Specifications:
Microprocessor: Rabbit 2000 @ 22.1MHz
• eneral urpose I: 34 parallel I/O (20
configurable I/O, 8 fixed inputs, and 6 fixed outputs)
(40 parallel I/O with 26 configurable I/O for 2120
and 2130)
• dditional Inputs: 2 Startup Mode, Reset in
• dditional utputs: Status, Clock, Watchdog
Out, Reset out
• Memory I: 13 buffered address, 8 buffered data,
plus I/O Read-Write and Buffer Enable
• Serial orts: Four 5V CMOS-compatible; 2 configurable
as clocked ports
• Serial Rate: Maximum burst rate CK/2
Maximum sustained rate urst/2
• Con nectors: Two 2 x 20, 2mm IDC headers
• Slae Interface: Allows use as master or intelligent
peripheral with Rabbit-based or other master controller
• Realime Cloc: Yes
• imers: Five 8-bit timers (4 cascadable from the
first) and one 10-bit timer with 2 match registers
• atcdoSuperisor: Yes
• oer: 4.5 ~ 5.25C, 14m
• per atin emperature: -4C ~ C -4C ~
85°C for 2120 and 2130)
• umidity: 5 ~ 5, non-conden sing
• oard Sie: 3.5” x 2.0” x 0.86” (89mm x 51mm x
22mm); 3.5” x 2.0” x 0.5” (89mm x 51mm x 13mm)
for 2120 and 2130
RabbitCore 2000/RCM2100 Low-Cost Development Kit
Digi-Key Part No. 316-1028-ND (101-0451) Only $279.00
Jumpstart your evaluation and design efforts with a complete development kit, which includes RCM2100
microprocessor core module, prototyping board, Dynamic C SE software development system (not a trial
version) and complete documentation on CD-ROM, serial cable for programming and debugging, Getting
Started manual, and AC adapter (U.S./Canada only).
Description
Digi-Key
Part No.
Price
Each
Rabbit
Part No.
RCM2110 316-1086-ND 59.00 20-101-0435
RCM2120 316-1087-ND 69.00 20-101-0436
RCM2130 316-1088-ND 49.00 20-101-0446
RabbitCore RCM2200 Microprocessor Core Module
• oard Sie: 1.6 x 2. x .86 41mm x 5mm
x 22mm)
• Input oltae: 4.5 ~ 5.25C
• Current: 134mA @ 5VDC
• rocessor: Rabbit 2000
General Purpose I/O: 26 parallel I/O lines grouped
in five 8-bit ports (shared with serial ports)
• Memory I Interface: 4 address lines, 8 data
lines, I/O Read-Write
• dditional iital Inputs: Startup mode, reset
• dditional iital utputs: Status, reset
• Cloc: 22.1MHz
• SRM: 128K (512K for 2250)
• Flas: 256K (512K for 2250)
• imers: Five 8-bit timers, one 10-bit timer. Five
timers are cascadable in pairs
• Serial orts: 4 CMOS-compatible ports. Maximum
asynchronous baud rate is 691,000 bps,
maximum synchronous is 5.53 Mbps. Two ports are
configurable as clocked ports
• Slae Interface: Allows the RCM2200 to be used
as an intelligent peripheral device slaved to a master
processor Ethernet ort 1ase-T, R-45, 2
LEDs (10Base-T, No RJ-45 for 2210)
• dditional Features: Watchdog/supervisor, time/
date clock, backup battery circuitry, and connection
for user-supplied battery
RabbitCore RCM2200 Development Kit
Digi-Key Part No. 316-1012-ND (101-0475) Only $239.00
Kit includes RCM2200 core module (Ethernet, 256K Flash, 128K SRAM), Getting Started manual with
schematics, DC power supply (U.S. only), prototyping board, PC serial cable, and complete Dynamic C SE
software development system (not a trial version) and complete documentation on CD-ROM.
Description
Digi-Key
Part No.
Price
Each
Rabbit
Part No.
RCM2200 316-1090-ND 55.00 20-101-0454
RCM2210 316-1091-ND 59.00 20-101-0488
RCM2250 316-1092-ND 79.00 20-101-0494
MiniCore RCM5700 Microprocessor Core Module
The MiniCore RCM5700 family offers an intergrated software and hardware platform that can shorten your
design cycle from years to months. RCM5750 and RCM5760 allow datalogging capabilities with increased
memory options.
With six serial ports, four configurable as SPI, the RCM5700 can easily embed into any existing or new design
and is pin-compatible with current and future MiniCore products, such as MiniCores offering Wi-Fi 802.11b/g.
The embedded web server offers an added level of control and monitoring for today’s intensive applications.
Features: Rabbit 5 microprocessor 5MHz Small, low-prole board 1.186 x 2.6 x .11
1/1 ase-T Ethernet CI Express form factor
Description
Digi-Key
Part No.
Price
Each
Rabbit
Part No.
RCM5700 Module 316-1153-ND 35.00 20-101-1235
RCM5750 Module 316-1183-ND◆ NEW! 45.00 20-101-1306
RCM5760 Module 316-1182-ND◆ NEW! 55.00 20-101-1307
Prototyping Board 316-1165-ND◆ 35.00 20-101-1252
Serial Communication Board 316-1166-ND◆ 40.00 20-101-1253
Digital I/O Board 316-1167-ND◆ 37.00 20-101-1254
◆ RoHS Compliant
RCM5700 Standard or Deluxe Development Kit
Digi-Key Part Number 316-1151-ND (101-1274) Only $99.00
Digi-Key Part Number 316-1152-ND (101-1275) Only $198.57
Jumpstart your evaluation and design efforts with either a standard or deluxe development kit. Both kits
includes RCM5700 microprocessor core module, development board with prototyping area, Dynamic
C 10 development system and complete documentation on CD-ROM, USB cable for programming and
debugging, Getting Started manual. The deluxe kit will include power supplies and additional prototyping
board for specific sample programs.
RabbitCore RCM2300 Microprocessor Core Module
RabbitCore RCM2300:
• oard Sie: 1.15 x 1.6 x .55 2mm x 41mm
x 14mm)
• Input oltae: 4.5 ~ 5.25C
• Current: 108mA @ 5VDC
• rocessor: Rabbit 2000
• eneral urpose I: 29 parallel I/O lines
grouped in five 8-bit ports (shared with serial ports)
• Memory I Interface: 4 address lines, 8 data
lines, I/O Read-Write (extra address line and Buffer
Enable via separate connections)
Additional Digital Inputs: Startup mode, reset
• ddi tional iital utputs: Status, reset
• Cloc: 22.1MHz
• SRM: 128K
• Flas: 256K
• imers: Five 8-bit timers, one 10-bit timer. Five
timers are cas cadable in pairs
• Serial orts: 4 CMOS-compatible ports. Max
asynchronous baud rate is 691,000 bps, maximum
synchronous is 5.53Mbps. Two ports are
configurable as clocked ports
Slave Interface: Allows the RCM2300 to be
used as an intelligent peripheral device slaved to a
master processor
Additional Features: Watchdog/supervisor, time/
date clock, backup battery circuitry, and connection
for user-supplied battery
RabbitCore RCM2300 Development Kit
Digi-Key Part No. 316-1015-ND (101-0480) Only $199.00
Kit includes RCM2300 core module (256K Flash, 128K SRAM), Getting Started manual with schematics,
DC power supply (U.S. only), prototyping board, PC serial cable, and complete Dynamic C SE software
development system (not a trial version) and complete documentation on CD-ROM.
Digi-Key
Price Rabbit
Description
Part No.
Each Part No.
RCM2300 316-1089-ND 42.00 20-101-0453
98 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

RabbitCore RCM3200
Microprocessor Core Module
Designing with RabbitCores:
RabbitCores are powered by high-performance 8-bit Rabbit microprocessors with extensive integrated
features and a C-friendly instruction set designed for use with the Dynamics C® development system.
Embedded systems using the Ethernet RabbitCore module can be controlled and monitored (as well as
programmed and debugged when using appropriate accessory hardware) across any network or the
Internet.
Programming the RCM3200:
Programs are developed using our industry-proven Dynamics C software development system (SE version
included in low-cost development kits). An extensive library of drivers and sample programs is provided,
along with royalty-free TCP/IP stack with source.
RabbitCore RCM3200:
• oard Sie: 2. x 1.85 x .86 6mm x 4mm x 22mm 2. x 1.85 x .48 6mm x 4mm x 12mm
for 3220)
• o er: .15 ~ .45C
• Current: 255 mA @ 3.3V
• rocessor: Rabbit 3000 @ 44.2MHz
• eneral urpose I: 52 digital I/O (44 configurable I/O, 4 fixed inputs, and 4 fixed outputs)
• d ditional iital Inputs: 2 Startup Mode, Reset in
• dditional iital utputs: Status, Reset out
• Realime Cloc: Yes • SRM: 512K program + 256K data
• Flas: 512K
• imers: Ten 8-bit timers (6 cascadable from the first) and one 10-bit timer with 2 match registers
• Serial orts: 6 CMOS-compatible: 6 configurable as asyn chronous (with IrDA), 4 as clocked serial (SPI),
and 2 as SDLC/HDLC (with IrDA), 1 asynchronous clocked serial port dedicated for programming, Support
for MIR/SIR IrDA transceiver
• Slae Interface: Allows use as master or intelligent peripheral with Rabbit-based or other master controller
Additional Features: Ethernet Port for 3200 series only, Watchdog/Supervisor, Pulse-Width Modulators,
Quadrature Decoder and Backup Battery
RabbitCore RCM3200 Low-Cost Development Kit
Digi-Key Part No. 316-1023-ND (101-0552) Only $349.00
Kit includes RCM3200 RabbitCore, Getting Started manual, DC power supply (U.S. only), prototyping
board, Serial Cable for Programming and debugging, and complete Dynamic C SE software
development system (not a trial version) and complete documentation on CD-ROM.
Description
Digi-Key
Part No.
Price
Each
Rabbit
Part No.
RCM3200 316-1097-ND 89.00 20-101-0520
RCM3220 316-1098-ND 79.00 20-101-0522
RCM3209 316-1150-ND 89.00 20-101-1179
RCM3229 316-1146-ND 79.00 20-101-1217
1.27mm Programming Cable 316-1180-ND 25.00 20-101-0542
RabbitCore RCM3600
Core Module
Features:
. operation
owerful Rabbit processor
256K 61 ~ 512K 6 lash Memory
128K 61 ~ 512K 6 SRM
digital I/O 4 Serial orts
Size 2.11 x 1.2 54mm x 1mm
Design Advantages:
ow Cost Solution
Ready made platform for easy design implementation
Compact Size
ynamic C development environment for real-time developing and debugging
ast performance for math, ogic, and I/O
RabbitCore RCM3600 Development Kit
Digi-Key Part Number 316-1037-ND (101-0678) Only $299.00
The RCM3600 Development Kit includes RCM3600 core module, proto board, AC Adapter (U.S.
Only), Programming Cable, Complete Dynamic C software development system (not a trial version)
with documentation on CD-ROM and a bag of accessory parts for use on the proto board.
RabbitCore RCM3700
Core Module
Features:
512K lash 256K for 1 512K SRM 128K for 1 and 256K for 2 . operation owerful
Rabbit processor digital I/O 4 Serial orts
Design Advantages:
ow Cost Solution
Ready Made platform for easy design implementation
Com pact Size
ynamic C ® development environment for real-time developing and debugging
ast performance for math, ogic, and I/O
RabbitCore RCM3700 Development Kit
Digi-Key Part Number 316-1038-ND (101-0680) Only $299.00
The RCM3700 Development Kit includes RCM3700 core module, proto board, AC Adapter (U.S. Only),
Programming Cable, Complete Dynamic C software development system (not a trial version) with
documentation on CD-ROM and a bag of accessory parts for use on the proto board.
RabbitCore RCM3720 Development Kit
Digi-Key Part Number 316-1065-ND (101-0963) Only $199.00
The RCM3720 Development Kit includes RCM3720 core module, proto board, AC Adapter (U.S. Only),
Programming Cable, Complete Dynamic C software development system (not a trial version) with
documentation on CD-ROM and a bag of accessory parts for use on the proto board.
Description
Digi-Key
Part No.
Price
Each
Rabbit
Part No.
RCM3700 316-1104-ND 59.00 20-101-0674
RCM3710 316-1105-ND 57.00 20-101-0675
RCM3720 316-1107-ND 55.00 20-101-0961
PowerCore Flex 3800/3810
With available on-board power supply, analog features, and the fastest Rabbit 3000 microprocessor the
PowerCore bridges the gap between microcontrollers and single board computers.
With the introduction of the PowerCore, Rabbit Semiconductor has added over 1000 new core modules to its
product line through FLEXible manufacturing.
Featuring customizable options such as microprocessor speed, power supply, memory, analog features
and Ethernet capability, PowerCore Rabbit Core Modules can be customized at the Rabbit Semiconductor
website via the user-friendly On-Line Flex Configurator Tool.
Features:
Cloc speed up to 51.6MHz
On-board ower Supply 1C ~ 6C, 8C ~ 4C
On-board analog C Crossover, ramp generator, temperature sensor
512K lash
Maximum 1M SRM 512K code/512K data
Maximum 1M Serial lash
general-purpose I/O
1/1 Compatible Ethernet
PowerCore RCM3800 Development Kit
Digi-Key Part Number 316-1070-ND (101-1016)
Only $169.00
Jumpstart your evaluation and design efforts with a development kit. The kit includes a PowerCore,
prototyping board, serial cable for programming and debugging, Dynamic C with royalty-free TCP/IP
stack and source, Getting Started Manual, AC Transformer and miscellaneous parts and connectors.
PowerCore RCM3810 Development Kit
Digi-Key Part Number 316-1071-ND (101-1018)
Only $138.00
Jumpstart your evaluation and design efforts with a development kit. The kit includes a PowerCore,
prototyping board, serial cable for programming and debugging, Dynamic C with royalty-free TCP/IP
stack and source, Getting Started Manual, AC Transformer and miscellaneous parts and connectors.
PowerCore Flex Kit
Digi-Key Part Number 316-1064-ND (101-0956)
Only $99.00
Includes our Dynamic C development system and complete documentation on CD-ROM, a demo
board with 4 LEDs, 4 switches and buzzer, serial cable for programming and debugging, Getting
Started manual and AC adapter
C
Description
Digi-Key
Part No.
Price
Each
Rabbit
Part No.
RCM3600 316-1102-ND 49.00 20-101-0672
RCM3610 316-1103-ND 45.00 20-101-0673
Description
Digi-Key
Part No.
Price
Each
Rabbit
Part No.
LCD/Keypad Panel Mount 316-1116-ND 99.00 20-101-0541
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
99
99

C
RabbitCore
4000/4100/4200/4300 Series
The Rabbit 4000 is fast, running at up to 60MHz, with compact code and direct software support for 16-bit
memory devices. It operates at 3.3V I/O standard or can be set to 1.8V for lower power. The Rabbit 4000
boasts 6 serial ports with IrDA, 40+ digital I/O, quadrature decoder, PWM outputs, pulse capture and
measurement capabilities, battery-backable real-time clock, glueless memory and I/O interfacing and ultralow
power modes. The RCM4000 microprocessor core module is a powerful embedded Ethernet control
device that has the intelligence and internet connectivity that allows your devices to be remotely monitored
and controlled from anywhere in the world.
RCM4000 Features: Rabbit 4 microprocessor 58.8MHz 512K lash 1M for 45 512K data
SRM 1M for 45 22 parallel digital I/O lines 4 shared high-speed CMOS-compatible ports Ten
8-bit timers, one 1-bit timer and one 16-bit timer ower . oard Size 1.84 x 2.42 x . 4mm
x 61mm x 20mm)
The RCM4100 series is the first of the next generation core modules to take advantage of the new Rabbit
4000 microprocessor.
RCM4100 Features: Rabbit 4 microprocessor 58.8MHz 2.4MHz for 411 512K lash 512K
data SRM 256K for 411 rogram-Execution ast SRM 512K one for 411 4 parallel I/O 2
for 41 6 high-speed, CMOS-compatible orts Ten 8-bit timers, one 1-bit timer and one 16-bit timer
ower 125m typical . 65m typical . for 411 oard Size 1.41 x 1.88 x .4
(36mm x 48mm x 12mm)
The RCM4200 RabbitCore modules are equipped with 10/100 Ethernet connectivity, combined with
4Mbytes or 8Mbytes serial flash memory storage for intensive communication and data logging applications.
At the heart of the RCM4200 is the Rabbit 4000 microprocessor which features a clock speed of up to
58.98MHz. The rabbit 4000 boasts and additional 500+ new operational code instructions that increases the
processing efficiency, from its predecessor the Rabbit 3000. The RCM4200 RabbitCore modules are easily
interchangeable with other RCm4xxx based products due to electrical and functional compatibility.
RCM4200 Features: Rabbit 4 microprocessor 58.8MHz 2.4MHz for 421 Spectrum spreader
for reduced EMI Ethernet ort 1/1ase-T, R-45, Es 512K 8-bit SRM and lash Serial
lash Memory 8M 4M for 421 25 paralleled digital I/O 5 paralleled digital for 421 / 12 bits
p to 4 serial ports up to 5 for 421 Real Time Cloc Ten 8-bit timers, one 1-bit timer and one 16-bit
timer atchdog/Supervisor ower 24m typical . 2m . for 421 oard Size
1.84” x 2.42” x 0.84” (47mm x 61mm x 21mm)
All Development Kits include a core module, a development board with prototyping are,
Dynamic C 10 development system and complete documentation on CD-ROM, serial cable for
programming and debugging, Getting Started manual and AC adapter (U.S./Canada only).
Description
Secure Embedded Web Application Kit 2.0
Digi-Key Part No. 316-1136-ND (101-1243) $349.00
The kit is a complete out-of-the box solution that enables you to develop secure data transmission for
your embedded application. Application code runs on the RCM4300 RabbitCore® module, powered by
the Rabbit® 4000 microprocessor that offers a low-cost solution with the performance to run algorithmicintensive
encryption code. The RCM4300 module mounts directly onto a user-designed motherboard and
acts as the controlling microprocessor for the system. The kit includes a prototyping board, power supply,
and accessories that allow you to build a prototype system and debug your code directly on to the target
hardware. Once your design is complete, you are ready to go into production with the RCM4300 module
and your fully-debugged design.
Digi-Key
Part No.
Price
Each
Rabbit
Part No.
CPU RABBIT 4000 316-1078-ND 12.50 20-668-0024
RCM4000 316-1139-ND 89.00 20-101-1094
RCM4050 316-1145-ND 105.00 20-101-1215
RCM4100 316-1121-ND 75.00 20-101-1105
RCM4110 316-1140-ND 45.00 20-101-1093
RCM4120 316-1122-ND 64.00 20-101-1154
RCM4200 316-1124-ND 109.00 20-101-1131
RCM4210 316-1125-ND 99.00 20-101-1132
RCM4110 Development Kit 316-1076-ND 199.00 101-1101
RabbitCore 3365/3375 Series
The RCM3365/RCM3375 modules present a new form of embedded flexibility with removable xD-Picture
Cards. Supporting on-board 16MB NAND Flash as well as memory cards of up to 128MB, this RabbitCore
is ideal for large data applications requiring low-power operation. (xD-picture card socket only for 3375
Series)
Features:
owerful Rabbit microprocessor 44.2MHz
Ethernet ort 1/1ase-T, R-45, Es
. operation
512K lash/512K rogram 512K data SRM
4 digital I/O and 5 serial ports
52 digital I/O and 6 serial ports
oard Size 1.85 x 2. x .86 4mm x 6mm x 22mm
Description
Digi-Key
Part No.
Price
Each
Rabbit
Part No.
RCM3365 316-1111-ND 105.00 20-101-1051
RCM3375 316-1112-ND 98.00 20-101-1055
RabbitCore 3305/3315 Series
Features: . Operation owerful Rabbit microprocessor 512K lash/512K SRM 8M
Serial lash for 5 and 4M for 15 4 digital I/O 5 Serial orts
Design Advantages: Ready-Made latforms for uic design to maret Compact size ynamic C ®
development environment for real-time developing and debugging ast performance for math, logic and I/O
RabbitCore RCM3305 Development Kit
Digi-Key Part No. 316-1129-ND (101-1069) Only $399.00
The RCM3305 Development Kit includes RCM3305 microprocessor core module, development board
with prototyping area, Dynamic C development system and complete documentation on CD-ROM,
serial cable for programming and debugging, Getting Started manual and AC adapter (U.S./Canada only).
Description
Digi-Key
Part No.
Price
Each
Rabbit
Part No.
RCM3305 316-1113-ND 119.00 20-101-1067
RCM3315 316-1114-ND 99.00 20-101-1068
RabbitCore 3750 Series
The RCM3750 RabbitCore mounts directly onto a user-designed motherboard using a single dual-row IDC
header and can interface with all CMOS-compatible digital devices. Digital I/O (shared with serial ports),
power and other signals are directly routed to the motherboard. Built-In low EMI features, including a clock
spectrum spreader, practically eliminate EMI problems, which helps OEMs pass European CE and other
regulatory RF emissions tests.
Features: Rabbit microprocessor at 22.1MHz 512K lash and SRM 1M Serial lash
digital I/O 1 congurable I/O and 2 xed outputs our . CMOS-compatible Serial orts Real-Time
Cloc Ten 8-bit timers atchdog/Supervisor 4 M output channels Input 4.5 ~ 5.25C, 15m
22.1MHz 15m 11.5MHz oard Size 2.5 x 1.2 x .8 5mm x mm x 2mm
RabbitCore RCM3750 Development Kit
Digi-Key Part No. 316-1117-ND (101-1050) Only $329.00
The RCM3750 Development Kit includes RCM3750 microprocessor core module, development board
with prototyping area, Dynamic C development system and complete documentation on CD-ROM,
serial cable for programming and debugging, Getting Started manual and AC adapter (U.S./Canada only).
Digi-Key
Price Rabbit
Description
Part No.
Each Part No.
RCM3750 316-1110-ND 74.00 20-101-1028
RabbitCore
RCM3900 Series - Ethernet and Extended Temperature
The RCM3900 RabbitCore modules are compact devices that incorporate the Rabbit 3000 microprocessor,
memory and removable memory. Both of the RCM3900 modules have an integrated 10/100Base-T
Ethernet port which allows you to build LAN and Internet-enabled systems as easily as building any serial
communications system.
RabbitCore RCM3900 Development Kit
Digi-Key Part No. 316-1137-ND (101-1226) Only $399.00
The Development Kit provides the essentials that you need to design your own microprocessor-based
system, and includes a complete Dynamic C® software development system. The Development
Kit also contains a Prototyping Board that will allow you to evaluate the RCM3900 module and to
prototype circuits that interface to the module.
Digi-Key
Price Rabbit
Description
Part No.
Each Part No.
RCM3900 316-1155-ND 91.88 20-101-1196
MiniCore
RCM5600W Series
The MiniCore RCM5600W module offers 802.11b/g Wi-Fi connectivity which includes WPA2, WPA and
WEP security standards, allowing easy integration and interoperability within Wi-Fi networks. With six serial
ports, four configurable as SPI, the RCM5600W can easily embed into any existing or new design and is pin
compatible with current and future MiniCore products.
Features: Rabbit 5000 running at 74MHz On-board single-chip 802.11b/g transceiver Up to 35 GP
I/O lines and six serial ports 1MB SRAM and 1MB serial flash memory Built-in web server Certified to
meet FCC and other international regulatory requirements Easy-to-use integrated design environment
MiniCore RCM5600W Standard Development Kit
Digi-Key Part No. 316-1160-ND (101-1284) Only $149.00
Contains RCM5600W module and antenna, interface board, prototyping board, USB cable, and
Dynamic C IDE. (Note: may require the addition of power adapter to support the interface board, part
number 101-1273)
MiniCore RCM5600W Deluxe Development Kit
Digi-Key Part No. 316-1161-ND (101-1285) Only $249.00
Includes everything in the Standard Development Kit plus a power adapter, digital I/O and serial
communications accessory boards, and a DB9 to 10-pin header serial cable.
Description
Digi-Key
Part No.
Price
Each
Rabbit
Part No.
RCM5600W Module 316-1174-ND 69.00 20-101-1265
Antenna Cable Assembly 316-1163-ND 15.97 101-1292
100 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

POWER
RUN/STOP
-
+
JTAG
Precision Mixed-Signal Microcontrollers
Full-Featured MCUs with a Supercharged 8051 CPU
C8051F High Performance Mixed-Signal MCUs
Flash Digital
PCA
Internal
Memory RAM Port Timers Chan- Serial
Comparators
Oscil-
MIPS
Digi-Key
(Bytes) (Bytes) I/O Pins (16-Bit) nels Buses ADC1 ADC2 DAC
Other lator (Peak) Package Part No.
128K 8448 64 5 6
2 UARTs, 10-Bit, 8-Ch., 8-Bit, 8-Ch., 12-Bit,
16x16
SMBus , SPI1
2
100sps 500sps 2-Ch.
MAC
128K 8448 32 5 6
2 UARTs, 10-Bit, 8-Ch., 8-Bit, 8-Ch., 12-Bit,
16x16
2
SMBus, SPI 100sps 500sps 2-Ch.
MAC
64K 4352 59 5 6
2 UARTs, 16-Bit, 2-Ch.,
SMBus, SPI 1Msps
64K 4352 32 5 5
2 UARTs, 10-Bit, 8-Ch., 8-Bit, 12-Bit,
SMBus, SPI 100sps 8-Ch.,500sps 2-Ch.
32K 2304 8 4 5
UART, 10-Bit, 4-Ch.,
12-Bit,
—
SMBus, SPI 100sps
2-Ch.
32K 256 16 4 5
UART, 10-Bit, 8-Ch.,
12-Bit,
—
SMBus, SPI 100sps
2-Ch.
16K 1280 16 4 5
UART, 10-Bit, 8-Ch.,
SMBus, SPI 100sps
8K 768 17 4 3
UART, SPI, 24-Bit, 8-Ch.,
8-Bit,
—
SMBus
1ksps
2-Ch.
8K 768 17 4 3
UART, SPI, 16-Bit, 8-Ch.,
8-Bit,
—
SMBus
1ksps
2-Ch.
RoHS Compliant
128K 8448 64 5 6
2 UARTs, 12-Bit, 8-Ch., 8-Bit, 8-Ch., 12-Bit,
16x16
SMBus 2
, SPI1 100sps 500sps 2-Ch.
MAC
128K 8448 64 5 6
2 UARTs, 10-Bit, 8-Ch., 8-Bit, 8-Ch., 12-Bit,
16x16
2
SMBus, SPI 100sps 500sps 2-Ch.
MAC
128K 8448 64 5 6
2 UARTs, 12-Bit, 8-Ch., 8-Bit, 8-Ch., 12-Bit,
SMBus, SPI 100sps 500sps 2-Ch.
128K 8448 64 5 6
2 UARTs, 10-Bit, 8-Ch., 8-Bit, 8-Ch., 12-Bit,
SMBus, SPI 100sps 500sps 2-Ch.
128K 8448 64 5 6
2 UARTs, 10-Bit, 8-Ch.,
16x16
— — 2
SMBus, SPI 100sps
MAC
128K 8448 32 5 6
2 UARTs 12-Bit, 8-Ch., 8-Bit, 8-Ch., 12-Bit,
16x16
2
SMBus, SPI 100sps 500sps 2-Ch.
MAC
128K 8448 32 5 6
2 UARTs, 10-Bit, 8-Ch., 8-Bit, 8-Ch., 12-Bit,
16x16
2
SMBus, SPI 100sps 500sps 2-Ch.
MAC
128K 8448 32 5 6
2 UARTs, 12-Bit, 8-Ch., 8-Bit, 8-Ch., 12-Bit,
SMBus, SPI 100sps 500sps 2-Ch.
128K 8448 32 5 6
2 UARTs, 10-Bit, 8-Ch., 8-Bit, 8-Ch., 12-Bit,
SMBus, SPI 100sps 500sps 2-Ch.
128K 8448 32 5 6
2 UARTs, 10-Bit, 8-Ch.,
16x16
— — 2
SMBus, SPI 100sps
MAC
64K 8448 64 5 6
2 UARTs, 10-Bit, 8-Ch.,
16x16
— — 2
SMBus, SPI 100sps
MAC
64K 8448 32 5 6
2 UARTs, 10-Bit, 8-Ch.,
16x16
— — 2
SMBus, SPI 100sps
MAC
64K 4352 64 5 5
2 UARTs, 12-Bit, 8-Ch., 8-Bit, 8-Ch., 12-Bit,
SMBus, SPI 100sps 500sps 2-Ch.
64K 4352 64 5 5
2 UARTs, 10-Bit, 8-Ch., 8-Bit, 8-Ch., 12-Bit,
SMBus, SPI 100sps 500sps 2-Ch.
64K 4352 59 5 6
2 UARTs, 16-Bit, 2-Ch.,
SMBus, SPI 1Msps
64K 4352 32 5 5
2 UARTs, 12-Bit, 8-Ch., 8-Bit, 8-Ch., 12-Bit,
SMBus, SPI 100sps 500sps 2-Ch.
64K 4352 32 5 5
2 UARTs, 10-Bit, 8-Ch., 8-Bit, 8-Ch., 12-Bit,
SMBus, SPI 100sps 500sps 2-Ch.
64K 4352 25 4 5
2 UARTs, 10-Bit, 8-Ch.,
SMBus, SPI 200sps
64K 4352 24 5 6
2 UARTs, 16-Bit, 2-Ch.,
SMBus, SPI 1Msps
32K 4352 59 5 6
2 UARTs, 16-Bit, 2-Ch.,
SMBus, SPI 1Msps
32K 4352 24 5 6
2 UARTs, 16-Bit, 2-Ch.,
SMBus, SPI 1Msps
32K 2304 32 4 5
UART, 12-Bit, 8-Ch.,
12-Bit,
—
SMBus, SPI 100sps
2-Ch.
32K 2304 32 4 5
UART, 10-Bit, 8-Ch.,
12-Bit,
—
SMBus, SPI 100sps
2-Ch.
32K 2304 25 4 5
2 UARTs, 10-Bit, 8-Ch.,
SMBus, SPI 200sps
32K 2304 16 4 5
UART, 12-Bit, 8-Ch.,
12-Bit,
—
SMBus, SPI 100sps
2-Ch.
32K 2304 16 4 5
UART, 10-Bit, 8-Ch.,
12-Bit,
—
SMBus, SPI 100sps
2-Ch.
32K 2304 8 4 5
UART, 12-Bit, 4-Ch.,
12-Bit,
—
SMBus, SPI 100sps
2-Ch.
32K 256 32 4 5
UART, 12-Bit, 8-Ch.,
12-Bit,
—
SMBus, SPI 100sps
2-Ch.
32K 256 32 4 5
UART, 10-Bit, 8-Ch.,
12-Bit,
—
SMBus, SPI 100sps
2-Ch.
32K 256 16 4 5
UART, 10-Bit, 8-Ch.,
12-Bit,
—
SMBus, SPI 100sps
2-Ch.
32K 256 8 4 5
UART, 12-Bit, 4-Ch.,
12-Bit,
—
SMBus, SPI 100sps
2-Ch.
16K 1536 15 2 —
USB 2.0,
— — — — Separate
UART
I/O
16K 1536 15 2 —
USB 2.0,
Fixed
— — — —
UART
I/O
16K 1280 32 4 5
UART, 10-Bit, 8-Ch.,
SMBus, SPI 100sps
16K 1280 21 4 5
UART,
10-Bit,
SMBus, SPI 13-Ch.,200sps
16K 1280 21 4 5
UART,
SMBus, SPI
16K 1280 16 4 5
UART, 10-Bit, 8-Ch.,
SMBus, SPI 100sps
8K 768 17 4 3
UART, 24-Bit, 8-Ch.,
8-Bit,
—
SMBus, SPI 1ksps
2-Ch.
C8051F000
T00010CI
0024 EP
Price Each Silicon Labs
Development
Kit
1 25 100 Part No. Part No.
2 100 100-TQFP 336-1081-1-ND* 34.01 25.20 20.32 C8051F122R C8051F120DK
2 100 64-TQFP 336-1082-1-ND* 32.88 24.36 19.64 C8051F123R C8051F120DK
— — 3 DMA 2 25 100-TQFP 336-1089-1-ND* 16.29 12.54 10.45 C8051F064 C8051F064EK
2 — 20 25 64-TQFP 336-1035-1-ND* 23.16 16.67 13.23 C8051F023R C8051F020DK
1 — 20 25 32-LQFP 336-1042-1-ND* 21.84 15.71 12.47 C8051F017R C8051F005DK
2 — 20 20 48-TQFP 336-1006-1-ND* 20.37 14.66 11.63 C8051F011R C8051F005DK
— — 2 — 20 25 48-TQFP 336-1049-1-ND* 17.46 12.56 9.97 C8051F019R C8051F005DK
1 — 2 50 28-QFN 336-1085-1-ND* 7.12 5.75 4.76 C8051F351R C8051F350DK
1 — 2 50 28-QFN 336-1087-1-ND* 5.38 4.34 3.59 C8051F353R C8051F350DK
2 100 100-TQFP 336-1223-ND 21.81 20.53 19.25 C8051F120-GQ C8051F120DK
2 100 100-TQFP 336-1226-ND 20.20 19.01 17.82 C8051F122-GQ C8051F120DK
2 — 2 50 100-TQFP 336-1228-ND 19.13 18.00 16.88 C8051F124-GQ C8051F120DK
2 — 2 50 100-TQFP 336-1230-ND 17.53 16.50 15.47 C8051F126-GQ C8051F120DK
2 100 100-TQFP 336-1232-ND 15.61 14.69 13.77 C8051F130-GQ C8051F120DK
2 100 64-TQFP 336-1225-ND 21.11 19.88 18.63 C8051F121-GQ C8051F120DK
2 100 64-TQFP 336-1227-ND 19.55 18.40 17.25 C8051F123-GQ C8051F120DK
2 — 2 50 64-TQFP 336-1229-ND 18.41 17.33 16.25 C8051F125-GQ C8051F120DK
2 — 2 50 64-TQFP 336-1231-ND 16.86 15.88 14.88 C8051F127-GQ C8051F120DK
2 100 64-TQFP 336-1233-ND 14.98 14.10 13.22 C8051F131-GQ C8051F120DK
2 100 100-TQFP 336-1234-ND 13.07 12.31 11.54 C8051F132-GQ C8051F120DK
2 100 64-TQFP 336-1235-ND 12.43 11.70 10.97 C8051F133-GQ C8051F120DK
2 — 20 25 100-TQFP 336-1199-ND 17.80 16.76 15.71 C8051F020-GQ C8051F020DK
2 — 20 25 100-TQFP 336-1202-ND 14.16 13.33 12.50 C8051F022-GQ C8051F020DK
— — 3 DMA 2 25 100-TQFP 336-1218-ND 12.55 11.81 11.07 C8051F064-GQ C8051F060DK
2 — 20 25 64-TQFP 336-1201-ND 17.17 16.16 15.15 C8051F021-GQ C8051F020DK
2 — 20 25 64-TQFP 336-1203-ND 13.14 12.37 11.60 C8051F023-GQ C8051F020DK
— — 2 — 0.25 48 32-LQFP 336-1533-ND 8.40 7.91 7.41 C8051F34A-GQ C8051F340DK
— — 3 DMA 2 25 64-TQFP 336-1220-ND 12.17 11.46 10.74 C8051F065-GQ C8051F060DK
— — 3 DMA 2 25 100-TQFP 336-1221-ND 11.85 11.16 10.46 C8051F066-GQ C8051F060DK
— — 3 DMA 2 25 64-TQFP 336-1222-ND 11.37 10.71 10.04 C8051F067-GQ C8051F060DK
2 — 20 25 64-TQFP 336-1187-ND 13.26 12.48 11.70 C8051F005-GQ C8051F005DK
2 — 20 25 64-TQFP 336-1194-ND 12.53 11.80 11.06 C8051F015-GQ C8051F005DK
— — 2 — 0.25 48 32-LQFP 336-1534-ND 7.29 6.87 6.44 C8051F34B-GQ C8051F340DK
2 — 20 25 48-TQFP 336-1189-ND 12.92 12.16 11.40 C8051F006-GQ C8051F005DK
2 — 20 25 48-TQFP 336-1195-ND 12.33 11.60 10.88 C8051F016-GQ C8051F005DK
1 — 20 25 32-LQFP 336-1190-ND 12.61 11.88 11.13 C8051F007-GQ C8051F005DK
2 — 20 20 64-TQFP 336-1184-ND 12.38 11.65 10.92 C8051F000-GQ C8051F005DK
2 — 20 20 64-TQFP 336-1191-ND 11.59 10.92 10.23 C8051F010-GQ C8051F005DK
2 — 20 20 48-TQFP 336-1192-ND 11.37 10.71 10.04 C8051F011-GQ C8051F005DK
1 — 20 20 32-LQFP 336-1186-ND 11.99 11.28 10.58 C8051F002-GQ C8051F005DK
1.5 25 28-QFN 336-1296-5-ND 3.37 3.17 2.97 C8051F326-GM C8051F326DK
1.5 25 28-QFN 336-1297-5-ND 3.37 3.17 2.97 C8051F327-GM C8051F326DK
— — 2 — 20 25 64-TQFP 336-1197-ND 10.12 9.52 8.93 C8051F018-GQ C8051F005DK
— — 2 — 2 25 24-QFN 336-1281-5-ND 3.91 3.68 3.45 C8051F316-GM C8051F310DK
— — — 2 — 2 25 24-QFN 336-1282-5-ND 3.47 3.27 3.06 C8051F317-GM C8051F310DK
— — 2 — 20 25 48-TQFP 336-1198-ND 9.76 9.19 8.61 C8051F019-GQ C8051F005DK
1 — 2 50 32-LQFP 336-1270-ND 6.82 6.42 6.02 C8051F350-GQ C8051F350DK
Emulation
Cartridge
EC-1
7V-9VDC
ONLY
silicon Integrated Products
Austin TX
w.silicon.com
(Continued)
C
®
For Digi-Reel ® information, please see page 71.
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
101
101

C8051F High Performance Mixed-Signal MCU
Precision Mixed-Signal Microcontrollers; Full-Featured MCUs with a Supercharged 8051 CPU (Cont.)
C
Flash
Memory
(Bytes)
RAM
(Bytes)
Digital
Port
I/O Pins
Timers
(16-Bit)
PCA
Channels
8K 768 17 4 3
8K 768 17 4 3
8K 256 17 4 3
8K 256 8 3 3
8K 256 8 3 3
8K 256 8 3 3
2K 256 8 3 3
* Cut Tape
8kB ISP Flash MCU Family
Internal
Development
Serial
Comparators
Oscil-
MIPS
Digi-Key
Price Each Silicon Labs Kit
Buses ADC1 ADC2 DAC
Other lator (Peak) Package Part No.
1 25 100 Part No. Part No.
UART, 24-Bit, 8-Ch.,
8-Bit,
—
SMBus, SPI 1ksps
2-Ch.
1 — 2 50 28-QFN 336-1271-ND 5.59 5.27 4.94 C8051F351-GM C8051F350DK
UART, 16-Bit, 8-Ch.,
8-Bit,
—
SMBus, SPI 1ksps
2-Ch.
1 — 2 50 32-LQFP 336-1272-ND 5.05 4.76 4.46 C8051F352-GQ C8051F350DK
UART, 16-Bit, 8-Ch.,
8-Bit,
—
SMBus, SPI 1ksps
2-Ch.
1 — 2 50 28-QFN 336-1273-ND 4.23 3.99 3.74 C8051F353-GM C8051F350DK
UART, 8-Bit, 11-Ch.,
SMBus 500sps
— 8-Bit 1 — 2 25 14-SOIC 336-1535-5-ND 2.53 2.39 2.24 C8051F300-GS C8051F300DK
UART, 8-Bit, 11-Ch.,
SMBus 500sps
— — 1 — 2 25 14-SOIC 336-1536-5-ND 2.41 2.28 2.13 C8051F301-GS C8051F300DK
UART, 8-Bit, 11-Ch.,
SMBus 500sps
— — 1 — 2 25 14-SOIC 336-1537-5-ND 2.36 2.23 2.09 C8051F302-GS C8051F300DK
UART,
SMBus
— — — 1 — 2 25 14-SOIC 336-1540-5-ND 1.97 1.86 1.74 C8051F305-GS C8051F300DK
Flash
Memory
(Bytes)
RAM
(Bytes)
Digital
Port
I/O Pins
Timers
(16-Bit)
Serial
Buses
ADC1
Other
Internal
Oscillator
MIPS
(peak)
Package
Digi-Key
Part No.
Price
Each
Silicon Labs
Part No.
Development Kit
Part No.
8K 256 6 3 3 LIN 2.0, SPI, UART 12-Bit, 6-Ch., 200sps 1 VREG 0.5 25 10-DFN 336-1484-5-ND 2.55 C8051F520A-IM C8051F530ADK
8K 256 16 3 3 LIN 2.0, SPI, UART 12-Bit, 16-Ch., 200sps 1 VREG 0.5 25 20-QFN 336-1485-5-ND 2.60 C8051F530A-IM C8051F530ADK
8K 256 16 3 3 LIN 2.0, SPI, UART 12-Bit, 16-Ch., 200sps 1 VREG 0.5 25 20-TSSOP 336-1486-5-ND 2.91 C8051F530A-IT C8051F530ADK
8K 256 6 3 3 LIN 2.0, SPI, UART 12-Bit, 6-Ch., 200sps 1 VREG 0.5 25 10-DFN 336-1490-5-ND 2.50 C8051F521A-IM C8051F530ADK
4K 256 6 3 3 LIN 2.0, SPI, UART 12-Bit, 6-Ch., 200sps 1 VREG 0.5 25 10-DFN 336-1492-5-ND 2.35 C8051F524A-IM C8051F530ADK
2K 256 6 3 3 LIN 2.0, SPI, UART 12-Bit, 6-Ch., 200sps 1 VREG 0.5 25 10-DFN 336-1494-5-ND 2.14 C8051F527A-IM C8051F530ADK
8K 256 16 3 3 LIN 2.0, SPI, UART 12-Bit, 16-Ch., 200sps 1 VREG 0.5 25 20-QFN 336-1495-5-ND 2.55 C8051F531A-IM C8051F530ADK
8K 256 16 3 3 LIN 2.0, SPI, UART 12-Bit, 16-Ch., 200sps 1 VREG 0.5 25 20-TSSOP 336-1496-5-ND 2.86 C8051F531A-IT C8051F530ADK
4K 256 16 3 3 LIN 2.0, SPI, UART 12-Bit, 16-Ch., 200sps 1 VREG 0.5 25 20-QFN 336-1497-5-ND 2.45 C8051F533A-IM C8051F530ADK
4K 256 16 3 3 LIN 2.0, SPI, UART 12-Bit, 16-Ch., 200sps 1 VREG 0.5 25 20-TSSOP 336-1500-5-ND 2.67 C8051F534A-IT C8051F530ADK
2K 256 16 3 3 LIN 2.0, SPI, UART 12-Bit, 16-Ch., 200sps 1 VREG 0.5 25 20-QFN 336-1503-5-ND 2.19 C8051F537A-IM C8051F530ADK
2K 256 16 3 3 LIN 2.0, SPI, UART 12-Bit, 16-Ch., 200sps 1 VREG 0.5 25 20-TSSOP 336-1504-5-ND 2.45 C8051F537A-IT C8051F530ADK
General Purpose Microcontrollers Outstanding Value for Comprehensive MCUs
Flash
Mem.
(Bytes)
USB Microcontrollers Integrated USB 2.0 Function Controller
Flash
Memory
(Bytes)
RAM
(Bytes)
RAM
(Bytes)
Digital
Port
I/O Pins
Digital
Port
I/O Pins
Timers
(16-Bit)
Timers
(16-Bit)
Serial
Buses
ADC1
PCA
Channels
Comparators
Internal
Oscillator
Serial
Buses ADC1 Comparators
Internal
Oscillator
MIPS
(peak)
Package
Digi-Key
Part No.
Price
Each
Silicon Labs
Part No.
Development Kit
Part No.
64K 5376 40 4 5 USB 2.0, SPI, 2UART, SMBus 10-Bit, 17-Ch., 200sps 2 1.5 48 48-TQFP 336-1298-ND 8.48 C8051F340-GQ C8051F340DK
64K 5376 25 4 5 USB 2.0, SPI, UART, SMBus 10-Bit, 17-Ch., 200sps 2 1.5 48 32-LQFP 336-1300-ND 8.23 C8051F342-GQ C8051F340DK
64K 5376 40 4 5 USB 2.0, SPI, 2UART, SMBus 10-Bit, 17-Ch., 200sps 2 1.5 25 48-TQFP 336-1302-ND 8.23 C8051F344-GQ C8051F340DK
64K 5376 25 4 5 USB 2.0, SPI, UART, SMBus 10-Bit, 17-Ch., 200sps 2 1.5 25 32-LQFP 336-1304-ND 7.80 C8051F346-GQ C8051F340DK
64K 4352 25 4 5 USB 2.0, SPI, UART, SMBus 10-Bit, 17-Ch., 200sps 2 .25 48 32-QFN 336-1345-5-ND 8.23 C8051F342-GM C8051F340DK
64K 4352 25 4 5 USB 2.0, SPI, UART, SMBus 10-Bit, 17-Ch., 200sps 2 .25 25 32-QFN 336-1347-5-ND 7.80 C8051F346-GM C8051F340DK
64K 4352 25 4 5 USB 2.0, SPI, 2UART, SMBus 10-Bit, 17-Ch., 200sps 2 .25 48 32-QFN 336-1350-5-ND 8.40 C8051F34A-GM C8051F340DK
32K 3328 40 4 5 USB 2.0, SPI, 2UART, SMBus 10-Bit, 17-Ch., 200sps 2 1.5 48 48-TQFP 336-1299-ND 7.57 C8051F341-GQ C8051F340DK
32K 3328 25 4 5 USB 2.0, SPI, UART, SMBus 10-Bit, 17-Ch., 200sps 2 1.5 48 32-LQFP 336-1301-ND 7.16 C8051F343-GQ C8051F340DK
32K 3328 40 4 5 USB 2.0, SPI, 2UART, SMBus 10-Bit, 17-Ch., 200sps 2 1.5 25 48-TQFP 336-1303-ND 7.16 C8051F345-GQ C8051F340DK
32K 3328 25 4 5 USB 2.0, SPI, UART, SMBus 10-Bit, 17-Ch., 200sps 2 1.5 25 32-LQFP 336-1305-ND 6.58 C8051F347-GQ C8051F340DK
32K 2304 25 4 5 USB 2.0, SPI, UART, SMBus 10-Bit, 17-Ch., 200sps 2 .25 48 32-QFN 336-1346-5-ND 7.16 C8051F343-GM C8051F340DK
32K 2304 25 4 5 USB 2.0, SPI, UART, SMBus 10-Bit, 17-Ch., 200sps 2 .25 25 32-QFN 336-1348-5-ND 6.58 C8051F347-GM C8051F340DK
32K 2304 25 4 5 USB 2.0, SPI, UART, SMBus — 2 .25 25 32-QFN 336-1349-5-ND 6.12 C8051F349-GM C8051F340DK
32K 2304 25 4 5 USB 2.0, SPI, 2UART, SMBus 10-Bit, 17-Ch., 200sps 2 .25 48 32-QFN 336-1351-5-ND 7.29 C8051F34B-GM C8051F340DK
16K 2304 25 4 5 USB 2.0, UART, SMBus, SPI 10-Bit, 17-Ch., 200sps 2 1.5 25 32-LQFP 336-1259-ND 5.90 C8051F320-GQ C8051F320DK
16K 2304 25 4 5 USB 2.0, UART, SMBus, SPI 10-Bit, 13-Ch., 200sps 2 1.5 25 28-QFN 336-1261-ND 5.03 C8051F321-GM C8051F320DK
MIPS
(peak)
Package
Digi-Key
Part No.
Price Each
1 25 100
Silicon Labs
Part No.
Development Kit
Part No.
8K 256 22 3 UART, SPI 8-Bit, 32-Ch. 100sps 2 20 25 32-LQFP 336-1009-1-ND* 5.03 3.62 2.87 C8051F221R C8051F226DK
8K 256 22 3 UART, SPI — 2 20 25 32-LQFP 336-1012-1-ND* 4.80 3.46 2.74 C8051F231R C8051F226DK
32K 256 25 4 SMBus, SPI, UART — 2 25 25 32-LQFP 336-1509-ND◆ 6.12 5.76 5.40 C8051F349-GQ C8051F340DK
32K 256 40 4 SMBus, SPI, UART — 2 25 25 48-TQFP 336-1508-ND◆ 6.66 6.28 5.88 C8051F348-GQ C8051F340DK
◆ RoHS Compliant * Cut Tape
Small Form Factor Microcontrollers High-Performance MCU in a Tiny Package
Flash
Memory
(Bytes)
RAM
(Bytes)
Digital
Port
I/O Pins
Timers
(16-Bit)
PCA
Channels
Serial
Buses ADC1 DAC
PCA
Channels
Comparators
Comparators
Internal
Oscillator
MIPS
(peak)
Package
Digi-Key
Part No.
Price Each
1 25 100
Silicon Labs
Part No.
Development Kit
Part No.
8K 256 8 3 3 UART, SMBus — — 1 20 25 11-QFN 336-1046-1-ND* 3.37 2.41 1.93 C8051F303R C8051F300DK
4K 256 8 3 3 UART, SMBus — — 1 20 25 11-QFN 336-1063-1-ND* 3.01 2.15 1.72 C8051F304R C8051F300DK
2K 256 8 3 3 UART, SMBus — — 1 20 25 11-QFN 336-1064-1-ND* 2.91 2.08 1.67 C8051F305R C8051F300DK
RoHS Compliant
32K 2368 24 4 6 UART, SPI SMBus 12-Bit, 8-Ch., 200sps 12-Bit, 2-Ch. 2 2 50 32-LQFP 336-1318-ND 6.58 6.20 5.81 C8051F410-GQ C8051F410DK
32K 2368 20 4 6 UART, SPI, SMBus 12-Bit, 8-Ch., 200sps 12-Bit, 2-Ch. 2 2 50 28-QFN 336-1309-ND 5.29 4.98 4.67 C8051F411-GM C8051F410DK
32K 1K 39 4 6 UART, SMBus, SPI 10-Bit, 16-Ch., 200sps 10-Bit, 1-Ch. 2 2 100 48-TQFP 336-1407-ND 7.38 6.95 6.51 C8051F360-GQ C8051F360DK
* Cut Tape ®
For Digi-Reel ® information, please see page 71.
(Continued)
102 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

C8051F High Performance Mixed-Signal MCUs
Small Form Factor Microcontrollers High-Performance MCU in a Tiny Package (Cont.)
Internal
Development
Serial
Comparators
Oscil-
MIPS
Digi-Key
Price Each Silicon Labs Kit
Buses ADC1 ADC2 DAC
Other lators (Peak) Package Part No.
1 25 100 Part No. Part No.
CAN2.0B, 2 UARTs, 10-Bit, 13-Ch.
60V
— — 3
SMBus, SPI 100sps
PGA
2 25 100-TQFP 336-1156-ND 8.75 7.66 6.46 C8051F044 C8051F040DK
CAN2.0B, 2 UARTs, 16-Bit, 2-Ch. 10-Bit, 8-Ch. 12-Bit,
SMBus, SPI 1Msps 200sps 2-Ch.
3 DMA 2 25 100-TQFP 336-1074-1-ND* 19.24 14.80 12.33 C8051F062R C8051F060DK
CAN2.0B, 2 UARTs, 16-Bit, 2-Ch. 10-Bit, 8-Ch. 12-Bit,
SMBus, SPI 1Msps 200sps 2-Ch.
3 DMA 2 25 64-TQFP 336-1073-1-ND* 20.60 15.85 13.21 C8051F061R C8051F060DK
3 DMA 2 25 64-TQFP 336-1075-1-ND* 18.72 14.41 12.01 C8051F063R C8051F060DK
Flash
Digital
PCA
Internal
Memory RAM Port Timers Chan- Serial
Comparatorlator
Oscil-
MIPS
Digi-Key
Price Each Silicon Labs Development Kit
(Bytes) (Bytes) I/O Pins (16-Bit) nels Buses ADC1 DAC
(peak) Package Part No.
1 25 100 Part No. Part No.
32K 1K 27 4 6 UART, SMBus, SPI 10-Bit, 16-Ch., 200sps 10-Bit, 1-Ch. 2 2 100 32-LQFP 336-1408-ND 6.85 6.45 6.05 C8051F361-GQ C8051F360DK
32K 1K 24 4 6 UART, SMBus, SPI 10-Bit, 16-Ch., 200sps 10-Bit, 1-Ch. 2 2 100 28-QFN 336-1409-5-ND 5.78 5.44 5.10 C8051F362-GM C8051F360DK
32K 1280 39 4 6 UART, SMBus, SPI — — 2 2 100 48-TQFP 336-1645-ND 6.31 5.94 5.57 C8051F363-GQ C8051F360DK
32K 1280 27 4 6 UART, SMBus, SPI — — 2 2 100 32-LQFP 336-1646-ND 6.00 5.65 5.30 C8051F364-GQ C8051F360DK
32K 1280 24 4 6 UART, SMBus, SPI — — 2 2 100 28-QFN 336-1647-ND 5.20 4.90 4.59 C8051F365-GM C8051F360DK
32K 1280 29 4 6 UART, SMBus, SPI 10-Bit, 21-Ch., 200sps 10-Bit 2 2 50 32-LQFP 336-1648-ND 5.75 5.41 5.07 C8051F366-GQ C8051F360DK
32K 1280 25 4 6 UART, SMBus, SPI 10-Bit, 17-Ch., 200sps 10-Bit 2 2 50 28-QFN 336-1649-ND 4.96 4.68 4.38 C8051F367-GM C8051F360DK
16K 1280 29 4 6 UART, SMBus, SPI 10-Bit, 21-Ch., 200sps 10-Bit 2 2 50 32-LQFP 336-1650-ND 5.47 5.16 4.83 C8051F368-GQ C8051F360DK
16K 1280 25 4 6 UART, SMBus, SPI 10-Bit, 17-Ch., 200sps 10-Bit 2 2 50 28-QFN 336-1651-ND 4.74 4.47 4.19 C8051F369-GM C8051F360DK
16K 2368 24 4 6 UART, SPI SMBus 12-Bit, 8-Ch., 200sps 12-Bit, 2-Ch. 2 2 50 32-LQFP 336-1310-ND 5.95 5.60 5.25 C8051F412-GQ C8051F410DK
16K 2368 20 4 6 UART, SPI SMBus 12-Bit, 8-Ch., 200sps 12-Bit, 2-Ch. 2 2 50 28-QFN 336-1311-ND 4.91 4.63 4.34 C8051F413-GM C8051F410DK
16K 1280 29 4 5 UART, SMBus, SPI 10-Bit, 21-Ch., 200sps — 2 2 25 32-LQFP 336-1252-ND 4.85 4.56 4.28 C8051F310-GQ C8051F310DK
16K 1280 25 4 5 UART, SMBus, SPI 10-Bit, 17-Ch., 200sps — 2 2 25 28-QFN 336-1254-ND 4.34 4.08 3.83 C8051F311-GM C8051F310DK
8K 1280 32 3 — UART, SPI 12-Bit, 32-Ch., 100sps — 2 20 25 48-TQFP 336-1236-ND 4.49 4.23 3.96 C8051F206-GQ C8051F206DK
8K 1280 32 3 — UART, SPI 8-Bit, 32-Ch., 100sps — 2 20 25 48-TQFP 336-1240-ND 3.91 3.68 3.45 C8051F226-GQ C8051F226DK
8K 1280 32 3 — UART, SPI — — 2 20 25 48-TQFP 336-1244-ND 3.64 3.43 3.21 C8051F236-GQ C8051F226DK
8K 1280 29 4 5 UART, SMBus, SPI 10-Bit, 21-Ch., 200sps — 2 2 25 32-LQFP 336-1255-ND 3.77 3.56 3.33 C8051F312-GQ C8051F310DK
8K 1280 29 4 5 UART, SMBus, SPI — — 2 2 25 32-LQFP 336-1257-ND 3.18 3.00 2.81 C8051F314-GQ C8051F310DK
8K 1280 25 4 5 UART, SMBus, SPI 10-Bit, 17-Ch., 200sps — 2 2 25 28-QFN 336-1256-ND 3.50 3.30 3.09 C8051F313-GM C8051F310DK
8K 1280 25 4 5 UART, SMBus, SPI — — 2 2 25 28-QFN 336-1258-ND 2.96 2.79 2.61 C8051F315-GM C8051F310DK
8K 768 17 4 3 UART, SMBus, SPI 10-Bit, 16-Ch., 200sps 10-Bit, 1-Ch. 1 2 25 20-MLP 336-1262-ND 3.60 3.40 3.18 C8051F330-GM C8051F330DK
8K 768 17 4 3 UART, SMBus, SPI — — 1 2 25 20-QFN 336-1265-ND 3.23 3.04 2.85 C8051F331-GM C8051F330DK
8K 256 32 3 — UART, SPI — — 2 20 25 48-TQFP 336-1242-ND 3.49 3.28 3.08 C8051F230-GQ C8051F226DK
8K 256 22 3 — UART, SPI — — 2 20 25 32-LQFP 336-1243-ND 3.15 2.96 2.78 C8051F231-GQ C8051F226DK
8K 256 8 3 3 UART, SMBus 8-Bit, 8-Ch., 500sps — 1 2 25 11-QFN 336-1245-ND 2.53 2.39 2.24 C8051F300-GM C8051F300DK
8K 256 8 3 3 UART, SMBus — — 1 2 25 11-QFN 336-1247-ND 2.41 2.28 2.13 C8051F301-GM C8051F300DK
8K 256 8 3 3 UART, SMBus 8-Bit, 8-Ch., 500sps — 1 20 25 11-QFN 336-1248-ND 2.36 2.23 2.09 C8051F302-GM C8051F300DK
8K 256 8 3 3 UART, SMBus — — 1 20 25 11-QFN 336-1249-ND 2.28 2.15 2.01 C8051F303-GM C8051F300DK
4K 768 17 4 3 UART, SMBus, SPI 10-Bit, 16-Ch., 200sps — 1 2 25 20-MLP 336-1266-ND 2.69 2.53 2.37 C8051F332-GM C8051F330DK
4K 768 17 4 3 UART, SMBus, SPI — — 1 2 25 20-MLP 336-1267-ND 2.47 2.32 2.18 C8051F333-GM C8051F330DK
4K 256 8 3 3 UART, SMBus — — 1 20 25 11-QFN 336-1250-ND 2.02 1.91 1.79 C8051F304-GM C8051F300DK
2K 768 17 4 3 UART, SMBus, SPI — — 1 2 25 20-MLP 336-1269-ND 2.04 1.92 1.80 C8051F335-GM C8051F330DK
2K 256 8 3 3 UART, SMBus — — 1 20 25 11-QFN 336-1251-ND 1.97 1.86 1.74 C8051F305-GM C8051F300DK
* Cut Tape
C
CAN Interface Microcontrollers — MCUs with Integrated CAN 2.0B Controller
Flash
Memory
(Bytes)
RAM
(Bytes)
Digital
Port I/O Timers
Pins (16-Bit)
PCA
Channels
64K 4352 64 5 6
64K 4352 59 5 6
64K 4352 24 5 6
64K 4352 24 5 6
64K 4352 64 5 6
64K 4352 64 5 6
64K 4352 64 5 6
64K 4352 59 5 6
64K 4352 59 5 6
64K 4352 32 5 6
64K 4352 32 5 6
64K 4352 32 5 6
64K 4352 24 5 6
32K 4352 64 5 6
32K 4352 32 5 6
16KB 768 17 4 3
16KB 768 17 4 3
16KB 768 21 4 3
16KB 768 21 4 3
* Cut Tape
CAN2.0B 2 UARTs,
SMBus, SPI
CAN2.0B, 2 UARTs,
SMBus, SPI
CAN2.0B, 2 UARTs,
SMBus, SPI
CAN2.0B, 2 UARTs,
SMBus, SPI
CAN2.0B, 2 UARTs,
SMBus, SPI
CAN2.0B, 2 UARTs,
SMBus, SPI
CAN2.0B, 2 UARTs,
SMBus, SPI
CAN2.0B, 2 UARTs,
SMBus, SPI
CAN2.0B, 2 UARTs,
SMBus, SPI
CAN2.0B, 2 UARTs,
SMBus, SPI
CAN2.0B, 2 UARTs,
SMBus, SPI
CAN2.0B, 2 UARTs,
SMBus, SPI
UART,
SMBus, SPI
UART,
SMBus, SPI
UART,
SMBus, SPI
UART,
SMBus, SPI
16-Bit, 2-Ch.
1Msps
10-Bit, 8-Ch.
200sps
12-Bit,
2-Ch.
RoHS Compliant
12-Bit, 13-Ch. 8-Bit, 8-Ch. 12-Bit,
60V
3
100sps 500sps 2-Ch.
PGA
2 25 100-TQFP 336-1204-ND 12.68 11.94 11.19 C8051F040-GQ C8051F040DK
10-Bit, 13-Ch. 8-Bit, 8-Ch. 12-Bit,
60V
3
100sps 500sps 2-Ch.
PGA
2 25 100-TQFP 336-1207-ND 10.88 10.24 9.60 C8051F042-GQ C8051F040DK
10-Bit, 13-Ch.
60V
— — 3
100sps
PGA
2 25 100-TQFP 336-1209-ND 8.84 8.32 7.80 C8051F044-GQ C8051F040DK
16-Bit, 2-Ch. 10-Bit, 8-Ch. 12-Bit,
1Msps 200sps 2-Ch.
3 DMA 2 25 100-TQFP 336-1213-ND 17.44 16.42 15.39 C8051F060-GQ C8051F060DK
16-Bit, 2-Ch. 10-Bit, 8-Ch. 12-Bit,
1Msps 200sps 2-Ch.
3 DMA 2 25 100-TQFP 336-1216-ND 14.82 13.96 13.08 C8051F062-GQ C8051F060DK
12-Bit, 13-Ch. 8-Bit, 8-Ch. 12-Bit,
60V
3
100sps 500sps 2-Ch.
PGA
2 25 64-TQFP 336-1206-ND 12.19 11.48 10.76 C8051F041-GQ C8051F040DK
10-Bit, 13-Ch. 8-Bit, 8-Ch. 12-Bit,
60V
3
100sps 500sps 2-Ch.
PGA
2 25 64-TQFP 336-1208-ND 10.44 9.83 9.21 C8051F043-GQ C8051F040DK
10-Bit, 13-Ch.
60V
— — 3
100sps
PGA
2 25 64-TQFP 336-1210-ND 8.36 7.88 7.38 C8051F045-GQ C8051F040DK
16-Bit, 2-Ch. 10-Bit, 8-Ch. 12-Bit,
1Msps 200sps 2-Ch.
3 DMA 2 25 64-TQFP 336-1215-ND 15.86 14.93 14.00 C8051F061-GQ C8051F060DK
10-Bit, 13-Ch.
60V
— — 3
100sps
PGA
2 25 100-TQFP 336-1211-ND 8.30 7.81 7.32 C8051F046-GQ C8051F040DK
10-Bit, 13-Ch.
60V
— — 3
100sps
PGA
2 25 64-TQFP 336-1212-ND 7.77 7.32 6.86 C8051F047-GQ C8051F040DK
10-Bit, 16-Ch.
10-Bit,
2
—
1 —
200sps
1-Ch.
LFO
25 20-QFN 336-1429-5-ND 3.96 3.73 3.50 C8051F336-GM C8051F336DK
— — — 1 —
2
LFO
25 20-QFN 336-1428-5-ND 3.37 3.17 2.97 C8051F337-GM C8051F336DK
10-Bit, 16-Ch.
10-Bit,
2
—
1 —
200sps
1-Ch.
LFO
25 24-QFN 336-1427-5-ND 4.03 3.80 3.56 C8051F338-GM C8051F336DK
— — — 1 —
2
LFO
25 24-QFN 336-1426-5-ND 3.40 3.20 3.00 C8051F339-GM C8051F336DK
Automotive
Flash
Digital
PCA
Internal
Development
Memory RAM Port Timers Chan-
Serial
Comparators
Temperature Oscil-
MIPS
Digi-Key
Price Silicon Labs Kit
(Bytes) (Bytes) I/O Pins (16-Bit) nels
Buses
ADC
Range lator (Peak) Package Part No.
Each Part No. Part No.
64K 256 40 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 48-QFP 336-1510-ND 5.56 C8051F500-IQ C8051F500DK
64K 256 40 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 48-QFN 336-1511-5-ND 5.51 C8051F500-IM C8051F500DK
64K 256 40 4 6 SMBus, SPI, UART 12-Bit, 28-Ch., 200sps 2 -40C 125C 0.5 50 48-QFP 336-1512-ND 5.29 C8051F501-IQ C8051F500DK
64K 256 40 4 6 SMBus, SPI, UART 12-Bit, 28-Ch., 200sps 2 -40C 125C 0.5 50 48-QFN 336-1513-5-ND 5.22 C8051F501-IM C8051F500DK
64K 256 25 4 6 SMBus, SPI, UART 12-Bit, 28-Ch., 200sps 2 -40C 125C 0.5 50 32-QFP 336-1514-ND 5.39 C8051F502-IQ C8051F500DK
64K 256 25 4 6 SMBus, SPI, UART 12-Bit, 28-Ch., 200sps 2 -40C 125C 0.5 50 32-QFN 336-1515-5-ND 4.95 C8051F502-IM C8051F500DK
64K 256 25 4 6 SMBus, SPI, UART 12-Bit, 28-Ch., 200sps 2 -40C 125C 0.5 50 32-QFN 336-1517-5-ND 4.71 C8051F503-IM C8051F500DK
32K 256 40 4 6 SMBus, SPI, UART 12-Bit, 25-Ch., 200sps 2 -40C 125C 0.5 50 48-QFP 336-1518-ND 5.24 C8051F504-IQ C8051F500DK
32K 256 40 4 6 SMBus, SPI, UART 12-Bit, 25-Ch., 200sps 2 -40C 125C 0.5 50 48-QFN 336-1519-5-ND 5.17 C8051F504-IM C8051F500DK
(Continued)
®
For Digi-Reel ® information, please see page 71.
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
103
103

Automotive (Cont.)
C8051F High Performance Mixed-Signal MCUs
C
Flash
Memory
(Bytes)
Digital
RAM Port Timers
(Bytes) I/O Pins (16-Bit)
PCA
Channels
Internal
Oscillator
Development
Kit
Part No.
Serial
Buses
ADC
Comparators
Temperature
Range
MIPS
(Peak)
Digi-Key
Package Part No.
Price
Each
Silicon Labs
Part No.
32K 256 40 4 6 SMBus, SPI, UART 12-Bit, 25-Ch., 200sps 2 -40C 125C 0.5 50 48-QFP 336-1520-ND 4.95 C8051F505-IQ C8051F500DK
32K 256 40 4 6 SMBus, SPI, UART 12-Bit, 25-Ch., 200sps 2 -40C 125C 0.5 50 48-QFN 336-1521-5-ND 4.90 C8051F505-IM C8051F500DK
32K 256 25 4 6 SMBus, SPI, UART 12-Bit, 25-Ch., 200sps 2 -40C 125C 0.5 50 32-QFP 336-1522-ND 5.07 C8051F506-IQ C8051F500DK
32K 256 25 4 6 SMBus, SPI, UART 12-Bit, 25-Ch., 200sps 2 -40C 125C 0.5 50 32-QFN 336-1523-5-ND 4.66 C8051F506-IM C8051F500DK
32K 256 25 4 6 SMBus, SPI, UART 12-Bit, 25-Ch., 200sps 2 -40C 125C 0.5 50 32-QFP 336-1524-ND 4.79 C8051F507-IQ C8051F500DK
32K 256 25 4 6 SMBus, SPI, UART 12-Bit, 25-Ch., 200sps 2 -40C 125C 0.5 50 32-QFN 336-1525-5-ND 4.40 C8051F507-IM C8051F500DK
64K 4K 33 4 6 CAN 2.0, LIN 2.1, SPI, UART, I 2 C, EMIF 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 40-QFN 336-1560-5-ND NEW! 5.36 C8051F508-IM C8051F500DK
64K 4K 33 4 6 SPI, UART, I 2 C, EMIF 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 40-QFN 336-1561-5-ND NEW! 5.08 C8051F509-IM C8051F500DK
32K 4K 33 4 6 CAN 2.0, LIN 2.1, SPI, UART, I 2 C, EMIF 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 40-QFN 336-1562-5-ND NEW! 5.03 C8051F510-IM C8051F500DK
32K 4K 33 4 6 SPI, UART, I 2 C, EMIF 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 40-QFN 336-1563-5-ND NEW! 4.76 C8051F511-IM C8051F500DK
16K 256 25 4 6 SMBus, SPI, UART 12-Bit, 25-Ch., 200sps 2 -40C 125C 0.5 50 32-QFN 336-1670-5-ND 3.13 C8051F540-IM C8051F540DK
16K 256 25 4 6 SMBus, SPI, UART 12-Bit, 25-Ch., 200sps 2 -40C 125C 0.5 50 32-QFP 336-1671-ND 3.52 C8051F540-IQ C8051F540DK
16K 256 25 4 6 SMBus, SPI, UART 12-Bit, 25-Ch., 200sps 2 -40C 125C 0.5 50 32-QFN 336-1673-5-ND 3.08 C8051F541-IM C8051F540DK
16K 256 25 4 6 SMBus, SPI, UART 12-Bit, 25-Ch., 200sps 2 -40C 125C 0.5 50 32-QFP 336-1674-ND 3.45 C8051F541-IQ C8051F540DK
16K 256 18 4 6 SMBus, SPI, UART 12-Bit, 25-Ch., 200sps 2 -40C 125C 0.5 50 24-QFN 336-1675-5-ND 2.98 C8051F542-IM C8051F540DK
16 256 18 4 6 SMBus, SPI, UART 12-Bit, 25-Ch., 200sps 2 -40C 125C 0.5 50 24-QFN 336-1676-5-ND 2.92 C8051F543-IM C8051F540DK
8K 256 25 4 6 SMBus, SPI, UART 12-Bit, 25-Ch., 200sps 2 -40C 125C 0.5 50 32-QFN 336-1677-5-ND 2.94 C8051F544-IM C8051F540DK
8K 256 25 4 6 SMBus, SPI, UART 12-Bit, 25-Ch., 200sps 2 -40C 125C 0.5 50 32-QFP 336-1678-ND 3.32 C8051F544-IQ C8051F540DK
8K 256 25 4 6 SMBus, SPI, UART 12-Bit, 25-Ch., 200sps 2 -40C 125C 0.5 50 32-QFN 336-1679-5-ND 2.89 C8051F545-IM C8051F540DK
8K 256 25 4 6 SMBus, SPI, UART 12-Bit, 25-Ch., 200sps 2 -40C 125C 0.5 50 32-QFP 336-1680-ND 3.23 C8051F545-IQ C8051F540DK
8K 256 18 4 6 SMBus, SPI, UART 12-Bit, 25-Ch., 200sps 2 -40C 125C 0.5 50 24-QFN 336-1681-5-ND 2.81 C8051F546-IM C8051F540DK
8K 256 18 4 6 SMBus, SPI, UART 12-Bit, 25-Ch., 200sps 2 -40C 125C 0.5 50 24-QFN 336-1682-5-ND 2.74 C8051F547-IM C8051F540DK
32K 256 18 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 24-QFN 336-1683-5-ND 3.57 C8051F550-IM C8051F560DK
32K 256 18 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 24-QFN 336-1684-5-ND 3.50 C8051F551-IM C8051F560DK
32K 256 18 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 24-QFN 336-1685-5-ND 3.47 C8051F552-IM C8051F560DK
32K 256 18 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 24-QFN 336-1686-5-ND 3.40 C8051F553-IM C8051F560DK
16K 256 18 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 24-QFN 336-1687-5-ND 3.37 C8051F554-IM C8051F560DK
16K 256 18 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 24-QFN 336-1688-5-ND 3.30 C8051F555-IM C8051F560DK
16K 256 18 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 24-QFN 336-1689-5-ND 3.26 C8051F556-IM C8051F560DK
16K 256 18 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 24-QFN 336-1690-5-ND 3.18 C8051F557-IM C8051F560DK
32K 256 25 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 32-QFN 336-1692-5-ND 3.74 C8051F560-IM C8051F560DK
32K 256 25 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 32-QFP 336-1693-ND 4.13 C8051F560-IQ C8051F560DK
32K 256 25 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 32-QFN 336-1695-5-ND 3.66 C8051F561-IM C8051F560DK
32K 256 25 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 32-QFP 336-1696-ND 4.05 C8051F561-IQ C8051F560DK
32K 256 25 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 32-QFN 336-1697-5-ND 3.62 C8051F562-IM C8051F560DK
32K 256 25 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 32-QFP 336-1698-ND 4.00 C8051F562-IQ C8051F560DK
32K 256 25 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 32-QFN 336-1699-5-ND 3.55 C8051F563-IM C8051F560DK
32K 256 25 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 32-QFP 336-1700-ND 3.91 C8051F563-IQ C8051F560DK
16K 256 25 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 32-QFN 336-1701-5-ND 3.52 C8051F564-IM C8051F560DK
16K 256 25 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 32-QFP 336-1702-ND 3.88 C8051F564-IQ C8051F560DK
16K 256 25 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 32-QFN 336-1703-5-ND 3.43 C8051F565-IM C8051F560DK
16K 256 25 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 32-QFP 336-1704-ND 3.79 C8051F565-IQ C8051F560DK
16K 256 25 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 32-QFN 336-1705-5-ND 3.40 C8051F566-IM C8051F560DK
16K 256 25 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 32-QFP 336-1706-ND 3.76 C8051F566-IQ C8051F560DK
16K 256 25 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 32-QFN 336-1707-5-ND 3.33 C8051F567-IM C8051F560DK
16K 256 25 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 32-QFP 336-1708-ND 3.67 C8051F567-IQ C8051F560DK
32K 256 33 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 40-QFN 336-1709-5-ND 4.18 C8051F568-IM C8051F560DK
32K 256 33 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 40-QFN 336-1710-5-ND 4.10 C8051F569-IM C8051F560DK
32K 256 33 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 40-QFN 336-1711-5-ND 4.06 C8051F570-IM C8051F560DK
32K 256 33 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 40-QFN 336-1712-5-ND 3.98 C8051F571-IM C8051F560DK
16K 256 33 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 40-QFN 336-1713-5-ND 3.93 C8051F572-IM C8051F560DK
16K 256 33 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 40-QFN 336-1714-5-ND 3.84 C8051F573-IM C8051F560DK
16K 256 33 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 40-QFN 336-1715-5-ND 3.81 C8051F574-IM C8051F560DK
16K 256 33 4 6 SMBus, SPI, UART 12-Bit, 32-Ch., 200sps 2 -40C 125C 0.5 50 40-QFN 336-1716-5-ND 3.67 C8051F575-IM C8051F560DK
128K 8K 40 6 2x6 CAN 2.0, LIN 2.1, SPI, 2xUARTs, I 2 C, EMIF 12-Bit, 32-Ch., 200sps 3 -40C 125C 0.5 50 40-QFP 336-1564-ND NEW! 7.57 C8051F580-IQ C8051F580DK
128K 8K 40 6 2x6 CAN 2.0, LIN 2.1, SPI, 2xUARTs, I 2 C, EMIF 12-Bit, 32-Ch., 200sps 3 -40C 125C 0.5 50 48-QFN 336-1565-5-ND NEW! 7.50 C8051F580-IM C8051F580DK
128K 8K 40 6 2x6 SPI, 2xUARTs, I 2 C, EMIF 12-Bit, 32-Ch., 200sps 3 -40C 125C 0.5 50 48-QFP 336-1566-ND NEW! 7.19 C8051F581-IQ C8051F580DK
128K 8K 40 6 2x6 SPI, 2xUARTs, I 2 C, EMIF 12-Bit, 32-Ch., 200sps 3 -40C 125C 0.5 50 48-QFN 336-1567-5-ND NEW! 7.12 C8051F581-IM C8051F580DK
128K 8K 25 6 2x6 CAN 2.0, LIN 2.1, SPI, 2xUARTs, I 2 C 12-Bit, 25-Ch., 200sps 3 -40C 125C 0.5 50 32-QFP 336-1568-ND NEW! 7.38 C8051F582-IQ C8051F580DK
128K 8K 25 6 2x6 CAN 2.0, LIN 2.1, SPI, 2xUARTs, I 2 C 12-Bit, 25-Ch., 200sps 3 -40C 125C 0.5 50 32-QFN 336-1569-5-ND NEW! 6.92 C8051F582-IM C8051F580DK
128K 8K 25 6 2x6 SPI, 2xUARTs, I 2 C 12-Bit, 25-Ch., 200sps 3 -40C 125C 0.5 50 32-QFP 336-1570-ND NEW! 7.00 C8051F583-IQ C8051F580DK
128K 8K 25 6 2x6 SPI, 2xUARTs, I 2 C 12-Bit, 25-Ch., 200sps 3 -40C 125C 0.5 50 32-QFN 336-1571-5-ND NEW! 6.58 C8051F583-IM C8051F580DK
96K 8K 40 6 2x6 CAN 2.0, LIN 2.1, SPI, 2xUARTs, I 2 C, EMIF 12-Bit, 32-Ch., 200sps 3 -40C 125C 0.5 50 48-QFP 336-1572-ND NEW! 7.11 C8051F584-IQ C8051F580DK
96K 8K 40 6 2x6 CAN 2.0, LIN 2.1, SPI, 2xUARTs, I 2 C, EMIF 12-Bit, 32-Ch., 200sps 3 -40C 125C 0.5 50 48-QFN 336-1573-5-ND NEW! 7.06 C8051F584-IM C8051F580DK
96K 8K 40 6 2x6 SPI, 2xUARTs, I 2 C, EMIF 12-Bit, 32-Ch., 200sps 3 -40C 125C 0.5 50 48-QFP 336-1574-ND NEW! 6.73 C8051F585-IQ C8051F580DK
96K 8K 40 6 2x6 SPI, 2xUARTs, I 2 C, EMIF 12-Bit, 32-Ch., 200sps 3 -40C 125C 0.5 50 48-QFN 336-1575-5-ND NEW! 6.68 C8051F585-IM C8051F580DK
96K 8K 25 6 2x6 CAN 2.0, LIN 2.1, SPI, 2xUARTs, I 2 C 12-Bit, 25-Ch., 200sps 3 -40C 125C 0.5 50 32-QFP 336-1576-ND NEW! 6.94 C8051F586-IQ C8051F580DK
96K 8K 25 6 2x6 CAN 2.0, LIN 2.1, SPI, 2xUARTs, I 2 C 12-Bit, 25-Ch., 200sps 3 -40C 125C 0.5 50 32-QFN 336-1577-5-ND NEW! 6.51 C8051F586-IM C8051F580DK
96K 8K 25 6 2x6 SPI, 2xUARTs, I 2 C 12-Bit, 25-Ch., 200sps 3 -40C 125C 0.5 50 32-QFP 336-1578-ND NEW! 6.56 C8051F587-IQ C8051F580DK
96K 8K 25 6 2x6 SPI, 2xUARTs, I 2 C 12-Bit, 25-Ch., 200sps 3 -40C 125C 0.5 50 32-QFN 336-1579-5-ND NEW! 6.17 C8051F587-IM C8051F580DK
128K 8K 33 6 2x6 CAN 2.0, LIN 2.1, SPI, 2xUARTs, I 2 C, EMIF 12-Bit, 32-Ch., 200sps 3 -40C 125C 0.5 50 40-QFN 336-1580-5-ND NEW! 7.34 C8051F588-IM C8051F580DK
128K 8K 33 6 2x6 SPI, 2xUARTs, I 2 C, EMIF 12-Bit, 32-Ch., 200sps 3 -40C 125C 0.5 50 40-QFN 336-1581-5-ND NEW! 6.97 C8051F589-IM C8051F580DK
96K 8K 33 6 2x6 CAN 2.0, LIN 2.1, SPI, 2xUARTs, I 2 C, EMIF 12-Bit, 32-Ch., 200sps 3 -40C 125C 0.5 50 40-QFN 336-1582-5-ND NEW! 6.90 C8051F590-IM C8051F580DK
96K 8K 33 6 2x6 SPI, 2xUARTs, I 2 C, EMIF 12-Bit, 32-Ch., 200sps 3 -40C 125C 0.5 50 40-QFN 336-1583-5-ND NEW! 6.53 C8051F591-IM C8051F580DK
NEW! Mixed Signal ISP Flash MCU Family
Flash
Memory
(kB)
Digital
Port
I/O Pins
RAM
(Bytes)
Timers
(16-Bit)
PCA
Channels
Serial
Buses ADC Comparators
Temperature
Range
Internal
Oscillator
MIPS
(Peak) Package
Digi-Key
Part No.
Price
Each
Silicon Labs
Part No.
Development Kit
Part No.
15 512 54 4 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 64-TQFP 336-1605-ND 6.32 C8051F700-GQ C8051F700DK
15 512 54 4 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 64-TQFP 336-1607-ND 5.80 C8051F701-GQ C8051F700DK
16 512 54 4 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 64-TQFP 336-1608-ND 6.32 C8051F702-GQ C8051F700DK
16 512 54 4 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 64-TQFP 336-1609-ND 5.80 C8051F703-GQ C8051F700DK
15 512 39 4 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 48-QFN 336-1610-5-ND 5.85 C8051F704-GM C8051F700DK
15 512 39 4 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 48-QFN 336-1612-5-ND 5.34 C8051F705-GM C8051F700DK
15 512 39 4 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 48-TQFP 336-1613-ND 5.07 C8051F705-GQ C8051F700DK
16 512 39 4 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 48-QFN 336-1604-5-ND 5.85 C8051F706-GM C8051F700DK
16 512 39 4 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 48-TQFP 336-1636-ND 5.53 C8051F706-GQ C8051F700DK
16 512 39 4 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 48-QFN 336-1606-5-ND 5.34 C8051F707-GM C8051F700DK
16 512 39 4 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 48-TQFP 336-1638-ND 5.07 C8051F707-GQ C8051F700DK
8 512 54 4 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 64-TQFP 336-1639-ND 5.27 C8051F708-GQ C8051F700DK
8 512 54 4 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 64-TQFP 336-1640-ND 4.74 C8051F709-GQ C8051F700DK
8 512 54 4 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 64-TQFP 336-1641-ND 5.02 C8051F710-GQ C8051F700DK
8 512 54 4 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 64-TQFP 336-1642-ND 4.49 C8051F711-GQ C8051F700DK
8 512 39 4 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 48-QFN 336-1643-5-ND 4.85 C8051F712-GM C8051F700DK
8 512 39 4 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 48-TQFP 336-1644-ND 4.59 C8051F712-GQ C8051F700DK
®
For Digi-Reel ® information, please see page 71.
(Continued)
104 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

C8051F High Performance Mixed-Signal MCUs
NEW! Mixed Signal ISP Flash MCU Family (Cont.)
Flash
Memory
(kB)
RAM
(Bytes)
Digital
Port
I/O Pins
Timers
(16-Bit)
PCA
Channels
Serial
Buses ADC Comparators
Temperature
Range
Internal
Oscillator
MIPS
(Peak)
Package
Digi-Key
Part No.
Price
Each
Silicon Labs
Part No.
Development Kit
Part No.
8 512 39 4 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 48-QFN 336-1614-5-ND 4.34 C8051F713-GM C8051F700DK
8 512 39 4 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 48-TQFP 336-1615-ND 4.13 C8051F713-GQ C8051F700DK
8 512 39 4 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 48-QFN 336-1616-5-ND 4.08 C8051F714-GM C8051F700DK
8 512 39 4 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 48-TQFP 336-1617-ND 3.89 C8051F714-GQ C8051F700DK
8 512 39 4 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 48-QFN 336-1618-5-ND 3.83 C8051F715-GM C8051F700DK
8 512 39 4 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 48-TQFP 336-1619-ND 3.66 C8051F715-GQ C8051F700DK
16 512 29 4 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 32-QFN 336-1960-5-ND 3.28 C8051F716-GM C8051F700DK
16 512 20 4 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 24-QFN 336-1961-5-ND 2.74 C8051F717-GM C8051F700DK
16 512 17 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 20-QFN 336-1766-5-ND 4.03 C8051F800-GM C8051F800DK
16 512 17 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 24-QSOP 336-1767-5-ND 4.03 C8051F800-GU C8051F800DK
16 512 17 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 20-QFN 336-1768-5-ND 3.71 C8051F801-GM C8051F800DK
16 512 17 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 24-QSOP 336-1769-5-ND 3.71 C8051F801-GU C8051F800DK
16 512 17 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 20-QFN 336-1770-5-ND 3.38 C8051F802-GM C8051F800DK
16 512 17 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 24-QSOP 336-1771-5-ND 3.38 C8051F802-GU C8051F800DK
16 512 13 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 16-SOIC 336-1772-5-ND 3.86 C8051F803-GS C8051F800DK
16 512 13 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 16-SOIC 336-1773-5-ND 3.71 C8051F804-GS C8051F800DK
16 512 13 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 28 16-SOIC 336-1774-5-ND 3.38 C8051F805-GS C8051F800DK
16 512 17 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 20-QFN 336-1775-5-ND 3.83 C8051F806-GM C8051F800DK
16 512 17 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 24-QSOP 336-1776-5-ND 3.83 C8051F806-GU C8051F800DK
16 512 17 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 20-QFN 336-1777-5-ND 3.50 C8051F807-GM C8051F800DK
16 512 17 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 24-QSOP 336-1778-5-ND 3.50 C8051F807-GU C8051F800DK
16 512 17 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 20-QFN 336-1779-5-ND 3.18 C8051F808-GM C8051F800DK
16 512 17 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 24-QSOP 336-1780-5-ND 3.18 C8051F808-GU C8051F800DK
16 512 13 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 16-SOIC 336-1781-5-ND 3.67 C8051F809-GS C8051F800DK
16 512 13 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 16-SOIC 336-1782-5-ND 3.50 C8051F810-GS C8051F800DK
16 512 13 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 16-SOIC 336-1783-5-ND 3.18 C8051F811-GS C8051F800DK
8 512 17 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 20-QFN 336-1784-5-ND 3.42 C8051F812-GM C8051F800DK
8 512 17 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 24-QSOP 336-1785-5-ND 3.42 C8051F812-GU C8051F800DK
8 512 17 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 28 20-QFN 336-1786-5-ND 3.09 C8051F813-GM C8051F800DK
8 512 17 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 24-QSOP 336-1787-5-ND 3.09 C8051F813-GU C8051F800DK
8 512 17 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 20-QFN 336-1788-5-ND 2.79 C8051F814-GM C8051F800DK
8 512 17 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 24-QSOP 336-1789-5-ND 2.79 C8051F814-GU C8051F800DK
16 512 13 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 16-SOIC 336-1790-5-ND 3.26 C8051F815-GS C8051F800DK
16 512 13 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 16-SOIC 336-1791-5-ND 3.09 C8051F816-GS C8051F800DK
16 512 13 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 16-SOIC 336-1792-5-ND 2.79 C8051F817-GS C8051F800DK
16 512 17 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 20-QFN 336-1798-5-ND 3.23 C8051F818-GM C8051F800DK
16 512 17 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 24-QSOP 336-1793-5-ND 3.23 C8051F818-GU C8051F800DK
16 512 17 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 20-QFN 336-1799-5-ND 2.91 C8051F819-GM C8051F800DK
16 512 17 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 24-QSOP 336-1794-5-ND 2.91 C8051F819-GU C8051F800DK
16 512 17 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 20-QFN 336-1800-5-ND 2.58 C8051F820-GM C8051F800DK
16 512 17 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 24-QSOP 336-1795-5-ND 2.58 C8051F820-GU C8051F800DK
16 512 13 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 16-SOIC 336-1801-5-ND 3.06 C8051F821-GS C8051F800DK
16 512 13 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 16-SOIC 336-1802-5-ND 2.91 C8051F822-GS C8051F800DK
16 512 13 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 16-SOIC 336-1803-5-ND 2.58 C8051F823-GS C8051F800DK
8 512 13 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 16-SOIC 336-1804-5-ND 3.15 C8051F824-GS C8051F800DK
8 256 13 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 16-SOIC 336-1805-5-ND 2.98 C8051F825-GS C8051F800DK
8 256 13 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 16-SOIC 336-1806-5-ND 2.65 C8051F826-GS C8051F800DK
8 256 13 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 16-SOIC 336-1807-5-ND 2.94 C8051F827-GS C8051F800DK
8 256 13 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 16-SOIC 336-1808-5-ND 2.79 C8051F828-GS C8051F800DK
8 256 13 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 16-SOIC 336-1809-5-ND 2.47 C8051F829-GS C8051F800DK
8 256 13 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 16-SOIC 336-1810-5-ND 2.64 C8051F830-GS C8051F800DK
4 256 13 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 16-SOIC 336-1811-5-ND 2.47 C8051F831-GS C8051F800DK
4 256 13 3 3 UART, I 2 C, SPI 10-Bit 1 -40C 85C 2 25 16-SOIC 336-1812-5-ND 2.14 C8051F832-GS C8051F800DK
4 256 13 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 16-SOIC 336-1813-5-ND 2.43 C8051F833-GS C8051F800DK
4 256 13 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 16-SOIC 336-1814-5-ND 2.26 C8051F834-GS C8051F800DK
4 256 13 3 3 UART, I 2 C, SPI — 1 -40C 85C 2 25 16-SOIC 336-1815-5-ND 1.94 C8051F835-GS C8051F800DK
C
Low Power MCUs
Flash
Memory
(Bytes)
Digital
Port
I/O Pins
PCA
Channels
RAM
(Bytes)
Timers
(16-Bit)
Serial
Buses
64K 4352 24 4 6
UART, EMIF,
SMBus, 2SPI
64K 4352 24 4 6
UART, EMIF,
SMBus, 2SPI
64K 4352 16 4 6
UART, SMBus,
2SPI
32K 4352 24 4 6
UART, EMIF,
SMBus, 2SPI
32K 4352 24 4 6
UART, EMIF
SMBus, 2SPI
32K 4352 16 4 6
UART, SMBus,
2SPI
16K 768 16 4 6 UART, I 2 C, 2SPI
16K 768 16 4 6 UART, I 2 C, 2SPI
16K 768 16 4 6 UART, I 2 C, 2SPI
8K 768 16 4 6 UART, I 2 C, 2SPI
8K 768 16 4 6 UART, I 2 C, 2SPI
8K 768 16 4 6 UART, I 2 C, 2SPI
8K 768 16 4 6 UART, I 2 C, 2SPI
ADC1
10-Bit, 23-Ch.,
300sps
10-Bit, 23-Ch.,
300sps
10-Bit, 15-Ch.,
300sps
10-Bit, 23-Ch.,
300sps
10-Bit, 23-Ch.,
300sps
10-Bit, 15-Ch.,
300sps
10-Bit, 15-Ch.,
300sps
10-Bit, 15-Ch.,
300sps
12-Bit, 15-Ch.,
75sps
10-Bit, 15-Ch.,
300sps
10-Bit, 15-Ch.,
300sps
12-Bit, 15-Ch.,
75sps
12-Bit, 15-Ch.,
75sps
Comparators
Other
Internal
Oscillator
MIPS
(peak) Package
Digi-Key
Part No.
Price
Each
Silicon Labs
Part No.
Development Kit
Part No.
2
SmaRTClock; up to 23
touch sense inputs
2 25 32-LQFP 336-1466-ND 5.73 C8051F930-GQ C8051F930DK
2
SmaRTClock; up to 23
touch sense inputs
2 25 32-QFN 336-1467-ND 4.83 C8051F930-GM C8051F930DK
2
SmaRTCloc up to 15
touch sense inputs
2 25 24-QFN 336-1468-ND 4.32 C8051F931-GM C8051F930DK
2
SmaRTClock; up to 23
touch sense inputs
2 25 32-LQFP 336-1469-ND 5.08 C8051F920-GQ C8051F930DK
2
SmaRTClock; up to 23
touch sense inputs
2 25 32-QFN 336-1470-ND 4.30 C8051F920-GM C8051F930DK
2
SmaRTCloc up to 15
touch sense inputs
2 25 24-QFN 336-1471-ND 3.88 C8051F921-GM C8051F930DK
2 SmaRTClock 2 25 24-QFN 336-1850-5-ND NEW! 3.25 C8051F911-GM C8051F912DK
2 SmaRTClock 2 25 24-SOIC 336-1851-5-ND NEW! 3.40 C8051F911-GU C8051F912DK
2 SmaRTClock 2 25 24-SOIC 336-1852-5-ND NEW! 3.67 C8051F912-GU C8051F912DK
2 SmaRTClock 2 25 24-QFN 336-1846-5-ND NEW! 2.92 C8051F901-GM C8051F912DK
2 SmaRTClock 2 25 24-SOIC 336-1847-5-ND NEW! 3.08 C8051F901-GU C8051F912DK
2 SmaRTClock 2 25 24-QFN 336-1848-5-ND NEW! 3.20 C8051F902-GM C8051F912DK
2 SmaRTClock 2 25 24-SOIC 336-1849-5-ND NEW! 3.35 C8051F902-GU C8051F912DK
(Continued)
®
For Digi-Reel ® information, please see page 71.
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
105
105

Low Power MCUs (Cont.)
C8051F High Performance Mixed-Signal MCUs
C
Flash
Memory
(Bytes)
Digital
Port
I/O Pins
PCA
Channels
Comparators
RAM
(Bytes)
Timers
(16-Bit)
Serial
Buses
ADC1
Comparators
Other
Internal
Oscillator
MIPS
(peak) Package
Digi-Key
Part No.
Price
Each
Silicon Labs
Part No.
Development Kit
Part No.
8K 512 16 4 3 I 2 C, SPI, UART 10/12-Bit 1 SmaRTClock 2 25 20-QFN 336-1941-5-ND NEW! 2.96 C8051F990-GM C8051F996DK
8K 512 16 4 3 I 2 C, SPI, UART 10/12-Bit 1 SmaRTClock 2 25 20-QFN 336-1942-5-ND NEW! 2.67 C8051F991-GM C8051F996DK
8K 512 17 4 3 I 2 C, SPI, UART 10/12-Bit 1 SmaRTClock 2 25 24-QFN 336-1943-5-ND NEW! 3.11 C8051F996-GM C8051F996DK
8K 512 17 4 3 I 2 C, SPI, UART 10/12-Bit 1 SmaRTClock 2 25 24-QSOP 336-1944-5-ND NEW! 3.11 C8051F996-GU C8051F996DK
8K 512 17 4 3 I 2 C, SPI, UART 10/12-Bit 1 SmaRTClock 2 25 24-QFN 336-1945-5-ND NEW! 2.83 C8051F997-GM C8051F996DK
8K 512 17 4 3 I 2 C, SPI, UART 10/12-Bit 1 SmaRTClock 2 25 24-QSOP 336-1946-5-ND NEW! 2.83 C8051F997-GU C8051F996DK
8K 512 16 4 3 UART, I 2 C, SPI — 1 150µA/MH active, 10nA sleep 2 25 20-QFN 336-1947-5-ND NEW! 2.00 C8051F981-GM C8051F996DK
8K 512 16 4 3 UART, I 2 C, SPI 12-Bit 1 150µA/MH active, 10nA sleep 2 25 20-QFN 336-1948-5-ND NEW! 2.28 C8051F980-GM C8051F996DK
8K 512 17 4 3 UART, I 2 C, SPI 12-Bit 1 150µA/MH active, 10nA sleep 2 25 24-QFN 336-1952-5-ND NEW! 2.39 C8051F986-GM C8051F996DK
8K 512 17 4 3 UART, I 2 C, SPI 12-Bit 1 150µA/MH active, 10nA sleep 2 25 24-QSOP 336-1953-5-ND NEW! 2.39 C8051F986-GU C8051F996DK
8K 512 17 4 3 UART, I 2 C, SPI — 1 150µA/MH active, 10nA sleep 2 25 24-QFN 336-1954-5-ND NEW! 2.10 C8051F987-GM C8051F996DK
8K 512 17 4 3 UART, I 2 C, SPI — 1 150µA/MH active, 10nA sleep 2 25 24-QSOP 336-1955-5-ND NEW! 2.10 C8051F987-GU C8051F996DK
4K 512 16 4 3 UART, I 2 C, SPI 10-Bit 1 150µA/MH active, 10nA sleep 2 25 20-QFN 336-1949-5-ND NEW! 2.05 C8051F982-GM C8051F996DK
4K 512 16 4 3 UART, I 2 C, SPI — 1 150µA/MH active, 10nA sleep 2 25 20-QFN 336-1950-5-ND NEW! 1.87 C8051F983-GM C8051F996DK
4K 512 17 4 3 UART, I 2 C, SPI 10-Bit 1 150µA/MH active, 10nA sleep 2 25 24-QFN 336-1959-5-ND NEW! 2.15 C8051F988-GM C8051F996DK
4K 512 17 4 3 UART, I 2 C, SPI 10-Bit 1 150µA/MH active, 10nA sleep 2 25 24-QSOP 336-1956-5-ND NEW! 2.15 C8051F988-GU C8051F996DK
4K 512 17 4 3 UART, I 2 C, SPI — 1 150µA/MH active, 10nA sleep 2 25 24-QFN 336-1957-5-ND NEW! 1.95 C8051F989-GM C8051F996DK
4K 512 17 4 3 UART, I 2 C, SPI — 1 150µA/MH active, 10nA sleep 2 25 24-QSOP 336-1958-5-ND NEW! 1.95 C8051F989-GU C8051F996DK
2K 512 16 4 3 UART, I 2 C, SPI — 1 150µA/MH active, 10nA sleep 2 25 20-QFN 336-1951-5-ND NEW! 1.79 C8051F985-GM C8051F996DK
NEW! Wireless MCUs
Flash
Memory
(Bytes)
RAM
(Bytes)
Digital
Port
I/O Pins
Timers
(16-Bit)
PCA
Channels
Serial
Buses
64 4352 22 4 6 UART, I 2 C, SPI
64 4352 22 4 6 UART, I 2 C, SPI
64 4352 19 4 6 UART, I 2 C, SPI
32 4352 22 4 6 UART, I 2 C, SPI
32 4352 22 4 6 UART, I 2 C, SPI
32 4352 19 4 6 UART, I 2 C, SPI
16 768 15 4 6 UART, I 2 C, SPI
16 768 15 4 6 UART, I 2 C, SPI
16 768 15 4 6 UART, I 2 C, SPI
8 768 15 4 6 UART, I 2 C, SPI
8 768 15 4 6 UART, I 2 C, SPI
8 768 15 4 6 UART, I 2 C, SPI
ADC1
10-Bit, 18-Ch.,
300sps
10-Bit, 18-Ch.,
300sps
10-Bit, 15-Ch.,
300sps
10-Bit, 18-Ch.,
300sps
10-Bit, 18-Ch.,
300sps
10-Bit, 15-Ch.,
300sps
12-Bit, 11-Ch.,
75sps
12-Bit, 11-Ch.,
75sps
12-Bit, 11-Ch.,
75sps
12-Bit, 11-Ch.,
75sps
12-Bit, 11-Ch.,
75sps
12-Bit, 11-Ch.,
75sps
Internal
Oscillators
Other
Frequency
Range
(MHz)
FSK/GFS
K (kbps)
Internal
Oscillator
MIPS
(peak)
Package
Digi-Key
Part No.
Price
Each
Silicon Labs
Part No.
Development Kit
Part No.
2 RTC, CRC 240 960 256 2 25 42-QFN 336-1881-5-ND 8.18 SI1000-C-GM SI1000DK
2 RTC, CRC 240 960 256 2 25 42-QFN 336-1878-5-ND 7.72 SI1002-C-GM SI1000DK
2 RTC, CRC, DC-DC 240 960 256 2 25 42-QFN 336-1876-5-ND 7.84 SI1004-C-GM SI1000DK
2 RTC, CRC 240 960 256 2 25 42-QFN 336-1877-5-ND 7.29 SI1003-C-GM SI1000DK
2 RTC, CRC 240 960 256 2 25 42-QFN 336-1879-5-ND 7.75 SI1001-C-GM SI1000DK
2 RTC, CRC, DC-DC 240 960 256 2 25 42-QFN 336-1875-5-ND 7.38 SI1005-C-GM SI1000DK
2 RTC, CRC 240 960 256 2 25 42-QFN 336-1874-5-ND 6.72 SI1010-A-GM SI1010DK
2 RTC, CRC 240 960 256 2 25 42-QFN 336-1871-5-ND 6.31 SI1012-A-GM SI1010DK
2 RTC, CRC, DC-DC 240 960 256 2 25 42-QFN 336-1869-5-ND 6.43 SI1014-A-GM SI1010DK
2 RTC, CRC 240 960 256 2 25 42-QFN 336-1872-5-ND 6.34 SI1011-A-GM SI1010DK
2 RTC, CRC 240 960 256 2 25 42-QFN 336-1870-5-ND 5.97 SI1013-A-GM SI1010DK
2 RTC, CRC, DC-DC 240 960 256 2 25 42-QFN 336-1868-5-ND 6.07 SI1015-A-GM SI1010DK
C8051T High Performance Mixed-Signal MCUs OTP
®
Flash
Memory
(Bytes)
RAM
(Bytes)
Digital
Port
I/O Pins
Timers
(16-Bit)
Serial
Buses ADC1 DAC
PCA
Channels
Comparators
Other
MIPS
(Peak)
Package
Digi-Key
Part No.
Price
Each
Silicon Labs
Part No.
Development Kit
Part No.
16K 1280 29 4 5 UART, SMBus 10-Bit, 8-Ch., 500sps — 2 — 2 25 32-LQFP 336-1435-ND 3.49 C8051T610-GQ C8051T610DK
8K 768 17 4 3 UART, SPI, SMBus 10-Bit, 16-Ch., 500sps 10-Bit, 1-Ch. 1 VREG, LFO 2 25 20-QFN 336-1458-5-ND 1.82 C8051T630-GM C8051T630DK
8K 768 17 4 3 UART, SPI, SMBus — — 1 VREG, LFO 2 25 20-QFN 336-1459-5-ND 1.75 C8051T631-GM C8051T630DK
8K 256 8 3 3 UART, SMBus 10-Bit, 8-Ch., 500sps — 1 VREG 2 25 14-SOIC 336-1403-5-ND 1.24 C8051T600-GS C8051T600DK
8K 256 8 3 3 UART, SMBus — — 1 — 2 25 11-QFN 336-1652-5-ND 1.17 C8051T601-GM C8051T600DK
8K 256 8 3 3 UART, SMBus — — 1 — 2 25 14-SOIC 336-1653-5-ND 1.17 C8051T601-GS C8051T600DK
4K 768 17 4 3 UART, SPI, SMBus 10-Bit, 16-Ch., 500sps 10-Bit, 1-Ch. 1 VREG, LFO 2 25 20-QFN 336-1460-5-ND 1.45 C8051T632-GM C8051T630DK
4K 768 17 4 3 UART, SPI, SMBus — — 1 VREG, LFO 2 25 20-QFN 336-1461-5-ND 1.39 C8051T633-GM C8051T630DK
4K 256 8 3 3 UART, SMBus 10-Bit, 8-Ch., 500sps — 1 — 2 25 11-QFN 336-1654-5-ND 1.12 C8051T602-GM C8051T600DK
4K 256 8 3 3 UART SMBus 10-Bit, 8-Ch., 500sps — 1 — 2 25 14-SOIC 336-1655-5-ND 1.12 C8051T602-GS C8051T600DK
4K 256 8 3 3 UART, SMBus — — 1 — 2 25 11-QFN 336-1656-5-ND 1.07 C8051T603-GM C8051T600DK
4K 256 8 3 3 UART, SMBus — — 1 — 2 25 14-SOIC 336-1657-5-ND 1.07 C8051T603-GS C8051T600DK
2K 768 17 4 3 UART, SPI, SMBus — — 1 VREG, LFO 2 25 20-QFN 336-1463-5-ND 1.28 C8051T635-GM C8051T630DK
2K 256 8 3 3 UART, SMBus 10-Bit, 8-Ch., 500sps — 1 — 2 25 11-QFN 336-1658-5-ND 1.02 C8051T604-GM C8051T600DK
2K 256 8 3 3 UART, SMBus 10-Bit, 8-Ch., 500sps — 1 — 2 25 14-SOIC 336-1659-5-ND 1.02 C8051T604-GS C8051T600DK
2K 256 8 3 3 UART, SMBus — — 1 — 2 25 11-QFN 336-1660-5-ND .99 C8051T605-GM C8051T600DK
2K 256 8 3 3 UART, SMBus — — 1 — 2 25 14-SOIC 336-1661-5-ND .99 C8051T605-GS C8051T600DK
1.5K 128 6 3 3 UART, SMBus — — 1 — 2 25 11-QFN 336-1662-5-ND .90 C8051T606-GM C8051T606DK
1.5K 128 6 3 3 UART, SMBus — — 1 — 2 25 10-QFN 336-1663-1-ND* 1.19 C8051T606-M C8051T606DK
1.5K 128 6 3 3 UART, SMBus — — 1 — 2 25 10-QFN 336-1663-2-ND‡ 1150.20/1,500 C8051T606-M C8051T606DK
1.5K 128 6 3 3 UART, SMBus — — 1 — 2 25 10-MSOP 336-1664-5-ND .87 C8051T606-GT C8051T606DK
* Cut Tape ‡ Tape and Reel
®
For Digi-Reel ® information, please see page 71.
106 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Microcontroller
Development Tools
Development Kits: Complete development/prototypin system Pro totypin/demon stration oard In-system Flash prorammin In-circuit
deuin MCU coniuration wizard IDE: Source code editor, proect manaer Flash prorammer Sup ports ull-speed, non-intrusive
in-circuit deu loic Real-time reapoints, source-level deu Conditional memory watch points Memory and reister inspect/modiy
Sinle-step and animated execution modes Vari ale watch window
Description
Digi-Key
Part No.
Price
Each
Silicon Labs
Part No.
Development Kit or F005/006/007 336-1188-ND 69.00 C8051F005DK
Development Kit or F020/F021/F022/F023 336-1200-ND 79.00 C8051F020DK
Development Kit or F040/F041/F042/F043 336-1205-ND 179.00 C8051F040DK
Development Kit or F060/F062/F063 336-1214-ND 179.00 C8051F060DK
Evaluation Kit or C8051F064 336-1219-ND 99.00 C8051F064EK
Development Kit or-F120/21/22/23/24/25/26/27 336-1224-ND 99.00 C8051F120DK
Development Kit or C8051F206 336-1237-ND 69.00 C8051F206DK
Development Kit or F220/221/226/230/231/236 336-1241-ND 69.00 C8051F226DK
Development Kit or F300/301/302/303/304/305 336-1246-ND 69.00 C8051F300DK
Development Kit or C8051F310/F311 336-1253-ND 69.00 C8051F310DK
Development Kit or C8051F320/F321 336-1260-ND 99.00 C8051F320DK
Development Kit or C8051F326/7 336-1306-ND 99.00 C8051F326DK
Development Kit or C8051F330/F331 336-1264-ND 69.00 C8051F330DK
Development Kit or C8051F336 336-1430-ND 99.00 C8051F336DK
Development Kit or C8051F34X 336-1307-ND 99.00 C8051F340DK
Development Kit or F350/351/352/353 336-1083-ND 99.00 C8051F350DK
Development Kit or C8051F360 Family 336-1410-ND 99.00 C8051F360DK
Development Kit or C8051F700 Family 336-1635-ND◆ NEW! 99.00 C8051F700DK
Board Taret/Proto with C8051F360 336-1412-ND 50.00 C8051F360-TB
Development Kit or C8051F41X 336-1314-ND 99.00 C8051F410DK
Evaluation Kit or C8051F411 336-1317-ND 29.00 C8051F411EK
Board Prototype with C8051F500 336-1526-ND 50.00 C8051F500-TB
Board Prototype with C8051F700 336-1637-ND◆ NEW! 49.00 C8051F700-TB
Development Kit or C8051F50X 336-1527-ND 99.00 C8051F500DK
Development Kit or C8051F53XA, C8051F52XA 336-1488-ND 99.00 C8051F530ADK
Board Taret/Proto with C8051F530A 336-1489-ND 50.00 C8051F530A-TB
Development Kit or C8051F540 336-1669-ND◆ 99.00 C8051F540DK
Board Prototype with C8051F540 336-1672-ND◆ 50.00 C8051F540-TB
Development Kit or C8051F560 336-1691-ND◆ 99.00 C8051F560DK
Board Prototype with C8051F560 336-1694-ND◆ 50.00 C8051F560-TB
Board Prototype with C8051F930 336-1853-ND NEW! 51.25 C8051F912-TB
Development Kit or C8051F91X, C8051F90X 336-1854-ND NEW! 99.00 C8051F912DK
Development Kit or C8051T60X MCUS 336-1404-ND 99.00 C8051T600DK
Board Dauhter For C8051T600E 336-1665-ND◆ 9.00 C8051T600EDB
Development Kit or C8051T606 336-1666-ND◆ 99.00 C8051T606DK
Development Kit or C8051T61X MCUS 336-1443-ND 129.00 C8051T610DK
Evaluation Board or C8051F800 336-1796-ND NEW! 49.00 C8051F800-TB
Development Kit or C8051F800 336-1797-ND NEW! 99.00 C8051F800DK
Development Kit or C8051F996 336-1963-ND NEW! 99.00 C8051F996DK
Dauhter Board T610 24QFN Socet 336-1507-ND 49.00 C8051T610DB24
Dauhter Board T610 28QFN Socet 336-1506-ND 49.00 C8051T610DB28
Dauhter Board T610 32TQFP Socet 336-1505-ND 25.00 C8051T610DB32
Development Kit or C8051T630 Family 336-1464-ND 149.00 C8051T630DK
Board Socket Daughter 20-QFN 336-1465-ND 45.00 C8051T630DB20
Development Kit or C8051F920,F921,F930,F931 336-1473-ND 99.00 C8051F930DK
Board Taret/Proto with C8051F930 336-1472-ND 51.25 C8051F930-TB
USB Debug Adapter 336-1182-ND 35.00 DEBUGADPTR1-USB
ToolStic C8051F300 Evaluation Board 336-1278-ND 11.63 TOOLSTICK-EK
ToolStick Base Adapter 336-1345-ND 18.63 TOOLSTICKBA
ToolStic C8051F320/321 Dauhter Card 336-1480-ND 10.50 TOOLSTICK321DC
ToolStic C8051F326/327 Dauhter Card 336-1481-ND 10.50 TOOLSTICK327DC
ToolStic C8051F330 Dauhter Card 336-1346-ND 10.50 TOOLSTICK330DC
ToolStic C8051F34x Dauhter Card 336-1482-ND 10.50 TOOLSTICK342DC
ToolStic C8051F362 Dauhter Card 336-1411-ND 10.50 TOOLSTICK360DC
ToolStic C8051F336 Dauhter Card 336-1431-ND 10.50 TOOLSTICK336DC
ToolStic C8051F500 Dauhter Card F500 336-1528-ND 10.50 TOOLSTICK502DC
ToolStic C8051F530 Dauhter Card 336-1487-ND 10.50 TOOLSTICK530ADC
ToolStic C8051F540 Dauhter Card 336-1717-ND◆ 10.50 TOOLSTICK540DC
ToolStic C8051F560 Dauhter Card 336-1719-ND◆ 10.50 TOOLSTICK560DC
Dauhter Card ToolStic or F582 336-1584-ND◆ NEW! 10.50 TOOLSTICK582DC
Dauhter Card ToolStic or F912 336-1866-ND NEW! 10.50 TOOLSTICK912DC
Platorm Proram ToolStic or F588 336-1585-ND◆ NEW! 69.00 TOOLSTICK588PP
Dauhter Card C8051F8XX 336-1822-ND NEW! 9.90 TOOLSTICK800DC
ToolStic C8051F931 Dauhter Card 336-1474-ND 18.63 TOOLSTICK931DC
ToolStic C8051F990 Dauhter Card 336-1964-ND NEW! 10.50 TOOLSTICK990DC
University Starter Kit and Boo 336-1432-ND 55.00 MCUNIVERSITKIT
University ToolStic Starter Kit 336-1433-ND 40.00 TOOLSTICKUNISK
Digi-Key
Price Silicon Labs
Description
Part No.
Each Part No.
University ToolStick Daughter Card 336-1434-ND 25.00 TOOLSTICKUNIDC
University Prototyping Board 336-1542-ND 15.00 UNIPROTOBOARD
Prototyping Board 336-1543-ND 20.00 ABO
ToolStick Debug Adapter 336-1347-ND 9.50 TOOLSTICKDA
ToolStic Starter Kit 336-1348-ND 26.56 TOOLSTICKSK
ToolStic Adapter Proram F300 336-1444-ND 69.00 TOOLSTICK300PP
ToolStic Adapter Proram F310 336-1445-ND 69.00 TOOLSTICK310PP
ToolStick Adapter Program F311 336-1446-ND 69.00 TOOLSTICK311PP
ToolStic Adapter Proram F316 336-1447-ND 69.00 TOOLSTICK316PP
ToolStic Adapter Proram F320 336-1448-ND 69.00 TOOLSTICK320PP
ToolStick Adapter Program F321 336-1449-ND 69.00 TOOLSTICK321PP
ToolStic Adapter Proram F326 336-1450-ND 69.00 TOOLSTICK326PP
ToolStic Adapter Proram F330 336-1451-ND 69.00 TOOLSTICK330PP
ToolStic Adapter Proram F330 336-1541-ND 35.00 TOOLSTICK330DPP
ToolStic Adapter Proram F340 336-1452-ND 69.00 TOOLSTICK340PP
ToolStic Adapter Proram F360/363 336-1483-ND 69.00 TOOLSTICK360PP
ToolStic Adapter Proram F410 336-1453-ND 69.00 TOOLSTICK410PP
ToolStick Adapter Program F411 336-1454-ND 69.00 TOOLSTICK411PP
ToolStic Adapter Proram F500 336-1530-ND 69.00 TOOLSTICK500MPP
ToolStic Adapter Proram F502 336-1532-ND 69.00 TOOLSTICK502MPP
ToolStic Adapter Proram F520 336-1455-ND 69.00 TOOLSTICK520PP
ToolStic Adapter Proram F530MPP 336-1456-ND 69.00 TOOLSTICK530MPP
ToolStic Adapter Proram F530TPP 336-1457-ND 69.00 TOOLSTICK530TPP
ToolStic Adapter Proram F542 336-1718-ND 69.00 TOOLSTICK542PP
ToolStic Adapter Proram F91X 336-1867-ND NEW! 69.00 TOOLSTICK912UPP
ToolStic Adapter or C8051F34X 336-1748-ND◆ NEW! 69.00 TOOLSTICK342MPP
ToolStic Prorammin Platorm F500 336-1529-ND 69.00 TOOLSTICK500QPP
ToolStic Prorammin Platorm F502 336-1531-ND 69.00 TOOLSTICK502QPP
ToolStic Prorammin Platorm F716 336-1966-ND NEW! 10.50 TOOLSTICK716MPP
ToolStic Prorammin Platorm F717 336-1967-ND NEW! 69.00 TOOLSTICK717MPP
ToolStick Programming Platform F8XX 336-1824-ND NEW! 69.00 TOOLSTICK800QPP
ToolStick Programming Platform F8XX 336-1825-ND NEW! 69.00 TOOLSTICK800SPP
ToolStic Prorammin Platorm F930 336-1477-ND 69.00 TOOLSTICK930QPP
ToolStic Prorammin Platorm F930 336-1478-ND 69.00 TOOLSTICK930MPP
ToolStic Prorammin Platorm F931 336-1479-ND 69.00 TOOLSTICK931PP
ToolStic Prorammin Platorm F990 336-1965-ND NEW! 69.00 TOOLSTICK990MPP
CAP TOUCH SENSE Start Kit 336-1475-ND 36.90 CAPTOUCHSENSESK
CAP TOUCH SENSE Dauhter Card 336-1476-ND 20.00 CAPTOUCHSENSEDC
Daughter Card Socket MSOP 336-1667-ND 19.00 C8051T606TDB
Dauhter Card Socet 10-QFN 336-1668-ND 29.00 C8051T606DB
Development Kit Keyoard 336-1620-ND NEW! 52.50 KEBOARDEK
Evaluation Board Proximity F8XX SI1120 336-1816-ND NEW! 39.99 FRONTPANEL2EK
Evaluation Board IR Slider SI1120 336-1817-ND NEW! 49.99 IRSLIDEREK
Evaluation Board ITO Film F800 336-1818-ND NEW! 79.99 KEMATEK
Optical Proximity Detector 336-1819-5-ND◆ NEW! 2.38 SI1102-A-GM
Proximity Ambient Light Sensor with PWM Output 336-1820-5-ND◆ NEW! 2.64 SI1120-A-GM
Development Kit or SI101X 336-1880-ND◆ NEW! 99.00 SI1000DK
Development Kit or SI101X 336-1873-ND◆ NEW! 99.00 SI1010DK
Evaluation Kit or SI1120 336-1821-ND NEW! 199.99 SI1120EK
Evaluation Kit or SI1102 336-1826-ND NEW! 39.99 SI1102EK
Evaluation Board or SI1000 336-1892-ND◆ NEW! 70.00 1000-TCB1C915
Evaluation Board or SI1000 336-1893-ND◆ NEW! 70.00 1000-TCB1C470
Evaluation Board or SI1002 336-1890-ND◆ NEW! 70.00 1002-TCB1D868
Evaluation Board or SI1002 336-1891-ND◆ NEW! 70.00 1002-TCB1D434
Evaluation Board or SI1004 336-1888-ND◆ NEW! 70.00 1004-TCB1D868
Evaluation Board or SI1004 336-1889-ND◆ NEW! 70.00 1004-TCB1D434
Evaluation Board or SI1010 336-1886-ND◆ NEW! 70.00 1010-TAB1C915
Evaluation Board or SI1010 336-1887-ND◆ NEW! 70.00 1010-TAB1C470
Evaluation Board or SI1012 336-1884-ND◆ NEW! 70.00 1012-TAB1D868
Evaluation Board or SI1012 336-1885-ND◆ NEW! 70.00 1012-TAB1D434
Evaluation Board or SI1014 336-1882-ND◆ NEW! 70.00 1014-TAB1D868
Evaluation Board or SI1014 336-1883-ND◆ NEW! 70.00 1014-TAB1D434
Demo Touch Front Panel or C8051F700 336-1845-ND NEW! 39.99 FRONTPANEL1EB
Slider Evaluation Kit or C8051F990 336-1962-ND◆ NEW! 29.99 F990SLIDEREK
Wireless M-Bus Development Kit 336-1896-ND NEW! 99.00 WIRELESSMBUSEK
◆ RoHS Compliant
C
Microcontroller Reference Designs
Description
Digi-Key
Part No.
Price
Each
Silicon Labs
Part No.
Stepper Motor Reference Design 336-1319-ND 119.00 STEPPER-MTR-RD
USB Mass Storage Reference Design 336-1320-ND 99.00 USB-MSD-RD
Temperature Compensated RTC Reference Design 336-1351-ND 99.00 TEMPCOMPRTC-RD
Multi-Phase POL Reference Design 336-1323-ND 199.00 MULTIPHSPOL-RD
PoE with Voice Transmission Reference Design 336-1326-ND 69.00 POE-VOICE-RD
Sensorless BLDC Motor Reference Design 336-1329-ND 119.00 SLBLDC-MTR-RD
CAN On-Board Diagnostic Reference Design 336-1559-ND 69.00 CAN-OBD-RD
Voice Recorder Reference Design Kit 336-1315-ND 49.00 VOICE-RECORD-RD
Reference Design Wireless to USB 336-1865-ND NEW! 49.00 RF-TO-USB-RD
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
107
107

F1
0
+
V
>
>
OK >
>
EXIT
C
Zoom Starter Development Kits
Low Cost Development System
Sharp Zoom Starter Development Kit Includes
Card Enine LH79520, LH79524, LH7A400, LH7A404, SH7727, SH7760 Application
oard Stan dard peripheral connectors sup portin Ethernet, LCD, Audio In/
Out, Serial, Compact Flash Reer to Card Enine or support o peripherals Power
supply and adapters or UK, US, EU, Japan Serial cale Lo ic Loader oot load er/
monitor in ex ecutale ormat BSPs availale dependin on Card Enine pur chased
GNU cross-development tools compiler, liner, assemler, deuer are included or
Linux development systems
Marvell Zoom Starter Kit:
Standard peripheral connectors supportin Ethernet, LCD, Audio In/Out, Serial, Compact Flash, USB Host, USB device
Power supply and adapters or UK, US, EU, Japan, serial cale Lo ic Loader ootloader/monitor in executale
ormat GNU cross-development tools compiler, liner, assemler, deuer are included. Kit contents Card Enine,
Application Board, Ethernet cross-over cale, Serial cale, Power supply/adapter Europe, Japan, UK, and US, QuicStart
Guide, Logic Starter CD, EULA • The PXA270 Card Enine is a complete System on Module SOM that oers essential
eatures or handheld and emedded networin applications Use o custom aseoards maes the Card Enine the
ideal oundation or OEMs developin handheld and compact products Provides a common reerence pin-out on
its expansion connectors, which enables easy scalability to next generation microprocessor Card Engines when new
functionality or performance is required.
Description
Digi-Key
Part No.
Sharp
Price
Each
Logic
Part No.
oom Starter Kit or LH7A404 460-3480-ND 457.65 SDK-LH7404-12-6432R-A
oom Starter Kit or LH79524 460-3474-ND 445.50 SDK-LH79524-10-3216R-A
Marvell
oom Starter Kit or PXA270 460-3472-ND 572.40 SDK-PXA270-520-10-6432R
Card Enine or PXA270 460-3479-ND 289.67 CENGPXA270-520-10-504HCR
Zoom Display Kits
The oom Display Kits are ready-to-use LCDs that can e immediately connected to the oom Application Development
Kits. The display its includes Bezel Bacliht 4 Wire Resistive Touch Panel Rion Cale The 4.3 display it
also includes 4-wire resistive touch panel and an LCD connector built into the PCB
Description
4.3 WQVGA 480 x 272,
Widescreen Color TFT
Sharp LCD
Part No.
Digi-Key
Part No.
NEW! DLP ® LightCommander
Development Kits
Price
Each
Logic
Part No.
LQ043T1DG01 460-3485-ND NEW! 282.75 LCD-4.3-WQVGA-10R
6.4 VGA 640 x 480, Color TFT LQ64D343 460-3471-ND 882.70 LCD-6.4-VGA-10R
DLP LightCommander is a highly versatile and easy-to-use development kit for incorporating DLP technology into light
processing applications. The modular architecture includes an optical light engine, industry standard interfaces, and
application software to expedite system development requiring high-speed spatial light modulation.
Features: XGA 1024 x 768 resolution DMD Core DLP optical module Solid state illumination module RGB
LED and IR LED DLP micromirror control inary patterns, 8-it ray scale, and video proection mode Controller
Board External Interfaces: Three user sync ports HDMI input USB control input Controller Board Internal
Interfaces: Parallel RGB 8-bit interface SPI serial interace LED control interface Optical Interfaces and Mounts:
Interchaneale lens mount Nion F-Mount Defined illumination interface Flexible optical mount options Lens:
Nion AF NIKKOR 50mm /1.8D lens Power: Three internal power supplies Cables: USB A to mini-B cable DVI to
HDMI cale Power cables Software: PC-based control software
The DLP LightCommander includes both the DMD Board and Controller Board. The Controller Board is available for
purchase in production volumes.
460-3493-ND DLP-LC-DLP5500-10R DLP LihtCommander ............................................$2867.48
460-3494-ND DLP-CB-DLPC200-10R Controller Board ..................................................$1903.58
NEW! Zoom OMAP36x Mobile
Development Platforms
The oom OMAP36X Moile Development Platorm MDP is a ully-eatured evaluation
platorm uilt around the Texas Instruments TI OMAP3630 applications processor.
Enclosed within a ull-ody case, the oom OMAP36x MDP addresses essential needs
o the open-source community and hih-level operatin system HLOS developers. A
4.1 WVGA capacitive touch screen and ull QWERT eypad allow or easy interacin.
Wireless 802.00, Bluetooth, and FM networs create numerous opportunities or
connectivity. Expansion slots or MMC/SD and SIM cards provide access to additional storae and eatures. An
external deu oard puts ull development control within reach. At the heart o the oom OMAP36x MDP is the Texas
Instruments OMAP3630 applications processor that interates powerul 720p multimedia, 3D raphics, and 8MP imain
capabilities with the high-performance ARM® Cortex-A8 core.
! @ 1 2 3 $ % & [ ]
Q W E R T Y U I O P
- = 4 5 6 : “ ‘
A S D F G H J K L
7 8 9 # / , ;
Z X C
B N M . CAP
F2 F3
460-3490-ND SOMXOMAP3630-10-1980AFCR-A .............................................$383.40
460-3491-ND MDP-XOMAP3630-10-1024512R .............................................$1625.63
NEW! Zoom Development Kits
The oom OMAP35x Torpedo Development Kit Includes Product-ready Torpedo SOM 4.3 WQVGA LCD with
touchscreen Ready to run Board Support Pacaes BSPs
Features:
Interated LCD, touch, and acliht connector or optional oom Display Kits 4-wire resistive touchscreen Stereo
input and output jacks One RJ45 Ethernet ac connector with manetics application/deu Two MC/SD card slots
One USB 2.0 hih-speed On-the-Go device Three USB 2.0 hih-speed host ports 115.2ps RS-232 deu serial
port Connectors or JTAG and ETM interaces LogicLoader ootloader/monitor Windows® Emedded CE 6.0
BSP Open source Linux BSPs.
The OMAP35x System on Module SOM is a compact, product-ready hardware and sotware solution that ast orwards
embedded designs.
Features: Product-ready System on Module with a TI OMAP 3 processor runnin up to 600MHz Compact form factor
SOM-LV Type III 31.2 x 76.5 x 7.4mm
Description
Digi-Key
Part No.
NEW! Zoom AM3517
eXperimenter Kit
Price
Each
Logic
Part No.
Zoom OMAP35x Torpedo Development Kit 460-1033-ND 1105.00 SDK-OMAP3530-20-128256R
System on Module LV OMAP3530 460-3484-ND 441.45 SOMOMAP3530-10-1672IFCR
NEW! Zoom OMAP-L138
System on Module (SOM)
The OMAP-L128 SOM-M1 is ideal for applications that require high-speed data transfer and high-capacity storage, such
as test and measurement, public safety radios, music effects and intelligent occupancy sensors. The OMAP-L138 offers a
universal parallel port uPP and is the irst TI device with an interated Serial Advanced Technoloy Attachment SATA
interface. For medical, industrial, audio, and communications products, the OMAP-L138 SOM-M1 allows for powerful
versatility, lon-lie, and reener products. The OMAP-L138 System on Module SOM is a compact, product-ready
hardware and software solution that fast forwards embedded designs while reducing risk and controlling cost.
460-3488-ND SOMXC6748-10-1602AHCR ..................................................$218.95
460-3492-ND SOMXOMAPL138-10-1602AHCR ..............................................$229.10
This oom Development Kit provides a product-ready hardware and sotware platorm or evaluatin the unctionality o
the Texas Instruments TI AM3517 processor and the Loic System on Module SOM. oom Am3517 eXperimenter
Kit contains AM3517 SOM-M2 eXperimenter aseoard 5V power supply with US, UK, Japan, and Europe power
adapters Serial cale null-modem USB A to mini-B cale
460-3486-ND SDK-AM3517-10-256512R .................................................................... $332.05
BlueStreak MCU/SoC
The 16/32 it BlueStrea MCU/SoCs oer hiher perormance than ordinary 16-it MCU utilizin the ARM7TDMI core with
32KB o on-chip SRAM, color and rayscale LCD controller, plus three UARTs, SPI, CAN 2.0B, three 16-it Counter/Timers,
A/D Converter, Watchdo Timer and Low Voltae Detector, they are an excellent solution to speed-versus-cost concerns.
Applications include GPS, PDA, Printers/Copiers, Security Control Panels, and White Goods. The 32-it series o BlueStrea
MCU/SoCs eins with the LH795x and LH754xx, which comine a 32-it ARM7TDMI RISC core with 8KB Cache, MMU,
color LCD controller, and 32KB SRAM. Also included are a numer o essential peripherals such as a DMA Controller, Serial
and Parallel Interaces, Inrared Support, Counter/Timers, Real Time Cloc, Watchdo Timer, Pulse Width Modulators
and an on-chip Phase Loc Loop. For more power, the LH7A40x SoCs uild on this asic eature set with 80KB o SRAM,
ARM9 cores and add hihly-desired unctionality lie USB and MMC. With their hih perormance and interation, the
32-bit BlueStreak devices are a great choice as a basis for handheld devices like GPS, Games, PDAs, Pocket PCs, and
Media Players.
Features: Operating Temperature Industrial -40C 85C VCC 1.8V SPI es WDT es JTAG es
Memory Size
RAM Bytes
GP
I/O Pins UART CAN DMA USB Microwire
Timer/ Counters
16-bit PWM ADC
LCD
Controller
Clock Speed
(MHz)
Package
Digi-Key
Part No.
Price
Each
Sharp
Part No.
32K
76 3 2.0B 4-Channel — es 3 3 8-Ch, 10-Bit Gray 70 144-TQFP 425-1860-ND 12.10 LH75400N0M100C0
86 3 w/IrDA — 4-Channel v2.0 es 3 3 10-Ch, 10-Bit Color 77.4 176-LQFP 425-1866-ND 20.38 LH79525N0M100A0
80K
60 3 w/IrDA — 10-Channel v2.0 es 3 2 — Color 200 256-CABGA 425-1867-ND 24.95 LH7A400N0E000B3A
64 3 w/IrDA — 12-Channel v2.0 es 3 2 10-Ch, 10-Bit Color 200 324-CABGA 425-1868-ND 35.15 LH7A404N0E000B0A
108 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

BASIC Stamp ® Microcontrollers
Features:
A BASIC Stamp is a sinle-oard computer that runs the Parallax PBASIC lanuae interpreter in its microcontroller. The
developer’s code is stored in an EEPROM, which can also be used for data storage.
The PBASIC lanuae has easy-to-use commands or asic I/O, lie turnin devices on or o, interacin with sensors, etc.
More advanced commands let the BASIC Stamp module interace with other interated circuits, communicate with each
other, and operate in networks.
The BASIC Stamp microcontroller has prospered in hoy, lower-volume enineerin proects and education due to ease o
use and a wide support base of free application resources.
Released
Products
Package
Package Size
(L x W x H)
Environment◊
Microcontroller
Rev.D / BS1-IC BS2-IC BS2e-IC BS2sx-IC BS2p24-IC BS2p40-IC BS2pe-IC BS2px-IC
PCB with Proto/
14-pin SIP
2.5 x 1.5 x 0.5/
1.4 x 0.6 x 0.1
0C 70C
32F 158F‡
Microchip
PIC16C56a
Javelin
Stamp
Module
24-pin DIP 24-pin DIP 24-pin DIP 24-pin DIP 40-pin DIP 24-pin DIP 24-pin DIP 24-pin DIP
1.2 x 0.6
x 0.4
0C 70C
32F 158F‡
Microchip
PIC16C57c
1.2 x 0.6
x 0.4
0C 70C
32F 158F
Ubicom
SX28AC
1.2 x 0.6
x 0.4
0C 70C
32F 158F
Ubicom
SX28AC
1.2 x 0.6
x 0.4
0C 70C
32F 158F
Ubicom
SX48AC
2.1 x 0.6
x 0.4
0C 70C
32F 158F
Ubicom
SX48AC
1.2 x 0.6
x 0.4
0C 70C
32F 158F
Ubicom
SX48AC
1.2 x 0.6
x 0.4
0C 70C
32F 158F
Ubicom
SX48AC
1.24 x 0.6
x 0.45
0C 70C
32F 158F
Ubicom
SX48AC
Processor Speed 4 MHz 20 MHz 20 MHz 50 MHz 20MHz Turo 20 MHz Turo 8 MHz Turo 32 MHz Turo 25 MHz Turo
Program
Execution Speed
RAM Size
2,000
Instructions/sec.
16 Bytes 2 I/O,
14 Variale
4,000
Instructions/
sec.
32 Bytes 6 I/O,
26 Variale
4,000
Instructions/
sec.
32 Bytes 6 I/O,
26 Variale
10,000
Instructions/
sec.
32 Bytes 6 I/O,
26 Variale
12,000
Instructions/
sec.
38 Bytes
12 I/O, 26
Variale
12,000
Instructions/
sec.
38 Bytes
12 I/O, 26
Variale
6,000
Instructions/
sec.
38 Bytes
12 I/O, 26
Variale
19,000
Instructions/
sec.
38 Bytes
12 I/O, 26
Variale
8,500
Instructions/
sec.
Scratch Pad RAM N/A N/A 64 Bytes 64 Bytes 128 Bytes 128 Bytes 128 Bytes 128 Bytes N/A
EEPROM
(Program) Size
Number of I/O
pins
Voltage
Requirements
Current Draw
@ 5V
Source / Sink
Current per I/O
Source / Sink
Current per unit
PBASIC
Commands▲
PC Programming
Interface
Windows Text
Editor
256 Bytes,
80
Instructions
8
2K Bytes,
500
Instructions
16 2 Dedicated
Serial
8 x 2K Bytes,
4,000
Instructions
16 2
Dedicated
Serial
8 x 2K Bytes,
4,000
Instructions
16 2
Dedicated
Serial
8 x 2K Bytes,
4,000
Instructions
16 2
Dedicated
Serial
8 x 2K Bytes,
4,000
Instructions
32 2
Dedicated
Serial
16 x 2K Bytes
16K or
source
16 2
Dedicated
Serial
8 x 2K Bytes,
4000
Instructions
16 2
Dedicated
Serial
32,768 Bytes
32,768 Bytes
5 15VDC 5 15VDC 5 12VDC 5 12VDC 5 12VDC 5 12VDC 5 12VDC 5 12VDC 5 24VDC
1mA Run /
25A Sleep
3mA Run /
50A Sleep
20mA Run /
200A Sleep
60mA Run /
500A Sleep
40mA Run /
350A Sleep
40mA Run /
350A Sleep
15mA Run /
36A Sleep
55mA Run /
450A Sleep
16
80mA Run /
No Sleep
20mA / 25mA 20mA / 25mA 30mA / 30mA 30mA / 30mA 30mA / 30mA 30mA / 30mA 30mA / 30mA 30mA / 30mA 30mA / 30mA
40mA / 50mA
40mA / 50mA
per 8 I/O pins
60mA / 60mA
per 8 I/O pins
60mA / 60mA
per 8 I/O pins
60mA / 60mA
per 8 I/O pins
60mA / 60mA
per 8 I/O pins
60mA / 60mA
per 8 I/O pins
60mA / 60mA
per 8 I/O pins
60mA / 60mA
per 8 I/O pins
32 42 45 45 61 61 61 63 0 Java
Serial with BS1
Serial Adapter
Stampw.exe
v2.1 and up
Serial Port
9600 aud
Stampw.exe
v1.04 and up
Serial Port
9600 aud
Stampw.exe
v1.096 and up
Serial Port
9600 aud
Stampw.exe
v1.091 and up
Serial Port
9600 aud
Stampw.exe
v1.1 and up
Serial Port
9600 aud
Stampw.exe
v1.1 and up
Serial Port
9600 aud
Stampw.exe
v1.33 and up
◊ 70 Non-condensin Humidity ‡ Industrial Models Availale, -40C 85C -40F 185F. Usin PBASIC 2.5 or BS2-type models.
Serial Port
19200 aud
Stampw.exe
v2.2 and up
Serial Port
28800 aud
Javelin Stamp
IDE
SOUT
SIN
ATN
VSS
P0
P1
P2
P3
P4
1
2
3
4
5
6
P5 10
P6 11
P7 12
GND
VDD
7 OUT
18
8
9
NC VDD
NC WP
NC SCL
VSS SDA
24LC16B/ISN
EEPROM
1
2
3
45678
9
10
11
12
13
14
20-MHz
Res.
VSS
VSS
VDD
VDD
SDA
SCL
RX
TX
P0
P1
P2
P3
P4
VSS
10kΩ
PBASIC 2CI/SS Interpreter Chip
Parallax custom PIC16F57-I/SS
RES 28
XO XI 27
P15 25
26
P14
P13 23
24
P12
22
P11
P10
20
21
P9
P8 18
19
P7 17
P6
P5 15
16
OUT IN
GND GND
GND GND
NC NC
LM2936 5V Reg.
15µF, 16V
24
VIN
23 VSS
22
21
20
19
17
16
RES
VDD
P15
P14
P13
P12
P11
15 P10
14 P9
13 P8
C
Description
Digi-Key
Part No.
BASIC Stamp Modules
Price Each
1 5 10 25
BS1-IC BASIC Stamp Module STAMP1-ND 29.00 27.55 26.10 24.65
BS2-IC BASIC Stamp Module STAMP2-ND 49.00 46.55 44.10 41.65
BASIC Stamp 2e Module BS2E-IC-ND 54.00 51.30 48.60 45.90
BASIC Stamp 2sx Module BS2SX-IC-ND 59.00 56.05 53.10 50.15
BASIC Stamp 2p24 pin Module BS2P24-IC-ND 79.00 75.05 71.10 67.15
BASIC Stamp 2p40 pin Module BS2P40-IC-ND 89.00 84.55 80.10 75.66
BASIC Stamp 2pe Module BS2PE-IC-ND NEW! 75.00 71.25 67.50 63.75
BASIC Stamp 2px Module BS2PX24-ND NEW! 79.00 75.05 71.10 67.15
BASIC Stamp Javelin Module JS1-IC-ND 89.99 85.49 81.00 76.50
BASIC Stamp Starter Kits
BASIC Stamp 1 Starter Kit 27205-ND 59.99 56.99 54.00 51.00
BASIC Stamp 2OEM Module Kit 27291-ND 30.99 29.44 27.90 —
BASIC Stamp Discovery Kit 27207-ND NEW! 159.99 151.99 144.00 136.00
Professional Development Board 28138-ND NEW! 159.99 151.99 144.00 136.00
Prototype and Development Boards
BASIC Stamp Super Carrier Board 27130-ND 19.99 18.99 18.00 17.00
Board of Education 28150-ND 69.99 66.49 63.00 59.50
BS1-IC Carrier Board STAMP1C-ND 4.99 4.74 4.63 4.37
BS2-IC Carrier Board STAMP2C-ND 15.99 15.19 14.40 13.60
BASIC Stamp Accessory Modules
BASIC Stamp 1 Serial Adapter 27111-ND 4.99 — — —
Motor Mind B 27961-ND 29.99 — — —
PWMPAL 4 Output Channels 28020-ND 29.99 — — —
DS2760 Thermocouple Kit 28022-ND 34.99 — — —
Application Kits
Parallax Standard Servo Motor 900-00005-ND 12.99 — — —
Little Step U-Stepper Motor Controller 27938-ND 69.99 66.49 63.00 61.24
Books
BASIC Stamp Manual Version 2.0 27218-ND 25.99 24.69 23.40 22.10
Parallax CD-ROM 27000-ND 1.99 1.89 1.80 1.70
Description
RoHS Compliant
Digi-Key
Part No.
Stamps in Class Educational Kits †
† Reuires the Board o Education Full Kit or BASIC Stamp II Starter Kit
Price Each
1 5 10 25
Understandin Sinals Kit 28119-ND 159.99 151.99 144.00 139.99
Whats a Microcontroller Parts Kit and Text 28152-ND 69.99 66.49 63.00 59.50
Rootics Parts Kit and Text 28154-ND 89.99 85.49 81.00 76.50
Boe-Bot Full Kit 28132-ND 159.99 151.99 144.00 136.00
Boe-Bot Root Kit, USB Version 28832-ND NEW! 159.99 151.99 144.00 136.00
Basic Analo and Diital Parts Kit and Text 28155-ND 49.99 47.49 45.00 42.50
Parallax USB Oscilloscope 28014-ND NEW! 139.99 132.99 126.00 119.00
Board o Education USB, Full Kit
(No power supply is included)
28803-ND NEW! 99.99 94.99 90.00 85.00
NEW! Sensors and Accessories NEW!
Serial LCD, 2 Rows X 16 Characters Baclit 27977-ND 29.99 28.49 27.00 26.24
Serial LCD, 4 Rows X 20 Characters Baclit 27979-ND 39.99 37.91 36.00 34.99
PING Ultrasonic Distance Sensor 28015-ND 29.99 28.49 27.00 25.50
Sensirion Temperature/Humidity Sensor 28018-ND 35.99 34.19 33.74 —
RFID Reader Module 28140-ND 39.99 — — —
RFID 54mm X 85mm Rectanle Ta 28141-ND .99 .94 .90 .85
Hitachi ® HM55B Compass Module 29123-ND 29.99 28.49 27.00 25.50
FlexiForce Sensor Kit, 25ls. 30056-ND 25.99 — — —
PIR Passive Inra-Red Sensor 555-28027-ND 9.99 9.49 9.00 8.50
PING Bracet Kit 570-28015-ND 19.99 — — —
2X16 Parallel LCD 603-00006-ND 29.99 28.49 27.00 26.24
Piezo Film Vira Ta Mass 605-00004-ND 2.01 — — —
Solderless Breadboard 700-00012-ND 3.99 3.79 3.60 3.49
9VDC 300mA Power Supply 750-00008-ND 5.99 5.69 5.62 —
7.5V 1A Power Supply 750-00009-ND 10.99 10.44 10.30 —
USB A to Mini B Retractable Cable 805-00010-ND 4.99 4.74 4.50 4.25
14 inch LCD Extension Cable 805-00012-ND 2.79 2.65 2.51 2.44
Continuous Rotation Servo 900-00008-ND 12.99 12.34 11.70 11.37
NEW! Programmable Logic Controller — RoHS Compliant NEW!
BASIC Stamp PLC Pacae 30064-ND 199.99 — — —
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
109
109

Propeller and SX Chips
Propeller Chip: The Propeller Chip makes it easy to rapidly develop embedded applications. Its eight processors
(cogs) can operate simultaneously, either independently or cooperatively, sharing common resources
through a central hub. The developer has full control over how and when each cog is employed; there is no
compiler-driven or operating system-driven splitting of tasks among multiple cogs. A shared system clock keeps
each cog on the same time reference, allowing for true deterministic timing and synchronization. Two programming
languages are available: the easy-to-learn high-level Spin, and Propeller Assembly which can execute at
up to 160 MIPS (20 MIPS per cog).
SX Chip: The Parallax SX Chip is a RISC architecture, high-speed microcontroller with expanded flash program
memory, in-system programming and debugging capability.
Operating at frequencies up to 75 MHz with an optimized single-cycle instruction set, developers can implement
real-time functions as software modules.
Common examples include communication interfaces (I2C, SPI, UARTs), frequency generation and measurement,
PWM, and sigma-delta A/D.
Cog 0 Cog 1 Cog 2 Cog 3 Cog 4 Cog 5 Cog 6 Cog 7
Pin Directions
Pin Outputs
32 32
P31
P15
C
Counter A + PLL
Counter B + PLL
Video Generator
I/O Output Reg.
I/O Direction Reg.
Counter A + PLL
Counter B + PLL
Video Generator
I/O Output Reg.
I/O Direction Reg.
Counter A + PLL
Counter B + PLL
Video Generator
I/O Output Reg.
I/O Direction Reg.
Counter A + PLL
Counter B + PLL
Video Generator
I/O Output Reg.
I/O Direction Reg.
Counter A + PLL
Counter B + PLL
Video Generator
I/O Output Reg.
I/O Direction Reg.
Counter A + PLL
Counter B + PLL
Video Generator
I/O Output Reg.
I/O Direction Reg.
Counter A + PLL
Counter B + PLL
Video Generator
I/O Output Reg.
I/O Direction Reg.
Counter A + PLL
Counter B + PLL
Video Generator
I/O Output Reg.
I/O Direction Reg.
P30
P29
P28
P27
P26
P25
P24
P23
P22
P21
P20
I/O
Pins
P14
P13
P12
P11
P10
P9
P8
P7
P6
P5
P4
512 X 32
RAM
Processor
512 X 32
RAM
Processor
512 X 32
RAM
Processor
512 X 32
RAM
Processor
512 X 32
RAM
Processor
512 X 32
RAM
Processor
512 X 32
RAM
Processor
512 X 32
RAM
Processor
P19
P18
P17
P16
P3
P2
P1
P0
32
32
Pin Inputs
32
System Counter
32
Data Bus
16
Address Bus
P3
P2
P1
P0
VDD
VSS
P31
P30
P29
P28
P27
VDD
VSS
Power Up
Detector
(~10 ms)
Reset Delay
(~50 ms)
RESET
Hub
Bus Sequencer
CLOCK
Systems
Counter
P4
P5
P6
P7
VSS
BOEn
RESn
VDD
P8
P9
P10
1
2
3
4
5
6
7
8
9
10
11
44
12
44
13
42
41
40
39
38
37
36
P8X32A-Q44
AYWWXZZ
14
15
16
17
18
19
20
35
21
34
22
P11
P12
P13
P14
P15
VSS
VDD
P16
P17
P18
P19
33
32
31
30
29
28
27
26
25
24
23
P26
P25
P24
VDD
XO
XI
VSS
P23
P22
P21
P20
BOEn
RESn
SOFTRES
XI
XO
OSCENA
2
OSCMODE
Brown Out
Detector
PLLENA
Crystal
Oscillator
DC - 80 MHz
(4 - 8 MHz
with Clock PLL)
3
RC Oscillator
12 MHz/ 20 KHz
Clock PLL
1x, 2x,
4x, 8x, 16x
(16x must be
64 - 128 MHz)
5
CLKSEL
3
Clock
Selector
(MUX)
SOFTRES
PLLENA
OSCENA
OSCMODE
CLKSEL
CLOCK
2
3
8192 X 32 RAM
8192 X 32 ROM
Cog Enables
Lock Bits (8)
Configuration
Register
System
Counter
Cog
7
Cog
6
Cog
5
Cog
0
Hub
RAM, ROM,
Configuration,
Control.
Cog
4
Cog
1
Cog
2
Cog
3
I/O
Pins
Hub and Cog Interaction
Description
Digi-Key
Part No.
Propeller Processors — RoHS Compliant
Price Each
1 5 10 25
IC, 8 32-bit COGs, 40-DIP P8X32A-D40-ND 7.99 7.59 7.49 —
IC, 8 32-bit COGs, 44-LQFP (10mm x 10mm) P8X32A-Q44-ND 7.99 7.59 7.49 —
IC, 8 32-bit COGs, 44-QFN (10mm x 10mm) P8X32A-M44-ND 7.99 7.59 7.49 —
Propeller Kits
Demo Board Kit 32100PAR-ND 79.99 75.99 — 69.99
Propeller Starter Kit 32300-ND 99.99 94.99 — 87.49
Propeller Accessories Kit 32311-ND 124.99 — — —
Propeller Education Kit 32305-ND 99.99 — — —
NEW! Propeller Development Board NEW!
Propeller Proto Board 32212PAR-ND◆ 24.99 23.74 22.50 21.87
HYDRA Game Development Kit 32360-ND 199.99 189.99 187.49 —
NEW! Propeller Accessories NEW!
Prop Plug, USB to Serial Adapter for Propeller Circuits 32201-ND◆ 15.93 — — —
Parallax PS/2 Optical Mouse 32350-ND 6.74 — — —
Mini LCD A/V Color Display 603-32000-ND 112.49 — — —
NEW! SX Chip — RoHS Compliant NEW!
Configurable Communication Controller, 20 I/O, 2K EE/Flash, 50MHz, 28-SSOP SX28AC/SS-G-ND 3.95 3.76 3.70 —
NEW! SX Starter Kit — RoHS Compliant NEW!
SX Tech Tool Kit 45180-ND 89.99 85.49 81.00 78.74
◆ RoHS Compliant
110 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

OTP 8-Bit Microcontrollers
Operatin Temperature Rane Industrial -40F 185F -40C 85C Commercial 32F 158F 0C 70C
Memory Size
Int.
Program RAM I/O
Timers/
Oscillator Max. Speed Operating
Digi-Key
Price Each
Words Bytes Lines ADC
WDT
Interface
(MHz) (MHz) Temperature Package Part No.
1 10 25
25 x 8 12 — 1-8it / es — — 4 Commercial 18-DIP PIC16HV540-04/P-ND 2.02 1.48 1.44
512 x 14
512 x 14
1K x 14
2K x 14
◆ RoHS Compliant
25 x 8 12 — 1-8it / es — — 4 Commercial 18-SOIC PIC16HV540-04/SO-ND 2.04 1.51 1.47
25 x 8 12 — 1-8it / es — — 20 Commercial 18-DIP PIC16HV540-20/P-ND 2.16 1.57 1.53
25 x 8 12 — 1-8it / es — — 20 Commercial 18-SOIC PIC16HV540-20/SO-ND 2.18 1.61 1.57
25 x 8 12 — 1-8it / es — — 4 Industrial 18-DIP PIC16HV540-04I/P-ND 2.02 1.48 1.44
25 x 8 12 — 1-8it / es — — 4 Industrial 18-SOIC PIC16HV540-04I/SO-ND 2.04 1.51 1.47
25 x 8 20 — 1-8it / es — — 4 Commercial 28-DIP PIC16C55A-04/P-ND 2.46 1.81 1.77
25 x 8 20 — 1-8it / es — — 4 Commercial 28-SOIC PIC16C55A-04/SO-ND◆ 2.56 1.88 1.83
25 x 8 20 — 1-8it / es — — 4 Commercial 28-DIP .3 PIC16C55A-04/SP-ND◆ 2.46 1.81 1.77
25 x 8 20 — 1-8it / es — — 4 Industrial 28-DIP PIC16C55A-04I/P-ND◆ 2.70 1.99 1.94
25 x 8 20 — 1-8it / es — — 4 Industrial 28-SOIC PIC16C55A-04I/SO-ND◆ 2.82 2.07 2.02
25 x 8 20 — 1-8it / es — — 20 Commercial 28-DIP PIC16C55A-20/P-ND◆ 2.74 2.02 1.97
25 x 8 20 — 1-8it / es — — 20 Commercial 28-SOIC PIC16C55A-20/SO-ND◆ 2.86 2.10 2.05
25 x 8 20 — 1-8it / es — — 20 Commercial 28-DIP .3 PIC16C55A-20/SP-ND◆ 2.74 2.02 1.97
25 x 8 20 — 1-8it / es — — 4 Commercial 28-DIP PIC16LC55A-04/P-ND 2.58 1.89 1.84
25 x 8 20 — 1-8it / es — — 4 Commercial 28-SOIC PIC16LC55A-04/SO-ND 2.68 1.97 1.92
80 x 8 13 — 1-8it / es — — 4 Commercial 18-DIP PIC16C554-04/P-ND◆ 3.24 2.70 2.60
80 x 8 13 — 1-8it / es — — 4 Commercial 18-SOIC PIC16C554-04/SO-ND◆ 3.32 2.76 2.66
80 x 8 13 — 1-8it / es — — 4 Commercial 18-DIP PIC16C620A-04/P-ND◆ 1.96 1.44 1.41
80 x 8 13 — 1-8it / es — — 4 Commercial 18-SOIC PIC16C620A-04/SO-ND◆ 2.02 1.48 1.44
80 x 8 13 — 1-8it / es — — 4 Industrial 18-DIP PIC16C620A-04I/P-ND◆ 1.96 1.44 1.41
80 x 8 13 — 1-8it / es — — 20 Commercial 18-DIP PIC16C620A-20/P-ND◆ 2.08 1.54 1.50
80 x 8 13 — 1-8it / es — — 20 Commercial 18-SOIC PIC16C620A-20/SO-ND◆ 2.16 1.57 1.53
25 x 8 12 — 1-8it / es — — 20 Commercial 18-CDIP PIC16C56A/JW-ND† 12.68 10.15 8.52
25 x 8 12 — 1-8it / es — — 4 Commercial 18-DIP PIC16C56A-04/P-ND◆ 2.28 1.67 1.63
25 x 8 12 — 1-8it / es — — 4 Commercial 18-SOIC PIC16C56A-04/SO-ND◆ 2.32 1.70 1.66
25 x 8 12 — 1-8it / es — — 4 Industrial 18-DIP PIC16C56A-04I/P-ND◆ 2.48 1.83 1.78
25 x 8 12 — 1-8it / es — — 4 Industrial 18-SOIC PIC16C56A-04I/SO-ND◆ 2.54 1.86 1.81
25 x 8 12 — 1-8it / es — — 20 Commercial 18-DIP PIC16C56A-20/P-ND◆ 2.42 1.78 1.74
25 x 8 12 — 1-8it / es — — 20 Commercial 18-SOIC PIC16C56A-20/SO-ND◆ 2.46 1.81 1.77
25 x 8 12 — 1-8it / es — — 20 Industrial 18-DIP PIC16C56A-20I/P-ND◆ 2.68 1.96 1.91
25 x 8 12 — 1-8it / es — — 20 Industrial 18-SOIC PIC16C56A-20I/SO-ND 2.72 2.01 1.96
25 x 8 12 — 1-8it / es — — 4 Commercial 18-DIP PIC16LC56A-04/P-ND 2.36 1.75 1.71
25 x 8 12 — 1-8it / es — — 4 Commercial 18-SOIC PIC16LC56A-04/SO-ND 2.42 1.78 1.74
25 x 8 12 — 1-8it / es — — 4 Industrial 18-DIP PIC16LC56A-04I/P-ND 2.62 1.93 1.88
25 x 8 12 — 1-8it / es — — 4 Industrial 18-SOIC PIC16LC56A-04I/SO-ND 2.68 1.96 1.91
80 x 8 13 — 1-8it / es — — 4 Commercial 18-DIP PIC16C621A-04/P-ND◆ 2.20 1.62 1.58
80 x 8 13 — 1-8it / es — — 4 Commercial 18-SOIC PIC16C621A-04/SO-ND◆ 2.24 1.65 1.61
80 x 8 13 — 1-8it / es — — 4 Industrial 18-DIP PIC16C621A-04I/P-ND◆ 2.42 1.78 1.74
80 x 8 13 — 1-8it / es — — 20 Commercial 18-DIP PIC16C621A-20/P-ND◆ 2.36 1.73 1.69
80 x 8 13 — 1-8it / es — — 20 Commercial 18-SOIC PIC16C621A-20/SO-ND◆ 2.40 1.77 1.72
128 x 16 16 8-ch. 8-Bit 2-8it, 1-16it / es — 4 20 Commercial 20-CDIP PIC16C781/JW-ND 17.52 13.14 11.77
128 x 16 16 8-ch. 8-Bit 2-8it, 1-16it / es — 4 20 Industrial 20-DIP PIC16C781-I/P-ND 4.84 3.14 3.03
128 x 16 16 8-ch. 8-Bit 2-8it, 1-16it / es — 4 20 Industrial 20-SOIC PIC16C781-I/SO-ND 4.92 3.21 3.10
128 x 8 12 — 1-8it / es — — 20 Commercial 20-CDIP PIC16C432/JW-ND† 15.20 12.16 10.22
128 x 8 12 — 1-8it / es — — 20 Industrial 20-SSOP PIC16C432-I/SS-ND 4.56 2.97 2.87
128 x 8 6 4-ch. 8-Bit 1-8it / es — 4 10 Commercial 18-CDIP PIC16C433/JW-ND† 11.57 11.15 10.93
128 x 8 6 4-ch. 8-Bit 1-8it / es — 4 10 Industrial 18-DIP PIC16C433-I/P-ND 4.26 3.20 2.69
128 x 8 6 4-ch. 8-Bit 1-8it / es — 4 10 Industrial 18-SOIC PIC16C433-I/SO-ND 4.26 3.20 2.69
128 x 8 22 — 2-8it, 1-16it / es SSP 2MI2C, SPI — 4 Commercial 28-DIP .3 PIC16C62B-04/SP-ND◆ 3.84 2.82 2.75
128 x 8 22 — 2-8it, 1-16it / es SSP 2MI2C, SPI — 4 Commercial 28-SOIC PIC16C62B-04/SO-ND◆ 3.84 2.82 2.75
128 x 8 22 — 2-8it, 1-16it / es SSP 2MI2C, SPI — 4 Commercial 28-SSOP PIC16C62B-04/SS-ND◆ 4.06 2.99 2.91
128 x 8 22 — 2-8it, 1-16it / es SSP 2MI2C, SPI — 4 Industrial 28-DIP .3 PIC16C62B-04I/SP-ND◆ 4.24 3.11 3.03
128 x 8 22 — 2-8it, 1-16it / es SSP 2MI2C, SPI — 20 Commercial 28-DIP .3 PIC16C62B-20/SP-ND◆ 4.10 3.02 2.94
128 x 8 22 — 2-8it, 1-16it / es SSP 2MI2C, SPI — 20 Commercial 28-SOIC PIC16C62B-20/SO-ND◆ 4.10 3.02 2.94
128 x 8 22 — 2-8it, 1-16it / es SSP 2MI2C, SPI — 20 Commercial 28-SSOP PIC16C62B-20/SS-ND◆ 4.34 3.18 3.10
† UVEPROM
(Continued)
C
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
111
111

OTP 8-Bit Microcontrollers (Cont.)
Operatin Temperature Rane Industrial -40F 185F -40C 85C Commercial 32F 158F 0C 70C
C
Memory Size
Int.
Program RAM I/O
Timers/
Oscillator Max. Speed Operating
Digi-Key
Price Each
Words Bytes Lines ADC
WDT
Interface
(MHz) (MHz) Temperature Package Part No.
1 10 25
128 x 8 22 — 2-8it, 1-16it / es SSP 2MI2C, SPI — 20 Industrial 28-DIP .3 PIC16C62B-20I/SP-ND◆ 4.52 3.32 3.24
2K x 14
4K x 14
8K x 14
◆ RoHS Compliant
128 x 8 13 — 1-8it / es — — 4 Commercial 18-DIP PIC16C622A-04/P-ND◆ 2.48 1.83 1.78
128 x 8 13 — 1-8it / es — — 4 Commercial 18-SOIC PIC16C622A-04/SO-ND◆ 2.54 1.86 1.81
128 x 8 13 — 1-8it / es — — 4 Industrial 18-DIP PIC16C622A-04I/P-ND◆ 2.72 2.01 1.96
128 x 8 13 — 1-8it / es — — 20 Commercial 18-DIP PIC16C622A-20/P-ND◆ 2.68 1.96 1.91
128 x 8 13 — 1-8it / es — — 20 Commercial 18-SOIC PIC16C622A-20/SO-ND◆ 2.70 1.99 1.94
128 x 8 13 — 1-8it / es — — 20 Industrial 18-DIP PIC16C622A-20I/P-ND◆ 2.92 2.15 2.10
128 x 8 13 — 1-8it / es — — 20 Industrial 18-SOIC PIC16C622A-20I/SO-ND◆ 2.98 2.18 2.13
128 x 8 13 — 1-8it / es — — 20 Commercial 18-CDip PIC16C558/JW-ND† 14.14 10.61 9.50
128 x 8 13 — 1-8it / es — — 4 Commercial 18-DIP PIC16C558-04/P-ND 4.26 3.54 3.41
128 x 8 13 — 1-8it / es — — 4 Commercial 18-SOIC PIC16C558-04/SO-ND 4.36 3.61 3.48
256 x 8 15 6-ch. 12-Bit 2-8it, 1-16it / es USART, SSP 2MI2C, SPI 4 20 Industrial 20-SOIC PIC16C770-I/SO-ND 3.84 2.50 2.41
192 x 8 22 — 2-8it, 1-16it / es USART, SSP 2MI2C, SPI — 4 Commercial 28-DIP .3 PIC16C63A-04/SP-ND◆ 4.68 3.45 3.36
192 x 8 22 — 2-8it, 1-16it / es USART, SSP 2MI2C, SPI — 4 Commercial 28-SOIC PIC16C63A-04/SO-ND◆ 4.68 3.45 3.36
192 x 8 22 — 2-8it, 1-16it / es USART, SSP 2MI2C, SPI — 4 Commercial 28-SSOP PIC16C63A-04/SS-ND◆ 4.90 3.61 3.52
192 x 8 22 — 2-8it, 1-16it / es USART, SSP 2MI2C, SPI — 4 Industrial 28-DIP .3 PIC16C63A-04I/SP-ND◆ 5.18 3.80 3.70
192 x 8 22 — 2-8it, 1-16it / es USART, SSP 2MI2C, SPI — 4 Industrial 28-SOIC PIC16C63A-04I/SO-ND◆ 5.18 3.80 3.70
192 x 8 22 — 2-8it, 1-16it / es USART, SSP 2MI2C, SPI — 4 Industrial 28-SSOP PIC16C63A-04I/SS-ND◆ 5.40 3.98 3.88
192 x 8 22 — 2-8it, 1-16it / es USART, SSP 2MI2C, SPI — 20 Commercial 28-DIP .3 PIC16C63A-20/SP-ND◆ 5.04 3.71 3.61
192 x 8 22 — 2-8it, 1-16it / es USART, SSP 2MI2C, SPI — 20 Commercial 28-SOIC PIC16C63A-20/SO-ND◆ 5.04 3.71 3.61
192 x 8 22 — 2-8it, 1-16it / es USART, SSP 2MI2C, SPI — 20 Commercial 28-SSOP PIC16C63A-20/SS-ND◆ 5.26 3.87 3.77
192 x 8 22 — 2-8it, 1-16it / es USART, SSP 2MI2C, SPI — 20 Industrial 28-DIP .3 PIC16C63A-20I/SP-ND◆ 5.54 4.08 3.97
192 x 8 22 — 2-8it, 1-16it / es USART, SSP 2MI2C, SPI — 20 Industrial 28-SOIC PIC16C63A-20I/SO-ND◆ 5.54 4.08 3.97
192 x 8 22 — 2-8it, 1-16it / es USART, SSP 2MI2C, SPI — 20 Industrial 28-SSOP PIC16C63A-20I/SS-ND◆ 5.78 4.25 4.14
192 x 8 33 — 2-8it, 1-16it / es USART, SSP 2MI2C, SPI — 4 Commercial 40-DIP PIC16C65B-04/P-ND◆ 5.26 3.87 3.77
192 x 8 33 — 2-8it, 1-16it / es USART, SSP 2MI2C, SPI — 4 Commercial 44-PLCC PIC16C65B-04/L-ND◆ 6.79 5.66 5.30
192 x 8 33 — 2-8it, 1-16it / es USART, SSP 2MI2C, SPI — 4 Industrial 40-DIP PIC16C65B-04I/P-ND◆ 5.82 4.27 4.16
192 x 8 33 — 2-8it, 1-16it / es USART, SSP 2MI2C, SPI — 20 Commercial 40-DIP PIC16C65B-20/P-ND◆ 5.64 4.14 4.03
192 x 8 33 — 2-8it, 1-16it / es USART, SSP 2MI2C, SPI — 20 Commercial 44-PLCC PIC16C65B-20/L-ND◆ 7.20 6.00 5.62
192 x 8 33 — 2-8it, 1-16it / es USART, SSP 2MI2C, SPI — 20 Industrial 40-DIP PIC16C65B-20I/P-ND◆ 6.20 4.56 4.44
192 x 8 33 — 2-8it, 1-16it / es USART, SSP 2MI2C, SPI — 20 Industrial 44-PLCC PIC16C65B-20I/L-ND◆ 7.06 6.53 6.11
256 x 8 15 6-ch. 12-Bit 2-8it, 1-16it / es SSP MI2C, SPI 4 20 Commercial 20-CDIP PIC16C771/JW-ND† 14.84 11.13 9.97
256 x 8 22 6-ch. 12-Bit 2-8it, 1-16it / es AUSART, SSP MI2C, SPI — 20 Commercial 28-DIP .3 PIC16C773/SP-ND 5.90 4.33 4.22
256 x 8 22 6-ch. 12-Bit 2-8it, 1-16it / es AUSART, SSP MI2C, SPI — 20 Commercial 28-SOIC PIC16C773/SO-ND 5.90 4.33 4.22
256 x 8 22 6-ch. 12-Bit 2-8it, 1-16it / es AUSART, SSP MI2C, SPI — 20 Industrial 28-DIP .3 PIC16C773-I/SP-ND 6.48 4.77 4.64
256 x 8 22 6-ch. 12-Bit 2-8it, 1-16it / es AUSART, SSP MI2C, SPI — 20 Industrial 28-SOIC PIC16C773-I/SO-ND 6.48 4.77 4.64
256 x 8 22 6-ch. 12-Bit 2-8it, 1-16it / es AUSART, SSP MI2C, SPI — 20 Commercial 28-DIP .3 PIC16LC773/SP-ND 6.20 4.56 4.44
256 x 8 22 6-ch. 12-Bit 2-8it, 1-16it / es AUSART, SSP MI2C, SPI — 20 Commercial 28-SOIC PIC16LC773/SO-ND 6.20 4.56 4.44
256 x 8 33 10-ch. 12-Bit 2-8it, 1-16it / es AUSART, SSP MI2C, SPI — 20 Commercial 40-DIP PIC16C774/P-ND 7.16 5.25 5.11
256 x 8 33 10-ch. 12-Bit 2-8it, 1-16it / es AUSART, SSP MI2C, SPI — 20 Industrial 40-DIP PIC16C774-I/P-ND 7.88 5.79 5.64
256 x 8 33 10-ch. 12-Bit 2-8it, 1-16it / es AUSART, SSP MI2C, SPI — 20 Industrial 44-PLCC PIC16C774-I/L-ND 8.42 7.01 6.75
256 x 8 33 10-ch. 12-Bit 2-8it, 1-16it / es AUSART, SSP MI2C, SPI — 20 Commercial 40-DIP PIC16LC774/P-ND 7.50 5.52 5.38
256 x 8 33 10-ch. 12-Bit 2-8it, 1-16it / es AUSART, SSP MI2C, SPI — 20 Commercial 44-PLCC PIC16LC774/L-ND 8.10 6.73 6.48
256 x 8 22 5-ch. 8-Bit 1-16it / es USART — 20 Industrial 28-DIP .3 PIC16C745-I/SP-ND 4.74 3.08 2.97
256 x 8 22 5-ch. 8-Bit 1-16it / es USART — 20 Industrial 28-SOIC PIC16C745-I/SO-ND 4.74 3.08 2.97
256 x 8 33 8-ch. 8-Bit 2-8it, 1-16it / es USART — 20 Industrial 44-PLCC PIC16C765-I/L-ND 5.94 4.37 4.25
256 x 8 33 8-ch. 8-Bit 2-8it, 1-16it / es USART — 20 Industrial 40-DIP PIC16C765-I/P-ND 5.66 3.68 3.55
256 x 8 33 8-ch. 8-Bit 2-8it, 1-16it / es USART — 20 Industrial 44-TQFP PIC16C765-I/PT-ND 6.52 4.23 4.08
† UVEPROM
Microcontrollers
PIC18Cs
Program
Memory Size
Timer/
Clock
Memory Program RAM EEPROM I/O Counters
Analog Int Speed VCC Operating
Digi-Key
Price Each
Type Bytes Bytes Bytes Pins 8/16-bit UART I2C SPI CAN PWM A/D Comp. Osc (MHz) (V) Temp. Package Part No.
1 10 25
— 1536 — 26 1/3 1 USART
1 — 2 8-ch. 10-it — — 25 4.2 5.5 Industrial 68-PLCC PIC18C601-I/L-ND 5.30 4.41 4.25
ROMless — 1536 — 37 1/3 1 USART
1 Master/
Slave
1 — 2 12-ch. 10-it — — 25 4.2 5.5 Industrial 84-PLCC PIC18C801-I/L-ND 6.52 5.41 5.21
— 1536 — 37 1/3 1 USART 1 — 2 12-ch. 10-it — — 25 4.2 5.5 Industrial 80-TQFP PIC18C801-I/PT-ND 5.88 4.88 4.70
PROM
16K x 16 1536 — 52 1/3 1 USART 1 Master/ 1 CAN 2 12-ch. 10-it 2 — 40 4.2 5.5 Industrial 68-PLCC PIC18C658-I/L-ND 12.66 9.31 9.07
16K x 16 1536 — 52 1/3 1 USART Slave 1 2.0B 2 12-ch. 10-it 2 — 40 4.2 5.5 Industrial 64-TQFP PIC18C658-I/PT-ND 12.12 8.92 8.69
112 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

General Purpose 8-bit PIC Flash Microcontrollers
®
PIC10F Devices
Memory Size
Timer/
Clock
Program
Words
RAM
Bytes
EEPROM
Bytes
I/O
Pins
Counters
8-bit UART I2C SPI A/D
Analog
Comp.
Int.
Osc.
Speed
(MHz)
VCC
(V)
Operating
Temp. Package
Digi-Key
Part No.
1
Price Each
10 25
256 x 12
512 x 12
† Cut Tape ‡ For Tape and Reel part number, change CT-ND to TR-ND. Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Extended -40F 257F -40C 125C
PIC12F Devices
Tape and Reel
Pricing‡
3,000
16 — 4 1 — — — — — 4MHz 4 2.0 5.5 Ind. 8-DFN PIC10F200-I/MC-ND .56 .44 .41 —
16 — 4 1 — — — — — 4MHz 4 2.0 5.5 Ind. 8-DIP PIC10F200-I/P-ND .58 .46 .42 —
16 — 4 1 — — — — — 4MHz 4 2.0 5.5 Ext. SOT23-6 PIC10F200T-E/OTCT-ND† NEW! .92 .54 .52 510.00/M
16 — 4 1 — — — — — 4MHz 4 2.0 5.5 Ind. SOT23-6 PIC10F200T-I/OTCT-ND† .59 .41 .38 340.00/M
16 — 4 1 — — — — 1 4MHz 4 2.0 5.5 Ind. 8-DFN PIC10F204-I/MC-ND .62 .48 .44 —
16 — 4 1 — — — — 1 4MHz 4 2.0 5.5 Ind. 8-DIP PIC10F204-I/P-ND .64 .50 .46 —
16 — 4 1 — — — — 1 4MHz 4 2.0 5.5 Ind. SOT23-6 PIC10F204T-I/OTCT-ND† .65 .45 .42 380.00/M
16 — 4 1 — — — 2-ch. 8-bit — 8MHz 8 2.0 5.5 Ind. 8-DFN PIC10F220-I/MC-ND .66 .52 .48 —
16 — 4 1 — — — 2-ch. 8-bit — 8MHz 8 2.0 5.5 Ind. 8-DIP PIC10F220-I/P-ND .68 .54 .49 —
16 — 4 1 — — — 2-ch. 8-bit — 8MHz 8 2.0 5.5 Ind. SOT23-6 PIC10F220T-I/OTCT-ND† .70 .49 .45 410.00/M
24 — 4 1 — — — — 1 4MHz 4 2.0 5.5 Ind. 8-DFN PIC10F202-I/MC-ND .62 .48 .44 —
24 — 4 1 — — — — 1 4MHz 4 2.0 5.5 Ind. 8-DIP PIC10F202-I/P-ND .64 .50 .46 —
24 — 4 1 — — — — 1 4MHz 4 2.0 5.5 Ind. SOT23-6 PIC10F202T-I/OTCT-ND† .65 .45 .42 380.00/M
24 — 4 1 — — — — 1 4MHz 4 2.0 5.5 Ind. 8-DFN PIC10F206-I/MC-ND .66 .52 .48 —
24 — 4 1 — — — — 1 4MHz 4 2.0 5.5 Ind. 8-DIP PIC10F206-I/P-ND .68 .54 .49 —
24 — 4 1 — — — — 1 4MHz 4 2.0 5.5 Ind. SOT23-6 PIC10F206T-I/OTCT-ND† .70 .49 .45 410.00/M
23 — 4 1 — — — 2-ch. 8-bit — 8MHz 8 2.0 5.5 Ind. 8-DFN PIC10F222-I/MC-ND .72 .56 .51 —
23 — 4 1 — — — 2-ch. 8-bit — 8MHz 8 2.0 5.5 Ind. 8-DIP PIC10F222-I/P-ND .74 .58 .53 —
23 — 4 1 — — — 2-ch. 8-bit — 8MHz 8 2.0 5.5 Ind. SOT23-6 PIC10F222T-I/OTCT-ND† .77 .53 .49 440.00/M
C
Memory Size
Timer/
Clock
Program RAM EEPROM I/O Counters
Analog Int. Speed VCC Operating
Digi-Key
Price Each
Words Bytes Bytes Pins 8/16-bit UART I2C SPI PWM A/D Comp. Osc. (MHz) (V) Temp. Package Part No.
1 10 25
25 — 5 1/ — — — — — — 4MHz 4 2.0 5.5 Ind. 8-DFN PIC12F508-I/MC-ND .82 .64 .58
512 x 12
25 — 5 1/ — — — — — — 4MHz 4 2.0 5.5 Ind. 8-DIP PIC12F508-I/P-ND .84 .66 .60
25 — 5 1/ — — — — — — 4MHz 4 2.0 5.5 Ind. 8-SOIC PIC12F508-I/SN-ND .72 .56 .51
25 — 5 1/ — — — — — — 4MHz 4 2.0 5.5 Ind. 8-MSOP PIC12F508-I/MS-ND .78 .62 .57
41 — 5 1/ — — — — — — 4MHz 4 2.0 5.5 Ind. 8-DFN PIC12F509-I/MC-ND .88 .69 .64
41 — 5 1/ — — — — — — 4MHz 4 2.0 5.5 Ind. 8-DIP PIC12F509-I/P-ND .90 .71 .65
41 — 5 1/ — — — — — — 4MHz 4 2.0 5.5 Ind. 8-SOIJ PIC12F509-I/SM-ND .90 .71 .65
41 — 5 1/ — — — — — — 4MHz 4 2.0 5.5 Ind. 8-SOIC PIC12F509-I/SN-ND .78 .62 .57
41 — 5 1/ — — — — — — 4MHz 4 2.0 5.5 Ind. 8-MSOP PIC12F509-I/MS-ND .86 .67 .62
38 — 5 1/ — — — — 3-ch. 8-bit 1 4MHz, 8MHz 8 2.0 5.5 Ind. 8-MSOP PIC12F510-I/MS-ND .94 .73 .67
1K x 12 38 — 5 1/ — — — — 3-ch. 8-bit 1 4MHz, 8MHz 8 2.0 5.5 Ind. 8-DIP PIC12F510-I/P-ND .98 .77 .71
38 — 5 1/ — — — — 3-ch. 8-bit 1 4MHz, 8MHz 8 2.0 5.5 Ind. 8-SOIC PIC12F510-I/SN-ND .86 .67 .62
41 64 5 1/ — — — — — — 4MHz, 8MHz 8 2.0 5.5 Ind. 8-DFN PIC12F519-I/MC-ND .96 .75 .69
41 64 5 1/ — — — — — — 4MHz, 8MHz 8 2.0 5.5 Ind. 8-MSOP PIC12F519-I/MS-ND .94 .73 .67
41 64 5 1/ — — — — — — 4MHz, 8MHz 8 2.0 5.5 Ind. 8-DIP PIC12F519-I/P-ND .98 .77 .71
41 64 5 1/ — — — — — — 4MHz, 8MHz 8 2.0 5.5 Ind. 8-SOIC PIC12F519-I/SN-ND .86 .67 .62
41 64 5 1/ — — — — — — 4MHz, 8MHz 8 2.0 5.5 Ext. 8-MSOP PIC12F519-E/MS-ND 1.02 .80 .73
38 — 5 1/ — — — — 3-ch. 8-bit 1 4MHz, 8MHz 8 2.0 5.5 Ind. 8-DFN PIC12F510-I/MC-ND .96 .75 .69
64 — 5 1/1 — — — — — — 4MHz, 8MHz 20 2.0 5.5 Ind. 8-DFN PIC12F609-I/MD-ND 1.04 .81 .74
64 — 5 1/1 — — — — — — 4MHz, 8MHz 20 2.0 5.5 Ind. 8-DFN PIC12F609-I/MF-ND 1.04 .81 .74
64 — 5 1/1 — — — — — — 4MHz, 8MHz 20 2.0 5.5 Ind. 8-MSOP PIC12F609-I/MS-ND .98 .77 .71
64 — 5 1/1 — — — — — — 4MHz, 8MHz 20 2.0 5.5 Ind. 8-DIP PIC12F609-I/P-ND 1.04 .81 .74
64 — 5 1/1 — — — — — — 4MHz, 8MHz 20 2.0 5.5 Ind. 8-SOIC PIC12F609-I/SN-ND .90 .71 .65
64 — 5 1/1 — — — — — 1 4MHz, 8MHz 20 2.0 5.5 Ind. 8-SOIC PIC12F609T-I/SNTR-ND‡ NEW! 2079.00/3,300
64 — 5 1/1 — — — — — 1 4MHz, 8MHz 20 User Dened Ind. 8-MSOP PIC12HV609-I/MS-ND 1.06 .83 .76
64 — 5 1/1 — — — — — 1 4MHz, 8MHz 20 User Dened Ind. 8-DIP PIC12HV609-I/P-ND 1.10 .87 .80
64 — 5 1/1 — — — — — 1 4MHz, 8MHz 20 User Dened Ind. 8-SOIC PIC12HV609-I/SN-ND .98 .77 .71
64 — 5 2/1 — — — 1 4-ch. 10-it 1 4MHz, 8MHz 20 2.0 5.5 Hih 8-DFN PIC12F615-H/MD-ND NEW! 1.38 1.09 1.00
64 — 5 2/1 — — — 1 4-ch. 10-it 1 4MHz, 8MHz 20 2.0 5.5 Hih 8-MSOP PIC12F615-H/MS-ND NEW! 1.34 1.05 .96
64 — 5 2/1 — — — 1 4-ch. 10-it 1 4MHz, 8MHz 20 2.0 5.5 Hih 8-SOIC PIC12F615-H/SN-ND NEW! 1.26 .99 .91
64 — 5 2/1 — — — — 4-ch. 10-it 1 4MHz, 8MHz 20 2.0 5.5 Ind. 8-DFN PIC12F615-I/MD-ND 1.08 .85 .78
64 — 5 2/1 — — — — 4-ch. 10-it 1 4MHz, 8MHz 20 2.0 5.5 Ind. 8-DFN PIC12F615-I/MF-ND 1.08 .85 .78
64 — 5 2/1 — — — — 4-ch. 10-it 1 4MHz, 8MHz 20 2.0 5.5 Ind. 8-MSOP PIC12F615-I/MS-ND 1.04 .81 .74
64 — 5 2/1 — — — — 4-ch. 10-it 1 4MHz, 8MHz 20 2.0 5.5 Ind. 8-DIP PIC12F615-I/P-ND 1.08 .85 .78
64 — 5 2/1 — — — — 4-ch. 10-it 1 4MHz, 8MHz 20 2.0 5.5 Ind. 8-SOIC PIC12F615-I/SN-ND .96 .75 .69
64 — 5 2/1 — — — — 4-ch. 10-it 1 4MHz, 8MHz 20 User Dened Ind. 8-DFN PIC12HV615-I/MF-ND 1.16 .91 .83
64 — 5 2/1 — — — — 4-ch. 10-it 1 4MHz, 8MHz 20 User Dened Ind. 8-DIP PIC12HV615-I/P-ND 1.16 .91 .83
1K x 14
64 — 5 2/1 — — — — 4-ch. 10-it 1 4MHz, 8MHz 20 User Dened Ind. 8-SOIC PIC12HV615-I/SN-ND 1.04 .81 .74
64 128 5 1/1 — — — — — 1 4MHz 20 2.0 5.5 Ind. 8-DFN PIC12F629-I/MD-ND 1.64 1.36 1.33
64 128 5 1/1 — — — — — 1 4MHz 20 2.0 5.5 Ind. 8-DFN PIC12F629-I/MF-ND 1.46 .97 .94
64 128 5 1/1 — — — — — 1 4MHz 20 2.0 5.5 Ind. 8-DIP PIC12F629-I/P-ND 1.40 .92 .90
64 128 5 1/1 — — — — — 1 4MHz 20 2.0 5.5 Ind. 8-SOIC PIC12F629-I/SN-ND 1.28 .84 .82
64 128 5 1/1 — — — — — 1 4MHz 20 2.0 5.5 Ext. 8-DFN PIC12F629-E/MF-ND 1.60 1.05 1.03
64 128 5 1/1 — — — — — 1 4MHz 20 2.0 5.5 Ext. 8-DIP PIC12F629-E/P-ND 1.54 1.01 .98
64 128 5 1/1 — — — — — 1 4MHz 20 2.0 5.5 Ext. 8-SOIC PIC12F629-E/SN-ND 1.40 .92 .90
64 128 5 1/1 — — — — — 1 4MHz 20 2.0 5.5 Ext. 8-SOIC PIC12F629T-E/SNCT-ND† 1.64 .97 .94
64 128 5 1/1 — — — — — 1 4MHz 20 2.0 5.5 Ext. 8-SOIC PIC12F629T-E/SNTR-ND‡ 3035.99/3,300
64 128 5 1/1 — — — — — 1 8MHz, 32Hz 20 2.0 5.5 Ind. 8-DFN PIC12F635-I/MD-ND 1.72 1.13 1.11
64 128 5 1/1 — — — — — 1 8MHz, 32Hz 20 2.0 5.5 Ind. 8-DFN PIC12F635-I/MF-ND 1.72 1.13 1.11
64 128 5 1/1 — — — — — 1 8MHz, 32Hz 20 2.0 5.5 Ind. 8-DIP PIC12F635-I/P-ND 1.66 1.09 1.07
64 128 5 1/1 — — — — — 1 8MHz, 32Hz 20 2.0 5.5 Ind. 8-SOIC PIC12F635-I/SN-ND 1.54 1.01 .98
64 128 5 1/1 — — — — 4-ch. 10-it 1 4MHz 20 2.0 5.5 Ind. 8-DFN PIC12F675-I/MD-ND 2.02 1.67 1.63
64 128 5 1/1 — — — — 4-ch. 10-it 1 4MHz 20 2.0 5.5 Ind. 8-DFN PIC12F675-I/MF-ND 1.60 1.05 1.03
64 128 5 1/1 — — — — 4-ch. 10-it 1 4MHz 20 2.0 5.5 Ind. 8-DIP PIC12F675-I/P-ND 1.54 1.01 .98
64 128 5 1/1 — — — — 4-ch. 10-it 1 4MHz 20 2.0 5.5 Ind. 8-SOIC PIC12F675-I/SN-ND 1.40 .92 .90
64 128 5 1/1 — — — — 4-ch. 10-it 1 4MHz 20 2.0 5.5 Ind. 8-SOIC PIC12F675T-I/SNTR-ND‡ 3035.99/3,300
64 128 5 1/1 — — — — 4-ch. 10-it 1 4MHz 20 2.0 5.5 Ext. 8-DFN PIC12F675-E/MF-ND 1.74 1.14 1.12
64 128 5 1/1 — — — — 4-ch. 10-it 1 4MHz 20 2.0 5.5 Ext. 8-DIP PIC12F675-E/P-ND 1.68 1.10 1.07
64 128 5 1/1 — — — — 4-ch. 10-it 1 4MHz 20 2.0 5.5 Ext. 8-SOIC PIC12F675-E/SN-ND 1.54 1.02 .99
† Cut Tape ‡ Tape and Reel
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Commercial 32F 158F 0C 70C Extended -40F 257F -40C 125C Hih -40F 302F -40C 150C
®
For Digi-Reel ® information, please see page 71.
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
(Continued)
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113
113

General Purpose 8-bit PIC Flash Microcontrollers (Cont.)
PIC16F Devices
C
Memory Size
Timer/
Clock
Operating
Program RAM EEPROM I/O Counters
Analog Int. Speed VCC
Digi-Key
Price Each
Words Bytes Bytes Pins 8/16-bit UART I2C SPI PWM A/D Comp. Osc. (MHz) (V) Temp. Package Part No.
1 10 25
25 — 12 1/ — — — — — — — 20 2.0 5.5 Ind. 18-DIP PIC16F54-I/P-ND◆ .80 .55 .54
512 x 12 25 — 12 1/ — — — — — — — 20 2.0 5.5 Ind. 18-SOIC PIC16F54-I/SO-ND◆ .70 .48 .47
25 — 12 1/ — — — — — — — 20 2.0 5.5 Ind. 20-SSOP PIC16F54-I/SS-ND◆ .70 .48 .47
36 64 13 1/ — — — — — — — 4 2.0 6.0 Com. 18-DIP PIC16LF83-04/P-ND◆ 5.42 4.12 4.05
512 x 14 36 64 13 1/ — — — — — — — 4 2.0 6.0 Ind. 18-DIP PIC16LF83-04I/P-ND◆ 5.94 4.51 4.44
36 64 13 1/ — — — — — — — 4 2.0 6.0 Com. 18-SOIC PIC16LF83-04/SO-ND◆ 5.52 4.18 4.11
72 — 11 1/ — — — — — — 4MHz 20 4.5 5.5 Ind. 14-DIP PIC16F505-I/P-ND◆ 1.02 .80 .73
72 — 11 1/ — — — — — — 4MHz 20 4.5 5.5 Ind. 14-SOIC PIC16F505-I/SL-ND◆ .84 .66 .60
72 — 11 1/ — — — — — — 4MHz 20 4.5 5.5 Ind. 14-TSSOP PIC16F505-I/ST-ND◆ .98 .77 .71
72 — 11 1/— — — — — — — 4MHZ 20 2.0 ~ 5.5 Ind. 16-QFN PIC16F505-I/MG-ND◆ NEW! 1.30 .91 .85
1K x 12
67 — 11 1/— — — — — 3 — 4MHZ, 8MHZ 20 2.0 ~ 5.5 Ind. 16-QFN PIC16F506-I/MG-ND◆ NEW! 1.22 .87 .83
67 — 11 1/ — — — — 3-ch. 8-bit 2 8MHz 20 2.0 5.5 Ind. 14-DIP PIC16F506-I/P-ND◆ 1.10 .86 .79
67 — 11 1/ — — — — 3-ch. 8-bit 2 8MHz 20 2.0 5.5 Ind. 14-SOIC PIC16F506-I/SL-ND◆ .90 .71 .65
67 — 11 1/ — — — — 3-ch. 8-bit 2 8MHz 20 2.0 5.5 Ind. 14-TSSOP PIC16F506-I/ST-ND◆ 1.06 .83 .76
67 64 11 1/— — — — — 3 — 4MHZ, 8MHZ 20 2.0 ~ 5.5 Ind. 16-QFN PIC16F526-I/MG-ND◆ NEW! 1.40 .98 .90
72 — 12 1/ — — — — — — 4MHz 20 4.5 5.5 Ind. 14-DIP PIC16F526-I/P-ND◆ 1.14 .90 .82
67 64 12 1/ — — — — 3-ch. 8-bit 2 8MHz 20 2.0 5.5 Ind. 14-SOIC PIC16F526-I/SL-ND◆ .96 .75 .69
67 64 12 1/ — — — — 3-ch. 8-bit 2 8MHz 20 2.0 5.5 Ind. 14-TSSOP PIC16F526-I/ST-ND◆ 1.10 .87 .80
67 64 12 1/ — — — — 3-ch. 8-bit 2 8MHz 20 2.0 5.5 Ext. 14-DIP PIC16F526-E/P-ND◆ 1.24 .97 .89
64 — 12 1/1 — — — — — 2 8MHz 20 2.0 5.5 Ind. 14-QFN PIC16F610-I/ML-ND◆ 1.16 .91 .83
64 — 12 1/1 — — — — — 2 8MHz 20 2.0 5.5 Ind. 14-DIP PIC16F610-I/P-ND◆ 1.22 .95 .87
64 — 12 1/1 — — — — — 2 8MHz 20 2.0 5.5 Ind. 14-SOIC PIC16F610-I/SL-ND◆ 1.04 .81 .74
64 — 12 1/1 — — — — — 2 8MHz 20 2.0 5.5 Ind. 14-TSSOP PIC16F610-I/ST-ND◆ 1.18 .93 .85
224 128 16 2/1 1 AUSART — — 1 — 2 4MHz 20 3.0 5.5 Ind. 28-QFN PIC16F627A-I/ML-ND◆ 2.82 1.83 1.77
224 128 16 2/1 1 AUSART — — 1 — 2 4MHz 20 3.0 5.5 Ind. 18-DIP PIC16F627A-I/P-ND◆ 2.36 1.53 1.48
224 128 16 2/1 1 AUSART — — 1 — 2 4MHz 20 3.0 5.5 Ind. 18-SOIC PIC16F627A-I/SO-ND◆ 2.40 1.56 1.51
224 128 16 2/1 1 AUSART — — 1 — 2 4MHz 20 3.0 5.5 Ind. 20-SSOP PIC16F627A-I/SS-ND◆ 2.58 1.69 1.63
224 128 16 2/1 1 AUSART — — 1 — 2 4MHz 20 2.0 5.5 Ind. 28-QFN PIC16LF627A-I/ML-ND◆ 2.88 1.89 1.82
224 128 16 2/1 1 AUSART — — 1 — 2 4MHz 20 2.0 5.5 Ind. 18-DIP PIC16LF627A-I/P-ND◆ 2.46 1.61 1.55
224 128 16 2/1 1 AUSART — — 1 — 2 4MHz 20 2.0 5.5 Ind. 18-SOIC PIC16LF627A-I/SO-ND◆ 2.54 1.65 1.59
224 128 16 2/1 1 AUSART — — 1 — 2 4MHz 20 2.0 5.5 Ind. 20-SSOP PIC16LF627A-I/SS-ND◆ 2.72 1.78 1.72
64 128 12 1/1 — — — — — 1 4MHz 20 4.5 5.5 Ind. 14-QFN PIC16F630-I/ML-ND◆ 1.86 1.22 1.19
64 128 12 1/1 — — — — — 1 4MHz 20 4.5 5.5 Ind. 14-DIP PIC16F630-I/P-ND◆ 1.72 1.22 1.19
64 128 12 1/1 — — — — — 1 4MHz 20 4.5 5.5 Ind. 14-SOIC PIC16F630-I/SL-ND◆ 1.66 1.09 1.07
64 128 12 1/1 — — — — — 1 4MHz 20 4.5 5.5 Ind. 14-TSSOP PIC16F630-I/ST-ND◆ 1.92 1.26 1.23
64 128 18 1/1 — 1 1 — — 2 8MHz 20 2.0 5.5 Ind. 20-QFN PIC16F631-I/ML-ND◆ 1.76 1.30 1.27
64 128 18 1/1 — 1 1 — — 2 8MHz 20 2.0 5.5 Ind. 20-DIP PIC16F631-I/P-ND◆ 1.60 1.34 1.31
64 128 18 1/1 — 1 1 — — 2 8MHz 20 2.0 5.5 Ind. 20-SOIC PIC16F631-I/SO-ND◆ 1.74 1.30 1.27
64 128 18 1/1 — 1 1 — — 2 8MHz 20 2.0 5.5 Ind. 20-SSOP PIC16F631-I/SS-ND◆ 1.60 1.25 1.15
64 128 12 1/1 — — — — 8-ch. 10-it 1 4MHz 20 2.0 5.5 Ind. 16-QFN PIC16F676-I/ML-ND◆ 1.98 1.30 1.27
64 128 12 1/1 — — — — 8-ch. 10-it 1 4MHz 20 2.0 5.5 Ind. 14-DIP PIC16F676-I/P-ND◆ 1.98 1.30 1.27
64 128 12 1/1 — — — — 8-ch. 10-it 1 4MHz 20 2.0 5.5 Ind. 14-SOIC PIC16F676-I/SL-ND◆ 1.78 1.18 1.15
64 128 12 1/1 — — — — 8-ch. 10-it 1 4MHz 20 2.0 5.5 Ind. 14-TSSOP PIC16F676-I/ST-ND◆ 2.04 1.34 1.31
1K x 14 128 128 16 2/1 — 1 1 1 5-ch. 10-it — 8MHz 20 4.0 5.5 Ind. 28-QFN PIC16F818-I/ML-ND◆ 3.40 2.22 2.14
128 128 16 2/1 — 1 1 1 5-ch. 10-it — 8MHz 20 4.0 5.5 Ind. 18-DIP PIC16F818-I/P-ND◆ 2.84 1.85 1.78
128 128 16 2/1 — 1 1 1 5-ch. 10-it — 8MHz 20 4.0 5.5 Ind. 18-SOIC PIC16F818-I/SO-ND◆ 2.88 1.87 1.81
128 128 16 2/1 — 1 1 1 5-ch. 10-it — 8MHz 20 4.0 5.5 Ind. 20-SSOP PIC16F818-I/SS-ND◆ 3.12 2.03 1.96
128 128 16 2/1 — 1 1 1 5-ch. 10-it — 8MHz 20 2.0 5.5 Ind. 28-QFN PIC16LF818-I/ML-ND◆ 3.42 2.23 2.15
128 128 16 2/1 — 1 1 1 5-ch. 10-it — 8MHz 20 2.0 5.5 Ind. 18-DIP PIC16LF818-I/P-ND◆ 2.98 1.93 1.86
128 128 16 2/1 — 1 1 1 5-ch. 10-it — 8MHz 20 2.0 5.5 Ind. 18-SOIC PIC16LF818-I/SO-ND◆ 3.04 1.97 1.90
128 128 16 2/1 — 1 1 1 5-ch. 10-it — 8MHz 20 2.0 5.5 Ind. 20-SSOP PIC16LF818-I/SS-ND◆ 3.30 2.13 2.06
68 64 13 1/1 — — — — — — — 4 2.0 5.5 Com. 18-DIP PIC16F84A-04/P-ND◆ 4.90 3.61 3.52
68 64 13 1/1 — — — — — — — 4 2.0 5.5 Ind. 18-DIP PIC16F84A-04I/P-ND◆ 5.40 3.96 3.86
68 64 13 1/1 — — — — — — — 4 2.0 5.5 Com. 18-SOIC PIC16F84A-04/SO-ND◆ 5.00 3.68 3.58
68 64 13 1/1 — — — — — — — 4 2.0 5.5 Ind. 18-SOIC PIC16F84A-04I/SO-ND◆ 5.50 4.03 3.93
68 64 13 1/1 — — — — — — — 4 2.0 5.5 Com. 20-SSOP PIC16F84A-04/SS-ND◆ 5.32 3.92 3.82
68 64 13 1/1 — — — — — — — 4 2.0 5.5 Ind. 20-SSOP PIC16F84A-04I/SS-ND◆ 5.82 4.29 4.18
68 64 13 1/1 — — — — — — — 4 2.0 5.5 Com. 18-DIP PIC16LF84A-04/P-ND◆ 5.16 3.79 3.69
68 64 13 1/1 — — — — — — — 4 2.0 5.5 Ind. 18-DIP PIC16LF84A-04I/P-ND◆ 5.64 4.14 4.03
68 64 13 1/1 — — — — — — — 4 2.0 5.5 Com. 18-SOIC PIC16LF84A-04/SO-ND◆ 5.24 3.85 3.75
68 64 13 1/1 — — — — — — — 4 2.0 5.5 Ind. 18-SOIC PIC16LF84A-04I/SO-ND◆ 5.74 4.22 4.11
68 64 13 1/1 — — — — — — — 4 2.0 5.5 Com. 20-SSOP PIC16LF84A-04/SS-ND◆ 5.58 4.11 4.00
68 64 13 1/1 — — — — — — — 4 2.0 5.5 Ind. 20-SSOP PIC16LF84A-04I/SS-ND◆ 6.06 4.46 4.35
68 64 13 1/1 — — — — — — — 20 2.0 5.5 Com. 18-DIP PIC16F84A-20/P-ND◆ 5.24 3.85 3.75
68 64 13 1/1 — — — — — — — 20 2.0 5.5 Ind. 18-DIP PIC16F84A-20I/P-ND◆ 5.76 4.24 4.13
68 64 13 1/1 — — — — — — — 20 2.0 5.5 Com. 18-SOIC PIC16F84A-20/SO-ND◆ 5.32 3.92 3.82
68 64 13 1/1 — — — — — — — 20 2.0 5.5 Ind. 18-SOIC PIC16F84A-20I/SO-ND◆ 5.84 4.30 4.19
68 64 13 1/1 — — — — — — — 20 2.0 5.5 Com. 20-SSOP PIC16F84A-20/SS-ND◆ 5.68 4.17 4.06
68 64 13 1/1 — — — — — — — 20 2.0 5.5 Ind. 20-SSOP PIC16F84A-20I/SS-ND◆ 6.18 4.54 4.42
64 — 11 1/1 — — — — — 2 8MHz 20 User Dened Ind. 14-DIP PIC16HV610-I/P-ND◆ 1.28 1.01 .93
64 — 11 1/1 — — — — — 2 8MHz 20 User Dened Ind. 14-SOIC PIC16HV610-I/SL-ND◆ 1.10 .87 .80
72 — 20 1/ — — — — — — — 20 2.0 5.5 Ind. 28-DIP PIC16F57-I/P-ND◆ 1.24 .85 .83
72 — 20 1/ — — — — — — — 20 2.0 5.5 Ind. 28-SOIC PIC16F57-I/SO-ND◆ .98 .69 .67
2K x 12
72 — 20 1/ — — — — — — — 20 2.0 5.5 Ind. 28-DIP .3 PIC16F57-I/SP-ND◆ 1.24 .85 .83
72 — 20 1/ — — — — — — — 20 2.0 5.5 Ind. 28-SSOP PIC16F57-I/SS-ND◆ .94 .65 .63
134 — 32 1/ — — — — — — — 20 2.0 5.5 Ind. 40-Dip PIC16F59-I/P-ND◆ 1.56 1.02 1.00
134 — 32 1/ — — — — — — — 20 2.0 5.5 Ind. 44-TQFP PIC16F59-I/PT-ND◆ 1.58 1.04 1.02
128 — 12 2/1 — — — 1 8-ch. 10-it 2 4MHz, 8MHz 20 2.0 5.5 Hih 16-QFN PIC16F616-H/ML-ND◆ NEW! 1.72 1.34 1.23
128 — 12 2/1 — — — 1 8-ch. 10-it 2 4MHz, 8MHz 20 2.0 5.5 Hih 14-SOIC PIC16F616-H/SL-ND◆ NEW! 1.58 1.25 1.14
128 — 12 2/1 — — — 1 8-ch. 10-it 2 4MHz, 8MHz 20 2.0 5.5 Hih 14-TSSOP PIC16F616-H/ST-ND◆ NEW! 1.74 1.36 1.25
128 — 12 2/1 — — — — 8-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 16-QFN PIC16F616-I/ML-ND◆ 1.32 1.04 .95
128 — 12 2/1 — — — — 8-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 14-DIP PIC16F616-I/P-ND◆ 1.38 1.09 1.00
128 — 12 2/1 — — — — 8-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 14-TSSOP PIC16F616-I/ST-ND◆ 1.36 1.06 .97
128 — 12 2/1 — — — — 8-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 14-SOIC PIC16F616-I/SL-ND◆ 1.20 .94 .87
224 128 16 2/1 1 AUSART — — 1 — 2 4MHz 20 3.0 5.5 Ind. 28-QFN PIC16F628A-I/ML-ND◆ 3.10 2.07 2.04
224 128 16 2/1 1 AUSART — — 1 — 2 4MHz 20 3.0 5.5 Ind. 18-DIP PIC16F628A-I/P-ND◆ 2.68 1.73 1.67
224 128 16 2/1 1 AUSART — — 1 — 2 4MHz 20 3.0 5.5 Ind. 18-SOIC PIC16F628A-I/SO-ND◆ 2.72 1.78 1.72
224 128 16 2/1 1 AUSART — — 1 — 2 4MHz 20 3.0 5.5 Ind. 20-SSOP PIC16F628A-I/SS-ND◆ 2.96 1.92 1.85
2K x 14
224 128 16 2/1 1 AUSART — — 1 — 2 4MHz 20 2.0 5.5 Ind. 28-QFN PIC16LF628A-I/ML-ND◆ 3.24 2.17 2.14
224 128 16 2/1 1 AUSART — — 1 — 2 4MHz 20 2.0 5.5 Ind. 18-DIP PIC16LF628A-I/P-ND◆ 2.82 1.83 1.77
224 128 16 2/1 1 AUSART — — 1 — 2 4MHz 20 2.0 5.5 Ind. 18-SOIC PIC16LF628A-I/SO-ND◆ 2.86 1.86 1.80
224 128 16 2/1 1 AUSART — — 1 — 2 4MHz 20 2.0 5.5 Ind. 20-SSOP PIC16LF628A-I/SS-ND◆ 3.08 2.00 1.93
128 256 11 1/1 — — — — — 2 8MHz 20 2.0 5.5 Ind. 16-QFN PIC16F636-I/ML-ND◆ 1.86 1.24 1.21
128 256 11 1/1 — — — — — 2 8MHz 20 2.0 5.5 Ind. 14-DIP PIC16F636-I/P-ND◆ 1.86 1.24 1.21
128 256 11 1/1 — — — — — 2 8MHz 20 2.0 5.5 Ind. 14-SOIC PIC16F636-I/SL-ND 1.68 1.12 1.09
128 256 11 1/1 — — — — — 2 8MHz 20 2.0 5.5 Ind. 14-TSSOP PIC16F636-I/ST-ND◆ 1.92 1.28 1.25
128 256 11 1/1 — — — — — 2 8MHz, 32Hz 20 2.0 5.5 Ind. 20-SSOP PIC16F639-I/SS-ND◆ 3.56 2.52 2.49
128 256 18 1/1 — — — — 12-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 20-QFN PIC16F677-I/ML-ND◆ 1.76 1.41 1.38
128 256 18 1/1 — — — — 12-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 20-DIP PIC16F677-I/P-ND◆ 1.60 1.45 1.42
128 256 18 1/1 — — — — 12-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 20-SOIC PIC16F677-I/SO-ND◆ 1.72 1.41 1.38
128 256 18 1/1 — — — — 12-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 20-SOIC PIC16F677-I/SS-ND◆ 1.60 1.20 1.17
◆ RoHS Compliant ‡ Tape and Reel
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Commercial 32F 158F 0C 70C Extended -40F 257F -40C 125C Hih -40F 302F -40C 150C
(Continued)
®
For Digi-Reel ® information, please see page 71.
114 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

General Purpose 8-bit PIC Flash Microcontrollers
PIC16F Devices (Cont.)
Memory Size
Timer/
Clock
Operating
Program RAM EEPROM I/O Counters
Analog Int. Speed VCC
Digi-Key
Price Each
Words Bytes Bytes Pins 8/16-bit UART I2C SPI PWM A/D Comp. Osc. (MHz) (V) Temp. Package Part No.
1 10 25
128 256 12 2/1 — — — 4 8-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 16-QFN PIC16F684-I/ML-ND◆ 1.96 1.32 1.28
128 256 12 2/1 — — — 4 8-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 14-DIP PIC16F684-I/P-ND◆ 1.96 1.32 1.28
128 256 12 2/1 — — — 4 8-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 14-SOIC PIC16F684-I/SL-ND◆ 1.78 1.19 1.16
128 256 12 2/1 — — — 4 8-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 14-TSSOP PIC16F684-I/ST-ND◆ 2.04 1.36 1.32
128 256 18 1/1 1 EUSART 1 1 — 12-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 20-QFN PIC16F687-I/ML-ND◆ 2.26 1.70 1.55
128 256 18 1/1 1 EUSART 1 1 — 12-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 20-DIP PIC16F687-I/P-ND◆ 2.06 1.55 1.51
128 256 18 1/1 1 EUSART 1 1 — 12-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 20-SOIC PIC16F687-I/SO-ND◆ 2.26 1.70 1.55
128 256 18 1/1 1 EUSART 1 1 — 12-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 20-SSOP PIC16F687-I/SS-ND◆ 1.94 1.45 1.33
128 — 13 2/1 — — — 1 4-ch. 8-bit — — 20 2.0 5.5 Ind. 18-DIP PIC16F716-I/P-ND◆ 1.54 1.01 .98
128 — 13 2/1 — — — 1 4-ch. 8-bit — — 20 2.0 5.5 Ind. 18-SOIC PIC16F716-I/SO-ND◆ 1.40 .92 .90
128 — 13 2/1 — — — 1 4-ch. 8-bit — — 20 2.0 5.5 Ind. 20-SSOP PIC16F716-I/SS-ND◆ 2.24 1.65 1.61
128 — 22 2/1 — 1 1 1 5-ch. 8-it — — 20 4.0 5.5 Ind. 28-DIP .3 PIC16F72-I/SP-ND◆ 3.00 2.21 2.16
128 — 22 2/1 — 1 1 1 5-ch. 8-it — — 20 4.0 5.5 Ind. 28-SOIC PIC16F72-I/SO-ND◆ 3.00 2.21 2.16
128 — 22 2/1 — 1 1 1 5-ch. 8-it — — 20 4.0 5.5 Ind. 28-SSOP PIC16F72-I/SS-ND◆ 3.14 2.31 2.25
128 — 22 2/1 — 1 1 1 5-ch. 8-it — — 20 4.0 5.5 Ind. 28-QFN PIC16F72-I/ML-ND◆ 3.00 2.21 2.16
128 — 22 2/1 — 1 1 1 5-ch. 8-it — — 20 2.0 5.5 Ind. 28-QFN PIC16LF72-I/ML-ND◆ 3.18 2.33 2.27
128 — 22 2/1 — 1 1 1 5-ch. 8-it — — 20 2.0 5.5 Ind. 28-SOIC PIC16LF72-I/SO-ND◆ 3.18 2.33 2.27
128 — 22 2/1 — 1 1 1 5-ch. 8-it — — 20 2.0 5.5 Ind. 28-DIP .3 PIC16LF72-I/SP-ND◆ 3.18 2.33 2.27
128 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 28-QFN PIC16F722-E/ML-ND◆ 2.20 1.73 1.59
128 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 28-QFN PIC16F722-I/ML-ND◆ 2.04 1.60 1.47
128 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 28-SOIC PIC16F722-E/SO-ND◆ 1.88 1.48 1.36
128 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 28-SOIC PIC16F722-I/SO-ND◆ 1.72 1.35 1.24
128 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 28-DIP .3 PIC16F722-E/SP-ND◆ 2.12 1.68 1.54
128 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 28-DIP .3 PIC16F722-I/SP-ND◆ 1.96 1.54 1.41
128 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 28-SSOP PIC16F722-E/SS-ND◆ 1.84 1.45 1.33
128 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 28-SSOP PIC16F722-I/SS-ND◆ 1.66 1.31 1.20
128 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 28-QFN PIC16LF722-E/ML-ND◆ 2.20 1.73 1.59
128 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 28-SOIC PIC16LF722-E/SO-ND◆ 1.90 1.48 1.36
128 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 28-DIP PIC16LF722-E/SP-ND◆ 2.14 1.68 1.54
128 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 28-SSOP PIC16LF722-E/SS-ND◆ 1.84 1.45 1.33
128 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 28-QFN PIC16LF722-I/ML-ND◆ 2.04 1.60 1.47
128 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 28-SOIC PIC16LF722-I/SO-ND◆ 1.72 1.35 1.24
128 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 28-DIP PIC16LF722-I/SP-ND◆ 1.96 1.54 1.41
128 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 28-SSOP PIC16LF722-I/SS-ND◆ 1.66 1.31 1.20
2K x 14
128 256 18 2/1 — — — 1 12-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 20-QFN PIC16F785-I/ML-ND◆ 2.36 1.79 1.64
128 256 18 2/1 — — — 1 12-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 20-DIP PIC16F785-I/P-ND◆ 2.42 1.83 1.68
128 256 18 2/1 — — — 1 12-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 20-SOIC PIC16F785-I/SO-ND◆ 2.36 1.79 1.64
128 256 18 2/1 — — — 1 12-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 20-SSOP PIC16F785-I/SS-ND◆ 2.04 1.54 1.41
128 128 16 2/1 — 1 1 1 5-ch. 10-it — 8MHz 20 4.0 5.5 Ind. 28-QFN PIC16F819-I/ML-ND◆ 3.84 2.49 2.40
128 128 16 2/1 — 1 1 1 5-ch. 10-it — 8MHz 20 4.0 5.5 Ind. 18-DIP PIC16F819-I/P-ND◆ 3.22 2.10 2.03
128 128 16 2/1 — 1 1 1 5-ch. 10-it — 8MHz 20 4.0 5.5 Ind. 18-SOIC PIC16F819-I/SO-ND◆ 3.30 2.13 2.06
128 128 16 2/1 — 1 1 1 5-ch. 10-it — 8MHz 20 4.0 5.5 Ind. 20-SSOP PIC16F819-I/SS-ND◆ 3.52 2.30 2.22
128 128 16 2/1 — 1 1 1 5-ch. 10-it — 8MHz 20 2.0 5.5 Ind. 28-QFN PIC16LF819-I/ML-ND◆ 3.84 2.49 2.40
128 128 16 2/1 — 1 1 1 5-ch. 10-it — 8MHz 20 2.0 5.5 Ind. 18-DIP PIC16LF819-I/P-ND◆ 3.38 2.20 2.12
128 128 16 2/1 — 1 1 1 5-ch. 10-it — 8MHz 20 2.0 5.5 Ind. 18-SOIC PIC16LF819-I/SO-ND◆ 3.46 2.24 2.16
128 128 16 2/1 — 1 1 1 5-ch. 10-it — 8MHz 20 2.0 5.5 Ind. 20-SSOP PIC16LF819-I/SS-ND◆ 3.72 2.41 2.33
128 64 22 2/1 1 AUSART — — 1 5-ch. 10-it — — 20 4.0 5.5 Ind. 28-SOIC PIC16F870-I/SO-ND◆ 4.04 2.97 2.89
128 64 22 2/1 1 AUSART — — 1 5-ch. 10-it — — 20 4.0 5.5 Ind. 28-DIP .3 PIC16F870-I/SP-ND◆ 4.04 2.97 2.89
128 64 22 2/1 1 AUSART — — 1 5-ch. 10-it — — 20 4.0 5.5 Ind. 28-SSOP PIC16F870-I/SS-ND◆ 4.16 3.07 2.99
128 64 22 2/1 1 AUSART — — 1 5-ch. 10-it — — 20 2.0 5.5 Ind. 28-SOIC PIC16LF870-I/SO-ND◆ 4.26 3.13 3.05
128 64 22 2/1 1 AUSART — — 1 5-ch. 10-it — — 20 2.0 5.5 Ind. 28-DIP .3 PIC16LF870-I/SP-ND◆ 4.26 3.13 3.05
128 64 22 2/1 1 AUSART — — 1 5-ch. 10-it — — 20 2.0 5.5 Ind. 28-SSOP PIC16LF870-I/SS-ND◆ 4.36 3.21 3.13
128 64 33 2/1 1 AUSART — — 1 8-ch. 10-it — — 20 4.0 5.5 Ind. 44-PLCC PIC16F871-I/L-ND◆ 5.36 4.45 4.28
128 64 33 2/1 1 AUSART — — 1 8-ch. 10-it — — 20 4.0 5.5 Ind. 40-DIP PIC16F871-I/P-ND◆ 4.78 3.19 3.14
128 64 33 2/1 1 AUSART — — 1 8-ch. 10-it — — 20 2.0 5.5 Ind. 44-PLCC PIC16LF871-I/L-ND◆ 5.64 4.68 4.51
128 64 33 2/1 1 AUSART — — 1 8-ch. 10-it — — 20 2.0 5.5 Ind. 40-DIP PIC16LF871-I/P-ND◆ 5.02 3.35 3.29
128 64 33 2/1 1 AUSART — — 1 8-ch. 10-it — — 20 2.0 5.5 Ind. 44-TQFP PIC16LF871-I/PT-ND◆ 6.76 4.51 4.44
128 64 22 2/1 — 1 MI2C 1 1 5-ch. 10-it — — 20 4.0 5.5 Ind. 28-SOIC PIC16F872-I/SO-ND◆ 4.04 2.97 2.89
128 64 22 2/1 — 1 MI 2 C 1 1 5-ch. 10-it — — 20 4.0 5.5 Ind. 28-DIP .3 PIC16F872-I/SP-ND◆ 4.04 2.97 2.89
128 64 22 2/1 — 1 MI2C 1 1 5-ch. 10-it — — 20 4.0 5.5 Ind. 28-SSOP PIC16F872-I/SS-ND◆ 4.16 3.07 2.99
128 64 22 2/1 — 1 MI2C 1 1 5-ch. 10-it — — 20 2.0 5.5 Ind. 28-SOIC PIC16LF872-I/SO-ND◆ 4.26 3.13 3.05
128 64 22 2/1 — 1 MI 2 C 1 1 5-ch. 10-it — — 20 2.0 5.5 Ind. 28-DIP .3 PIC16LF872-I/SP-ND◆ 4.26 3.13 3.05
128 64 22 2/1 — 1 MI2C 1 1 5-ch. 10-it — — 20 2.0 5.5 Ind. 28-SSOP PIC16LF872-I/SS-ND◆ 4.36 3.21 3.13
128 128 25 2/1 1 AUSART, 1 EUSART 1 MI2C 1 — 11-ch. 10-it — 8MHz, 32Hz 20 2.0 5.5 Ind. 28-QFN PIC16F882-I/ML-ND◆ 2.56 1.89 1.73
128 128 25 2/1 1 AUSART, 1 EUSART 1 MI 2 C 1 — 11-ch. 10-it — 8MHz, 32Hz 20 2.0 5.5 Ind. 28-DIP PIC16F882-I/SP-ND◆ 2.48 1.83 1.68
128 128 25 2/1 1 AUSART, 1 EUSART 1 MI 2 C 1 — 11-ch. 10-it — 8MHz, 32Hz 20 2.0 5.5 Ind. 28-SSOP PIC16F882-I/SS-ND◆ 2.10 1.54 1.41
128 128 25 2/1 1 AUSART, 1 EUSART 1 MI2C 1 — 11-ch. 10-it — 8MHz, 32Hz 20 2.0 5.5 Ext. 28-SOIC PIC16F882-E/SO-ND◆ 2.48 1.83 1.68
128 128 25 2/1 1 AUSART, 1 EUSART 1 MI 2 C 1 1 11-ch. 10-it 2 8MHz, 32Hz 20 2.0 5.5 Ind. 28-SOIC PIC16F882-I/SO-ND◆ 2.24 1.64 1.50
128 — 12 2/1 — — — — 8-ch. 10-it 2 8MHz 20 User Dened Ind. 14-DIP PIC16HV616-I/P-ND◆ 1.46 1.15 1.05
128 — 12 2/1 — — — — 8-ch. 10-it 2 8MHz 20 User Dened Ind. 14-SOIC PIC16HV616-I/SL-ND◆ 1.28 1.00 .92
256 256 16 2/1 1 AUSART — — 1 — 2 4MHz 20 3.0 5.5 Ind. 28-QFN PIC16F648A-I/ML-ND◆ 3.48 2.26 2.18
256 256 16 2/1 1 AUSART — — 1 — 2 4MHz 20 3.0 5.5 Ind. 18-DIP PIC16F648A-I/P-ND◆ 3.04 1.97 1.90
256 256 16 2/1 1 AUSART — — 1 — 2 4MHz 20 3.0 5.5 Ind. 18-SOIC PIC16F648A-I/SO-ND◆ 3.10 2.02 1.95
256 256 16 2/1 1 AUSART — — 1 — 2 4MHz 20 3.0 5.5 Ind. 20-SSOP PIC16F648A-I/SS-ND◆ 3.34 2.17 2.10
256 256 18 2/1 — — — 1 12-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 20-QFN PIC16F685-I/ML-ND◆ 2.38 1.77 1.63
256 256 18 2/1 — — — 1 12-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 20-DIP PIC16F685-I/P-ND◆ 2.30 1.81 1.66
256 256 18 2/1 — — — 1 12-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 20-SOIC PIC16F685-I/SO-ND◆ 2.38 1.77 1.63
256 256 18 2/1 — — — 1 12-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 20-SSOP PIC16F685-I/SS-ND◆ 2.06 1.52 1.40
256 256 12 1/1 1 EUSART — — — 8-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 14-QFN PIC16F688-I/ML-ND◆ 2.08 1.39 1.36
256 256 12 1/1 1 EUSART — — — 8-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 14-DIP PIC16F688-I/P-ND◆ 2.08 1.39 1.36
256 256 12 1/1 1 EUSART — — — 8-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 14-SOIC PIC16F688-I/SL-ND◆ 1.88 1.26 1.23
256 256 12 1/1 1 EUSART — — — 8-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 14-TSSOP PIC16F688-I/ST-ND◆ 2.14 1.43 1.40
256 256 12 1/1 1 AUSART, 1 EUSART — — — 8-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 14-SOIC PIC16F688T-I/SLTR-ND‡ 3224.00/2,600
256 256 18 1/1 1 EUSART 1 1 — 12-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 20-QFN PIC16F689-I/ML-ND 2.38 1.77 1.63
256 256 18 1/1 1 EUSART 1 1 — 12-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 20-DIP PIC16F689-I/P-ND 2.30 1.81 1.66
4K x 14
256 256 18 1/1 1 EUSART 1 1 — 12-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 20-SOIC PIC16F689-I/SO-ND 2.38 1.77 1.63
256 256 18 1/1 1 EUSART 1 1 — 12-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 20-SSOP PIC16F689-I/SS-ND 2.06 1.52 1.40
256 256 18 2/1 1 EUSART 1 1 1 12-ch. 10-it 2 8MHz 20 4.0 5.5 Ext. 20-QFN PIC16F690-E/ML-ND 2.74 2.04 1.87
256 256 18 2/1 1 EUSART 1 1 1 12-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 20-QFN PIC16F690-I/ML-ND 2.50 1.87 1.71
256 256 18 2/1 1 EUSART 1 1 1 12-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 20-DIP PIC16F690-I/P-ND 2.44 1.91 1.75
256 256 18 2/1 1 EUSART 1 1 1 12-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 20-SOIC PIC16F690-I/SO-ND 2.50 1.87 1.71
256 256 18 2/1 1 EUSART 1 1 1 12-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 20-SSOP PIC16F690-I/SS-ND 2.18 1.62 1.48
192 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 28-QFN PIC16F723-E/ML-ND◆ 2.48 1.95 1.78
192 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 28-QFN PIC16F723-I/ML-ND◆ 2.28 1.79 1.64
192 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 28-SOIC PIC16F723-E/SO-ND◆ 2.16 1.70 1.55
192 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 28-SOIC PIC16F723-I/SO-ND◆ 1.96 1.54 1.41
192 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 28-DIP PIC16F723-E/SP-ND◆ 2.40 1.89 1.73
192 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 28-DIP PIC16F723-I/SP-ND◆ 2.20 1.73 1.59
192 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 28-SSOP PIC16F723-E/SS-ND◆ 2.10 1.66 1.52
192 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 28-SSOP PIC16F723-I/SS-ND◆ 1.90 1.50 1.38
192 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 28-QFN PIC16LF723-E/ML-ND◆ 2.48 1.95 1.78
192 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 28-SOIC PIC16LF723-E/SO-ND◆ 2.16 1.70 1.55
◆ RoHS Compliant ‡ Tape and Reel
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Commercial 32F 158F 0C 70C Extended -40F 257F -40C 125C Hih -40F 302F -40C 150C
(Continued)
C
®
For Digi-Reel ® information, please see page 71.
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
115
115

General Purpose 8-bit PIC Flash Microcontrollers
PIC16F Devices (Cont.)
C
Memory Size
Timer/
Clock
Operating
Program RAM EEPROM I/O Counters
Analog Int. Speed VCC
Digi-Key
Price Each
Words Bytes Bytes Pins 8/16-bit UART I2C SPI PWM A/D Comp. Osc. (MHz) (V) Temp. Package Part No.
1 10 25
192 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 28-DIP PIC16LF723-E/SP-ND◆ 2.40 1.89 1.73
192 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 28-SSOP PIC16LF723-E/SS-ND◆ 2.12 1.66 1.52
192 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 28-QFN PIC16LF723-I/ML-ND◆ 2.28 1.79 1.64
192 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 28-SOIC PIC16LF723-I/SO-ND◆ 1.96 1.54 1.41
192 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 28-DIP PIC16LF723-I/SP-ND◆ 2.20 1.73 1.59
192 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 28-SSOP PIC16LF723-I/SS-ND◆ 1.92 1.50 1.38
192 — 36 2/1 1 AUSART 1 1 2 14-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 44-QFN PIC16F724-E/ML-ND◆ 3.02 2.37 2.17
192 — 36 2/1 1 AUSART 1 1 2 14-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 44-QFN PIC16F724-I/ML-ND◆ 2.76 2.18 2.00
192 — 36 2/1 1 AUSART 1 1 2 14-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 40-DIP PIC16F724-E/P-ND◆ 2.82 2.22 2.03
192 — 36 2/1 1 AUSART 1 1 2 14-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 40-DIP PIC16F724-I/P-ND◆ 2.58 2.02 1.86
192 — 36 2/1 1 AUSART 1 1 2 14-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 44-TQFP PIC16F724-E/PT-ND◆ 2.70 2.12 1.94
192 — 36 2/1 1 AUSART 1 1 2 14-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 44-TQFP PIC16F724-I/PT-ND◆ 2.44 1.93 1.77
192 — 36 2/1 1 AUSART 1 1 2 14-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 44-QFN PIC16LF724-E/ML-ND◆ 3.14 2.06 2.01
192 — 36 2/1 1 AUSART 1 1 2 14-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 40-DIP PIC16LF724-E/P-ND◆ 2.94 1.93 1.89
192 — 36 2/1 1 AUSART 1 1 2 14-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 44-TQFP PIC16LF724-E/PT-ND◆ 2.82 1.85 1.80
192 — 36 2/1 1 AUSART 1 1 2 14-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 44-QFN PIC16LF724-I/ML-ND◆ 2.88 1.89 1.85
192 — 36 2/1 1 AUSART 1 1 2 14-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 40-DIP PIC16LF724-I/P-ND◆ 2.68 1.76 1.72
192 — 36 2/1 1 AUSART 1 1 2 14-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 44-TQFP PIC16LF724-I/PT-ND◆ 2.56 1.68 1.64
192 — 22 2/1 1 USART 1 1 2 5-ch. 8-it — — 20 4.0 5.5 Ind. 28-QFN PIC16F73-I/ML-ND◆ 4.68 3.45 3.36
192 — 22 2/1 1 USART 1 1 2 5-ch. 8-it — — 20 4.0 5.5 Ind. 28-SOIC PIC16F73-I/SO-ND◆ 4.68 3.45 3.36
192 — 22 2/1 1 USART 1 1 2 5-ch. 8-it — — 20 4.0 5.5 Ind. 28-DIP .3 PIC16F73-I/SP-ND◆ 4.68 3.45 3.36
192 — 22 2/1 1 USART 1 1 2 5-ch. 8-it — — 20 4.0 5.5 Ind. 28-SSOP PIC16F73-I/SS-ND◆ 4.84 3.55 3.46
192 — 22 2/1 1 USART 1 1 2 5-ch. 8-it — — 20 2.0 5.5 Ind. 28-QFN PIC16LF73-I/ML-ND◆ 4.92 3.63 3.54
192 — 22 2/1 1 USART 1 1 2 5-ch. 8-it — — 20 2.0 5.5 Ind. 28-SOIC PIC16LF73-I/SO-ND◆ 4.92 3.63 3.54
192 — 22 2/1 1 USART 1 1 2 5-ch. 8-it — — 20 2.0 5.5 Ind. 28-DIP .3 PIC16LF73-I/SP-ND◆ 4.92 3.63 3.54
192 — 22 2/1 1 USART 1 1 2 5-ch. 8-it — — 20 2.0 5.5 Ind. 28-SSOP PIC16LF73-I/SS-ND◆ 5.06 3.72 3.63
368 — 25 2/1 1 AUSART 1 MI 2 C 1 2 11-ch. 10-it 2 — 20 4.0 5.5 Ind. 28-QFN PIC16F737-I/ML-ND◆ 5.74 3.83 3.77
368 — 25 2/1 1 AUSART 1 MI2C 1 2 11-ch. 10-it 2 — 20 4.0 5.5 Ind. 28-SOIC PIC16F737-I/SO-ND◆ 5.30 3.54 3.48
368 — 25 2/1 1 AUSART 1 MI2C 1 2 11-ch. 10-it 2 — 20 4.0 5.5 Ind. 28-DIP .3 PIC16F737-I/SP-ND◆ 5.20 3.47 3.41
368 — 25 2/1 1 AUSART 1 MI 2 C 1 2 11-ch. 10-it 2 — 20 4.0 5.5 Ind. 28-SSOP PIC16F737-I/SS-ND◆ 5.46 3.64 3.58
368 — 25 2/1 1 AUSART 1 MI 2 C 1 2 11-ch. 10-it 2 — 20 2.0 5.5 Ind. 28-QFN PIC16LF737-I/ML-ND◆ 6.02 4.01 3.94
368 — 25 2/1 1 AUSART 1 MI2C 1 2 11-ch. 10-it 2 — 20 2.0 5.5 Ind. 28-SOIC PIC16LF737-I/SO-ND◆ 5.82 3.89 3.82
368 — 25 2/1 1 AUSART 1 MI 2 C 1 2 11-ch. 10-it 2 — 20 2.0 5.5 Ind. 28-DIP .3 PIC16LF737-I/SP-ND 5.72 3.82 3.75
368 — 25 2/1 1 AUSART 1 MI2C 1 2 11-ch. 10-it 2 — 20 2.0 5.5 Ind. 28-SSOP PIC16LF737-I/SS-ND 5.90 3.93 3.87
192 — 33 2/1 1 USART 1 1 2 8-ch. 8-bit — — 20 4.0 5.5 Ind. 44-PLCC PIC16F74-I/L-ND 6.38 4.83 4.75
192 — 33 2/1 1 USART 1 1 2 8-ch. 8-bit — — 20 4.0 5.5 Ind. 44-QFN PIC16F74-I/ML-ND 7.10 5.23 5.10
192 — 33 2/1 1 USART 1 1 2 8-ch. 8-bit — — 20 4.0 5.5 Ind. 40-DIP PIC16F74-I/P-ND 5.70 4.19 4.08
192 — 33 2/1 1 USART 1 1 2 8-ch. 8-bit — — 20 4.0 5.5 Ind. 44-TQFP PIC16F74-I/PT-ND 6.84 5.02 4.89
192 — 33 2/1 1 USART 1 1 2 8-ch. 8-bit — — 20 2.0 5.5 Ind. 44-PLCC PIC16LF74-I/L-ND 6.70 5.08 4.99
192 — 33 2/1 1 USART 1 1 2 8-ch. 8-bit — — 20 2.0 5.5 Ind. 44-QFN PIC16LF74-I/ML-ND 7.44 5.47 5.33
192 — 33 2/1 1 USART 1 1 2 8-ch. 8-bit — — 20 2.0 5.5 Ind. 44-TQFP PIC16LF74-I/PT-ND 7.20 5.28 5.14
4K x 14
368 — 36 2/1 1 AUSART 1 MI2C 1 2 14-ch. 10-it 2 — 20 4.0 5.5 Ind. 40-QFN PIC16F747-I/ML-ND 6.40 4.27 4.20
368 — 36 2/1 1 AUSART 1 MI2C 1 2 14-ch. 10-it 2 — 20 4.0 5.5 Ind. 40-DIP PIC16F747-I/P-ND 5.98 3.99 3.92
368 — 36 2/1 1 AUSART 1 MI 2 C 1 2 14-ch. 10-it 2 — 20 4.0 5.5 Ind. 44-TQFP PIC16F747-I/PT-ND 6.08 4.06 3.99
368 — 36 2/1 1 AUSART 1 MI 2 C 1 2 14-ch. 10-it 2 — 20 2.0 5.5 Ind. 40-DIP PIC16LF747-I/P-ND 6.56 4.38 4.31
368 — 36 2/1 1 AUSART 1 MI2C 1 2 14-ch. 10-it 2 — 20 2.0 5.5 Ind. 44-TQFP PIC16LF747-I/PT-ND◆ 6.70 4.47 4.40
368 256 16 2/1 1 AUSART — — 1 — 2 8MHz 20 3.0 5.5 Ind. 28-QFN PIC16F87-I/ML-ND◆ 4.20 2.73 2.63
368 256 16 2/1 1 AUSART — — 1 — 2 8MHz 20 3.0 5.5 Ind. 18-DIP PIC16F87-I/P-ND◆ 3.72 2.43 2.35
368 256 16 2/1 1 AUSART — — 1 — 2 8MHz 20 3.0 5.5 Ind. 18-SOIC PIC16F87-I/SO-ND◆ 3.84 2.49 2.40
368 256 16 2/1 1 AUSART — — 1 — 2 8MHz 20 3.0 5.5 Ind. 20-SSOP PIC16F87-I/SS-ND◆ 4.10 2.67 2.58
368 256 16 2/1 1 AUSART — — 1 — 2 8MHz 20 2.0 5.5 Ind. 28-QFN PIC16LF87-I/ML-ND◆ 4.38 2.86 2.76
368 256 16 2/1 1 AUSART — — 1 — 2 8MHz 20 2.0 5.5 Ind. 18-DIP PIC16LF87-I/P-ND◆ 3.92 2.56 2.47
368 256 16 2/1 1 AUSART — — 1 — 2 8MHz 20 2.0 5.5 Ind. 18-SOIC PIC16LF87-I/SO-ND◆ 4.00 2.60 2.51
368 256 16 2/1 1 AUSART — — 1 — 2 8MHz 20 2.0 5.5 Ind. 20-SSOP PIC16LF87-I/SS-ND◆ 4.34 2.81 2.71
192 128 22 2/1 1 AUSART 1 1 2 5-ch. 10-it 2 — 20 4.0 5.5 Ind. 28-QFN PIC16F873A-I/ML-ND◆ 6.08 4.48 4.36
192 128 22 2/1 1 AUSART 1 1 2 5-ch. 10-it 2 — 20 4.0 5.5 Ind. 28-SOIC PIC16F873A-I/SO-ND◆ 5.72 4.21 4.10
192 128 22 2/1 1 AUSART 1 1 2 5-ch. 10-it 2 — 20 4.0 5.5 Ind. 28-DIP .3 PIC16F873A-I/SP-ND◆ 5.72 4.21 4.10
192 128 22 2/1 1 AUSART 1 1 2 5-ch. 10-it 2 — 20 4.0 5.5 Ind. 28-SSOP PIC16F873A-I/SS-ND◆ 5.84 4.30 4.19
192 128 22 2/1 1 AUSART 1 MI 2 C 1 2 5-ch. 10-it 2 — 20 2.0 5.5 Ind. 28-QFN PIC16LF873A-I/ML-ND◆ 6.38 4.69 4.57
192 128 22 2/1 1 AUSART 1 MI2C 1 2 5-ch. 10-it 2 — 20 2.0 5.5 Ind. 28-SOIC PIC16LF873A-I/SO-ND◆ 6.02 4.41 4.30
192 128 22 2/1 1 AUSART 1 MI2C 1 2 5-ch. 10-it 2 — 20 2.0 5.5 Ind. 28-DIP .3 PIC16LF873A-I/SP-ND◆ 6.02 4.41 4.30
192 128 22 2/1 1 AUSART 1 MI 2 C 1 2 5-ch. 10-it 2 — 20 2.0 5.5 Ind. 28-SSOP PIC16LF873A-I/SS-ND◆ 6.32 4.64 4.52
192 128 33 2/1 1 AUSART 1 MI 2 C 1 2 8-ch. 10-it 2 — 20 4.0 5.5 Ind. 44-PLCC PIC16F874A-I/L-ND◆ 7.00 5.31 5.22
192 128 33 2/1 1 AUSART 1 MI2C 1 2 8-ch. 10-it 2 — 20 4.0 5.5 Ind. 44-QFN PIC16F874A-I/ML-ND◆ 7.20 5.28 5.14
192 128 33 2/1 1 AUSART 1 MI2C 1 2 8-ch. 10-it 2 — 20 4.0 5.5 Ind. 40-DIP PIC16F874A-I/P-ND◆ 6.24 4.59 4.47
192 128 33 2/1 1 AUSART 1 MI 2 C 1 2 8-ch. 10-it 2 — 20 4.0 5.5 Ind. 44-TQFP PIC16F874A-I/PT-ND◆ 7.20 5.28 5.14
192 128 33 2/1 1 AUSART 1 MI2C 1 2 8-ch. 10-it 2 — 20 2.0 5.5 Ind. 44-PLCC PIC16LF874A-I/L-ND◆ 7.36 5.57 5.48
192 128 33 2/1 1 AUSART 1 MI 2 C 1 2 8-ch. 10-it 2 — 20 2.0 5.5 Ind. 40-DIP PIC16LF874A-I/P-ND◆ 6.56 4.83 4.71
192 128 33 2/1 1 AUSART 1 MI 2 C 1 2 8-ch. 10-it 2 — 20 2.0 5.5 Ind. 44-TQFP PIC16LF874A-I/PT-ND◆ 7.56 5.55 5.41
368 256 16 2/1 1 AUSART — 1 1 7-ch. 10-it 2 8MHz 20 3.0 5.5 Ind. 28-QFN PIC16F88-I/ML-ND◆ 4.46 3.27 3.19
368 256 16 2/1 1 AUSART — 1 1 7-ch. 10-it 2 8MHz 20 3.0 5.5 Ind. 18-DIP PIC16F88-I/P-ND◆ 4.00 2.60 2.51
368 256 16 2/1 1 AUSART — 1 1 7-ch. 10-it 2 8MHz 20 3.0 5.5 Ind. 18-SOIC PIC16F88-I/SO-ND◆ 4.08 2.66 2.57
368 256 16 2/1 1 AUSART — 1 1 7-ch. 10-it 2 8MHz 20 3.0 5.5 Ind. 20-SSOP PIC16F88-I/SS-ND◆ 4.38 2.86 2.76
368 256 16 2/1 1 AUSART — 1 1 7-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 28-QFN PIC16LF88-I/ML-ND◆ 4.68 3.43 3.34
368 256 16 2/1 1 AUSART — 1 1 7-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 18-DIP PIC16LF88-I/P-ND◆ 4.20 2.73 2.63
368 256 16 2/1 1 AUSART — 1 1 7-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 18-SOIC PIC16LF88-I/SO-ND◆ 4.26 2.78 2.69
368 256 16 2/1 1 AUSART — 1 1 7-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 20-SSOP PIC16LF88-I/SS-ND◆ 4.60 3.00 2.89
256 256 25 2/1 1 EUSART 1 MI2C 1 2 11-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 28-QFN PIC16F883-I/ML-ND◆ 2.60 2.04 1.98
256 256 25 2/1 1 EUSART 1 MI 2 C 1 2 11-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 28-SOIC PIC16F883-I/SO-ND◆ 2.18 1.74 1.69
256 256 25 2/1 1 EUSART 1 MI 2 C 1 2 11-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 28-DIP PIC16F883-I/SP-ND◆ 2.42 1.90 1.85
256 256 25 2/1 1 EUSART 1 MI2C 1 2 11-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 28-SSOP PIC16F883-I/SS-ND◆ 2.12 1.70 1.66
256 256 36 2/1 1 EUSART 1 MI 2 C 1 2 14-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 44-QFN PIC16F884-I/ML-ND◆ 2.82 2.20 2.14
256 256 36 2/1 1 EUSART 1 MI 2 C 1 2 14-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 40-DIP PIC16F884-I/P-ND◆ 2.56 2.01 1.96
256 256 36 2/1 1 EUSART 1 MI 2 C 1 2 14-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 44-TQFP PIC16F884-I/PT-ND◆ 2.58 2.03 1.98
368 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 28-QFN PIC16F726-E/ML-ND◆ 2.74 2.16 1.98
368 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 28-QFN PIC16F726-I/ML-ND◆ 2.52 1.99 1.82
368 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 28-SOIC PIC16F726-E/SO-ND◆ 2.42 1.91 1.75
368 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 28-SOIC PIC16F726-I/SO-ND◆ 2.20 1.73 1.59
368 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 28-DIP PIC16F726-E/SP-ND◆ 2.66 2.10 1.93
368 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 28-DIP PIC16F726-I/SP-ND◆ 2.44 1.93 1.77
368 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 28-SSOP PIC16F726-E/SS-ND◆ 2.38 1.87 1.71
128 — 25 2/1 1 AUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 28-SSOP PIC16F726-I/SS-ND◆ 2.16 1.70 1.55
8K x 14
368 — 25 1/2 1 AUSART 1 1 2 11-ch. 8-bit — 16MHz 20 1.8 5.5 Ind. 28-QFN PIC16LF726-I/ML-ND◆ 2.52 1.99 1.82
368 — 25 1/2 1 AUSART 1 1 2 11-ch. 8-bit — 16MHz 20 1.8 5.5 Ind. 28-SOIC PIC16LF726-I/SO-ND◆ 2.20 1.73 1.59
368 — 25 1/2 1 AUSART 1 1 2 11-ch. 8-bit — 16MHz 20 1.8 5.5 Ind. 28-DIP PIC16LF726-I/SP-ND◆ 2.46 1.93 1.77
368 — 25 1/2 1 AUSART 1 1 2 11-ch. 8-bit — 16MHz 20 1.8 5.5 Ind. 28-SSOP PIC16LF726-I/SS-ND◆ 2.16 1.70 1.55
368 — 36 2/1 1 AUSART 1 1 2 14-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 44-QFN PIC16F727-E/ML-ND◆ 3.28 2.58 2.37
368 — 36 2/1 1 AUSART 1 1 2 14-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 44-QFN PIC16F727-I/ML-ND◆ 3.02 2.37 2.17
368 — 36 2/1 1 AUSART 1 1 2 14-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 40-DIP PIC16F727-E/P-ND◆ 3.08 2.43 2.23
128 — 36 2/1 1 AUSART 1 1 2 14-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 40-DIP PIC16F727-I/P-ND◆ 2.82 2.22 2.03
368 — 36 2/1 1 AUSART 1 1 2 14-ch. 8-bit 2 16MHz 20 1.8 5.5 Ext. 40-TQFP PIC16F727-E/PT-ND◆ 2.96 2.33 2.14
128 — 36 2/1 1 AUSART 1 1 2 14-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 44-TQFP PIC16F727-I/PT-ND◆ 2.70 2.12 1.94
◆ RoHS Compliant ‡ Tape and Reel
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Commercial 32F 158F 0C 70C Extended -40F 257F -40C 125C Hih -40F 302F -40C 150C
(Continued)
®
For Digi-Reel ® information, please see page 71.
116 (US2011)
(TZM112.US)
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General Purpose 8-bit PIC Flash Microcontrollers
PIC16F Devices (Cont.)
Memory Size
Timer/
Clock
Operating
Program RAM EEPROM I/O Counters
Analog Int. Speed VCC
Digi-Key
Price Each
Words Bytes Bytes Pins 8/16-bit UART I2C SPI PWM A/D Comp. Osc. (MHz) (V) Temp. Package Part No.
1 10 25
368 — 36 1/2 1 AUSART 1 1 2 14-ch. 8-bit — 16MHz 20 1.8 5.5 Ind. 44-QFN PIC16LF727-I/ML-ND◆ 3.02 2.37 2.17
368 — 36 1/2 1 AUSART 1 1 2 14-ch. 8-bit — 16MHz 20 1.8 5.5 Ind. 40-DIP PIC16LF727-I/P-ND◆ 2.82 2.22 2.03
368 — 36 1/2 1 AUSART 1 1 2 14-ch. 8-bit — 16MHz 20 1.8 5.5 Ind. 44-TQFP PIC16LF727-I/PT-ND◆ 2.70 2.12 1.94
368 — 22 2/1 1 USART 1 1 2 5-ch. 8-it — — 20 4.0 5.5 Ind. 28-QFN PIC16F76-I/ML-ND 5.90 4.33 4.22
368 — 22 2/1 1 USART 1 1 2 5-ch. 8-it — — 20 4.0 5.5 Ind. 28-SOIC PIC16F76-I/SO-ND 5.90 4.33 4.22
368 — 22 2/1 1 USART 1 1 2 5-ch. 8-it — — 20 4.0 5.5 Ind. 28-DIP .3 PIC16F76-I/SP-ND 5.90 4.33 4.22
368 — 22 2/1 1 USART 1 1 2 5-ch. 8-it — — 20 4.0 5.5 Ind. 28-SSOP PIC16F76-I/SS-ND 6.04 4.43 4.32
368 — 22 2/1 1 USART 1 1 2 5-ch. 8-it — — 20 2.0 5.5 Ind. 28-QFN PIC16LF76-I/ML-ND 6.18 4.54 4.42
368 — 22 2/1 1 USART 1 1 2 5-ch. 8-it — — 20 2.0 5.5 Ind. 28-SOIC PIC16LF76-I/SO-ND 6.18 4.54 4.42
368 — 22 2/1 1 USART 1 1 2 5-ch. 8-it — — 20 2.0 5.5 Ind. 28-DIP .3 PIC16LF76-I/SP-ND 6.18 4.54 4.42
368 — 22 2/1 1 USART 1 1 2 5-ch. 8-it — — 20 2.0 5.5 Ind. 28-SSOP PIC16LF76-I/SS-ND 6.34 4.65 4.53
368 — 25 2/1 1 AUSART 1 MI2C 1 2 11-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 28-QFN PIC16F767-I/ML-ND 6.66 4.44 4.37
368 — 25 2/1 1 AUSART 1 MI2C 1 2 11-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 28-SOIC PIC16F767-I/SO-ND 6.16 4.11 4.04
368 — 25 2/1 1 AUSART 1 MI2C 1 2 11-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 28-DIP .3 PIC16F767-I/SP-ND 6.04 4.03 3.96
368 — 25 2/1 1 AUSART 1 MI2C 1 2 11-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 28-SSOP PIC16F767-I/SS-ND 6.36 4.24 4.17
368 — 25 2/1 1 AUSART 1 MI2C 1 2 11-ch. 10-it 2 4MHz 20 2.0 5.5 Ind. 28-QFN PIC16LF767-I/ML-ND 7.26 4.85 4.77
368 — 25 2/1 1 AUSART 1 MI2C 1 2 11-ch. 10-it 2 4MHz 20 2.0 5.5 Ind. 28-SOIC PIC16LF767-I/SO-ND 6.70 4.47 4.40
368 — 25 2/1 1 AUSART 1 MI2C 1 2 11-ch. 10-it 2 4MHz 20 2.0 5.5 Ind. 28-DIP .3 PIC16LF767-I/SP-ND 6.66 4.43 4.35
368 — 25 2/1 1 AUSART 1 MI2C 1 2 11-ch. 10-it 2 4MHz 20 2.0 5.5 Ind. 28-SSOP PIC16LF767-I/SS-ND 6.92 4.62 4.54
368 — 33 2/1 1 USART 1 1 2 8-ch. 8-bit — — 20 4.0 5.5 Ind. 44-PLCC PIC16F77-I/L-ND 7.30 5.52 5.43
368 — 33 2/1 1 USART 1 1 2 8-ch. 8-bit — — 20 4.0 5.5 Ind. 44-QFN PIC16F77-I/ML-ND 8.10 5.95 5.80
368 — 33 2/1 1 USART 1 1 2 8-ch. 8-bit — — 20 4.0 5.5 Ind. 40-DIP PIC16F77-I/P-ND 6.52 4.78 4.66
368 — 33 2/1 1 USART 1 1 2 8-ch. 8-bit — — 20 2.0 5.5 Ind. 44-PLCC PIC16LF77-I/L-ND 7.68 5.80 5.70
368 — 33 2/1 1 USART 1 1 2 8-ch. 8-bit — — 20 2.0 5.5 Ind. 44-QFN PIC16LF77-I/ML-ND 8.46 6.23 6.07
368 — 33 2/1 1 USART 1 1 2 8-ch. 8-bit — — 20 2.0 5.5 Ind. 40-DIP PIC16LF77-I/P-ND 6.84 5.02 4.89
368 — 33 2/1 1 USART 1 1 2 8-ch. 8-bit — — 20 2.0 5.5 Ind. 44-TQFP PIC16LF77-I/PT-ND 8.22 6.03 5.88
368 — 36 2/1 1 AUSART 1 MI 2 C 1 2 14-ch. 10-it 2 — 20 4.0 5.5 Ind. 44-QFN PIC16F777-I/ML-ND 7.08 4.73 4.65
8K x 14 368 — 36 2/1 1 AUSART 1 MI2C 1 2 14-ch. 10-it 2 — 20 4.0 5.5 Ind. 40-DIP PIC16F777-I/P-ND 6.66 4.43 4.35
368 — 36 2/1 1 AUSART 1 MI 2 C 1 2 14-ch. 10-it 2 — 20 4.0 5.5 Ind. 44-TQFP PIC16F777-I/PT-ND 6.76 4.51 4.44
368 — 36 2/1 1 AUSART 1 MI2C 1 2 14-ch. 10-it 2 — 20 2.0 5.5 Ind. 44-QFN PIC16LF777-I/ML-ND 7.82 5.21 5.12
368 — 36 2/1 1 AUSART 1 MI 2 C 1 2 14-ch. 10-it 2 — 20 2.0 5.5 Ind. 40-DIP PIC16LF777-I/P-ND◆ 7.30 4.86 4.78
368 — 36 2/1 1 AUSART 1 MI2C 1 2 14-ch. 10-it 2 — 20 2.0 5.5 Ind. 44-TQFP PIC16LF777-I/PT-ND◆ 7.44 4.97 4.88
368 256 22 2/1 1 AUSART 1 MI2C 1 2 5-ch. 8-it 2 — 20 4.0 5.5 Ind. 28-QFN PIC16F876A-I/ML-ND◆ 6.16 4.53 4.41
368 256 22 2/1 1 AUSART 1 MI2C 1 2 5-ch. 8-it 2 — 20 4.0 5.5 Ind. 28-SOIC PIC16F876A-I/SO-ND◆ 6.16 4.53 4.41
368 256 22 2/1 1 AUSART 1 MI2C 1 2 5-ch. 8-it 2 — 20 4.0 5.5 Ind. 28-DIP .3 PIC16F876A-I/SP-ND◆ 6.16 4.53 4.41
368 256 22 2/1 1 AUSART 1 MI 2 C 1 2 5-ch. 8-it 2 — 20 4.0 5.5 Ind. 28-SSOP PIC16F876A-I/SS-ND◆ 6.28 4.62 4.50
368 256 22 2/1 1 AUSART 1 MI2C 1 2 5-ch. 8-it 2 — 20 2.0 5.5 Ind. 28-QFN PIC16LF876A-I/ML-ND◆ 6.46 4.75 4.63
368 256 22 2/1 1 AUSART 1 MI 2 C 1 2 5-ch. 8-it 2 — 20 2.0 5.5 Ind. 28-SOIC PIC16LF876A-I/SO-ND◆ 6.46 4.75 4.63
368 256 22 2/1 1 AUSART 1 MI2C 1 2 5-ch. 8-it 2 — 20 2.0 5.5 Ind. 28-DIP .3 PIC16LF876A-I/SP-ND◆ 6.46 4.75 4.63
368 256 22 2/1 1 AUSART 1 MI2C 1 2 5-ch. 8-it 2 — 20 2.0 5.5 Ind. 28-SSOP PIC16LF876A-I/SS-ND◆ 6.58 4.85 4.72
368 256 33 2/1 1 AUSART 1 MI2C 1 2 8-ch. 10-it 2 — 20 4.0 5.5 Ind. 44-PLCC PIC16F877A-I/L-ND◆ 7.52 5.70 5.61
368 256 33 2/1 1 AUSART 1 MI2C 1 2 8-ch. 10-it 2 — 20 4.0 5.5 Ind. 44-QFN PIC16F877A-I/ML-ND◆ 7.74 5.70 5.55
368 256 33 2/1 1 AUSART 1 MI2C 1 2 8-ch. 10-it 2 — 20 4.0 5.5 Ind. 40-DIP PIC16F877A-I/P-ND◆ 6.72 4.94 4.81
368 256 33 2/1 1 AUSART 1 MI2C 1 2 8-ch. 10-it 2 — 20 4.0 5.5 Ind. 44-TQFP PIC16F877A-I/PT-ND◆ 7.74 5.70 5.55
368 256 33 2/1 1 AUSART 1 MI2C 1 2 8-ch. 10-it 2 — 20 2.0 5.5 Ind. 44-PLCC PIC16LF877A-I/L-ND◆ 7.92 6.00 5.90
368 256 33 2/1 1 AUSART 1 MI2C 1 2 8-ch. 10-it 2 — 20 2.0 5.5 Ind. 44-QFN PIC16LF877A-I/ML-ND◆ 8.12 5.97 5.81
368 256 33 2/1 1 AUSART 1 MI2C 1 2 8-ch. 10-it 2 — 20 2.0 5.5 Ind. 40-DIP PIC16LF877A-I/P-ND◆ 7.08 5.20 5.06
368 256 33 2/1 1 AUSART 1 MI2C 1 2 8-ch. 10-it 2 — 20 2.0 5.5 Ind. 44-TQFP PIC16LF877A-I/PT-ND◆ 8.12 5.97 5.81
368 256 25 2/1 1 EUSART 1 MI2C 1 2 11-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 28-QFN PIC16F886-I/ML-ND◆ 2.78 2.19 2.13
368 256 25 2/1 1 EUSART 1 MI2C 1 2 11-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 28-SOIC PIC16F886-I/SO-ND◆ 2.38 1.88 1.83
368 256 25 2/1 1 EUSART 1 MI2C 1 2 11-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 28-DIP .3 PIC16F886-I/SP-ND◆ 2.60 2.05 2.00
368 256 25 2/1 1 EUSART 1 MI2C 1 2 11-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 28-SSOP PIC16F886-I/SS-ND◆ 2.32 1.85 1.80
368 256 36 2/1 1 EUSART 1 MI2C 1 2 14-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 44-QFN PIC16F887-I/ML-ND◆ 3.04 2.38 2.32
368 256 36 2/1 1 EUSART 1 MI2C 1 2 14-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 40-DIP PIC16F887-I/P-ND◆ 2.80 2.20 2.14
368 256 36 2/1 1 EUSART 1 MI2C 1 2 14-ch. 10-it 2 8MHz 20 2.0 5.5 Ind. 44-TQFP PIC16F887-I/PT-ND◆ 2.84 2.21 2.15
◆ RoHS Compliant ‡ Tape and Reel
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Commercial 32F 158F 0C 70C Extended -40F 257F -40C 125C Hih -40F 302F -40C 150C
PIC18F Devices
Memory Size
Timer/
Clock
Oper-
Program RAM EEPROM I/O Counters
Analog Int. Speed VCC ating
Digi-Key
Price Each
Words Bytes Bytes Pins 8/16-bit UART I 2 C SPI PWM A/D Comp. Osc. (MHz) (V) Temp. Package Part No.
1 10 25
256 256 16 1/3 1 EUSART — — 1 7-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 28-QFN PIC18F1220-I/ML-ND◆ 4.04 2.65 2.58
256 256 16 1/3 1 EUSART — — 1 7-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 18-DIP PIC18F1220-I/P-ND◆ 3.72 2.44 2.38
256 256 16 1/3 1 EUSART — — 1 7-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 18-SOIC PIC18F1220-I/SO-ND◆ 3.58 2.35 2.30
256 256 16 1/3 1 EUSART — — 1 7-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 20-SSOP PIC18F1220-I/SS-ND◆ 3.58 2.35 2.30
256 256 16 1/3 1 EUSART — — 1 7-ch. 10-it — 8MHz 40 2.5 5.5 Ind. 28-QFN PIC18LF1220-I/ML-ND◆ 4.22 2.76 2.70
256 256 16 1/3 1 EUSART — — 1 7-ch. 10-it — 8MHz 40 2.5 5.5 Ind. 18-DIP PIC18LF1220-I/P-ND◆ 3.90 2.55 2.49
256 256 16 1/3 1 EUSART — — 1 7-ch. 10-it — 8MHz 40 2.5 5.5 Ind. 18-SOIC PIC18LF1220-I/SO-ND◆ 3.76 2.47 2.41
256 256 16 1/3 1 EUSART — — 1 7-ch. 10-it — 8MHz 40 2.5 5.5 Ind. 20-SSOP PIC18LF1220-I/SS-ND◆ 3.76 2.47 2.41
256 128 16 /2 1 AUSART, 1 EUSART — — 6 4-ch. 10-it 3 8MHz, 32Hz 40 4.2 5.5 Ind. 28-QFN PIC18F1230-I/ML-ND◆ 4.16 3.14 2.88
256 128 16 /2 1 AUSART, 1 EUSART — — 6 4-ch. 10-it 3 8MHz, 32Hz 40 4.2 5.5 Ind. 18-DIP PIC18F1230-I/P-ND◆ 3.84 2.89 2.65
256 128 16 /2 1 AUSART, 1 EUSART — — 6 4-ch. 10-it 3 8MHz, 32Hz 40 4.2 5.5 Ind. 18-SOIC PIC18F1230-I/SO-ND◆ 3.72 2.79 2.56
256 128 16 /2 1 AUSART, 1 EUSART — — 6 4-ch. 10-it 3 8MHz, 32Hz 40 4.2 5.5 Ind. 20-SSOP PIC18F1230-I/SS-ND◆ 3.72 2.79 2.56
256 128 16 /2 1 AUSART, 1 EUSART — — 6 4-ch. 10-it 3 8MHz, 32Hz 40 2.0 5.5 Ind. 28-QFN PIC18LF1230-I/ML-ND◆ 4.34 3.28 3.00
256 128 16 /2 1 AUSART, 1 EUSART — — 6 4-ch. 10-it 3 8MHz,32Hz 40 2.0 5.5 Ind. 18-DIP PIC18LF1230-I/P-ND◆ 4.02 3.03 2.77
256 128 16 /2 1 AUSART, 1 EUSART — — 6 4-ch. 10-it 3 8MHz, 32Hz 40 2.0 5.5 Ind. 18-SOIC PIC18LF1230-I/SO-ND◆ 3.90 2.93 2.69
256 128 16 /2 1 AUSART, 1 EUSART — — 6 4-ch. 10-it 3 8MHz, 32Hz 40 2.0 5.5 Ind. 20-SSOP PIC18LF1230-I/SS-ND 3.88 2.79 2.56
256 128 16 /2 1 EUSART — — 6 4-ch. 10-it 3 8MHz, 31Hz 40 2.0 5.5 Ext. 28-QFN PIC18F1230-E/ML-ND◆ 4.54 3.41 3.13
256 128 16 /2 1 EUSART — — 6 4-ch. 10-it 3 8MHz, 31Hz 40 2.0 5.5 Ext. 18-DIP PIC18F1230-E/P-ND◆ 4.22 3.18 2.92
256 128 16 /2 1 EUSART — — 6 4-ch. 10-it 3 8MHz, 31Hz 40 2.0 5.5 Ext. 18-SOIC PIC18F1230-E/SO-ND◆ 4.08 3.08 2.83
2K x 16 256 128 16 /2 1 EUSART — — 6 4-ch. 10-it 3 8MHz, 31Hz 40 2.0 5.5 Ext. 20-SSOP PIC18F1230-E/SS-ND◆ 4.08 3.08 2.83
512 256 25 1/3 1 AUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 28-SOIC PIC18F2220-I/SO-ND◆ 6.40 4.70 4.58
512 256 25 1/3 1 AUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2220-I/SP-ND◆ 6.40 4.70 4.58
512 256 25 1/3 1 AUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 28-SOIC PIC18LF2220-I/SO-ND◆ 6.70 4.93 4.80
512 256 25 1/3 1 AUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2220-I/SP-ND◆ 6.70 4.93 4.80
512 256 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 28-QFN PIC18F2221-I/ML-ND◆ 3.90 2.95 2.70
512 256 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 28-SOIC PIC18F2221-I/SO-ND◆ 3.58 2.70 2.47
512 256 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2221-I/SP-ND◆ 3.84 2.89 2.65
512 256 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 28-SSOP PIC18F2221-I/SS-ND◆ 3.54 2.66 2.44
512 256 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 28-QFN PIC18LF2221-I/ML-ND◆ 4.08 3.08 2.83
512 256 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 28-SOIC PIC18LF2221-I/SO-ND◆ 3.76 2.83 2.60
512 256 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2221-I/SP-ND◆ 4.02 3.03 2.77
512 256 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 28-SSOP PIC18LF2221-I/SS-ND◆ 3.72 2.79 2.56
512 256 36 1/3 1 AUSART 1 MI2C 1 2 13-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 44-QFN PIC18F4220-I/ML-ND 8.40 6.18 6.02
512 256 36 1/3 1 AUSART 1 MI 2 C 1 2 13-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 40-DIP PIC18F4220-I/P-ND◆ 7.06 5.18 5.05
512 256 36 1/3 1 AUSART 1 MI 2 C 1 2 13-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 44-TQFP PIC18F4220-I/PT-ND◆ 8.14 5.99 5.83
512 256 36 1/3 1 AUSART 1 MI2C 1 2 13-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 44-QFN PIC18LF4220-I/ML-ND◆ 8.84 6.48 6.31
512 256 36 1/3 1 AUSART 1 MI2C 1 2 13-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 40-DIP PIC18LF4220-I/P-ND◆ 7.40 5.44 5.30
512 256 36 1/3 1 AUSART 1 MI 2 C 1 2 13-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 44-TQFP PIC18LF4220-I/PT-ND◆ 8.56 6.29 6.13
512 256 36 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 44-QFN PIC18F4221-I/ML-ND◆ 4.28 3.24 2.97
◆ RoHS Compliant ‡ Tape and Reel Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Extended -40F 257F -40C 125C
(Continued)
C
®
For Digi-Reel ® information, please see page 71.
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117
117

General Purpose 8-bit PIC Flash Microcontrollers
PIC18F Devices (Cont.)
C
Memory Size
Timer/
Clock
Oper-
Program RAM EEPROM I/O Counters
Analog Int. Speed VCC ating
Digi-Key
Price Each
Words Bytes Bytes Pins 8/16-bit UART I 2 C SPI PWM A/D Comp. Osc. (MHz) (V) Temp. Package Part No.
1 10 25
512 256 36 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 40-DIP PIC18F4221-I/P-ND◆ 4.10 3.08 2.83
512 256 36 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 44-TQFP PIC18F4221-I/PT-ND◆ 3.96 2.99 2.74
2K x 16 512 256 36 1/3 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 44-QFN PIC18LF4221-I/ML-ND◆ 4.48 3.37 3.09
512 256 36 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 40-DIP PIC18LF4221-I/P-ND◆ 4.30 3.24 2.97
512 256 36 1/3 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 44-TQFP PIC18LF4221-I/PT-ND◆ 4.16 3.14 2.88
256 256 17 1/3 1 EUSART 1 MI 2 C 1 1 12-ch. 10-it 2 16MHz, 32Hz 64 1.8 5.5 Ind. 20-QFN PIC18F13K22-I/ML-ND◆ NEW! 2.54 2.00 1.83
256 256 17 1/3 1 EUSART 1 MI2C 1 1 12-ch. 10-it 2 16MHz, 32Hz 64 1.8 5.5 Ind. 20-DIP PIC18F13K22-I/P-ND◆ NEW! 2.76 2.17 1.99
256 256 17 1/3 1 EUSART 1 MI 2 C 1 1 12-ch. 10-it 2 16MHz, 32Hz 64 1.8 5.5 Ind. 20-SOIC PIC18F13K22-I/SO-ND◆ NEW! 2.58 2.02 1.86
256 256 17 1/3 1 EUSART 1 MI 2 C 1 1 12-ch. 10-it 2 16MHz, 32Hz 64 1.8 5.5 Ind. 20-SSOP PIC18F13K22-I/SS-ND◆ NEW! 2.34 1.83 1.68
512 256 15 1/3 1 EUSART — 1 2 9-ch. 10-it 2 16MHz, 32Hz 48 1.8 5.5 Ind. 20-DIP PIC18F13K50-I/P-ND◆ 2.80 2.20 2.01
512 256 15 1/3 1 AUSART, 1 EUSART — 1 2 9-ch. 10-it 2 16MHz, 32Hz 48 1.8 5.5 Ind. 20-SSOP PIC18F13K50-I/SS-ND◆ 2.42 1.91 1.75
512 256 15 1/3 1 EUSART — 1 2 9-ch. 10-it 2 16MHz, 32Hz 48 1.8 5.5 Ind. 20-DIP PIC18LF13K50-I/P-ND◆ 2.92 1.92 1.87
256 256 16 1/3 1 EUSART — — 1 7-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 28-QFN PIC18F1320-I/ML-ND◆ 4.42 2.90 2.83
256 256 16 1/3 1 EUSART — — 1 7-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 18-DIP PIC18F1320-I/P-ND◆ 4.10 2.69 2.62
256 256 16 1/3 1 EUSART — — 1 7-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 18-SOIC PIC18F1320-I/SO-ND◆ 3.96 2.60 2.54
256 256 16 1/3 1 EUSART — — 1 7-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 20-SSOP PIC18F1320-I/SS-ND◆ 3.96 2.60 2.54
256 256 16 1/3 1 EUSART — — 1 7-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 28-QFN PIC18LF1320-I/ML-ND◆ 4.62 3.03 2.96
256 256 16 1/3 1 EUSART — — 1 7-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 18-DIP PIC18LF1320-I/P-ND◆ 4.30 2.82 2.75
256 256 16 1/3 1 EUSART — — 1 7-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 18-SOIC PIC18LF1320-I/SO-ND◆ 4.16 2.73 2.67
256 256 16 1/3 1 EUSART — — 1 7-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 20-SSOP PIC18LF1320-I/SS-ND◆ 4.16 2.73 2.67
256 128 13 /2 1 EUSART — — 6 4-ch. 10-it 3 8MHz, 32Hz 40 4.2 5.5 Ind. 28-QFN PIC18F1330-I/ML-ND◆ 4.54 3.43 3.14
256 128 13 /2 1 EUSART — — 6 4-ch. 10-it 3 8MHz, 32Hz 40 4.2 5.5 Ind. 18-DIP PIC18F1330-I/P-ND◆ 4.22 3.18 2.92
256 128 13 /2 1 EUSART — — 6 4-ch. 10-it 3 8MHz, 32Hz 40 4.2 5.5 Ind. 18-SOIC PIC18F1330-I/SO-ND◆ 4.10 3.08 2.83
256 128 13 /2 1 EUSART — — 6 4-ch. 10-it 3 8MHz, 32Hz 40 4.2 5.5 Ind. 20-SSOP PIC18F1330-I/SS-ND◆ 4.10 3.08 2.83
256 128 16 /2 1 AUSART, 1 EUSART — — 6 4-ch. 10-it 3 8MHz, 32Hz 40 2.0 5.5 Ind. 28-QFN PIC18LF1330-I/ML-ND◆ 4.74 3.58 3.29
256 128 16 /2 1 AUSART, 1 EUSART — — 6 4-ch. 10-it 3 8MHz, 32Hz 40 2.0 5.5 Ind. 18-DIP PIC18LF1330-I/P-ND◆ 4.42 3.33 3.06
256 128 16 /2 1 AUSART, 1 EUSART — — 6 4-ch. 10-it 3 8MHz, 32Hz 40 2.0 5.5 Ind. 18-SOIC PIC18LF1330-I/SO-ND◆ 4.30 3.24 2.97
256 128 16 /2 1 AUSART, 1 EUSART — — 6 4-ch. 10-it 3 8MHz, 32Hz 40 2.0 5.5 Ind. 20-SSOP PIC18LF1330-I/SS-ND◆ 4.40 3.45 3.16
512 256 25 1/3 1 AUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 28-SOIC PIC18F2320-I/SO-ND◆ 6.92 5.09 4.96
512 256 25 1/3 1 AUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2320-I/SP-ND◆ 6.92 5.09 4.96
512 256 25 1/3 1 AUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 28-SOIC PIC18LF2320-I/SO-ND◆ 7.26 5.34 5.20
512 256 25 1/3 1 AUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2320-I/SP-ND◆ 7.26 5.34 5.20
512 256 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 28-QFN PIC18F2321-I/ML-ND◆ 4.14 3.12 2.86
512 256 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 28-SOIC PIC18F2321-I/SO-ND◆ 3.82 2.87 2.63
4K x 16
512 256 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2321-I/SP-ND◆ 4.08 3.06 2.81
512 256 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 28-SSOP PIC18F2321-I/SS-ND◆ 3.76 2.83 2.60
512 256 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 28-QFN PIC18LF2321-I/ML-ND◆ 4.32 3.26 2.99
512 256 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 28-SOIC PIC18LF2321-I/SO-ND◆ 4.00 3.01 2.76
512 256 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2321-I/SP-ND◆ 4.26 3.20 2.93
512 256 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 28-SSOP PIC18LF2321-I/SS-ND◆ 3.96 2.97 2.72
768 256 24 1/3 1 EUSART 1 MI2C 1 6 5-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 28-QFN PIC18F2331-I/MM-ND◆ 6.02 3.95 3.85
512 256 36 1/3 1 AUSART 1 MI2C 1 2 13-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 44-QFN PIC18F4320-I/ML-ND◆ 8.94 6.58 6.41
512 256 36 1/3 1 AUSART 1 MI 2 C 1 2 13-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 40-DIP PIC18F4320-I/P-ND◆ 7.60 5.59 5.44
512 256 36 1/3 1 AUSART 1 MI2C 1 2 13-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 44-TQFP PIC18F4320-I/PT-ND◆ 8.66 6.37 6.20
512 256 36 1/3 1 AUSART 1 MI 2 C 1 2 13-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 44-QFN PIC18LF4320-I/ML-ND◆ 9.40 6.90 6.72
512 256 36 1/3 1 AUSART 1 MI 2 C 1 2 13-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 40-DIP PIC18LF4320-I/P-ND◆ 7.96 5.86 5.71
512 256 36 1/3 1 AUSART 1 MI 2 C 1 2 13-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 44-TQFP PIC18LF4320-I/PT-ND◆ 9.12 6.71 6.53
512 256 36 1/3 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 44-QFN PIC18F4321-I/ML-ND◆ 4.52 3.41 3.13
512 256 36 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 40-DIP PIC18F4321-I/P-ND◆ 4.32 3.26 2.99
512 256 36 1/3 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 44-TQFP PIC18F4321-I/PT-ND◆ 4.20 3.16 2.90
512 256 36 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 44-QFN PIC18LF4321-I/ML-ND◆ 4.72 3.57 3.27
512 256 36 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 40-DIP PIC18LF4321-I/P-ND◆ 4.54 3.41 3.13
512 256 36 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 44-TQFP PIC18LF4321-I/PT-ND◆ 4.40 3.32 3.04
768 — 54 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 3 12-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 64-TQFP PIC18F6310-I/PT-ND◆ 4.60 3.02 2.95
768 — 54 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 3 12-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 64-TQFP PIC18LF6310-I/PT-ND◆ 4.84 3.18 3.10
768 — 50 1/3 1 AUSART, 1 EUSART 1 MI2C 1 2 12-ch. 12-bit 2 8MHz, 32Hz 40 4.2 5.5 Ind. 64-TQFP PIC18F6393-I/PT-ND◆ 5.38 4.05 3.71
768 — 50 1/3 1 AUSART, 1 EUSART 1 MI2C 1 2 12-ch. 12-bit 2 8MHz, 32Hz 40 2.0 5.5 Ind. 64-TQFP PIC18LF6393-I/PT-ND◆ 3.81 3.67 3.60
1024 — 54 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 2 12-ch. 10-it 2 32Hz 40 4.2 3.6 Ind. 64-TQFP PIC18F63J11-I/PT-ND◆ 3.24 2.54 2.33
1024 — 50 1/3 1 AUSART, 1 EUSART 1 MI2C 1 2 12-ch. 10-it 2 8MHz, 32Hz 40 4.2 3.6 Ind. 64-TQFP PIC18F63J90-I/PT-ND◆ 3.52 2.76 2.53
768 — 70 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 3 12-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 80-TQFP PIC18F8310-I/PT-ND◆ 5.50 3.61 3.53
768 — 70 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 3 12-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 80-TQFP PIC18LF8310-I/PT-ND 5.78 3.79 3.70
768 — 66 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 2 12-ch. 12-bit 2 8MHz, 32Hz 40 4.2 5.5 Ind. 80-TQFP PIC18F8393-I/PT-ND 6.28 4.72 4.33
768 — 66 1/3 1 AUSART, 1 EUSART 1 MI2C 1 2 12-ch. 12-bit 2 8MHz, 32Hz 40 2.0 5.5 Ind. 80-TQFP PIC18LF8393-I/PT-ND 4.44 4.28 4.20
1024 — 70 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 2 12-ch. 10-it 2 32Hz 40 4.2 3.6 Ind. 80-TQFP PIC18F83J11-I/PT-ND 3.70 2.91 2.67
1024 — 66 1/3 1 AUSART, 1 EUSART 1 MI2C 1 2 12-ch. 10-it 2 32Hz 40 4.2 3.6 Ind. 80-TQFP PIC18F83J90-I/PT-ND 3.98 3.12 2.86
768 — 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 — 40 4.2 5.5 Ind. 28-QFN PIC18F2410-I/ML-ND 4.92 3.23 3.16
768 — 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 — 40 4.2 5.5 Ind. 28-SOIC PIC18F2410-I/SO-ND 4.60 3.02 2.95
768 — 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 — 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2410-I/SP-ND 4.86 3.19 3.12
768 — 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 — 40 2.0 5.5 Ind. 28-QFN PIC18LF2410-I/ML-ND 5.16 3.39 3.30
768 — 25 1/3 1 EUSART 1 MI 2 C 1 2 10ch. 10-it 2 — 40 2.0 5.5 Ind. 28-SOIC PIC18LF2410-I/SO-ND 4.84 3.18 3.10
768 — 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 — 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2410-I/SP-ND 5.10 3.34 3.26
1024 — 21 1/2 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 32Hz 40 4.2 5.5 Ind. 28-QFN PIC18F24J10-I/ML-ND◆ 2.30 1.81 1.66
1024 — 21 1/2 1 EUSART 1 MI2C 1 2 10-ch. 10 it 2 32Hz 40 4.2 5.5 Ind. 28-SOIC PIC18F24J10-I/SO-ND◆ 2.16 1.70 1.55
1024 — 21 1/2 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 32Hz 40 4.2 5.5 Ind. 28-DIP .3 PIC18F24J10-I/SP-ND◆ 2.40 1.89 1.73
1024 — 21 1/2 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 32Hz 40 4.2 5.5 Ind. 28-SSOP PIC18F24J10-I/SS-ND◆ 2.12 1.66 1.52
1024 — 21 1/2 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 32Hz 40 2.0 5.5 Ind. 28-QFN PIC18LF24J10-I/ML-ND◆ 2.42 1.90 1.74
1024 — 21 1/2 1 EUSART 1 MI 2 C 1 2 10-ch. 10 it 2 32Hz 40 2.0 5.5 Ind. 28-SOIC PIC18LF24J10-I/SO-ND◆ 2.26 1.78 1.63
1024 — 21 1/2 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 32Hz 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF24J10-I/SP-ND◆ 2.52 1.97 1.81
1024 — 21 1/2 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 32Hz 40 2.0 5.5 Ind. 28-SSOP PIC18LF24J10-I/SS-ND◆ 2.22 1.74 1.60
768 256 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 28-QFN PIC18F2420-I/ML-ND◆ 5.32 3.49 3.40
768 256 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 28-SOIC PIC18F2420-I/SO-ND◆ 5.00 3.28 3.20
768 256 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2420-I/SP-ND◆ 5.24 3.44 3.36
768 256 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 28-QFN PIC18LF2420-I/ML-ND◆ 5.56 3.65 3.56
8K x 16
768 256 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 28-SOIC PIC18LF2420-I/SO-ND◆ 5.24 3.44 3.36
768 256 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2420-I/SP-ND◆ 5.50 3.61 3.52
768 256 25 1/3 1 AUSART, 1 EUSART 1 MI2C 1 2 10-ch. 12-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 28-QFN PIC18F2423-I/ML-ND◆ 5.84 4.41 4.05
768 256 25 1/3 1 AUSART, 1 EUSART 1 MI2C 1 2 10-ch. 12-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 28-SOIC PIC18F2423-I/SO-ND◆ 5.52 4.16 3.82
768 256 25 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 2 10-ch. 12-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2423-I/SP-ND◆ 5.78 4.36 3.99
768 256 25 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 2 10-ch. 12-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 28-QFN PIC18LF2423-I/ML-ND◆ 6.12 4.61 4.22
768 256 25 1/3 1 AUSART, 1 EUSART 1 MI2C 1 2 10-ch. 12-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 28-SOIC PIC18LF2423-I/SO-ND◆ 5.80 4.38 4.01
768 256 25 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 2 10-ch. 12-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2423-I/SP-ND◆ 6.06 4.57 4.19
768 — 34 1/3 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 44-QFN PIC18F4410-I/ML-ND◆ 5.32 3.49 3.40
768 — 34 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 40-DIP PIC18F4410-I/P-ND◆ 5.12 3.36 3.28
768 — 34 1/3 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 44-TQFP PIC18F4410-I/PT-ND◆ 5.00 3.28 3.20
768 — 34 1/3 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 40-DIP PIC18LF4410-I/P-ND◆ 5.36 3.52 3.44
768 — 34 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 44-TQFP PIC18LF4410-I/PT-ND◆ 5.24 3.44 3.36
1024 — 32 1/2 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 32Hz 40 4.2 5.5 Ind. 40-DIP PIC18F44J10-I/P-ND◆ 2.78 2.18 2.00
1024 — 32 1/2 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 32Hz 40 4.2 5.5 Ind. 44-QFN PIC18F44J10-I/ML-ND◆ 2.68 2.10 1.93
1024 — 32 1/2 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 32Hz 40 4.2 5.5 Ind. 44-TQFP PIC18F44J10-I/PT-ND◆ 2.52 1.99 1.82
1024 — 32 1/2 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 32Hz 40 2.0 5.5 Ind. 44-QFN PIC18LF44J10-I/ML-ND◆ 2.80 2.20 2.02
1024 — 32 1/2 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 32Hz 40 2.0 5.5 Ind. 40-DIP PIC18LF44J10-I/P-ND◆ 2.90 2.28 2.09
1024 — 32 1/2 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 32Hz 40 2.0 5.5 Ind. 44-TQFP PIC18LF44J10-I/PT-ND◆ 2.66 2.08 1.91
768 256 36 1/3 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 8MHz, 32Hz 64 1.8 3.6 Ext. 44-QFN PIC18F44K20-E/ML-ND 3.12 2.45 2.24
◆ RoHS Compliant ‡ Tape and Reel Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Extended -40F 257F -40C 125C (Continued)
®
For Digi-Reel ® information, please see page 71.
118 (US2011)
(TZM112.US)
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General Purpose 8-bit PIC Flash Microcontrollers
PIC18F Devices (Cont.)
Memory Size
Timer/
Clock
Oper-
Program RAM EEPROM I/O Counters
Analog Int. Speed VCC ating
Digi-Key
Price Each
Words Bytes Bytes Pins 8/16-bit UART I 2 C SPI PWM A/D Comp. Osc. (MHz) (V) Temp. Package Part No.
1 10 25
768 256 36 1/3 1 EUSART 1 MI 2 C 1 1 13-ch. 10-it 2 8MHz, 32Hz 64 1.8 3.6 Ind. 44-QFN PIC18F44K20-I/ML-ND 2.84 2.24 2.05
768 256 36 1/3 1 EUSART 1 MI 2 C 1 1 13-ch. 10-it 2 8MHz, 32Hz 64 1.8 3.6 Ext. 40-DIP PIC18F44K20-E/P-ND 3.22 2.52 2.31
768 256 36 1/3 1 EUSART 1 MI2C 1 1 13-ch. 10-it 2 8MHz, 32Hz 64 1.8 3.6 Ind. 40-DIP PIC18F44K20-I/P-ND 2.94 2.31 2.12
768 256 36 1/3 1 EUSART 1 MI 2 C 1 1 13-ch. 10-it 2 8MHz, 32Hz 64 1.8 3.6 Ext. 40-TQFP PIC18F44K20-E/PT-ND 2.98 2.33 2.14
768 256 36 1/3 1 EUSART 1 MI 2 C 1 1 13-ch. 10-it 2 8MHz, 32Hz 64 1.8 3.6 Ind. 44-TQFP PIC18F44K20-I/PT-ND◆ 2.70 2.12 1.94
768 256 34 1/3 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 44-QFN PIC18F4420-I/ML-ND◆ 5.70 3.74 3.65
768 256 34 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 40-DIP PIC18F4420-I/P-ND◆ 5.50 3.61 3.53
768 256 34 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 44-TQFP PIC18F4420-I/PT-ND◆ 5.38 3.53 3.44
768 256 34 1/3 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 44-QFN PIC18LF4420-I/ML-ND◆ 5.96 3.91 3.82
768 256 34 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 40-DIP PIC18LF4420-I/P-ND◆ 5.78 3.79 3.70
768 256 34 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 44-TQFP PIC18LF4420-I/PT-ND◆ 5.64 3.70 3.62
768 256 36 1/3 1 AUSART, 1 EUSART 1 MI2C 1 1 13-ch. 12-bit 2 8MHz, 32Hz 40 4.2 5.5 Ind. 44-QFN PIC18F4423-I/ML-ND◆ 6.24 4.70 4.31
768 256 36 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 1 13-ch. 12-bit 2 8MHz, 32Hz 40 4.2 5.5 Ind. 40-DIP PIC18F4423-I/P-ND◆ 6.04 4.55 4.17
8K x 16
768 256 36 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 1 13-ch. 12-bit 2 8MHz, 32Hz 40 4.2 5.5 Ind. 44-TQFP PIC18F4423-I/PT-ND◆ 5.92 4.45 4.08
768 256 36 1/3 1 AUSART, 1 EUSART 1 MI2C 1 1 13-ch. 12-bit 2 8MHz, 32Hz 40 2.0 5.5 Ind. 44-QFN PIC18LF4423-I/ML-ND◆ 6.52 4.91 4.51
768 256 36 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 1 13-ch. 12-bit 2 8MHz, 32Hz 40 2.0 5.5 Ind. 40-DIP PIC18LF4423-I/P-ND◆ 6.34 4.78 4.38
768 256 36 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 1 13-ch. 12-bit 2 8MHz, 32Hz 40 2.0 5.5 Ind. 44-TQFP PIC18LF4423-I/PT-ND◆ 6.20 4.68 4.29
768 — 54 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 3 12-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 64-TQFP PIC18F6410-I/PT-ND◆ 5.24 3.44 3.36
768 — 54 1/3 1 AUSART, 1 EUSART 1 MI2C 1 3 12-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 64-TQFP PIC18LF6410-I/PT-ND◆ 5.52 3.62 3.53
768 — 50 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 2 12-ch. 12-bit 2 8MHz, 32Hz 32 4.2 5.5 Ind. 64-TQFP PIC18F6493-I/PT-ND◆ 6.02 4.53 4.15
1024 — 54 1/3 1 AUSART, 1 EUSART 1 MI2C 1 2 12-ch. 10-it 2 8MHz, 32Hz 40 2.0 3.6 Ind. 64-TQFP PIC18F64J11-I/PT-ND◆ 3.36 2.64 2.42
1024 — 50 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 2 12-ch. 10-it 2 8MHz, 32Hz 40 2.0 3.6 Ind. 64-TQFP PIC18F64J90-I/PT-ND◆ 3.60 2.83 2.60
768 — 70 2/3 1 AUSART, 1 EUSART 1 MI 2 C 1 3 12-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 80-TQFP PIC18F8410-I/PT-ND◆ 6.14 4.03 3.94
768 — 70 2/3 1 AUSART, 1 EUSART 1 MI 2 C 1 3 12-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 80-TQFP PIC18LF8410-I/PT-ND◆ 6.46 4.23 4.13
768 — 66 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 2 12-ch. 12-bit 2 8MHz, 32Hz 32 4.2 5.5 Ind. 80-TQFP PIC18F8493-I/PT-ND◆ 6.92 5.20 4.77
768 — 66 1/3 1 AUSART, 1 EUSART 1 MI2C 1 2 12-ch. 12-bit 2 8MHz, 32Hz 32 2.0 5.5 Ind. 80-TQFP PIC18LF8493-I/PT-ND◆ 7.26 5.09 4.65
1024 — 70 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 2 12-ch. 10-it 2 32Hz 40 2.0 3.6 Ind. 80-TQFP PIC18F84J11-I/PT-ND◆ 3.82 3.01 2.76
1024 — 66 1/3 1 AUSART, 1 EUSART 1 MI2C 1 2 12-ch. 10-it 2 32Hz 40 2.0 3.6 Ind. 80-TQFP PIC18F84J90-I/PT-ND◆ 4.08 3.20 2.93
2048 256 24 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 — 10-ch. 12-it 2 8MHz, 32Hz 48 4.2 5.5 Ind. 28-SOIC PIC18F2458-I/SO-ND◆ 6.56 4.93 4.52
2048 256 24 1/3 1 AUSART, 1 EUSART 1 MI2C 1 — 10-ch. 12-it 2 8MHz, 32Hz 48 4.2 5.5 Ind. 28-DIP .3 PIC18F2458-I/SP-ND◆ 6.80 5.13 4.70
2048 256 24 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 — 10-ch. 12-it 2 8MHz, 32Hz 48 2.0 5.5 Ind. 28-SOIC PIC18LF2458-I/SO-ND◆ 6.88 5.18 4.75
2048 256 24 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 — 10-ch. 12-it 2 8MHz, 32Hz 48 2.0 5.5 Ind. 28-DIP .3 PIC18LF2458-I/SP-ND◆ 7.14 5.38 4.93
12K x 16 2048 256 35 1/3 1 AUSART, 1 EUSART 1 MI2C 1 1 13-ch. 12-bit 2 8MHz, 32Hz 48 4.2 5.5 Ind. 44-QFN PIC18F4458-I/ML-ND◆ 7.26 5.47 5.02
2048 256 35 1/3 1 AUSART, 1 EUSART 1 MI2C 1 1 13-ch. 12-bit 2 8MHz, 32Hz 48 4.2 5.5 Ind. 40-DIP PIC18F4458-I/P-ND◆ 7.06 5.32 4.88
2048 256 35 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 1 13-ch. 12-bit 2 8MHz, 32Hz 48 4.2 5.5 Ind. 44-TQFP PIC18F4458-I/PT-ND◆ 6.94 5.22 4.79
2048 256 35 1/3 1 AUSART, 1 EUSART 1 MI2C 1 1 13-ch. 12-bit 2 8MHz, 32Hz 48 2.0 5.5 Ind. 44-QFN PIC18LF4458-I/ML-ND◆ 7.60 5.72 5.25
2048 256 35 1/3 1 AUSART, 1 EUSART 1 MI2C 1 1 13-ch. 12-bit 2 8MHz, 32Hz 48 2.0 5.5 Ind. 40-DIP PIC18LF4458-I/P-ND◆ 7.42 5.59 5.12
1536 — 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 — 40 4.2 5.5 Ind. 28-QFN PIC18F2510-I/ML-ND◆ 5.74 3.77 3.68
1536 — 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 — 40 4.2 5.5 Ind. 28-SOIC PIC18F2510-I/SO-ND◆ 5.42 3.56 3.48
1536 — 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 — 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2510-I/SP-ND◆ 5.68 3.73 3.64
1536 — 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 — 40 2.0 5.5 Ind. 28-QFN PIC18LF2510-I/ML-ND◆ 6.02 3.95 3.86
1536 — 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 — 40 2.0 5.5 Ind. 28-SOIC PIC18LF2510-I/SO-ND◆ 5.70 3.74 3.65
1536 — 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 — 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2510-I/SP-ND◆ 5.96 3.91 3.81
1024 — 21 1/2 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 32Hz 40 2.7 3.6 Ind. 28-QFN PIC18F25J10-I/ML-ND◆ 2.44 1.91 1.75
1024 — 21 1/2 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 32Hz 40 2.7 3.6 Ind. 28-SOIC PIC18F25J10-I/SO-ND◆ 2.28 1.79 1.64
1024 — 21 1/2 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 32Hz 40 2.7 3.6 Ind. 28-DIP .3 PIC18F25J10-I/SP-ND◆ 2.52 1.99 1.82
1024 — 21 1/2 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 32Hz 40 2.7 3.6 Ind. 28-SSOP PIC18F25J10-I/SS-ND◆ 2.24 1.75 1.61
1024 — 21 1/2 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 32Hz 40 2.25 3.6 Ind. 28-DIP .3 PIC18LF25J10-I/SP-ND◆ 2.64 2.07 1.90
1024 — 21 1/2 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 32Hz 40 2.25 3.6 Ind. 28-SOIC PIC18LF25J10-I/SO-ND◆ 2.40 1.88 1.73
1536 256 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 — 40 4.2 5.5 Ind. 28-QFN PIC18F2520-I/ML-ND◆ 6.14 4.02 3.93
1536 256 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 — 40 4.2 5.5 Ind. 28-SOIC PIC18F2520-I/SO-ND◆ 5.82 3.81 3.72
1536 256 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 — 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2520-I/SP-ND◆ 6.06 3.98 3.89
1536 256 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 — 40 2.0 5.5 Ind. 28-QFN PIC18LF2520-I/ML-ND◆ 6.42 4.21 4.11
1536 256 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 — 40 2.0 5.5 Ind. 28-SOIC PIC18LF2520-I/SO-ND◆ 6.10 4.00 3.91
1536 256 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 — 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2520-I/SP-ND◆ 6.36 4.17 4.07
1536 256 25 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 2 10-ch. 12-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 28-QFN PIC18F2523-I/ML-ND◆ 6.64 5.01 4.59
1536 256 25 1/3 1 AUSART, 1 EUSART 1 MI2C 1 2 10-ch. 12-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 28-SOIC PIC18F2523-I/SO-ND◆ 6.32 4.76 4.36
1536 256 25 1/3 1 AUSART, 1 EUSART 1 MI2C 1 2 10-ch. 12-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2523-I/SP-ND◆ 6.58 4.95 4.54
1536 256 25 1/3 1 AUSART, 1 EUSART 1 MI2C 1 2 10-ch. 12-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 28-QFN PIC18LF2523-I/ML-ND◆ 6.96 5.24 4.81
1536 256 25 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 2 10-ch. 12-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 28-SOIC PIC18LF2523-I/SO-ND◆ 6.64 4.99 4.58
1536 256 25 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 2 10-ch. 12-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2523-I/SP-ND◆ 6.90 5.18 4.75
2048 256 24 1/3 1 EUSART 1 MI2C 1 2 10-ch. 12-it 2 8MHz, 32Hz 48 2.0 5.5 Ind. 28-SOIC PIC18F2553-I/SO-ND◆ 7.52 5.67 5.19
1536 — 34 1/3 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 — 40 4.2 5.5 Ind. 44-QFN PIC18F4510-I/ML-ND◆ 6.14 4.02 3.93
1536 — 34 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 — 40 4.2 5.5 Ind. 40-DIP PIC18F4510-I/P-ND◆ 5.94 3.90 3.80
1536 — 34 1/3 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 — 40 4.2 5.5 Ind. 44-TQFP PIC18F4510-I/PT-ND◆ 5.82 3.81 3.72
1536 — 34 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 — 40 2.0 5.5 Ind. 40-DIP PIC18LF4510-I/P-ND◆ 6.22 4.09 3.99
16K x 16 1536 — 34 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 — 40 2.0 5.5 Ind. 44-TQFP PIC18LF4510-I/PT-ND◆ 6.10 4.00 3.91
1024 — 32 1/2 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 32Hz 40 4.2 5.5 Ind. 44-QFN PIC18F45J10-I/ML-ND◆ 2.80 2.20 2.01
1024 — 32 1/2 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 32Hz 40 4.2 5.5 Ind. 40-DIP PIC18F45J10-I/P-ND◆ 2.90 2.27 2.08
1024 — 32 1/2 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 32Hz 40 4.2 5.5 Ind. 44-TQFP PIC18F45J10-I/PT-ND◆ 2.66 2.08 1.91
1024 — 32 1/2 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 32Hz 40 2.0 5.5 Ind. 44-QFN PIC18LF45J10-I/ML-ND◆ 2.94 2.30 2.11
1024 — 32 1/2 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 32Hz 40 2.0 5.5 Ind. 40-DIP PIC18LF45J10-I/P-ND◆ 3.02 2.38 2.18
1024 — 32 1/2 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 32Hz 40 2.0 5.5 Ind. 44-TQFP PIC18LF45J10-I/PT-ND◆ 2.78 2.19 2.00
1536 256 34 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 — 40 4.2 5.5 Ind. 44-QFN PIC18F4520-I/ML-ND◆ 6.52 4.28 4.17
1536 256 34 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 — 40 4.2 5.5 Ind. 40-DIP PIC18F4520-I/P-ND◆ 6.32 4.15 4.05
1536 256 34 1/3 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 — 40 4.2 5.5 Ind. 44-TQFP PIC18F4520-I/PT-ND◆ 6.20 4.07 3.97
1536 256 34 1/3 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 — 40 2.0 5.5 Ind. 44-QFN PIC18LF4520-I/ML-ND◆ 6.82 4.48 4.37
1536 256 34 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 — 40 2.0 5.5 Ind. 40-DIP PIC18LF4520-I/P-ND◆ 6.64 4.35 4.25
1536 256 34 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 — 40 2.0 5.5 Ind. 44-TQFP PIC18LF4520-I/PT-ND◆ 6.50 4.27 4.17
1536 256 36 1/3 1 AUSART, 1 EUSART 1 MI2C 1 1 13-ch. 12-bit 2 8MHz, 32Hz 40 4.2 5.5 Ind. 44-QFN PIC18F4523-I/ML-ND◆ 7.02 5.30 4.86
1536 256 36 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 1 13-ch. 12-bit 2 8MHz, 32Hz 40 4.2 5.5 Ind. 40-DIP PIC18F4523-I/P-ND◆ 6.84 5.15 4.72
1536 256 36 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 1 13-ch. 12-bit 2 8MHz, 32Hz 40 4.2 5.5 Ind. 44-TQFP PIC18F4523-I/PT-ND◆ 6.70 5.05 4.63
1536 256 36 1/3 1 AUSART, 1 EUSART 1 MI2C 1 1 13-ch. 12-bit 2 8MHz, 32Hz 40 2.0 5.5 Ind. 44-QFN PIC18LF4523-I/ML-ND◆ 7.36 5.55 5.09
1536 256 36 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 1 13-ch. 12-bit 2 8MHz, 32Hz 40 2.0 5.5 Ind. 40-DIP PIC18LF4523-I/P-ND◆ 7.18 5.40 4.95
1536 256 36 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 1 13-ch. 12-bit 2 8MHz, 32Hz 40 2.0 5.5 Ind. 44-TQFP PIC18LF4523-I/PT-ND◆ 7.04 5.30 4.86
2048 — 50 2/3 2 EUSART 1 MI2C 1 5 11-ch. 10-it 2 32Hz 40 2.0 3.6 Ind. 64-TQFP PIC18F65J10-I/PT-ND◆ 3.20 2.51 2.30
2048 — 54 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 2 12-ch. 10-it 2 8MHz 40 2.0 3.6 Ind. 64-TQFP PIC18F65J11-I/PT-ND◆ 3.54 2.78 2.54
3904 — 49 2/3 2 EUSART 2 MI 2 C 2 5 8-ch. 10-it 2 8MHz 48 2.0 3.6 Ind. 64-TQFP PIC18F65J50-I/PT-ND◆ 4.08 3.20 2.93
2048 — 50 1/3 1 AUSART, 1 EUSART 1 MI2C 1 2 12-ch. 10-it 2 8MHz 40 2.0 3.6 Ind. 64-TQFP PIC18F65J90-I/PT-ND◆ 3.80 2.99 2.74
2048 1024 52 2/3 2 AUSART 1 MI2C 1 5 12-ch. 10-it 2 — 40 4.2 5.5 Ind. 64-TQFP PIC18F6520-I/PT-ND◆ 9.38 6.89 6.71
2048 1024 52 2/3 2 AUSART 1 MI 2 C 1 5 12-ch. 10-it 2 — 40 2.0 5.5 Ind. 64-TQFP PIC18LF6520-I/PT-ND◆ 9.82 7.22 7.03
2048 — 66 2/3 2 EUSART 1 MI2C 1 5 15-ch. 10-it 2 32Hz 40 2.0 3.6 Ind. 80-TQFP PIC18F85J10-I/PT-ND◆ 3.60 2.83 2.60
2048 — 70 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 2 12-ch. 10-it 2 8MHz 40 2.0 3.6 Ind. 80-TQFP PIC18F85J11-I/PT-ND◆ 4.00 3.14 2.88
3904 — 65 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 5 12-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 80-TQFP PIC18F85J50-I/PT-ND◆ 4.54 3.57 3.27
2048 — 66 1/3 1 AUSART, 1 EUSART 1 MI2C 1 2 12-ch. 10-it 2 8MHz 40 2.0 3.6 Ind. 80-TQFP PIC18F85J90-I/PT-ND◆ 4.28 3.35 3.07
2048 1024 68 2/3 2 AUSART 1 MI2C 1 5 16-ch. 10-it 2 — 40 4.2 5.5 Ind. 80-TQFP PIC18F8520-I/PT-ND◆ 9.84 7.24 7.05
◆ RoHS Compliant ‡ Tape and Reel Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Extended -40F 257F -40C 125C (Continued)
C
®
For Digi-Reel ® information, please see page 71.
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119
119

General Purpose 8-bit PIC Flash Microcontrollers
PIC18F Devices (Cont.)
C
Memory Size
Timer/
Clock
Oper-
Program RAM EEPROM I/O Counters
Analog Int. Speed VCC ating
Digi-Key
Price Each
Words Bytes Bytes Pins 8/16-bit UART I 2 C SPI PWM A/D Comp. Osc. (MHz) (V) Temp. Package Part No.
1 10 25
16K x 16 2048 1024 68 2/3 2 AUSART 1 MI2 C 1 5 16-ch. 10-it 2 — 40 2.0 5.5 Ind. 80-TQFP PIC18LF8520-I/PT-ND◆ 10.34 7.61 7.41
2048 1024 68 2/3 2 AUSART, 2 EUSART 1 MI2C 1 5 16-ch. 10-it 2 — 40 2.0 5.5 Ind. 80-TQFP PIC18F8520T-I/PTTR-ND‡ 8412.01/1,200
3968 — 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 28-SOIC PIC18F2515-I/SO-ND◆ 6.22 4.08 3.99
3968 — 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2515-I/SP-ND◆ 6.48 4.25 4.15
3968 — 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 28-SOIC PIC18LF2515-I/SO-ND◆ 6.54 4.29 4.18
3968 — 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2515-I/SP-ND◆ 6.78 4.45 4.35
3968 1024 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 28-SOIC PIC18F2525-I/SO-ND◆ 6.60 4.33 4.23
3968 1024 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2525-I/SP-ND◆ 6.86 4.50 4.40
3968 1024 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 28-SOIC PIC18LF2525-I/SO-ND◆ 6.94 4.55 4.44
3968 1024 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2525-I/SP-ND◆ 7.20 4.72 4.61
3968 — 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 44-QFN PIC18F4515-I/ML-ND◆ 6.92 4.54 4.44
3968 — 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 40-DIP PIC18F4515-I/P-ND◆ 6.74 4.42 4.31
3968 — 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 44-TQFP PIC18F4515-I/PT-ND◆ 6.60 4.33 4.23
3968 — 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 40-DIP PIC18LF4515-I/P-ND◆ 7.06 4.64 4.52
24K x 16
3968 — 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 44-TQFP PIC18LF4515-I/PT-ND◆ 6.94 4.55 4.44
3968 1024 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 44-QFN PIC18F4525-I/ML-ND◆ 7.30 4.80 4.68
3968 1024 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 40-DIP PIC18F4525-I/P-ND◆ 7.12 4.67 4.56
3968 1024 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 44-TQFP PIC18F4525-I/PT-ND◆ 6.98 4.59 4.48
3968 1024 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 44-QFN PIC18LF4525-I/ML-ND◆ 7.66 5.03 4.91
3968 1024 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 40-DIP PIC18LF4525-I/P-ND◆ 7.46 4.90 4.78
3968 1024 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 44-TQFP PIC18LF4525-I/PT-ND◆ 7.34 4.82 4.70
2048 — 50 2/3 2 EUSART 1 MI2C 1 5 11-ch. 10-it 2 32Hz 40 2.7 3.6 Ind. 64-TQFP PIC18F65J15-I/PT-ND◆ 3.44 2.70 2.47
3936 1024 54 2/3 2 EUSART 1 MI2C 1 5 12-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 64-TQFP PIC18F6527-I/PT-ND◆ 8.44 6.36 5.83
3936 1024 54 2/3 2 EUSART 1 MI2C 1 5 12-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 64-TQFP PIC18LF6527-I/PT-ND◆ 8.88 6.69 6.13
3936 1024 54 2/3 2 EUSART 2 MI2C 2 5 12-ch. 10-it 2 8 MHz, 32Hz 40 2.0 5.5 Ind. 64-TQFP PIC18LF6527T-I/PTTR-ND◆‡ NEW! 6695.99/1,200
2048 — 66 2/3 2 EUSART 1 MI2C 1 5 15-ch. 10-it 2 32Hz 40 2.0 3.6 Ind. 80-TQFP PIC18F85J15-I/PT-ND◆ 3.86 3.03 2.77
3936 1024 70 2/3 2 EUSART 1 MI2C 1 5 16-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 80-TQFP PIC18F8527-I/PT-ND◆ 9.22 6.94 6.36
3936 1024 70 2/3 2 EUSART 1 MI2C 1 5 16-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 80-TQFP PIC18LF8527-I/PT-ND◆ 9.68 7.29 6.68
3968 — 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 28-SOIC PIC18F2610-I/SO-ND◆ 7.04 4.62 4.51
32K x 16
3968 — 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2610-I/SP-ND◆ 7.30 4.79 4.67
3936 1024 70 2/3 2 AUSART, 2 EUSART 1 MI2C 2 5 16-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 80-TQFP PIC18F8622T-I/PTTR-ND‡ 7632.01/1,200
3936 1024 36 1/3 1 EUSART 1 MI2C 1 2 14-ch. 10-it 2 16MHz, 8Hz 40 1.8 3.6 Ext. 44-TQFP PIC18F46K20-E/PT-ND 3.52 2.76 2.53
3936 — 50 2/3 2 EUSART 1 MI 2 C 1 5 11-ch. 10-it 2 32Hz 40 2.0 3.6 Ind. 64-TQFP PIC18F66J15-I/PT-ND◆ 3.86 3.03 2.77
3904 — 50 2/3 2 EUSART 2 MI2C 1 5 8-ch. 10-it 2 8MHz 48 2.0 3.6 Ind. 64-TQFP PIC18F66J16-I/PT-ND◆ 4.08 3.37 2.93
3904 — 49 2/3 2 AUSART, 2 EUSART 2 MI2C 2 5 8-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 64-TQFP PIC18F66J55-I/PT-ND◆ 4.76 3.74 3.43
3938 1024 54 2/3 2 EUSART 1 MI2C 1 5 12-ch. 10-it 2 8MHz 48 4.2 5.5 Ind. 64-TQFP PIC18F6627-I/PT-ND◆ 11.00 7.22 7.05
3938 1024 54 2/3 2 EUSART 1 MI2C 1 5 12-ch. 10-it 2 8MHz 48 2.0 5.5 Ind. 64-TQFP PIC18LF6627-I/PT-ND◆ 11.56 7.59 7.40
3936 1024 54 2/3 2 EUSART 2 MI2C 1 5 12-ch. 12-bit 2 8MHz, 32Hz 40 2.0 5.5 Ind. 64-TQFP PIC18LF6628-I/PT-ND◆ 13.62 10.25 9.40
3936 1024 54 2/3 2 EUSART 2 MI2C 1 5 12-ch. 12-bit 2 8MHz, 32Hz 40 4.2 5.5 Ind. 64-TQFP PIC18F6628-I/PT-ND◆ 12.98 9.77 8.96
48K x 16 3936 — 66 2/3 2 EUSART 1 MI2C 1 5 15-ch. 10-it 2 32Hz 40 2.0 3.6 Ind. 80-TQFP PIC18F86J15-I/PT-ND◆ 4.28 3.35 3.07
3904 — 66 2/3 2 EUSART 2 MI2C 1 5 12-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 80-TQFP PIC18F86J16-I/PT-ND◆ 4.74 3.72 3.41
3904 — 66 2/3 2 AUSART, 2 EUSART 2 MI2C 2 5 12-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 80-TQFP PIC18F86J55-I/PT-ND◆ 5.22 4.11 3.76
3938 1024 70 2/3 2 EUSART 1 MI2C 1 5 16-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 80-TQFP PIC18F8627-I/PT-ND◆ 11.78 7.73 7.54
3936 1024 70 2/3 2 AUSART, 2 EUSART 1 MI2C 1 5 16-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 80-TQFP PIC18F8627T-I/PTTR-ND‡ 8880.00/1,200
3938 1024 70 2/3 2 EUSART 1 MI2C 1 5 16-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 80-TQFP PIC18LF8627-I/PT-ND◆ 12.36 8.11 7.92
3936 1024 70 2/3 2 EUSART 2 MI2C 1 5 16-ch. 12-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 80-TQFP PIC18LF8628-I/PT-ND◆ 14.48 10.91 10.00
3936 1024 70 2/3 2 EUSART 2 MI2C 1 5 16-ch. 12-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 80-TQFP PIC18F8628-I/PT-ND◆ 13.80 10.39 9.52
3968 — 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2610-I/SP-ND◆ 7.64 5.02 4.90
3968 1024 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 28-SOIC PIC18F2620-I/SO-ND◆ 7.42 4.87 4.76
3968 1024 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2620-I/SP-ND◆ 7.68 5.04 4.92
3968 1024 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 28-SOIC PIC18LF2620-I/SO-ND◆ 7.80 5.12 4.99
3968 1024 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2620-I/SP-ND◆ 8.06 5.28 5.16
3968 — 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 44-QFN PIC18F4610-I/ML-ND 7.74 5.08 4.96
3968 — 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 40-DIP PIC18F4610-I/P-ND◆ 7.56 4.96 4.84
3968 — 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 44-TQFP PIC18F4610-I/PT-ND◆ 7.42 4.87 4.76
3968 — 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 44-QFN PIC18LF4610-I/ML-ND◆ 8.12 5.33 5.20
3968 — 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 40-DIP PIC18LF4610-I/P-ND◆ 7.92 5.20 5.08
3968 — 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 44-TQFP PIC18LF4610-I/PT-ND◆ 7.80 5.12 4.99
3968 1024 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 44-QFN PIC18F4620-I/ML-ND◆ 8.12 5.33 5.21
3968 1024 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 40-DIP PIC18F4620-I/P-ND◆ 7.94 5.21 5.08
3968 1024 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 44-TQFP PIC18F4620-I/PT-ND◆ 7.80 5.12 5.00
3968 1024 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 44-QFN PIC18LF4620-I/ML-ND◆ 8.52 5.59 5.46
3968 1024 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 40-DIP PIC18LF4620-I/P-ND◆ 8.32 5.46 5.33
3968 1024 36 1/3 1 EUSART 1 MI2C 1 5 13-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 44-TQFP PIC18LF4620-I/PT-ND◆ 8.20 5.38 5.25
3936 1024 54 2/3 2 EUSART 1 MI2C 1 5 12-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 64-TQFP PIC18F6622-I/PT-ND◆ 9.34 7.03 6.45
3936 1024 54 2/3 2 EUSART 1 MI2C 1 5 12-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 64-TQFP PIC18LF6622-I/PT-ND◆ 9.82 7.38 6.77
2048 — 50 2/3 2 EUSART 1 MI2C 1 5 11-ch. 10-it 2 32Hz 40 2.0 3.6 Ind. 64-TQFP PIC18F66J10-I/PT-ND◆ 3.68 2.89 2.65
3904 — 50 2/3 2 EUSART 2 MI2C 1 5 8-ch. 10-it 2 8MHz 48 2.0 3.6 Ind. 64-TQFP PIC18F66J11-I/PT-ND◆ 4.08 3.20 2.93
3904 — 49 2/3 2 AUSART, 2 EUSART 2 MI2C 2 5 8-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 64-TQFP PIC18F66J50-I/PT-ND◆ 4.54 3.57 3.27
3900 — 51 1/3 2 AUSART, 2 EUSART 1 MI2C 1 2 12-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 64-TQFP PIC18F66J90-I/PT-ND 4.34 3.41 3.13
3900 — 51 1/3 1 EUSART, 1 AUSART 1 MI2C 1 2 12-ch. 12-bit 2 8MHz, 32Hz 48 2.0 3.6 Ind. 64-TQFP PIC18F66J93-I/PT-ND NEW! 4.60 3.60 3.30
64K x 16 3938 1024 54 2/3 2 EUSART 1 MI2C 1 5 12-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 64-TQFP PIC18F6722-I/PT-ND◆ 12.54 8.23 8.04
3938 1024 54 2/3 2 EUSART 1 MI2C 1 5 12-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 64-TQFP PIC18LF6722-I/PT-ND◆ 13.18 8.64 8.44
3936 — 50 2/3 2 EUSART 1 MI2C 1 5 11-ch. 10-it 2 8MHz, 32Hz 40 2.0 3.6 Ind. 64-TQFP PIC18F67J10-I/PT-ND◆ 4.06 3.18 2.92
3904 — 50 2/3 2 EUSART 2 MI2C 1 5 8-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 64-TQFP PIC18F67J11-I/PT-ND◆ 4.50 3.53 3.23
3904 — 49 2/3 2 AUSART, 2 EUSART 2 MI2C 2 5 8-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 64-TQFP PIC18F67J50-I/PT-ND◆ 4.96 3.89 3.57
3900 — 51 1/3 2 AUSART, 2 EUSART 1 MI2C 1 2 12-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 64-TQFP PIC18F67J90-I/PT-ND 4.76 3.74 3.43
3936 1024 54 2/3 2 AUSART, 2 EUSART 2 MI2C 2 5 12-ch. 12-bit 2 8MHz, 32Hz 40 4.2 5.5 Ind. 64-TQFP PIC18F6723-I/PT-ND◆ 14.62 11.00 10.09
3936 1024 54 2/3 2 AUSART, 2 EUSART 2 MI2C 2 5 12-ch. 12-bit 2 8MHz, 32Hz 40 2.0 5.5 Ind. 64-TQFP PIC18LF6723-I/PT-ND◆ 15.34 11.56 10.60
3936 1024 70 2/3 2 EUSART 1 MI2C 1 5 16-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 80-TQFP PIC18F8622-I/PT-ND◆ 10.12 7.61 6.98
3936 1024 70 2/3 2 EUSART 1 MI2C 1 5 16-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 80-TQFP PIC18LF8622-I/PT-ND◆ 10.62 8.00 7.33
2048 — 66 2/3 2 EUSART 1 MI2C 1 5 15-ch. 10-it 2 32Hz 40 2.0 3.6 Ind. 80-TQFP PIC18F86J10-I/PT-ND◆ 4.08 3.20 2.93
3904 — 66 2/3 2 EUSART 2 MI2C 1 5 12-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 80-TQFP PIC18F86J11-I/PT-ND◆ 4.54 3.57 3.27
3904 — 65 2/3 2 AUSART, 2 EUSART 2 MI2C 2 5 12-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 80-TQFP PIC18F86J50-I/PT-ND◆ 5.00 3.93 3.60
3900 — 67 1/3 2 AUSART, 2 EUSART 1 MI2C 1 2 12-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 80-TQFP PIC18F86J90-I/PT-ND 4.78 3.76 3.45
3900 — 67 1/3 1 EUSART, 1 AUSART 1 MI2C 1 2 12-ch. 12-bit 2 8MHz, 32Hz 48 2.0 3.6 Ind. 80-TQFP PIC18F86J93-I/PT-ND NEW! 5.06 3.97 3.64
3938 1024 70 2/3 2 EUSART 1 MI2C 1 5 16-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 80-TQFP PIC18F8722-I/PT-ND◆ 13.32 8.74 8.53
3938 1024 70 2/3 2 EUSART 1 MI2C 1 5 16-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 80-TQFP PIC18LF8722-I/PT-ND◆ 13.98 9.17 8.95
3936 1024 70 2/3 2 AUSART, 2 EUSART 2 MI2C 2 5 16-ch. 12-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 80-TQFP PIC18F8723-I/PT-ND◆ 15.44 11.62 10.65
3936 1024 70 2/3 2 AUSART, 2 EUSART 2 MI2C 2 5 16-ch. 12-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 80-TQFP PIC18LF8723-I/PT-ND◆ 16.20 12.20 11.18
3936 — 66 2/3 2 EUSART 1 MI2C 1 5 15-ch. 10-it 2 32Hz 40 2.0 3.6 Ind. 80-TQFP PIC18F87J10-I/PT-ND◆ 4.46 3.51 3.22
3904 — 66 2/3 2 EUSART 2 MI2C 1 5 12-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 80-TQFP PIC18F87J11-I/PT-ND◆ 4.96 3.89 3.57
3904 — 65 2/3 2 AUSART, 2 EUSART 2 MI2C 2 5 12-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 80-TQFP PIC18F87J50-I/PT-ND◆ 5.42 4.26 3.90
3900 — 67 1/3 2 AUSART, 2 EUSART 1 MI2C 1 2 12-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 80-TQFP PIC18F87J90-I/PT-ND 5.22 4.11 3.76
3808 — 70 2/3 2 EUSART 2 MI2C 1 5 16-ch. 10-it 2 32Hz 42 2.35 3.6 Ind. 100-TQFP PIC18F96J60-I/PT-ND 6.18 4.86 4.45
3808 — 70 2/3 2 EUSART 2 MI2C 1 5 16-ch. 10-it 2 32Hz 42 2.0 3.6 Ind. 100-TQFP PIC18F96J60-I/PF-ND 6.80 5.34 4.89
128K x 16 3900 — 51 1/3 1 EUSART, 1 AUSART 1 MI 2C 1 2 12-ch. 12-bit 2 8MHz, 32Hz 48 2.0 3.6 Ind. 64-TQFP PIC18F67J93-I/PT-ND NEW! 5.00 3.93 3.60
3900 — 67 1/3 1 EUSART, 1 AUSART 1 MI2C 1 2 12-ch. 12-bit 2 8MHz, 32Hz 48 2.0 3.6 Ind. 80-TQFP PIC18F87J93-I/PT-ND NEW! 5.48 4.30 3.94
◆ RoHS Compliant ‡ Tape and Reel Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Extended -40F 257F -40C 125C
®
For Digi-Reel ® information, please see page 71.
120 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Application Specific Flash Microcontrollers
Ethernet
PIC18F Devices
Memory Size
Timer/
Clock
Program RAM EEPROM I/O Counters
Analog Int. Speed VCC Operating
Digi-Key
Price Each
Words Bytes Bytes Pins 8/16-bit UART I2C SPI Ethernet PWM A/D Comp. Osc. (MHz) (V) Temp. Package Part No.
1 10 25
32K x 16
3808 — 39 2/3 1 EUSART 1 MI 2 C 1 10 ase T 5 11-ch 10-it 2 32Hz 42 2.35 3.6 Ind. 64-TQFP PIC18F66J60-I/PT-ND 5.38 4.22 3.87
3808 — 55 2/3 2 EUSART 1 MI 2 C 1 10 ase T 5 15-ch. 10-it 2 32Hz 42 2.35 3.6 Ind. 80-TQFP PIC18F86J60-I/PT-ND 5.82 4.57 4.19
3808 — 39 2/3 1 EUSART 1 MI 2 C 1 10 ase T 5 11-ch. 10-it 2 32Hz 42 2.35 3.6 Ind. 64-TQFP PIC18F66J65-I/PT-ND 5.60 4.39 4.03
48K x 16
3808 — 55 2/3 2 EUSART 1 MI 2 C 1 10 ase T 5 15-ch. 10-it 2 32Hz 42 2.35 3.6 Ind. 80-TQFP PIC18F86J65-I/PT-ND 6.04 4.74 4.35
3808 — 70 2/3 2 EUSART 1 MI 2 C 1 10 ase T 5 16-ch. 10-it 2 32Hz 42 2.0 3.6 Ind. 100-TQFP PIC18F96J65-I/PT-ND 6.40 5.03 4.61
3808 — 70 2/3 2 EUSART 1 MI 2 C 1 10 ase T 5 16-ch. 10-it 2 32Hz 42 2.0 3.6 Ind. 100-TQFP PIC18F96J65-I/PF-ND 7.02 5.51 5.05
3808 — 39 2/3 1 EUSART 1 MI2C 1 10 ase T 5 11-ch. 10-it 2 32Hz 42 2.35 3.6 Ind. 64-TQFP PIC18F67J60-I/PT-ND 5.80 4.55 4.17
64K x 16
3808 — 55 2/3 2 EUSART 1 MI 2 C 1 10 ase T 5 15-ch 10-it 2 32Hz 42 2.35 3.6 Ind. 80-TQFP PIC18F87J60-I/PT-ND 6.24 4.90 4.49
3808 — 70 2/3 2 EUSART 1 MI 2 C 1 10 ase T 5 16-ch. 10-it 2 32Hz 42 2.0 3.6 Ind. 100-TQFP PIC18F97J60-I/PF-ND 7.22 5.67 5.19
3808 — 70 2/3 2 EUSART 1 MI 2 C 1 10 ase T 5 16-ch. 10-it 2 32Hz 42 2.0 3.6 Ind. 100-TQFP PIC18F97J60-I/PT-ND 6.60 5.18 4.75
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C
Motor Control
PIC12F Devices
Program
Memory Size
RAM EEPROM I/O
Timer/
Counters
Analog Int.
Clock
Speed VCC Operating
Digi-Key
Price Each
Words Bytes Bytes Pins 8/16-bit UART I2C SPI PWM A/D Comp. Osc. (MHz) (V) Temp. Package Part No.
1 10 25
128 256 6 2/1 — — — 1 4-ch. 10-it 1 8MHz 20 2.0 5.5 Ind. 8-DFN PIC12F683-I/MD-ND 2.26 1.87 1.82
128 256 6 2/1 — — — 1 4-ch. 10-it 1 8MHz 20 2.0 5.5 Ind. 8-DFN PIC12F683-I/MF-ND 1.86 1.22 1.19
2K x 14 128 256 6 2/1 — — — 1 4-ch. 10-it 1 8MHz 20 2.0 5.5 Ind. 8-DIP PIC12F683-I/P-ND 1.78 1.18 1.15
128 256 6 2/1 — — — 1 4-ch. 10-it 1 8MHz 20 2.0 5.5 Ind. 8-SOIC PIC12F683-I/SN-ND 1.66 1.09 1.07
128 256 6 2/1 — — — 1 4-ch. 10-it 1 8MHz 20 2.0 5.5 Ind. 8-SOIC PIC12F683T-I/SNTR-ND‡ 3563.99/3,300
‡ Tape and Reel
PIC18F Devices
Memory Size
Timer/
Clock
Program RAM EEPROM I/O Counters
Analog Int. Speed VCC Operating
Digi-Key
Price Each
Words Bytes Bytes Pins 8/16-bit UART I2C SPI PWM A/D Comp. Osc. (MHz) (V) Temp. Package Part No.
1 10 25
768 256 22 1/3 1 EUSART 1 1 8 5-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 28-SOIC PIC18F2331-I/SO-ND 5.64 3.70 3.61
768 256 22 1/3 1 EUSART 1 1 8 5-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2331-I/SP-ND 5.88 3.86 3.77
768 256 24 1/3 1 EUSART 1 1 6 5-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 28-QFN PIC18LF2331-I/MM-ND 6.30 4.13 4.03
768 256 24 1/3 1 EUSART 1 1 6 5-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 28-SOIC PIC18LF2331-I/SO-ND 5.92 3.88 3.79
768 256 24 1/3 1 EUSART 1 1 6 5-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2331-I/SP-ND 6.16 4.05 3.95
4K x 16 768 256 34 1/3 1 EUSART 1 1 8 9-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 44-QFN PIC18F4331-I/ML-ND 6.64 4.36 4.26
768 256 34 1/3 1 EUSART 1 1 8 9-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 40-DIP PIC18F4331-I/P-ND 6.38 4.19 4.09
768 256 34 1/3 1 EUSART 1 1 8 9-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 44-TQFP PIC18F4331-I/PT-ND 6.32 4.15 4.05
768 256 34 1/3 1 EUSART 1 1 8 9-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 44-QFN PIC18LF4331-I/ML-ND 6.96 4.57 4.46
768 256 34 1/3 1 EUSART 1 1 8 9-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 40-DIP PIC18LF4331-I/P-ND 6.70 4.40 4.29
768 256 34 1/3 1 EUSART 1 1 8 9-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 44-TQFP PIC18LF4331-I/PT-ND 6.64 4.36 4.25
768 256 22 1/3 1 EUSART 1 1 8 5-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 28-SOIC PIC18F2431-I/SO-ND 5.88 3.86 3.77
768 256 22 1/3 1 EUSART 1 1 8 5-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2431-I/SP-ND 6.14 4.03 3.94
768 256 24 1/3 1 EUSART 1 1 6 5-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 28-SOIC PIC18LF2431-I/SO-ND 6.18 4.06 3.96
768 256 24 1/3 1 EUSART 1 1 6 5-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2431-I/SP-ND 6.44 4.23 4.12
8K x 16
768 256 34 1/3 1 EUSART 1 1 8 9-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 44-QFN PIC18F4431-I/ML-ND 6.92 4.54 4.44
768 256 34 1/3 1 EUSART 1 1 8 9-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 40-DIP PIC18F4431-I/P-ND 6.66 4.38 4.27
768 256 34 1/3 1 EUSART 1 1 8 9-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 44-TQFP PIC18F4431-I/PT-ND 6.60 4.33 4.23
768 256 34 1/3 1 EUSART 1 1 8 9-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 44-QFN PIC18LF4431-I/ML-ND 7.26 4.76 4.65
768 256 34 1/3 1 EUSART 1 1 8 9-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 40-DIP PIC18LF4431-I/P-ND 7.00 4.59 4.48
768 256 34 1/3 1 EUSART 1 1 8 9-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 44-TQFP PIC18LF4431-I/PT-ND 6.94 4.55 4.44
◆ RoHS Compliant
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C
C
CAN (Controller Area Network)
PIC18F Devices
Memory Size
Timer/
Clock
Program RAM EEPROM I/O Counters
Analog Int. Speed VCC Operating
Digi-Key
Price Each
Words Bytes Bytes Pins 8/16-bit UART I2C SPI CAN PWM A/D Comp. Osc. (MHz) (V) Temp. Package Part No.
1 10 25
768 256 25 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 1 8-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 28-QFN PIC18F2480-I/ML-ND 7.12 4.68 4.57
768 256 25 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 1 8-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 28-SOIC PIC18F2480-I/SO-ND 6.80 4.47 4.36
768 256 25 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 1 8-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2480-I/SP-ND 7.06 4.64 4.53
768 256 25 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 1 8-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 28-QFN PIC18LF2480-I/ML-ND 7.12 4.90 4.57
768 256 25 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 1 8-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 28-SOIC PIC18LF2480-I/SO-ND 6.80 4.69 4.36
8K x 16
768 256 25 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 1 8-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2480-I/SP-ND 7.06 4.86 4.53
768 256 36 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 44-QFN PIC18F4480-I/ML-ND 7.52 4.93 4.81
768 256 36 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 40-DIP PIC18F4480-I/P-ND 7.32 4.80 4.69
768 256 36 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 44-TQFP PIC18F4480-I/PT-ND 7.20 4.72 4.61
768 256 25 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 44-QFN PIC18LF4480-I/ML-ND 7.88 5.17 5.04
768 256 25 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 40-DIP PIC18LF4480-I/P-ND 7.68 5.04 4.92
768 256 25 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 44-TQFP PIC18LF4480-I/PT-ND 7.56 4.96 4.84
1536 256 25 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 1 8-ch. 10-it — — 40 4.2 5.5 Ind. 28-QFN PIC18F2580-I/ML-ND 7.94 5.22 5.09
1536 256 25 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 1 8-ch. 10-it — — 40 4.2 5.5 Ind. 28-SOIC PIC18F2580-I/SO-ND 7.62 5.01 4.89
1536 256 25 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 1 8-ch. 10-it — — 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2580-I/SP-ND 7.88 5.17 5.05
1536 256 25 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 1 8-ch. 10-it — 8MHz, 32Hz 40 2.0 5.5 Ind. 28-QFN PIC18LF2580-I/ML-ND 8.34 5.47 5.34
1536 256 25 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 1 8-ch. 10-it — 8MHz, 32Hz 40 2.0 5.5 Ind. 28-SOIC PIC18LF2580-I/SO-ND 8.02 5.26 5.13
16K x 16 1536 256 25 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 1 8-ch. 10-it — 8MHz, 32Hz 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2580-I/SP-ND 8.26 5.42 5.30
1536 256 36 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 44-QFN PIC18F4580-I/ML-ND 8.34 5.47 5.34
1536 256 36 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 40-DIP PIC18F4580-I/P-ND 8.14 5.34 5.22
1536 256 36 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 44-TQFP PIC18F4580-I/PT-ND 8.02 5.26 5.13
1536 256 36 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 44-QFN PIC18LF4580-I/ML-ND 8.74 5.73 5.59
1536 256 36 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 44-TQFP PIC18LF4580-I/PT-ND 8.42 5.52 5.39
3328 1024 25 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 1 8-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 28-SOIC PIC18F2585-I/SO-ND 8.72 5.73 5.59
3328 1024 25 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 1 8-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2585-I/SP-ND 8.98 5.90 5.76
3328 1024 25 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 1 8-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 28-SOIC PIC18LF2585-I/SO-ND 9.16 6.02 5.87
3328 1024 25 1/3 1 EUSART 1 MI 2 C 1 CAN 2.0B 1 8-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2585-I/SP-ND 9.42 6.18 6.04
3328 1024 36 1/3 1 EUSART 1 MI 2 C 1 ECAN 5 11-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 44-QFN PIC18F4585-I/ML-ND 9.44 6.19 6.04
24K x 16 3328 1024 36 1/3 1 EUSART 1 MI 2 C 1 ECAN 5 11-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 40-DIP PIC18F4585-I/P-ND 9.24 6.06 5.92
3328 1024 36 1/3 1 EUSART 1 MI 2 C 1 ECAN 5 11-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 44-TQFP PIC18F4585-I/PT-ND 9.12 5.98 5.84
3328 1024 36 1/3 1 EUSART 1 MI 2 C 1 ECAN 5 11-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 44-QFN PIC18LF4585-I/ML-ND 9.88 6.49 6.34
3328 1024 36 1/3 1 EUSART 1 MI 2 C 1 ECAN 5 11-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 44-TQFP PIC18LF4585-I/PT-ND 9.56 6.28 6.13
3328 1024 53 2/3 1 AUSART 1 MI 2 C 1 ECAN 5 12-ch. 10-it 2 — 40 4.2 5.5 Ind. 64-TQFP PIC18F6585-I/PT-ND 11.30 8.31 8.09
3328 1024 52 2/3 1 AUSART 1 MI 2 C 1 ECAN 5 12-ch. 10-it 2 — 40 2.0 5.5 Ind. 68-PLCC PIC18LF6585-I/L-ND 12.22 11.30 10.57
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C
(Continued)
®
For Digi-Reel ® information, please see page 71.
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
121
121

Application Specific Flash Microcontrollers
CAN (Controller Area Network) PIC18F Devices (Cont.)
C
Memory Size
Timer/
Clock
Program RAM EEPROM I/O Counters
Analog Int. Speed VCC Operating
Digi-Key
Price Each
Words Bytes Bytes Pins 8/16-bit UART I2C SPI CAN PWM A/D Comp. Osc. (MHz) (V) Temp. Package Part No.
1 10 25
3328 1024 52 2/3 1 AUSART 1 MI 2 C 1 ECAN 5 12-ch. 10-it 2 — 40 2.0 5.5 Ind. 64-TQFP PIC18LF6585-I/PT-ND 11.88 8.73 8.50
24K x 16 3328 1024 68 2/3 1 AUSART 1 MI2C 1 ECAN 5 16-ch. 10-it 2 — 40 4.2 5.5 Ind. 80-TQFP PIC18F8585-I/PT-ND 11.86 8.71 8.48
3328 1024 68 2/3 1 AUSART 1 MI2C 1 ECAN 5 16-ch. 10-it 2 — 40 2.0 5.5 Ind. 80-TQFP PIC18LF8585-I/PT-ND 12.44 9.15 8.91
3328 1024 25 1/3 1 EUSART 1 MI2C 1 ECAN 1 8-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 28-SOIC PIC18F2680-I/SO-ND 9.24 6.06 5.92
3328 1024 25 1/3 1 EUSART 1 MI2C 1 ECAN 1 8-ch. 10-it — 8MHz 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2680-I/SP-ND 9.50 6.23 6.08
3328 1024 25 1/3 1 EUSART 1 MI2C 1 ECAN 1 8-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 28-SOIC PIC18LF2680-I/SO-ND 9.70 6.37 6.22
3328 1024 25 1/3 1 EUSART 1 MI2C 1 ECAN 1 8-ch. 10-it — 8MHz 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2680-I/SP-ND 9.96 6.54 6.38
3328 1024 36 1/3 1 EUSART 1 MI2C 1 ECAN 5 11-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 44-QFN PIC18F4680-I/ML-ND 9.94 6.53 6.37
3328 1024 36 1/3 1 EUSART 1 MI2C 1 ECAN 5 11-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 40-DIP PIC18F4680-I/P-ND 9.76 6.40 6.25
3328 1024 36 1/3 1 EUSART 1 MI2C 1 ECAN 5 11-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 44-TQFP PIC18F4680-I/PT-ND 9.62 6.32 6.17
32K x 16 3328 1024 36 1/3 1 EUSART 1 MI2C 1 ECAN 5 11-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 44-QFN PIC18LF4680-I/ML-ND 10.42 6.84 6.68
3328 1024 36 1/3 1 EUSART 1 MI2C 1 ECAN 5 11-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 40-DIP PIC18LF4680-I/P-ND 10.24 6.72 6.56
3328 1024 36 1/3 1 EUSART 1 MI2C 1 ECAN 5 11-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 44-TQFP PIC18LF4680-I/PT-ND 10.10 6.63 6.47
3328 1024 52 2/3 1 AUSART 1 MI2C 1 ECAN 5 12-ch. 10-it 2 — 40 4.2 5.5 Ind. 64-TQFP PIC18F6680-I/PT-ND 12.12 8.91 8.68
3328 1024 52 2/3 1 AUSART 1 MI2C 1 ECAN 5 12-ch. 10-it 2 — 40 2.0 5.5 Ind. 68-PLCC PIC18LF6680-I/L-ND 12.86 9.45 9.20
3328 1024 52 2/3 1 AUSART 1 MI2C 1 ECAN 5 12-ch. 10-it 2 — 40 2.0 5.5 Ind. 64-TQFP PIC18LF6680-I/PT-ND 12.74 9.36 9.11
3328 1024 68 2/3 1 AUSART 1 MI2C 1 ECAN 5 16-ch. 10-it 2 — 40 4.2 5.5 Ind. 80-TQFP PIC18F8680-I/PT-ND 12.64 9.29 9.05
3328 1024 68 2/3 1 AUSART 1 MI2C 1 ECAN 5 16-ch. 10-it 2 — 40 2.0 5.5 Ind. 80-TQFP PIC18LF8680-I/PT-ND 13.28 9.76 9.50
3328 1024 25 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 1 8-ch. 10-it — 8MHz, 32Hz 40 4.2 5.5 Ind. 28-SOIC PIC18F2682-I/SO-ND 10.06 7.57 6.94
3328 1024 25 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 1 8-ch. 10-it — 8MHz, 32Hz 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2682-I/SP-ND 10.32 7.77 7.12
3328 1024 25 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 1 8-ch. 10-it — 8MHz, 32Hz 40 2.0 5.5 Ind. 28-SOIC PIC18LF2682-I/SO-ND 10.56 7.96 7.30
3328 1024 25 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 1 8-ch. 10-it — 8MHz, 32Hz 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2682-I/SP-ND 10.82 8.15 7.47
40K x 16
3328 1024 25 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 44-QFN PIC18F4682-I/ML-ND 10.76 8.11 7.44
3328 1024 25 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 40-DIP PIC18F4682-I/P-ND 10.58 7.96 7.30
3328 1024 25 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 44-TQFP PIC18F4682-I/PT-ND 10.44 7.86 7.21
3328 1024 25 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 44-QFN PIC18LF4682-I/ML-ND 11.28 8.50 7.79
3328 1024 25 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 40-DIP PIC18LF4682-I/P-ND 11.10 8.35 7.65
3328 1024 25 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 44-TQFP PIC18LF4682-I/PT-ND 10.96 8.25 7.56
3328 1024 25 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 1 8-ch. 10-it — 8MHz, 32Hz 40 4.2 5.5 Ind. 28-SOIC PIC18F2685-I/SO-ND 10.72 8.08 7.40
3328 1024 25 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 1 8-ch. 10-it — 8MHz, 32Hz 40 4.2 5.5 Ind. 28-DIP .3 PIC18F2685-I/SP-ND 10.98 8.27 7.58
3328 1024 25 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 1 8-ch. 10-it — 8MHz, 32Hz 40 2.0 5.5 Ind. 28-SOIC PIC18LF2685-I/SO-ND 11.26 8.48 7.77
3328 1024 25 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 1 8-ch. 10-it — 8MHz, 32Hz 40 2.0 5.5 Ind. 28-DIP .3 PIC18LF2685-I/SP-ND 11.52 8.67 7.95
48K x 16
3328 1024 36 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 44-QFN PIC18F4685-I/ML-ND 11.44 8.62 7.90
3328 1024 36 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 40-DIP PIC18F4685-I/P-ND 11.24 8.46 7.76
3328 1024 36 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz, 32Hz 40 4.2 5.5 Ind. 44-TQFP PIC18F4685-I/PT-ND 11.12 8.36 7.67
3328 1024 36 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 44-QFN PIC18LF4685-I/ML-ND 11.98 9.02 8.27
3328 1024 36 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 40-DIP PIC18LF4685-I/P-ND 11.80 8.88 8.14
3328 1024 36 1/3 1 EUSART 1 MI2C 1 CAN 2.0B 2 11-ch. 10-it 2 8MHz, 32Hz 40 2.0 5.5 Ind. 44-TQFP PIC18LF4685-I/PT-ND 11.66 8.79 8.06
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C
USB (Universal Serial Bus)
PIC18F Devices
Memory Size
Timer/
Clock
Program RAM EEPROM I/O Counters
Analog Int. Speed VCC Operating
Digi-Key
Price Each
Words Bytes Bytes Pins 8/16-bit UART I2C SPI USB PWM A/D Comp. Osc. (MHz) (V) Temp. Package Part No.
1 10 25
768 — 23 1/2 1 EUSART — — V2.0 FS 12Mit/S. 1 10-ch. 10-it — 8MHz, 32Hz 48 2.0 5.5 Ind. 28-QFN PIC18F2450-I/ML-ND 4.40 3.32 3.04
768 — 23 1/2 1 EUSART — — V2.0 FS 12Mit/S. 1 10-ch. 10-it — 8MHz, 32Hz 48 2.0 5.5 Ind. 28-SOIC PIC18F2450-I/SO-ND 4.08 3.06 2.81
768 — 23 1/2 1 EUSART — — V2.0 FS 12Mit/S. 1 10-ch. 10-it — 8MHz, 32Hz 48 2.0 5.5 Ind. 28-DIP .3 PIC18F2450-I/SP-ND 4.32 3.26 2.99
768 — 23 1/2 1 EUSART — — V2.0 FS 12Mit/S. 1 10-ch. 10-it — 8MHz, 32Hz 48 2.0 5.5 Ind. 28-QFN PIC18LF2450-I/ML-ND 4.60 3.45 3.16
768 — 23 1/2 1 EUSART — — V2.0 FS 12Mit/S. 1 10-ch. 10-it — 8MHz, 32Hz 48 2.0 5.5 Ind. 28-SOIC PIC18LF2450-I/SO-ND 4.28 3.22 2.95
8K x 16
768 — 23 1/2 1 EUSART — — V2.0 FS 12Mit/S. 1 10-ch. 10-it — 8MHz, 32Hz 48 2.0 5.5 Ind. 28-DIP .3 PIC18LF2450-I/SP-ND 4.54 3.41 3.13
768 — 34 1/2 1 AUSART — — V2.0 FS 12Mit/S. 1 13-ch. 10-it — 8MHz, 32Hz 48 2.0 5.5 Ind. 44-QFN PIC18F4450-I/ML-ND 4.70 3.55 3.25
768 — 34 1/2 1 AUSART — — V2.0 FS 12Mit/S. 1 13-ch. 10-it — 8MHz, 32Hz 48 2.0 5.5 Ind. 40-DIP PIC18F4450-I/P-ND 4.50 3.39 3.11
768 — 34 1/2 1 AUSART — — V2.0 FS 12Mit/S. 1 13-ch. 10-it — 8MHz, 32Hz 48 2.0 5.5 Ind. 44-TQFP PIC18F4450-I/PT-ND 4.38 3.30 3.02
768 — 34 1/2 1 AUSART — — V2.0 FS 12Mit/S. 1 13-ch. 10-it — 8MHz, 32Hz 48 2.0 5.5 Ind. 44-QFN PIC18LF4450-I/ML-ND 4.92 3.70 3.39
768 — 34 1/2 1 AUSART — — V2.0 FS 12Mit/S. 1 13-ch. 10-it — 8MHz, 32Hz 48 2.0 5.5 Ind. 40-DIP PIC18LF4450-I/P-ND 4.72 3.57 3.27
768 — 34 1/2 1 AUSART — — V2.0 FS 12Mit/S. 1 13-ch. 10-it — 8MHz, 32Hz 48 2.0 5.5 Ind. 44-TQFP PIC18LF4450-I/PT-ND 4.60 3.47 3.18
2048 256 25 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 10-ch. 10-it 2 8MHz 48 4.2 5.5 Ind. 28-SOIC PIC18F2455-I/SO-ND 6.04 3.96 3.87
2048 256 25 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 10-ch. 10-it 2 8MHz 48 4.2 5.5 Ind. 28-DIP .3 PIC18F2455-I/SP-ND 6.30 4.13 4.03
2048 256 25 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 10-ch. 10-it 2 8MHz 48 2.0 5.5 Ind. 28-SOIC PIC18LF2455-I/SO-ND 6.34 4.16 4.06
2048 256 25 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 10-ch. 10-it 2 8MHz 48 2.0 5.5 Ind. 28-DIP .3 PIC18LF2455-I/SP-ND 6.60 4.33 4.23
12K x 16
2048 256 35 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 13-ch. 10-it 2 8MHz 48 4.2 5.5 Ind. 44-QFN PIC18F4455-I/ML-ND 6.74 4.43 4.32
2048 256 35 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 13-ch. 10-it 2 8MHz 48 4.2 5.5 Ind. 40-DIP PIC18F4455-I/P-ND 6.56 4.30 4.20
2048 256 35 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 13-ch. 10-it 2 8MHz 48 4.2 5.5 Ind. 44-TQFP PIC18F4455-I/PT-ND 6.42 4.22 4.12
2048 256 35 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 13-ch. 10-it 2 8MHz 48 2.0 5.5 Ind. 44-QFN PIC18LF4455-I/ML-ND 7.06 4.64 4.53
2048 256 35 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 13-ch. 10-it 2 8MHz 48 2.0 5.5 Ind. 40-DIP PIC18LF4455-I/P-ND 6.88 4.51 4.40
2048 256 35 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 13-ch. 10-it 2 8MHz 48 2.0 5.5 Ind. 44-TQFP PIC18LF4455-I/PT-ND 6.74 4.43 4.32
2048 256 24 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 10-ch. 10-it 2 8MHz 48 4.2 5.5 Ind. 28-SOIC PIC18F2550-I/SO-ND 6.30 4.13 4.03
2048 256 24 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 10-ch. 10-it 2 8MHz 48 4.2 5.5 Ind. 28-DIP .3 PIC18F2550-I/SP-ND 6.56 4.30 4.20
2048 256 24 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 10-ch. 10-it 2 8MHz 48 2.0 5.5 Ind. 28-SOIC PIC18LF2550-I/SO-ND 6.62 4.34 4.24
2048 256 24 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 10-ch. 10-it 2 8MHz 48 2.0 5.5 Ind. 28-DIP .3 PIC18LF2550-I/SP-ND 6.86 4.51 4.40
2048 256 24 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 10-ch. 12-it 2 8MHz, 32Hz 48 2.0 5.5 Ind. 28-DIP .3 PIC18F2553-I/SP-ND 7.78 5.86 5.37
2048 256 24 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 10-ch. 12-it 2 8MHz, 32Hz 48 2.0 5.5 Ind. 28-SOIC PIC18LF2553-I/SO-ND 7.90 5.96 5.46
2048 256 24 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 10-ch. 12-it 2 8MHz, 32Hz 48 2.0 5.5 Ind. 28-DIP .3 PIC18LF2553-I/SP-ND 8.16 6.15 5.64
2048 256 35 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 13-ch. 10-it 2 8MHz 48 4.2 5.5 Ind. 44-QFN PIC18F4550-I/ML-ND 7.00 4.59 4.49
2048 256 35 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 13-ch. 10-it 2 8MHz 48 4.2 5.5 Ind. 40-DIP PIC18F4550-I/P-ND 6.80 4.47 4.36
16K x 16 2048 256 35 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 13-ch. 10-it 2 8MHz 48 4.2 5.5 Ind. 44-TQFP PIC18F4550-I/PT-ND 6.68 4.38 4.28
2048 256 35 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 13-ch. 10-it 2 8MHz 48 2.0 5.5 Ind. 44-QFN PIC18LF4550-I/ML-ND 7.34 4.81 4.70
2048 256 35 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 13-ch. 10-it 2 8MHz 48 2.0 5.5 Ind. 40-DIP PIC18LF4550-I/P-ND 7.14 4.69 4.58
2048 256 35 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 13-ch. 10-it 2 8MHz 48 2.0 5.5 Ind. 44-TQFP PIC18LF4550-I/PT-ND 7.02 4.60 4.49
2048 256 35 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 10-ch. 12-it 2 8MHz, 32Hz 48 4.2 5.5 Ind. 44-QFN PIC18F4553-I/ML-ND 8.24 6.21 5.69
2048 256 35 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 13-ch. 12-bit 2 8MHz, 32Hz 48 4.2 5.5 Ind. 40-DIP PIC18F4553-I/P-ND 8.04 6.05 5.55
2048 256 35 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 10-ch. 12-it 2 8MHz, 32Hz 48 4.2 5.5 Ind. 44-TQFP PIC18F4553-I/PT-ND 7.92 5.96 5.46
2048 256 35 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 10-ch. 12-it 2 8MHz, 32Hz 48 2.0 5.5 Ind. 44-QFN PIC18LF4553-I/ML-ND 8.62 6.50 5.95
2048 256 35 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 13-ch. 12-bit 2 8MHz, 32Hz 48 2.0 5.5 Ind. 40-DIP PIC18LF4553-I/P-ND 8.44 6.34 5.81
2048 256 35 1/3 1 EUSART 1 MI 2 C 1 V2.0 FS 12Mit/S. 2 10-ch. 12-it 2 8MHz, 32Hz 48 2.0 5.5 Ind. 44-TQFP PIC18LF4553-I/PT-ND 8.30 6.24 5.72
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C
(Continued)
®
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122 (US2011)
(TZM112.US)
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Application Specific Flash Microcontrollers (Cont.)
LCD (Liquid Crystal Display)
PIC16F Devices
Memory Size
Timer/
Clock
Program RAM EEPROM I/O Counters
LCD
Analog Internal Speed VCC Operating
Digi-Key
Price Each
Words Bytes Bytes Pins 8/16-bit UART I2C SPI Segments PWM A/D Comp. Oscillator (MHz) (V) Temp. Package Part No.
1 10 25
256 256 24 2/1 1 AUSART 2 MI 2 C 1 60 — 5-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 28-QFN PIC16F913-I/ML-ND 3.52 2.66 2.44
256 256 24 2/1 1 AUSART 2 MI 2 C 1 60 — 5-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 28-SOIC PIC16F913-I/SO-ND 3.20 2.41 2.21
256 256 24 2/1 1 AUSART 2 MI 2 C 1 60 — 5-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 28-DIP .3 PIC16F913-I/SP-ND 3.46 2.60 2.39
4K x 14 256 256 24 2/1 1 AUSART 2 MI2C 1 60 — 5-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 28-SSOP PIC16F913-I/SS-ND 3.14 2.37 2.17
256 256 35 2/1 1 AUSART 2 MI 2 C 1 96 — 8-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 44-QFN PIC16F914-I/ML-ND 4.04 3.05 2.79
256 256 35 2/1 1 AUSART 2 MI 2 C 1 96 — 8-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 40-DIP PIC16F914-I/P-ND 3.82 2.89 2.65
256 256 35 2/1 1 AUSART 2 MI 2 C 1 96 — 8-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 44-TQFP PIC16F914-I/PT-ND 3.72 2.79 2.56
352 256 24 2/1 1 AUSART 1 1 60 — 5-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 28-QFN PIC16F916-I/ML-ND 3.90 2.95 2.70
352 256 24 2/1 1 AUSART 1 1 60 — 5-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 28-SOIC PIC16F916-I/SO-ND 3.58 2.70 2.47
352 256 24 2/1 1 AUSART 1 1 60 — 5-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 28-SDIP .3 PIC16F916-I/SP-ND 3.84 2.89 2.65
8K x 14
352 256 24 2/1 1 AUSART 1 1 60 — 5-ch. 10-it 2 8MHz 20 4.0 5.5 Ind. 28-SSOP PIC16F916-I/SS-ND 3.54 2.66 2.44
352 256 35 2/1 1 AUSART 1 1 96 — 8-ch. 10-it 2 8MHz, 32Hz 20 4.0 5.5 Ind. 44-QFN PIC16F917-I/ML-ND 4.28 3.24 2.97
352 256 35 2/1 1 AUSART 1 1 96 — 8-ch. 10-it 2 8MHz, 32Hz 20 4.0 5.5 Ind. 40-DIP PIC16F917-I/P-ND 4.10 3.08 2.83
352 256 35 2/1 1 AUSART 1 1 96 — 8-ch. 10-it 2 8MHz, 32Hz 20 4.0 5.5 Ind. 44-TQFP PIC16F917-I/PT-ND 3.96 2.99 2.74
336 256 53 2/1 1 AUSART 1 1 168 — 8-ch. 10-it 2 8MHz, 32Hz 20 2.0 5.5 Ind. 64-TQFP PIC16F946-I/PT-ND 4.22 3.18 2.92
C
PIC18F Devices
Memory Size
Timer/
Clock
Program RAM EEPROM I/O Counters
LCD
Analog Int. Speed VCC Operating
Digi-Key
Price Each
Words Bytes Bytes Pins 8/16-bit UART I2C SPI Segments PWM A/D Comp. Osc. (MHz) (V) Temp. Package Part No.
1 10 25
768 — 50 1/3 1 AUSART, 1 EUSART 1 MI2C 1 128 2 12-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 64-TQFP PIC18F6390-I/PT-ND 4.86 3.19 3.12
4K x 16
768 — 50 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 128 2 12-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 64-TQFP PIC18LF6390-I/PT-ND 5.10 3.35 3.27
768 — 66 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 192 2 12-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 80-TQFP PIC18F8390-I/PT-ND 5.76 3.78 3.69
768 — 66 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 192 2 12-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 80-TQFP PIC18LF8390-I/PT-ND 6.04 3.97 3.87
768 — 50 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 128 2 12-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 64-TQFP PIC18F6490-I/PT-ND 5.50 3.61 3.53
8K x 16
768 — 50 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 128 2 12-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 64-TQFP PIC18LF6490-I/PT-ND 5.78 3.79 3.70
768 — 66 2/3 1 AUSART, 1 EUSART 1 MI 2 C 1 192 2 12-ch. 10-it 2 8MHz 40 4.2 5.5 Ind. 80-TQFP PIC18F8490-I/PT-ND 6.40 4.20 4.10
768 — 66 2/3 1 AUSART, 1 EUSART 1 MI 2 C 1 192 2 12-ch. 10-it 2 8MHz 40 2.0 5.5 Ind. 80-TQFP PIC18LF8490-I/PT-ND 6.72 4.41 4.31
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C
16-bit PIC Microcontrollers
PIC24FJ Devices
Memory Size
Timer/
Clock
Program RAM EEPROM I/O Counters
Capture Internal Speed VCC Operating
Digi-Key
Price Each
Words Bytes Bytes Pins 16/32-bit UART I2C SPI PWM A/D Compare Oscillator (MHz) (V) Temp. Package Part No.
1 10 25
4K — 21 5/ 2 2 2 5 10-ch. 10-it 2 8MHz, 32Hz 32 2.0 3.6 Ext. 28-QFN PIC24FJ16GA002-E/ML-ND 3.60 2.83 2.60
4K — 21 5/ 2 2 2 5 10-ch. 10-it 2 8MHz, 32Hz 32 2.0 3.6 Ext. 28-SOIC PIC24FJ16GA002-E/SO-ND 3.40 2.68 2.46
4K — 21 5/ 2 2 2 5 10-ch. 10-it 2 8MHz, 32Hz 32 2.0 3.6 Ext. 28-SDIP PIC24FJ16GA002-E/SP-ND 3.64 2.87 2.63
4K — 21 5/ 2 2 2 5 10-ch. 10-it 2 8MHz, 32Hz 32 2.0 3.6 Ext. 28-SSOP PIC24FJ16GA002-E/SS-ND 3.36 2.64 2.42
4K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 28-QFN PIC24FJ16GA002-I/ML-ND 3.28 2.58 2.37
16K x 16
4K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 28-SOIC PIC24FJ16GA002-I/SO-ND 3.08 2.43 2.23
4K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 28-DIP .3 PIC24FJ16GA002-I/SP-ND 3.32 2.62 2.40
4K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 28-SSOP PIC24FJ16GA002-I/SS-ND 3.04 2.39 2.19
4K — 35 5/ 2 2 2 5 13-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ext. 44-QFN PIC24FJ16GA004-E/ML-ND 3.92 3.11 2.82
4K — 35 5/ 2 2 2 5 13-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ext. 44-TQFP PIC24FJ16GA004-E/PT-ND 3.72 2.94 2.67
4K — 35 5/ 2 2 2 5 13-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 44-QFN PIC24FJ16GA004-I/ML-ND 3.58 2.83 2.57
4K — 35 5/ 2 2 2 5 13-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 44-TQFP PIC24FJ16GA004-I/PT-ND 3.38 2.67 2.43
8K — 21 5/ 2 2 2 5 9-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 28-QFN PIC24FJ32GB002-I/ML-ND NEW! 4.46 3.51 3.22
8K — 21 5/ 2 2 2 5 9-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 28-SOIC PIC24FJ32GB002-I/SO-ND NEW! 4.28 3.35 3.07
8K — 21 5/ 2 2 2 5 9-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 28-DIP .3 PIC24FJ32GB002-I/SP-ND NEW! 4.52 3.55 3.25
8K — 35 5/ 2 2 2 5 13-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 44-QFN PIC24FJ32GB004-I/ML-ND NEW! 4.86 3.82 3.50
8K — 35 5/ 2 2 2 5 13-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 44-TQFP PIC24FJ32GB004-I/PT-ND NEW! 4.64 3.64 3.34
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ext. 28-QFN PIC24FJ32GA002-E/ML-ND 4.22 3.31 3.04
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ext. 28-SOIC PIC24FJ32GA002-E/SO-ND 4.02 3.16 2.90
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ext. 28-SDIP PIC24FJ32GA002-E/SP-ND 4.26 3.35 3.07
32K x 16 8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ext. 28-SSOP PIC24FJ32GA002-E/SS-ND 3.96 3.12 2.86
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 28-QFN PIC24FJ32GA002-I/ML-ND 3.84 3.03 2.77
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 28-SOIC PIC24FJ32GA002-I/SO-ND 3.64 2.87 2.63
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 28-DIP .3 PIC24FJ32GA002-I/SP-ND 3.90 3.06 2.81
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 28-SSOP PIC24FJ32GA002-I/SS-ND 3.60 2.83 2.60
8K — 35 5/ 2 2 2 5 13-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ext. 44-QFN PIC24FJ32GA004-E/ML-ND 4.62 3.64 3.34
8K — 35 5/ 2 2 2 5 13-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ext. 44-TQFP PIC24FJ32GA004-E/PT-ND 4.40 3.47 3.18
8K — 35 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 44-QFN PIC24FJ32GA004-I/ML-ND 4.24 3.33 3.06
8K — 35 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 44-TQFP PIC24FJ32GA004-I/PT-ND 4.02 3.16 2.90
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ext. 28-QFN PIC24FJ48GA002-E/ML-ND 4.60 3.62 3.32
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ext. 28-SOIC PIC24FJ48GA002-E/SO-ND 4.40 3.47 3.18
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ext. 28-SDIP PIC24FJ48GA002-E/SP-ND 4.66 3.66 3.36
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ext. 28-SSOP PIC24FJ48GA002-E/SS-ND 4.36 3.43 3.14
48K x 8
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 28-QFN PIC24FJ48GA002-I/ML-ND 4.22 3.31 3.04
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 28-SOIC PIC24FJ48GA002-I/SO-ND 4.02 3.16 2.90
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 28-DIP .3 PIC24FJ48GA002-I/SP-ND 4.26 3.35 3.07
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 28-SSOP PIC24FJ48GA002-I/SS-ND 3.96 3.12 2.86
8K — 35 5/ 2 2 2 5 13-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ext. 44-QFN PIC24FJ48GA004-E/ML-ND 5.04 3.97 3.64
8K — 35 5/ 2 2 2 5 13-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ext. 44-TQFP PIC24FJ48GA004-E/PT-ND 4.82 3.80 3.48
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ext. 28-QFN PIC24FJ64GA002-E/ML-ND 5.02 3.95 3.62
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ext. 28-SOIC PIC24FJ64GA002-E/SO-ND 4.82 3.80 3.48
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ext. 28-SDIP PIC24FJ64GA002-E/SP-ND 5.06 3.99 3.66
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ext. 28-SSOP PIC24FJ64GA002-E/SS-ND 4.78 3.76 3.45
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 28-QFN PIC24FJ64GA002-I/ML-ND 4.58 3.60 3.30
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 28-SOIC PIC24FJ64GA002-I/SO-ND 4.38 3.45 3.16
8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 28-DIP .3 PIC24FJ64GA002-I/SP-ND 4.62 3.64 3.34
64K x 16 8K — 21 5/ 2 2 2 5 10-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 28-SSOP PIC24FJ64GA002-I/SS-ND 4.34 3.41 3.13
8K — 35 5/ 2 2 2 5 13-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ext. 44-QFN PIC24FJ64GA004-E/ML-ND 5.12 4.02 3.68
8K — 35 5/ 2 2 2 5 13-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ext. 44-TQFP PIC24FJ64GA004-E/PT-ND 4.96 3.90 3.58
8K — 35 5/ 2 2 2 5 13-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 44-QFN PIC24FJ64GA004-I/ML-ND 4.66 3.66 3.36
8K — 35 5/ 2 2 2 5 13-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 44-TQFP PIC24FJ64GA004-I/PT-ND 4.52 3.55 3.25
8K — 54 5/ 2 2 2 5 16-ch. 10-it 2 8MHz, 32Hz 32 2.7 3.6 Ind. 64-TQFP PIC24FJ64GA006-I/PT-ND 4.94 3.87 3.55
8K — 70 5/ 2 2 2 5 16-ch. 10-it 2 8MHz, 32Hz 32 2.7 3.6 Ind. 80-TQFP PIC24FJ64GA008-I/PT-ND 5.38 4.22 3.87
8K — 86 5/ 2 2 2 5 16-ch. 10-it 2 8MHz, 32Hz 32 2.7 3.6 Ind. 100-TQFP PIC24FJ64GA010-I/PF-ND 6.36 4.99 4.58
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Extended -40F 257F -40C 125C
(Continued)
®
For Digi-Reel ® information, please see page 71.
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123

16-bit PIC Microcontrollers
PIC24FJ Devices (Cont.)
C
Memory Size
Timer/
Clock
Program RAM EEPROM I/O Counters
Capture Internal Speed VCC Operating
Digi-Key
Price Each
Words Bytes Bytes Pins 16/32-bit UART I2C SPI PWM A/D Compare Oscillator (MHz) (V) Temp. Package Part No.
1 10 25
8K — 86 5/ 2 2 2 5 16-ch. 10-it 2 8MHz, 32Hz 32 2.7 3.6 Ind. 100-TQFP PIC24FJ64GA010-I/PT-ND 5.74 4.51 4.13
8K — 21 5/ 2 2 2 5 9-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 28-DIP .3 PIC24FJ64GB002-I/SP-ND NEW! 5.26 3.78 3.78
8K — 35 5/ 2 2 2 5 13-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 44-QFN PIC24FJ64GB004-I/ML-ND NEW! 5.60 4.03 4.03
64K x 16
8K — 35 5/ 2 2 2 5 13-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 44-TQFP PIC24FJ64GB004-I/PT-ND NEW! 5.38 3.87 3.87
16K — 52 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 64-QFN PIC24FJ64GB106-I/MR-ND 6.40 5.03 4.61
16K — 64 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 64-TQFP PIC24FJ64GB106-I/PT-ND 6.26 4.91 4.51
16K — 80 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 80-TQFP PIC24FJ64GB108-I/PT-ND 6.72 5.28 4.84
16K — 100 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 100-TQFP PIC24FJ64GB110-I/PT-ND 7.10 5.57 5.11
96K x 16
8K — 54 5/ 2 2 2 5 16-ch. 10-it 2 8MHz, 32Hz 32 2.7 3.6 Ind. 64-TQFP PIC24FJ96GA006-I/PT-ND 5.16 4.05 3.71
8K — 70 5/ 2 2 2 5 16-ch. 10-it 2 8MHz, 32Hz 32 2.7 3.6 Ind. 80-TQFP PIC24FJ96GA008-I/PT-ND 5.60 4.39 4.03
8K — 54 5/ 2 2 2 5 16-ch. 10-it 2 8MHz, 32Hz 32 2.7 3.6 Ind. 64-TQFP PIC24FJ128GA006-I/PT-ND 5.36 4.20 3.85
8K — 70 5/ 2 2 2 5 16-ch. 10-it 2 8MHz, 32Hz 32 2.7 3.6 Ind. 80-TQFP PIC24FJ128GA008-I/PT-ND 5.82 4.57 4.19
8K — 86 5/ 2 2 2 5 16-ch. 10-it 2 8MHz, 32Hz 32 2.7 3.6 Ind. 100-TQFP PIC24FJ128GA010-I/PF-ND 6.78 5.32 4.88
16K — 53 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 64-QFN PIC24FJ128GA106-I/MR-ND 6.38 5.01 4.59
16K — 64 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 64-TQFP PIC24FJ128GA106-I/PT-ND 6.22 4.90 4.49
16K — 80 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 80-TQFP PIC24FJ128GA108-I/PT-ND 6.68 5.26 4.82
128K x 16 16K — 100 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 100-TQFP PIC24FJ128GA110-I/PF-ND 8.28 6.51 5.97
16K — 100 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 100-TQFP PIC24FJ128GA110-I/PT-ND 7.06 5.55 5.09
16K — 52 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 64-QFN PIC24FJ128GB106-I/MR-ND 6.82 5.36 4.91
16K — 64 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 64-TQFP PIC24FJ128GB106-I/PT-ND 6.68 5.24 4.81
16K — 80 5/ 4 3 3 9 16-ch. 10-it 3 8MH, 32Hz 32 2.0 3.6 Ind. 80-TQFP PIC24FJ128GB108-I/PT-ND 7.14 5.61 5.14
16K — 100 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 100-TQFP PIC24FJ128GB110-I/PF-ND 8.12 6.38 5.85
16K — 100 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 100-TQFP PIC24FJ128GB110-I/PT-ND 7.52 5.90 5.41
16K — 53 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 64-QFN PIC24FJ192GA106-I/MR-ND 6.76 5.30 4.86
16K — 64 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 64-TQFP PIC24FJ192GA106-I/PT-ND 6.58 5.18 4.75
16K — 80 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 80-TQFP PIC24FJ192GA108-I/PT-ND 7.06 5.55 5.09
192K x 16 16K — 100 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 100-TQFP PIC24FJ192GA110-I/PF-ND 8.64 6.80 6.24
16K — 100 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 100-TQFP PIC24FJ192GA110-I/PT-ND 7.42 5.84 5.35
16K — 52 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 64-QFN PIC24FJ192GB106-I/MR-ND 7.20 5.65 5.18
16K — 64 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 64-TQFP PIC24FJ192GB106-I/PT-ND 7.04 5.53 5.07
16K — 53 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 64-QFN PIC24FJ256GA106-I/MR-ND 7.12 5.59 5.12
16K — 64 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 64-TQFP PIC24FJ256GA106-I/PT-ND 6.96 5.47 5.02
16K — 80 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 80-TQFP PIC24FJ256GA108-I/PT-ND 7.42 5.84 5.35
16K — 100 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 100-TQFP PIC24FJ256GA110-I/PF-ND 9.00 7.09 6.50
256K x 16
16K — 100 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 100-TQFP PIC24FJ256GA110-I/PT-ND 7.78 6.13 5.62
16K — 52 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 64-QFN PIC24FJ256GB106-I/MR-ND 7.56 5.94 5.44
16K — 52 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 64-TQFP PIC24FJ256GB106-I/PT-ND 7.42 5.82 5.34
16K — 68 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 80-TQFP PIC24FJ256GB108-I/PT-ND 7.88 6.19 5.67
16K — 84 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 100-TQFP PIC24FJ256GB110-I/PF-ND 8.86 6.96 6.38
16K — 84 5/ 4 3 3 9 16-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 100-TQFP PIC24FJ256GB110-I/PT-ND 8.24 6.48 5.94
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Extended -40F 257F -40C 125C
PIC24HJ Devices, 40 MIPs
Memory Size
Timer/
Clock
Program RAM EEPROM I/O Counters
Capture Internal Speed VCC Operating
Digi-Key
Price Each
Words Bytes Bytes Pins 16/32-bit UART I2C SPI PWM
A/D
Compare Oscillator (MHz) (V) Temp. Package Part No.
1 10 25
1K — 21 3/1 1 1 1 4 6-ch. 12-it, 6-ch. 10-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 18-DIP PIC24HJ12GP201-I/P-ND 3.78 2.97 2.72
1K — 21 3/1 1 1 1 4 6-ch. 12-it, 6-ch. 10-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 18-SOIC PIC24HJ12GP201-I/SO-ND 3.64 2.87 2.63
12K x 16
1K — 21 3/1 1 1 1 2 6-ch. 12-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SSOP PIC24HJ12GP202-I/SS-ND 3.92 3.08 2.83
1K — 21 3/1 1 1 1 4 10-ch. 12-it, 10-ch. 10-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-QFN PIC24HJ12GP202-I/ML-ND 4.16 3.28 3.00
1K — 21 3/1 1 1 1 4 10-ch. 12-it, 10-ch. 10-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SOIC PIC24HJ12GP202-I/SO-ND 3.96 3.12 2.86
1K — 21 3/1 1 1 1 4 10-ch. 12-it, 10-ch. 10-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-DIP .3 PIC24HJ12GP202-I/SP-ND 4.22 3.31 3.04
16K x 16
2K — 35 3/1 1 1 1 2 13-ch. 12-it, 13-ch. 10-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-QFN PIC24HJ16GP304-I/ML-ND 4.44 3.51 3.18
2K — 35 3/1 1 1 1 2 13-ch. 12-it, 13-ch. 10-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-TQFP PIC24HJ16GP304-I/PT-ND 4.22 3.34 3.04
2K — 21 3/1 1 1 1 2 10-ch. 12-it, 10-ch. 10-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-QFN PIC24HJ32GP202-I/MM-ND 4.38 3.47 3.15
2K — 21 3/1 1 1 1 2 10-ch. 12-it, 10-ch. 10-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SOIC PIC24HJ32GP202-I/SO-ND 4.20 3.32 3.02
2K — 21 3/1 1 1 1 2 10-ch. 12-it, 10-ch. 10-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SDIP .3 PIC24HJ32GP202-I/SP-ND 4.44 3.51 3.18
2K — 21 3/1 1 1 1 2 10-ch. 12-it, 10-ch. 10-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-QFN PIC24HJ32GP202-E/MM-ND 4.80 3.80 3.45
2K — 21 3/1 1 1 1 2 10-ch. 12-it, 10-ch. 10-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-SOIC PIC24HJ32GP202-E/SO-ND 4.62 3.65 3.32
2K — 35 3/1 1 1 1 2 13-ch. 12-it, 13-ch. 10-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-QFN PIC24HJ32GP204-I/ML-ND 4.52 3.56 3.23
2K — 35 3/1 1 1 1 2 13-ch. 12-it, 13-ch. 10-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-TQFP PIC24HJ32GP204-I/PT-ND 4.38 3.45 3.14
4K — 21 5/2 2 1 2 4 10-ch. 12-it 2 7.37MHz, 512Hz 32 3.0 3.6 Ext. 28-QFN PIC24HJ32GP302-E/MM-ND 5.50 4.34 3.98
32K x 16 4K — 21 5/2 2 1 2 4 10-ch. 12-it 2 7.37MHz, 512Hz 32 3.0 3.6 Ind. 28-QFN PIC24HJ32GP302-I/MM-ND 5.02 3.95 3.62
4K — 21 5/2 2 1 2 4 10-ch. 10-it, 10-ch. 12-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-SOIC PIC24HJ32GP302-E/SO-ND 5.32 4.18 3.83
4K — 21 5/2 2 1 2 4 10-ch. 12-it, 10-ch. 12-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SOIC PIC24HJ32GP302-I/SO-ND 4.82 3.80 3.48
4K — 21 5/2 2 1 2 4 10-ch. 10-it, 10-ch. 12-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-DIP PIC24HJ32GP302-E/SP-ND 5.56 4.37 4.01
4K — 21 5/2 2 1 2 4 10-ch. 10-it, 10-ch. 12-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-DIP PIC24HJ32GP302-I/SP-ND 5.06 3.99 3.66
4K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-QFN PIC24HJ32GP304-E/ML-ND 5.64 4.47 4.06
4K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-QFN PIC24HJ32GP304-I/ML-ND 5.14 4.07 3.70
4K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-TQFP PIC24HJ32GP304-E/PT-ND 5.44 4.31 3.91
4K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-TQFP PIC24HJ32GP304-I/PT-ND 4.94 3.91 3.55
8K — 53 9/ 2 1 2 8 18-ch. 10-it, 18-ch. 12-it 8 7.37MHz, 512Hz 40 3.0 3.6 Ind. 64-TFQFP PIC24HJ64GP206A-I/PT-ND NEW! 5.94 4.66 4.28
8K — 85 9/ 2 2 2 8 32-ch. 10-it, 32-ch. 12-it 8 7.37MHz, 512Hz 40 3.0 3.6 Ind. 100-TQFP PIC24HJ64GP210A-I/PF-ND NEW! 7.42 5.82 5.34
8K — 85 9/ 2 2 2 8 32-ch. 10-it, 32-ch. 12-it 8 7.37MHz, 512Hz 40 3.0 3.6 Ind. 100-TQFP PIC24HJ64GP210A-I/PT-ND NEW! 6.80 5.34 4.89
64K x 8 8K — 53 9/ 2 2 2 8 18-ch. 10-it, 18-ch. 12-it 8 7.37MHz, 32Hz 40 3.0 3.6 Ind. 64-QFN PIC24HJ64GP506A-I/MR-ND NEW! 6.46 5.07 4.65
8K — 53 9/ 2 2 2 8 18-ch. 10-it, 18-ch. 12-it 8 7.37MHz, 32Hz 40 3.0 3.6 Ind. 64-TQFP PIC24HJ64GP506A-I/PT-ND NEW! 6.30 4.95 4.54
8K — 85 9/ 2 2 2 8 32-ch. 10-it, 32-ch. 12-it 8 7.37MHz, 512Hz 40 3.0 3.6 Ind. 100-TQFP PIC24HJ64GP510A-I/PF-ND NEW! 7.74 6.07 5.57
8K — 85 9/ 2 2 2 8 32-ch. 10-it, 32-ch. 12-it 8 7.37MHz, 512Hz 40 3.0 3.6 Ind. 100-TQFP PIC24HJ64GP510A-I/PT-ND NEW! 7.12 5.59 5.12
4K — 21 5/2 2 1 2 4 10-ch. 12-it 2 7.37MHz, 512Hz 32 3.0 3.6 Ext. 28-QFN PIC24HJ64GP202-E/MM-ND 6.20 4.88 4.47
4K — 21 5/2 2 1 2 4 10-ch. 12-it 2 7.37MHz, 512Hz 32 3.0 3.6 Ind. 28-QFN PIC24HJ64GP202-I/MM-ND 5.66 4.45 4.08
4K — 21 5/2 2 1 2 4 10-ch. 12-it 2 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-SOIC PIC24HJ64GP202-E/SO-ND 6.00 4.72 4.33
4K — 21 5/2 2 1 2 4 10-ch. 12-it 2 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SOIC PIC24HJ64GP202-I/SO-ND 5.46 4.30 3.94
4K — 21 5/2 2 1 2 4 10-ch. 12-it 2 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-DIP PIC24HJ64GP202-E/SP-ND 6.24 4.91 4.51
4K — 21 5/2 2 1 2 4 10-ch. 12-it 2 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-DIP PIC24HJ64GP202-I/SP-ND 5.70 4.49 4.12
4K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-QFN PIC24HJ64GP204-E/ML-ND 6.50 5.10 4.67
4K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-QFN PIC24HJ64GP204-I/ML-ND 5.92 4.64 4.26
4K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-TQFP PIC24HJ64GP204-E/PT-ND 6.34 4.98 4.57
64K x 16
4K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-TQFP PIC24HJ64GP204-I/PT-ND 5.76 4.53 4.15
4K — 21 5/2 2 1 2 4 10-ch. 12-it 2 7.37MHz, 512Hz 32 3.0 3.6 Ext. 28-QFN PIC24HJ64GP502-E/MM-ND 6.60 5.20 4.77
4K — 21 5/2 2 1 2 4 10-ch. 12-it 2 7.37MHz, 512Hz 32 3.0 3.6 Ind. 28-QFN PIC24HJ64GP502-I/MM-ND 6.02 4.74 4.35
4K — 21 5/2 2 1 2 4 10-ch. 12-it 2 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-SOIC PIC24HJ64GP502-E/SO-ND 6.42 5.05 4.63
4K — 21 5/2 2 1 2 4 10-ch. 12-it 2 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SOIC PIC24HJ64GP502-I/SO-ND 5.82 4.59 4.20
4K — 21 5/2 2 1 2 4 10-ch. 12-it 2 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-DIP PIC24HJ64GP502-E/SP-ND 6.66 5.24 4.81
4K — 21 5/2 2 1 2 4 10-ch. 12-it 2 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-DIP PIC24HJ64GP502-I/SP-ND 6.08 4.78 4.38
4K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-QFN PIC24HJ64GP504-E/ML-ND 7.12 5.61 5.14
4K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-QFN PIC24HJ64GP504-I/ML-ND 6.48 5.11 4.68
4K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-TQFP PIC24HJ64GP504-E/PT-ND 6.90 5.43 4.98
4K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-TQFP PIC24HJ64GP504-I/PT-ND 6.26 4.93 4.52
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Extended -40F 257F -40C 125C Hih Varies See Manuacturers data sheet or exact speciications
(Continued)
®
For Digi-Reel ® information, please see page 71.
124 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

16-bit PIC Microcontrollers
PIC24HJ Devices, 40MIPs (Cont.)
Memory Size
Timer/
Clock
Program RAM EEPROM I/O Counters
Capture Internal Speed VCC Operating
Digi-Key
Price Each
Words Bytes Bytes Pins 16/32-bit UART I2C SPI PWM
A/D
Compare Oscillator (MHz) (V) Temp. Package Part No.
1 10 25
8K — 53 9/4 2 1 2 8 18-ch. 12-it, 18-ch. 10 it 8 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-TQFP PIC24HJ64GP206-I/PT-ND 5.94 4.66 4.28
8K — 85 9/4 2 2 2 8 32-ch. 12-it, 32-ch. 10-it 8 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP PIC24HJ64GP210-I/PF-ND 7.42 5.82 5.34
64K x 16
8K — 85 9/4 2 2 2 8 32-ch. 12-it, 32-ch. 10-it 8 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP PIC24HJ64GP210-I/PT-ND 6.80 5.34 4.89
8K — 53 9/4 2 2 2 8 18-ch. 12-it, 18-ch. 10-it 8 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-TQFP PIC24HJ64GP506-I/PT-ND 6.30 4.95 4.54
8K — 85 /9 2 2 2 8 32-ch. 12-it, 32-ch. 10-it 8 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP PIC24HJ64GP510-I/PF-ND 7.74 6.07 5.57
8K — 85 /9 2 2 2 8 32-ch. 12-it, 32-ch. 10-it 8 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP PIC24HJ64GP510-I/PT-ND 7.12 5.59 5.12
8k — 53 9/ 2 2 2 8 18-ch. 12-it, 18-ch. 10-it 8 7.37MHz, 512Hz 40 3.0 3.6 Ind. 64-QFN PIC24HJ128GP206A-I/MR-ND NEW! 6.50 5.11 4.68
8k — 53 9/ 2 2 2 8 18-ch. 12-it, 18-ch. 10-it 8 7.37MHz, 512Hz 40 3.0 3.6 Ind. 64-TQFP PIC24HJ128GP206A-I/PT-ND NEW! 6.36 4.99 4.58
8k — 85 9/ 2 2 2 8 32-ch. 12-it, 32-ch. 10-it 8 7.37MHz, 512Hz 40 3.0 3.6 Ind. 100-TQFP PIC24HJ128GP210A-I/PF-ND NEW! 7.88 6.19 5.67
8k — 85 9/ 2 2 2 8 32-ch. 12-it, 32-ch. 10-it 8 7.37MHz, 512Hz 40 3.0 3.6 Ind. 100-TQFP PIC24HJ128GP210A-I/PT-ND NEW! 7.26 5.70 5.23
16 — 53 9/ 2 2 2 8 18-ch. 12-it, 18-ch. 10-it 8 7.37MHz, 512Hz 40 3.0 3.6 Ind. 64-QFN PIC24HJ128GP306A-I/MR-ND NEW! 6.80 5.34 4.89
128K x 8
16 — 53 9/ 2 2 2 8 18-ch. 12-it, 18-ch. 10-it 8 7.37MHz, 512Hz 40 3.0 3.6 Ind. 64-TQFP PIC24HJ128GP306A-I/PT-ND NEW! 6.66 5.22 4.79
16 — 85 9/ 2 2 2 8 32-ch. 12-it, 32-ch. 10-it 8 7.37MHz, 512Hz 40 3.0 3.6 Ind. 100-TQFP PIC24HJ128GP310A-I/PF-ND NEW! 8.08 6.34 5.81
16 — 85 9/ 2 2 2 8 32-ch. 12-it, 32-ch. 10-it 8 7.37MHz, 512Hz 40 3.0 3.6 Ind. 100-TQFP PIC24HJ128GP310A-I/PT-ND NEW! 7.46 5.86 5.37
8k — 53 9/ 2 2 2 8 18-ch. 12-it, 18-ch. 10-it 8 7.37MHz, 32Hz 40 3.0 3.6 Ind. 64-QFN PIC24HJ128GP506A-I/MR-ND NEW! 6.90 5.42 4.96
8k — 53 9/ 2 2 2 8 18-ch. 12-it, 18-ch. 10-it 8 7.37MHz, 32Hz 40 3.0 3.6 Ind. 64-TQFP PIC24HJ128GP506A-I/PT-ND NEW! 6.76 5.30 4.86
8k — 85 9/ 2 2 2 8 32-ch. 12-it, 32-ch. 10-it 8 7.37MHz, 512Hz 40 3.0 3.6 Ind. 100-TQFP PIC24HJ128GP510A-I/PF-ND NEW! 8.18 6.42 5.88
8k — 85 9/ 2 2 2 8 32-ch. 12-it, 32-ch. 10-it 8 7.37MHz, 512Hz 40 3.0 3.6 Ind. 100-TQFP PIC24HJ128GP510A-I/PT-ND NEW! 7.56 5.94 5.44
8K — 21 5/2 2 1 2 4 10-ch. 12-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-QFN PIC24HJ128GP202-E/MM-ND 6.84 5.38 4.93
8K — 21 5/2 2 1 2 4 10-ch. 12-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-QFN PIC24HJ128GP202-I/MM-ND 6.22 4.90 4.49
8K — 21 5/2 2 1 2 4 10-ch. 12-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-SOIC PIC24HJ128GP202-E/SO-ND 6.64 5.22 4.79
8K — 21 5/2 2 1 2 4 10-ch. 12-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SOIC PIC24HJ128GP202-I/SO-ND 6.02 4.74 4.35
8K — 21 5/2 2 1 2 4 10-ch. 12-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-DIP PIC24HJ128GP202-E/SP-ND 6.88 5.42 4.96
8K — 21 5/2 2 1 2 4 10-ch. 12-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-DIP PIC24HJ128GP202-I/SP-ND 6.26 4.93 4.52
8K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-QFN PIC24HJ128GP204-E/ML-ND 7.06 5.54 5.08
8K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-QFN PIC24HJ128GP204-I/ML-ND 6.44 5.05 4.63
8K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-TQFP PIC24HJ128GP204-E/PT-ND 6.92 5.43 4.98
8K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-TQFP PIC24HJ128GP204-I/PT-ND 6.28 4.93 4.52
8K — 53 9/4 2 2 2 8 18-ch. 12-it, 18-ch. 10 it 8 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-TQFP PIC24HJ128GP206-I/PT-ND 6.36 4.99 4.58
8K — 85 9/4 2 2 2 8 32-ch. 12-it, 32-ch. 10-it 8 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP PIC24HJ128GP210-I/PF-ND 7.88 6.19 5.67
8K — 85 9/4 2 2 2 8 32-ch. 12-it, 32-ch. 10-it 8 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP PIC24HJ128GP210-I/PT-ND 7.26 5.70 5.23
8K — 21 5/2 2 1 2 4 10-ch. 12-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-QFN PIC24HJ128GP502-E/MM-ND 7.22 5.69 5.21
8K — 21 5/2 2 1 2 4 10-ch. 12-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-QFN-S PIC24HJ128GP502-I/MM-ND 6.58 5.18 4.75
8K — 21 5/2 2 1 2 4 10-ch. 12-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-DIP PIC24HJ128GP502-I/SP-ND 6.64 5.22 4.79
8K — 21 5/2 2 1 2 4 10-ch. 12-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-SOIC PIC24HJ128GP502-E/SO-ND 7.02 5.53 5.07
8K — 21 5/2 2 1 2 4 10-ch. 12-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SOIC PIC24HJ128GP502-I/SO-ND 6.38 5.03 4.61
128K x 16 8K — 21 5/2 2 1 2 4 10-ch. 12-it 4 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-DIP PIC24HJ128GP502-E/SP-ND 7.28 5.72 5.25
8K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-QFN PIC24HJ128GP504-E/ML-ND 7.68 6.05 5.55
8K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-QFN PIC24HJ128GP504-I/ML-ND 7.00 5.51 5.05
8K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-TQFP PIC24HJ128GP504-E/PT-ND 7.46 5.88 5.39
8K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-TQFP PIC24HJ128GP504-I/PT-ND 6.78 5.34 4.89
8K — 53 /9 2 2 2 8 18-ch. 12-it, 18-ch. 10-it 8 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-TQFP PIC24HJ128GP506-I/PT-ND 6.76 5.30 4.86
8K — 85 /9 2 2 2 8 32-ch. 12-it, 32-ch. 10-it 8 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP PIC24HJ128GP510-I/PF-ND 8.18 6.42 5.88
8K — 85 /9 2 2 2 8 32-ch. 12-it, 32-ch. 10-it 8 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP PIC24HJ128GP510-I/PT-ND 7.56 5.94 5.44
16K — 53 9/4 2 2 2 8 18-ch. 12-it, 18-ch. 10 it 8 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-TQFP PIC24HJ128GP306-I/PT-ND 6.66 5.22 4.79
16K — 85 9/4 2 2 2 8 32-ch. 12-it, 32-ch. 10-it 8 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP PIC24HJ128GP310-I/PF-ND 8.08 6.34 5.81
16K — 85 9/4 2 2 2 8 32-ch. 12-it, 32-ch. 10-it 8 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP PIC24HJ128GP310-I/PT-ND 7.46 5.86 5.37
8K — 21 5/2 2 1 2 4 10-ch. 12-it 4 7.37MHz, 512Hz 40 3.0 3.6 Hih 28-QFN PIC24HJ128GP502-H/MM-ND NEW! 8.60 6.76 6.19
8K — 21 5/2 2 1 2 4 10-ch. 12-it 4 7.37MHz, 512Hz 40 3.0 3.6 Hih 28-SOIC PIC24HJ128GP502-H/SO-ND NEW! 8.46 6.64 6.09
8K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 40 3.0 3.6 Hih 44-QFN PIC24HJ128GP504-H/ML-ND NEW! 9.12 7.16 6.57
8K — 35 5/2 2 1 2 4 13-ch. 12-bit 4 7.37MHz, 512Hz 40 3.0 3.6 Hih 44-TQFP PIC24HJ128GP504-H/PT-ND NEW! 8.98 7.05 6.46
8K — 53 9/4 2 2 2 8 18-ch. 12-bit 8 7.37MHz, 512Hz 40 3.0 3.6 Hih 64-QFN PIC24HJ128GP506A-H/MR-ND NEW! 9.06 7.11 6.52
8K — 53 9/4 2 2 2 8 18-ch. 12-bit 8 7.37MHz, 512Hz 40 3.0 3.6 Hih 64-TQFP PIC24HJ128GP506A-H/PT-ND NEW! 8.92 7.00 6.41
8K — 85 9/4 2 2 2 8 32-ch. 12-bit 8 7.37MHz, 512Hz 40 3.0 3.6 Hih 100-TQFP PIC24HJ128GP510A-H/PF-ND NEW! 10.60 8.32 7.62
8K — 85 9/4 2 2 2 8 32-ch. 12-bit 8 7.37MHz, 512Hz 40 3.0 3.6 Hih 100-TQFP PIC24HJ128GP510A-H/PT-ND NEW! 9.98 7.84 7.18
16K — 53 9/4 2 2 2 8 18-ch. 12-it, 18-ch. 10 it 8 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-TQFP PIC24HJ256GP206-I/PT-ND 7.10 5.57 5.11
16K — 53 9/4 2 2 2 8 18-ch. 12-bit 8 7.37MHz, 512Hz 40 3.0 3.6 Hih 64-QFN PIC24HJ256GP206A-H/MR-ND NEW! 9.52 7.47 6.85
16K — 53 9/4 2 2 2 8 18-ch. 12-bit 8 7.37MHz, 512Hz 40 3.0 3.6 Hih 64-TQFP PIC24HJ256GP206A-H/PT-ND NEW! 9.36 7.35 6.74
16K — 85 9/4 2 2 2 8 32-ch. 12-it, 32-ch. 10-it 8 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP PIC24HJ256GP210-I/PF-ND 8.74 6.86 6.29
256K x 16 16K — 85 9/4 2 2 2 8 32-ch. 12-it, 32-ch. 10-it 8 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP PIC24HJ256GP210-I/PT-ND 8.12 6.38 5.85
16K — 85 /9 2 2 2 8 32-ch. 12-it, 32-ch. 10-it 8 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP PIC24HJ256GP610-I/PF-ND 9.52 7.48 6.85
16K — 85 /9 2 2 2 8 32-ch. 12-it, 32-ch. 10-it 8 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP PIC24HJ256GP610-I/PT-ND 8.92 7.00 6.41
16K — 85 9/4 2 2 2 8 32-ch. 12-bit 8 7.37MHz, 512Hz 40 3.0 3.6 Hih 100-TQFP PIC24HJ256GP610A-H/PF-ND NEW! 12.38 9.72 8.91
16K — 85 9/4 2 2 2 8 32-ch. 12-bit 8 7.37MHz, 512Hz 40 3.0 3.6 Hih 100-TQFP PIC24HJ256GP610A-H/PT-ND NEW! 11.76 9.23 8.47
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Extended -40F 257F -40C 125C Hih Varies See Manuacturers data sheet or exact speciications
C
32-bit PIC Microcontrollers
PIC32MX Devices
Memory Size
Timer/
Clock
Program RAM EEPROM I/O Counters
Capture Internal Speed VCC Operating
Digi-Key
Price Each
Bytes Bytes Bytes Pins 16/32-bit UART I2C SPI PWM A/D Compare Oscillator (MHz) (V) Temp. Package Part No.
1 10 25
8K — 53 5 2 2 2 5 16-ch. 10-it 2 8MHz, 32Hz 40 2.3 3.6 Ind. 64-QFN PIC32MX320F032H-40I/MR-ND 5.58 4.38 4.01
32K
8K — 53 5/1 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 40 2.3 3.6 Ind. 64-TQFP PIC32MX320F032H-40I/PT-ND 5.42 4.26 3.90
8K — 51 5 2 2 1 5 16-ch. 10-it 2 8MHz, 32Hz 40 2.3 3.6 Ind. 64-QFN PIC32MX420F032H-40I/MR-ND 6.04 4.74 4.35
8K — 51 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 40 2.3 3.6 Ind. 64-TQFP PIC32MX420F032H-40I/PT-ND 5.90 4.63 4.24
16K — 53 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 64-TQFP PIC32MX320F064H-40I/PT-ND NEW! 5.90 4.63 4.24
64K
16 — 53 5/1 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 64-QFN PIC32MX320F064H-40I/MR-ND NEW! 6.04 4.74 4.35
16K — 53 5 2 2 2 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 64-QFN PIC32MX320F064H-80I/MR-ND 6.30 4.95 4.54
16K — 53 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 64-TQFP PIC32MX320F064H-80I/PT-ND 6.16 4.84 4.43
16K — 53 5 2 2 2 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 64-QFN PIC32MX320F128H-80I/MR-ND 6.72 5.28 4.84
16K — 53 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 64-TQFP PIC32MX320F128H-80I/PT-ND 6.58 5.17 4.73
16K — 85 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX320F128L-80I/PT-ND 7.78 6.11 5.60
16K — 85 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 121-XBGA PIC32MX320F128L-80I/BG-ND NEW! 8.28 6.50 5.95
32K — 53 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 64-TQFP PIC32MX340F128H-80I/PT-ND 6.94 5.45 5.00
128K
32K — 53 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 64-QFN PIC32MX340F128H-80I/MR-ND NEW! 7.10 5.57 5.11
32K — 51 5 2 2 1 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 64-QFN PIC32MX440F128H-80I/MR-ND 7.56 5.94 5.44
32K — 51 5 2 2 1 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 64-TQFP PIC32MX440F128H-80I/PT-ND 7.42 5.82 5.34
32K — 85 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX340F128L-80I/PT-ND 7.78 6.11 5.60
32K — 85 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 121-XBGA PIC32MX340F128L-80I/BG-ND NEW! 8.28 6.50 5.95
32K — 85 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 121-XBGA PIC32MX440F128L-80I/BG-ND NEW! 8.74 6.86 6.29
32K — 53 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX440F128L-80I/PT-ND 8.24 6.48 5.94
32K — 51 5 2 2 1 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 64-QFN PIC32MX440F256H-80I/MR-ND NEW! 8.18 6.42 5.88
32K — 53 5 2 2 2 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 64-QFN PIC32MX340F256H-80I/MR-ND 7.70 6.05 5.55
256K
32K — 85 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 121-XBGA PIC32MX360F256L-80I/BG-ND NEW! 8.88 6.98 6.40
32K — 53 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 64-TQFP PIC32MX340F256H-80I/PT-ND 7.56 5.94 5.44
32K — 85 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX360F256L-80I/PT-ND 8.40 6.59 6.04
32K — 85 5 2 2 1 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 64-TQFP PIC32MX440F256H-80I/PT-ND 8.02 6.30 5.78
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C
(Continued)
®
For Digi-Reel ® information, please see page 71.
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
125
125

C
32-bit PIC Microcontrollers
PIC32MX Devices (Cont.)
Memory Size
Timer/
Clock
Program RAM EEPROM I/O Counters
Capture Internal Speed VCC Operating
Digi-Key
Price Each
Bytes Bytes Bytes Pins 16/32-bit UART I2C SPI PWM A/D Compare Oscillator (MHz) (V) Temp. Package Part No.
1 10 25
32K — 85 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX460F256L-80I/PT-ND 8.86 6.96 6.38
32K — 85 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 121-XBGA PIC32MX460F256L-80I/BG-ND NEW! 9.36 7.34 6.73
64K — 53 5 6 4 3 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 64-QFN PIC32MX575F256H-80I/MR-ND NEW! 8.84 6.94 6.36
64K — 53 5 6 4 3 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 60-TQFP PIC32MX575F256H-80I/PT-ND NEW! 8.68 6.82 6.25
64K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 121-XBGA PIC32MX575F256L-80I/BG-ND NEW! 10.02 7.86 7.21
64K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX575F256L-80I/PF-ND NEW! 10.14 7.96 7.30
64K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX575F256L-80I/PT-ND NEW! 9.52 7.48 6.85
64K — 53 5 6 4 3 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 64-QFN PIC32MX675F256H-80I/MR-ND NEW! 9.26 7.27 6.66
256K 64K — 53 5 6 4 3 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 64-TQFP PIC32MX675F256H-80I/PT-ND NEW! 9.10 7.15 6.55
64K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 121-XGBA PIC32MX675F256L-80I/BG-ND NEW! 10.44 8.19 7.51
64K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX675F256L-80I/PF-ND NEW! 10.56 8.29 7.60
64K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX675F256L-80I/PT-ND NEW! 9.94 7.81 7.16
64K — 53 5 6 4 3 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3,6 Ind. 64-QFN PIC32MX775F256H-80I/MR-ND NEW! 9.64 7.57 6.94
64K — 53 5 6 4 3 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 64-TQFP PIC32MX775F256H-80I/PT-ND NEW! 9.50 7.46 6.84
64K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 121-XBGA PIC32MX775F256L-80I/BG-ND NEW! 10.82 8.50 7.79
64K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX775F256L-80I/PF-ND NEW! 10.94 8.60 7.88
64K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX775F256L-80I/PT-ND NEW! 10.34 8.11 7.44
32K — 51 5 2 2 2 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 64-QFN PIC32MX340F512H-80I/MR-ND 8.52 6.69 6.13
32K — 51 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 64-TQFP PIC32MX340F512H-80I/PT-ND 8.38 6.57 6.02
32K — 85 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 121-XBGA PIC32MX360F512L-80I/BG-ND NEW! 9.70 7.61 6.98
32K — 85 5/1 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX360F512L-80I/PT-ND 9.20 7.23 6.63
32K — 51 5 2 2 1 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 64-QFN PIC32MX440F512H-80I/MR-ND 8.98 7.05 6.47
32K — 51 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 64-TQFP PIC32MX440F512H-80I/PT-ND 8.84 6.94 6.36
32K — 85 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX460F512L-80I/PT-ND 9.68 7.59 6.96
32K — 85 5 2 2 2 5 16-ch. 10-it 5 8MHz, 32Hz 80 2.3 3.6 Ind. 121-XBGA PIC32MX460F512L-80I/BG-ND NEW! 10.16 7.98 7.31
64K — 53 5 6 4 3 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 64-QFN PIC32MX575F512H-80I/MR-ND NEW! 9.64 7.57 6.94
64K — 53 5 6 4 3 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 64-TQFP PIC32MX575F512H-80I/PT-ND NEW! 9.50 7.46 6.84
64K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 121-XBGA PIC32MX575F512L-80I/BG-ND NEW! 10.82 8.50 7.79
64K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX575F512L-80I/PF-ND NEW! 10.94 8.60 7.88
64K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX575F512L-80I/PT-ND NEW! 10.34 8.11 7.44
64K — 53 5 6 4 3 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 64-QFN PIC32MX675F512H-80I/MR-ND NEW! 10.06 7.90 7.24
64K — 53 5 6 4 3 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 64-TQFP PIC32MX675F512H-80I/PT-ND NEW! 9.92 7.79 7.14
64K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 121-XBGA PIC32MX675F512L-80I/BG-ND NEW! 11.24 8.83 8.09
512K 64K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX675F512L-80I/PF-ND NEW! 11.36 8.92 8.18
64K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX675F512L-80I/PT-ND NEW! 10.76 8.44 7.74
64K — 53 5 6 4 3 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 64-QFN PIC32MX775F512H-80I/MR-ND NEW! 10.46 8.21 7.53
64K — 53 5 6 4 3 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 64-TQFP PIC32MX775F512H-80I/PT-ND NEW! 10.30 8.09 7.42
64K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 121-XBGA PIC32MX775F512L-80I/BG-ND NEW! 11.64 9.14 8.37
64K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX775F512L-80I/PF-ND NEW! 11.76 9.23 8.46
64K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX775F512L-80I/PT-ND NEW! 11.14 8.75 8.02
128K — 53 5 6 4 3 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 64-QFN PIC32MX695F512H-80I/MR-ND NEW! 10.90 8.56 7.84
128K — 53 5 6 4 3 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 64-TQFP PIC32MX695F512H-80I/PT-ND NEW! 10.76 8.44 7.74
128K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 121-XBGA PIC32MX695F512L-80I/BG-ND NEW! 12.08 9.48 8.69
128K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX695F512L-80I/PF-ND NEW! 12.20 9.58 8.78
128K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX695F512L-80I/PT-ND NEW! 11.58 9.10 8.34
128K — 53 5 6 4 3 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 64-QFN PIC32MX795F512H-80I/MR-ND NEW! 11.30 8.87 8.13
128K — 53 5 6 4 3 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 64-TQFP PIC32MX795F512H-80I/PT-ND NEW! 11.14 8.75 8.02
128K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 121-XBGA PIC32MX795F512L-80I/BG-ND NEW! 12.46 9.79 8.97
128K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX795F512L-80I/PF-ND NEW! 12.60 9.89 9.06
128K — 85 5 6 5 4 5 16-ch. 10-it 2 8MHz, 32Hz 80 2.3 3.6 Ind. 100-TQFP PIC32MX795F512L-80I/PT-ND NEW! 11.98 9.41 8.62
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C
16-bit dsPIC DSCs
dsPIC30F DSCs, 30 MIPs
0.00
Memory Size
Timer/
Output Motor
Clock Operating
Program RAM EEPROM I/O Counters
Comp/Std. Control
Analog
Int.
Speed VCC
Digi-Key
Price Each
Words Bytes Bytes Pins 16-bit UART I2C SPI PWM PWM A/D Comp.
Osc.
(MHz) (V) Temp. Package Part No.
1 10 25
256 — 21 2 1 1 1 1 4 6-ch. 10-it 2 14.55MHz, 9.7MHz, 512Hz 20 3.0 5.5 Ext. 28-QFN DSPIC30F1010-20E/MM-ND◆ 5.64 4.44 4.03
256 — 21 2 1 1 1 1 4 6-ch. 10-it 2 14.55MHz, 9.7MHz, 512Hz 20 3.0 5.5 Ext. 28-SOIC DSPIC30F1010-20E/SO-ND◆ 5.46 4.30 3.90
256 — 21 2 1 1 1 1 4 6-ch. 10-it 2 14.55MHz, 9.7MHz, 512Hz 20 3.0 5.5 Ext. 28-DIP .3 DSPIC30F1010-20E/SP-ND◆ 5.70 4.48 4.07
256 — 21 2 1 1 1 1 4 6-ch. 10-it 2 14.55MHz, 9.7MHz, 512Hz 30 3.0 5.5 Ind. 28-QFN DSPIC30F1010-30I/MM-ND◆ 5.16 4.05 3.68
256 — 21 2 1 1 1 1 4 6-ch. 10-it 2 14.55MHz, 9.7MHz, 512Hz 30 3.0 5.5 Ind. 28-SOIC DSPIC30F1010-30I/SO-ND◆ 4.96 3.91 3.55
256 — 21 2 1 1 1 1 4 6-ch. 10-it 2 14.55MHz, 9.7MHz, 512Hz 30 3.0 5.5 Ind. 28-DIP .3 DSPIC30F1010-30I/SP-ND◆ 5.20 4.09 3.71
12K 1024 20 3 1 1 1 2 6 6-ch. 10-it — 7.37MHz, 512Hz 20 2.5 5.5 Ind. 28-QFN DSPIC30F2010-20I/MM-ND◆ 4.46 3.51 3.18
24K 1024 20 5 1 1 1 2 6 6-ch. 10-it — 7.37MHz, 512Hz 30 2.5 5.5 Ind. 28-QFN DSPIC30F2010-30I/MM-ND◆ 4.66 3.67 3.33
512 1024 20 3 1 1 1 6 6 6-ch. 10-it — — 20 2.5 5.5 Ind. 28-QFN DSPIC30F2010-20I/MM-ND◆ 4.46 3.51 3.18
512 1024 20 3 1 1 1 6 6 6-ch. 10-it — — 20 2.5 5.5 Ind. 28-SOIC DSPIC30F201020IS-ND◆ 4.28 3.36 3.05
512 1024 20 3 1 1 1 6 6 6-ch. 10-it — — 20 2.5 5.5 Ind. 28-DIP .3 DSPIC30F201020ISP-ND◆ 4.50 3.54 3.22
512 1024 20 3 1 1 1 6 6 6-ch. 10-it — — 30 2.5 5.5 Ind. 28-SOIC DSPIC30F201030ISO-ND◆ 6.88 4.82 4.41
512 1024 20 3 1 1 1 6 6 6-ch. 10-it — — 30 2.5 5.5 Ind. 28-DIP .3 DSPIC30F201030ISP-ND◆ 4.72 3.71 3.37
1024 — 12 3 1 1 1 2 — 8-ch. 12-bit — 7.37MHz 20 2.5 5.5 Ind. 28-QFN DSPIC30F201120IML-ND◆ 4.34 3.41 3.09
1024 — 12 3 1 1 1 2 — 8-ch. 12-bit — 7.37MHz 20 2.5 5.5 Ind. 18-DIP DSPIC30F2011-20IP-ND◆ 4.04 3.18 2.89
1024 — 12 3 1 1 1 2 — 8-ch. 12-bit — 7.37MHz 20 2.5 5.5 Ind. 18-SOIC DSPIC30F201120ISO-ND◆ 3.92 3.09 2.81
4K x 24
1024 — 12 3 1 1 1 2 — 8-ch. 12-bit — 7.37MHz 30 2.5 5.5 Ind. 28-QFN DSPIC30F201130IML-ND◆ 4.34 3.41 3.09
1024 — 12 3 1 1 1 2 — 8-ch. 12-bit — 7.37MHz 30 2.5 5.5 Ind. 18-DIP DSPIC30F2011-30IP-ND◆ 4.04 3.18 2.89
1024 — 12 3 1 1 1 2 — 8-ch. 12-bit — 7.37MHz 30 2.5 5.5 Ind. 18-SOIC DSPIC30F201130ISO-ND◆ 3.92 3.09 2.81
1024 — 20 3 1 1 1 2 — 10-ch. 12-it — 7.37MHz 20 2.5 5.5 Ind. 28-SOIC DSPIC30F201220ISO-ND◆ 4.08 3.22 2.92
1024 — 20 3 1 1 1 2 — 10-ch. 12-it — 7.37MHz 20 2.5 5.5 Ind. 28-DIP .3 DSPIC30F201220ISP-ND◆ 4.32 3.40 3.09
1024 — 20 3 1 1 1 2 — 10-ch. 12-it — 7.37MHz 30 2.5 5.5 Ind. 28-QFN DSPIC30F201230IML-ND◆ 4.28 3.36 3.05
1024 — 20 3 1 1 1 2 — 10-ch. 12-it — 7.37MHz 30 2.5 5.5 Ind. 28-SOIC DSPIC30F201230ISO-ND◆ 4.08 3.22 2.92
1024 — 20 3 1 1 1 2 — 10-ch. 12-it — 7.37MHz 30 2.5 5.5 Ind. 28-DIP .3 DSPIC30F201230ISP-ND◆ 4.32 3.40 3.09
512 — 21 3 1 1 1 2 8 8-ch. 10-it 4 14.55MHz, 9.7MHz, 512Hz 20 3.0 5.5 Ext. 28-QFN DSPIC30F2020-20E/MM-ND◆ 7.20 5.66 5.14
512 — 21 3 1 1 1 2 8 8-ch. 10-it 4 14.55MHz, 9.7MHz, 512Hz 20 3.0 5.5 Ext. 28-SOIC DSPIC30F2020-20E/SO-ND◆ 7.02 5.52 5.01
512 — 21 3 1 1 1 2 8 8-ch. 10-it 4 14.55MHz, 9.7MHz, 512Hz 30 3.0 5.5 Ind. 28-QFN DSPIC30F2020-30I/MM-ND◆ 6.56 5.16 4.69
512 — 21 3 1 1 1 2 8 8-ch. 10-it 4 14.55MHz, 9.7MHz, 512Hz 30 3.0 5.5 Ind. 28-SOIC DSPIC30F2020-30I/SO-ND◆ 6.38 5.01 4.55
512 — 21 3 1 1 1 2 8 8-ch. 10-it 4 14.55MHz, 9.7MHz, 512Hz 30 3.0 5.5 Ind. 28-SOIC DSPIC30F2020T-30I/SOCT-ND† 7.25 5.06 4.60
512 — 21 3 1 1 1 2 8 8-ch. 10-it 4 14.55MHz, 9.7MHz, 512Hz 30 3.0 5.5 Ind. 28-DIP .3 DSPIC30F2020-30I/SP-ND◆ 6.60 5.20 4.72
512 — 35 3 1 1 1 2 8 12-ch. 10-it 4 14.55MHz, 9.7MHz, 512Hz 20 3.0 5.5 Ext. 44-QFN DSPIC30F2023-20E/ML-ND◆ 7.98 6.28 5.70
512 — 35 3 1 1 1 2 8 12-ch. 10-it 4 14.55MHz, 9.7MHz, 512Hz 20 3.0 5.5 Ext. 44-TQFP DSPIC30F2023-20E/PT-ND◆ 7.78 6.11 5.55
512 — 35 3 1 1 1 2 8 12-ch. 10-it 4 14.55MHz, 9.7MHz, 512Hz 30 3.0 5.5 Ind. 44-QFN DSPIC30F2023-30I/ML-ND◆ 7.28 5.72 5.20
512 — 35 3 1 1 1 2 8 12-ch. 10-it 4 14.55MHz, 9.7MHz, 512Hz 30 3.0 5.5 Ind. 44-TQFP DSPIC30F2023-30I/PT-ND◆ 7.06 5.56 5.05
1024 1024 20 5 1 1 1 2 6 6-ch. 10-it — 8MHz 20 2.5 5.5 Ind. 44-QFN DSPIC30F301020IML-ND◆ 6.18 4.86 4.41
1024 1024 20 5 1 1 1 2 6 6-ch. 10-it — 8MHz 20 2.5 5.5 Ind. 28-SOIC DSPIC30F301020ISO-ND◆ 5.32 4.18 3.80
8K x 24 1024 1024 20 5 1 1 1 2 6 6-ch. 10-it — 8MHz 20 2.5 5.5 Ind. 28-DIP .3 DSPIC30F301020ISP-ND◆ 5.54 4.36 3.96
1024 1024 20 5 1 1 1 2 6 6-ch. 10-it — 8MHz 30 2.5 5.5 Ind. 44-QFN DSPIC30F301030IML-ND◆ 6.18 4.86 4.41
1024 1024 20 5 1 1 1 2 6 6-ch. 10-it — 8MHz 30 2.5 5.5 Ind. 28-SOIC DSPIC30F301030ISO-ND◆ 5.32 4.18 3.80
◆ RoHS Compliant † Cut Tape § Tape and Reel
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Extended -40F 257F -40C 125C
®
(Continued)
®
For Digi-Reel ® information, please see page 71.
126 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

16-bit dsPIC DSCs
dsPIC30F DSCs, 30 MIPs (Cont.)
®
0.00
Memory Size
Timer/
Output Motor
Clock Operating
Program RAM EEPROM I/O Counters
Comp/Std. Control
Analog
Int.
Speed VCC
Digi-Key
Price Each
Words Bytes Bytes Pins 16-bit UART I2C SPI PWM PWM A/D Comp.
Osc.
(MHz) (V) Temp. Package Part No.
1 10 25
1024 1024 20 5 1 1 1 2 6 6-ch. 10-it — 8MHz 30 2.5 5.5 Ind. 28-DIP .3 DSPIC30F301030ISP-ND◆ 5.54 4.36 3.96
1024 1024 30 5 2 1 1 4 6 9-ch. 10-it — 8MHz 20 2.5 5.5 Ind. 44-QFN DSPIC30F301120IML-ND◆ 6.06 4.76 4.32
1024 1024 30 5 2 1 1 4 6 9-ch. 10-it — 8MHz 20 2.5 5.5 Ind. 40-DIP DSPIC30F3011-20IP-ND◆ 6.02 4.73 4.30
1024 1024 30 5 2 1 1 4 6 9-ch. 10-it — 8MHz 20 2.5 5.5 Ind. 44-TQFP DSPIC30F301120IPT-ND◆ 5.84 4.60 4.17
1024 1024 30 5 2 1 1 4 6 9-ch. 10-it — 8MHz 30 2.5 5.5 Ind. 44-QFN DSPIC30F301130IML-ND◆ 6.06 4.76 4.32
1024 1024 30 5 2 1 1 4 6 9-ch. 10-it — 8MHz 30 2.5 5.5 Ind. 40-DIP DSPIC30F3011-30IP-ND◆ 6.02 4.73 4.30
1024 1024 30 5 2 1 1 4 6 9-ch. 10-it — 8MHz 30 2.5 5.5 Ind. 44-TQFP DSPIC30F301130IPT-ND◆ 5.84 4.60 4.17
2048 1024 12 3 1 1 1 2 — 8-ch. 12-bit — 7.37MHz 20 2.5 5.5 Ind. 44-QFN DSPIC30F301220IML-ND◆ 5.70 4.48 4.07
2048 1024 12 3 1 1 1 2 — 8-ch. 12-bit — 7.37MHz 20 2.5 5.5 Ind. 18-DIP DSPIC30F3012-20IP-ND◆ 4.82 3.80 3.45
2048 1024 12 3 1 1 1 2 — 8-ch. 12-bit — 7.37MHz 20 2.5 5.5 Ind. 18-SOIC DSPIC30F301220ISO-ND◆ 4.72 3.71 3.37
2048 1024 12 3 1 1 1 2 — 8-ch. 12-bit — 7.37MHz 30 2.5 5.5 Ind. 44-QFN DSPIC30F301230IML-ND◆ 5.70 4.48 4.07
2048 1024 12 3 1 1 1 2 — 8-ch. 12-bit — 7.37MHz 30 2.5 5.5 Ind. 18-DIP DSPIC30F3012-30IP-ND◆ 4.82 3.80 3.45
8K X 24 2048 1024 12 3 1 1 1 2 — 8-ch. 12-bit — 7.37MHz 30 2.5 5.5 Ind. 18-SOIC DSPIC30F301230ISO-ND◆ 4.72 3.71 3.37
2048 1024 20 3 2 1 1 2 — 10-ch. 12-it — 7.37MHz 20 2.5 5.5 Ind. 44-QFN DSPIC30F301320IML-ND◆ 5.74 4.51 4.10
2048 1024 20 3 2 1 1 2 — 10-ch. 12-it — 7.37MHz 20 2.5 5.5 Ind. 28-SOIC DSPIC30F301320ISO-ND◆ 4.88 3.83 3.48
2048 1024 20 3 2 1 1 2 — 10-ch. 12-it — 7.37MHz 20 2.5 5.5 Ind. 28-DIP .3 DSPIC30F301320ISP-ND◆ 5.10 4.01 3.65
2048 1024 20 3 2 1 1 2 — 10-ch. 12-it — 7.37MHz 30 2.5 5.5 Ind. 44-QFN DSPIC30F301330IML-ND◆ 5.74 4.51 4.10
2048 1024 20 3 2 1 1 2 — 10-ch. 12-it — 7.37MHz 30 2.5 5.5 Ind. 28-SOIC DSPIC30F301330ISO-ND◆ 4.88 3.83 3.48
2048 1024 20 3 2 1 1 2 — 10-ch. 12-it — 7.37MHz 30 2.5 5.5 Ind. 28-DIP .3 DSPIC30F301330ISP-ND◆ 5.10 4.01 3.65
2048 1024 30 3 2 1 1 2 — 13-ch. 12-bit — 8MHz 20 2.5 5.5 Ind. 44-QFN DSPIC30F301420IML-ND◆ 5.92 4.65 4.22
2048 1024 30 3 2 1 1 2 — 13-ch. 12-bit — 8MHz 20 2.5 5.5 Ind. 40-DIP DSPIC30F3014-20IP-ND◆ 5.88 4.62 4.20
2048 1024 30 3 2 1 1 2 — 13-ch. 12-bit — 8MHz 20 2.5 5.5 Ind. 44-TQFP DSPIC30F301420IPT-ND◆ 5.70 4.49 4.08
2048 1024 30 3 2 1 1 2 — 13-ch. 12-bit — 8MHz 30 2.5 5.5 Ind. 44-QFN DSPIC30F301430IML-ND◆ 5.92 4.65 4.22
2048 1024 30 3 2 1 1 2 — 13-ch. 12-bit — 8MHz 30 2.5 5.5 Ind. 40-DIP DSPIC30F301430/P-ND◆ 5.88 4.62 4.20
2048 1024 30 3 2 1 1 2 — 13-ch. 12-bit — 8MHz 30 2.5 5.5 Ind. 44-TQFP DSPIC30F301430IPT-ND◆ 5.70 4.49 4.08
2048 1024 30 5 2 1 1 4 6 9-ch. 10-it — 8MHz 20 2.5 5.5 Ind. 44-QFN DSPIC30F401120/ML-ND◆ 7.28 5.72 5.20
2048 1024 30 5 2 1 1 4 6 9-ch. 10-it — 8MHz 20 2.5 5.5 Ind. 40-DIP DSPIC30F4011-20IP-ND◆ 7.24 5.70 5.17
2048 1024 30 5 2 1 1 4 6 9-ch. 10-it — 8MHz 20 2.5 5.5 Ind. 44-TQFP DSPIC30F401120IPT-ND◆ 7.06 5.56 5.05
2048 1024 30 5 2 1 1 4 6 9-ch. 10-it — 8MHz 30 2.5 5.5 Ind. 44-QFN DSPIC30F401130IML-ND◆ 7.28 5.72 5.20
2048 1024 30 5 2 1 1 4 6 9-ch. 10-it — 8MHz 30 2.5 5.5 Ind. 40-DIP DSPIC30F4011-30IP-ND◆ 7.24 5.70 5.17
2048 1024 30 5 2 1 1 4 6 9-ch. 10-it — 8MHz 30 2.5 5.5 Ind. 44-TQFP DSPIC30F401130IPT-ND◆ 7.06 5.56 5.05
2048 1024 20 5 1 1 1 2 6 6-ch. 10-it — 8MHz 20 2.5 5.5 Ind. 28-SOIC DSPIC30F401220ISO-ND 6.54 5.14 4.67
2048 1024 20 5 1 1 1 2 6 6-ch. 10-it — 8MHz 20 2.5 5.5 Ind. 28-DIP .3 DSPIC30F401220ISP-ND 6.76 5.32 4.83
16K x 24 2048 1024 20 5 1 1 1 2 6 6-ch. 10-it — 8MHz 30 2.5 5.5 Ind. 44-QFN DSPIC30F401230IML-ND◆ 7.40 5.82 5.29
2048 1024 20 5 1 1 1 2 6 6-ch. 10-it — 8MHz 30 2.5 5.5 Ind. 28-SOIC DSPIC30F401230ISO-ND◆ 6.54 5.14 4.67
2048 1024 20 5 1 1 1 2 6 6-ch. 10-it — 8MHz 30 2.5 5.5 Ind. 28-DIP .3 DSPIC30F401230ISP-ND◆ 6.76 5.32 4.83
2048 1024 30 5 2 1 1 4 — 13-ch. 12-bit — 8MHz 20 2.5 5.5 Ind. 44-QFN DSPIC30F401320IML-ND◆ 7.10 5.58 5.07
2048 1024 30 5 2 1 1 4 — 13-ch. 12-bit — 8MHz 20 2.5 5.5 Ind. 40-DIP DSPIC30F4013-20IP-ND◆ 7.06 5.55 5.04
2048 1024 30 5 2 1 1 4 — 13-ch. 12-bit — 8MHz 20 2.5 5.5 Ind. 44-TQFP DSPIC30F401320IPT-ND◆ 6.88 5.41 4.92
2048 1024 30 5 2 1 1 4 — 13-ch. 12-bit — 8MHz 30 2.5 5.5 Ind. 44-QFN DSPIC30F401330IML-ND◆ 7.10 5.58 5.07
2048 1024 30 5 2 1 1 4 — 13-ch. 12-bit — 8MHz 30 2.5 5.5 Ind. 40-DIP DSPIC30F4013-30IP-ND◆ 7.06 5.55 5.04
2048 1024 30 5 2 1 1 4 — 13-ch. 12-bit — 8MHz 30 2.5 5.5 Ind. 44-TQFP DSPIC30F401330IPT-ND◆ 6.88 5.41 4.92
4096 1024 52 5 2 1 2 8 — 16-ch. 12-it — — 20 2.5 5.5 Ind. 64-TQFP DSPIC30F5011-20I/PT-ND◆ 8.74 6.87 6.24
4096 1024 52 5 2 1 2 8 — 16-ch. 12-it — — 30 2.5 5.5 Ind. 64-TQFP DSPIC30F5011-30I/PT-ND◆ 9.18 7.21 6.55
4096 1024 68 5 2 1 2 8 — 16-ch. 12-it — — 20 2.5 5.5 Ind. 80-TQFP DSPIC30F501320IPT-ND◆ 9.64 7.58 6.88
22K x 24
4096 1024 68 5 2 1 2 8 — 16-ch. 12-it — — 30 2.5 5.5 Ind. 80-TQFP DSPIC30F501330IPT-ND◆ 10.08 7.92 7.19
2048 1024 52 5 1 1 2 4 8 16-ch. 10-it — 8MHz 30 2.5 5.5 Ind. 64-TQFP DSPIC30F501530IPT-ND◆ 8.94 7.03 6.39
2048 1024 68 5 1 1 2 4 8 16-ch. 10-it — 8MHz 30 2.5 5.5 Ind. 80-TQFP DSPIC30F501630IPT-ND◆ 9.84 7.74 7.03
6144 2048 52 5 2 1 2 8 — 16-ch. 12-it — — 20 2.5 5.5 Ind. 64-TQFP DSPIC30F601120IPF-ND◆ 20.06 15.71 15.33
6144 2048 52 5 2 1 2 8 — 16-ch. 12-it — — 30 2.5 5.5 Ind. 64-TQFP DSPIC30F601130IPF-ND◆ 24.06 16.50 16.10
6144 2048 52 5 2 1 2 8 — 16-ch. 12-it — — 30 2.5 5.5 Ind. 64-TQFP DSPIC30F6011A30IP-ND◆ 12.12 9.54 8.66
6144 2048 52 5 2 1 2 8 — 16-ch. 12-it — — 30 2.5 5.5 Ind. 64-TQFP DSPIC30F6011A-30I/PF-ND◆ 13.28 10.45 9.48
44K x 24
6144 2048 68 5 2 1 2 8 — 16-ch. 12-it — — 20 2.5 5.5 Ind. 80-TQFP DSPIC30F601320IPF-ND 20.42 16.06 15.68
6144 2048 68 5 2 1 2 8 — 16-ch. 12-it — — 30 2.5 5.5 Ind. 80-TQFP DSPIC30F601330IPF-ND 24.52 16.87 16.47
6144 2048 68 5 2 1 2 8 — 16-ch. 12-it — — 30 2.5 5.5 Ind. 80-TQFP DSPIC30F6013A30IP-ND◆ 12.56 9.88 8.98
6144 2048 68 5 2 1 2 8 — 16-ch. 12-it — — 30 2.5 5.5 Ind. 80-TQFP DSPIC30F6013A-30I/PF-ND◆ 13.72 10.80 9.80
8192 4096 68 5 2 1 2 8 8 16-ch. 10-it — — 30 2.5 5.5 Ind. 80-TQFP DSPIC30F6010A-30I/PF-ND◆ 14.12 11.10 10.08
8192 4096 68 5 2 1 2 8 8 16-ch. 10-it — — 20 2.5 5.5 Ind. 80-TQFP DSPIC30F601020IPF-ND◆ 22.46 16.40 16.01
8192 4096 68 5 2 1 2 8 8 16-ch. 10-it — — 30 2.5 5.5 Ind. 80-TQFP DSPIC30F601030IPF-ND◆ 26.04 17.22 16.81
8192 4096 68 5 2 1 2 8 8 16-ch. 10-it — — 30 2.5 5.5 Ind. 80-TQFP DSPIC30F6010A30IP-ND◆ 12.96 10.19 9.26
8192 4096 52 5 2 1 2 8 — 16-ch. 12-it — — 20 2.5 5.5 Ind. 64-TQFP DSPIC30F601220IPF-ND◆ 20.98 15.88 15.50
8192 4096 52 5 2 1 2 8 — 16-ch. 12-it — — 30 2.5 5.5 Ind. 64-TQFP DSPIC30F601230IPF-ND◆ 24.30 16.67 16.27
48K x 24 8192 4096 52 5 2 1 2 8 — 16-ch. 12-it — — 30 2.5 5.5 Ind. 64-TQFP DSPIC30F6012A30IP-ND◆ 12.24 9.63 8.75
8192 4096 52 5 2 1 2 8 — 16-ch. 12-it — — 30 2.5 5.5 Ind. 64-TQFP DSPIC30F6012A-30I/PF-ND◆ 13.40 10.54 9.57
8192 4096 68 5 2 1 2 8 — 16-ch. 12-it — — 20 2.5 5.5 Ind. 80-TQFP DSPIC30F601420IPF-ND◆ 22.00 16.40 16.01
8192 4096 68 5 2 1 2 8 — 16-ch. 12-it — — 30 2.5 5.5 Ind. 80-TQFP DSPIC30F601430IPF-ND◆ 25.48 17.22 16.81
8192 4096 68 5 2 1 2 8 — 16-ch. 12-it — — 30 2.5 5.5 Ind. 80-TQFP DSPIC30F6014A30IP-ND◆ 12.76 10.03 9.11
8192 4096 68 5 2 1 2 8 — 16-ch. 12-it — — 30 2.5 5.5 Ind. 80-TQFP DSPIC30F6014A-30I/PF-ND◆ 13.90 10.94 9.93
8192 4096 52 5 2 1 2 6 8 16-ch. 10-it — — 30 2.5 5.5 Ind. 64-TQFP DSPIC30F601530IPT-ND◆ 12.64 9.94 9.03
144K x 8 8192 — 68 5 2 1 2 8 8 16-ch. 10-it — 7.37 MHz, 512Hz 30 2.5 5.5 Ext. 80-TQFP DSPIC30F6010A-20E/PT-ND◆ NEW! 14.26 11.21 10.18
◆ RoHS Compliant † Cut Tape § Tape and Reel
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Extended -40F 257F -40C 125C
dsPIC33F Devices, 40 MIPs
Memory Size
Output
Timer/
Comp/ Motor
Clock
Program RAM EEPROM I/O Counters
Std. Control
Int. Speed VCC Operating
Digi-Key
Price Each
Bytes Bytes Bytes Pins 16/32-bit UART I2C SPI PWM PWM
A/D
Osc. (MHz) (V) Temp. Package Part No.
1 10 25
256 — 13 2/ 1 1 1 1 4 6-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 18-SOIC DSPIC33FJ06GS101-I/SO-ND 3.42 2.71 2.46
256 — 21 2/ 1 1 1 1 4 6-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 28-QFN DSPIC33FJ06GS102-I/MM-ND 4.04 3.18 2.92
256 — 21 2/ 1 1 1 1 4 6-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 28-SOIC DSPIC33FJ06GS102-I/SO-ND 3.84 3.03 2.77
6K 256 — 21 2/ 1 1 1 1 4 6-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 28-DIP DSPIC33FJ06GS102-I/SP-ND 4.08 3.22 2.95
1K — 21 2/ 1 1 1 1 4 6-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 28-QFN DSPIC33FJ06GS202-I/MM-ND 4.36 3.43 3.14
1K — 21 2/ 1 1 1 1 4 6-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 28-SOIC DSPIC33FJ06GS202-I/SO-ND 4.16 3.28 3.00
1K — 21 2/ 1 1 1 1 4 6-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 28-DIP DSPIC33FJ06GS202-I/SP-ND 4.40 3.47 3.18
1K — 13 3/1 1 1 1 2 — 6-ch. 12-it, 6-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 18-DIP DSPIC33FJ12GP201-I/P-ND 3.78 2.97 2.72
1K — 13 3/1 1 1 1 2 — 6-ch. 12-it, 6-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 18-SOIC DSPIC33FJ12GP201-I/SO-ND 3.64 2.87 2.63
1K — 15 3/1 1 1 1 2 8 4-ch. 12-it, 4-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 20-DIP DSPIC33FJ12MC201-I/P-ND 4.26 3.35 3.07
1K — 15 3/1 1 1 1 2 8 4-ch. 12-it, 4-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 20-SOIC DSPIC33FJ12MC201-I/SO-ND 4.02 3.16 2.90
1K — 15 3/1 1 1 1 2 8 4-ch. 12-it, 4-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 20-SSOP DSPIC33FJ12MC201-I/SS-ND 3.64 2.87 2.63
12K
1K — 21 3/1 1 1 1 2 — 6-ch. 12-it, 6-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 28-QFN DSPIC33FJ12GP202-I/ML-ND 4.12 3.24 2.97
1K — 21 3/1 1 1 1 2 — 6-ch. 12-it, 6-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 28-SOIC DSPIC33FJ12GP202-I/SO-ND 3.98 3.12 2.86
1K — 21 3/1 1 1 1 2 — 6-ch. 12-it, 6-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 28-DIP .3 DSPIC33FJ12GP202-I/SP-ND 4.22 3.32 3.04
1K — 21 3/1 1 1 1 2 8 6-ch. 12-it, 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SOIC DSPIC33FJ12MC202-I/SO-ND 4.10 3.22 2.95
1K — 21 3/1 1 1 1 2 8 6-ch. 12-it, 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SSOP DSPIC33FJ12MC202-I/SS-ND 4.06 3.18 2.92
1K — 21 3/ 1 1 1 2 8 6-ch. 12-it, 6-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 28-DIP .3 DSPIC33FJ12MC202-I/SP-ND 4.34 3.41 3.13
1K — 21 3/1 1 1 1 2 8 6-ch. 12-it, 6-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 28-QFN DSPIC33FJ12MC202-I/ML-ND 4.24 3.33 3.06
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Extended -40F 257F -40C 125C Hih Varies See Manuacturers data sheet or exact speciications
(Continued)
C
®
For Digi-Reel ® information, please see page 71.
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127
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C
16-bit dsPIC DSCs
dsPIC33F Devices, 40 MIPs (Cont.)
Memory Size
Output
Program RAM EEPROM I/O
Timer/
Counters
Comp/
Std.
Motor
Control
Int.
Clock
Speed VCC Operating
Digi-Key
Price Each
Bytes Bytes Bytes Pins 16/32-bit UART I2C SPI PWM PWM
A/D
Osc. (MHz) (V) Temp. Package Part No.
1 10 25
2K — 35 3/1 1 1 1 2 — 13-ch. 12-it, 13-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-QFN DSPIC33FJ16GP304-I/ML-ND 4.66 3.66 3.36
2K — 35 3/1 1 1 1 2 — 13-ch. 12-it, 13-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-TQFP DSPIC33FJ16GP304-I/PT-ND 4.52 3.55 3.25
2K — 35 3/1 1 1 1 2 8 9-ch. 12-it, 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-QFN DSPIC33FJ16MC304-I/ML-ND 4.78 3.76 3.45
2K — 35 3/1 1 1 1 2 8 9-ch. 12-it, 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-TQFP DSPIC33FJ16MC304-E/PT-ND 5.10 4.01 3.67
2K — 35 3/1 1 1 1 2 8 9-ch. 12-it, 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-TQFP DSPIC33FJ16MC304-I/PT-ND 4.64 3.64 3.34
2K — 21 3/1 1 1 1 2 6 8-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 28-QFN DSPIC33FJ16GS402-I/MM-ND 4.60 3.62 3.32
2K — 21 3/1 1 1 1 2 6 8-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 28-SOIC DSPIC33FJ16GS402-I/SO-ND 4.40 3.47 3.18
2K — 21 3/1 1 1 1 2 6 8-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 28-DIP DSPIC33FJ16GS402-I/SP-ND 4.66 3.66 3.36
16K 2K — 35 3/1 1 1 1 2 6 8-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 44-QFN DSPIC33FJ16GS404-I/ML-ND 5.06 3.99 3.66
2K — 35 3/1 1 1 1 2 6 8-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 44-TQFP DSPIC33FJ16GS404-I/PT-ND 4.84 3.82 3.50
2K — 35 3/1 1 1 1 2 8 9-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Hih 44-QFN DSPIC33FJ16MC304-H/ML-ND NEW! 6.28 4.92 4.51
2K — 35 3/1 1 1 1 2 8 9-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Hih 44-TQFP DSPIC33FJ16MC304-H/PT-ND NEW! 6.12 4.81 4.41
2K — 21 3/1 1 1 1 2 8 8-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 28-QFN DSPIC33FJ16GS502-I/MM-ND 5.50 4.34 3.98
2K — 21 3/1 1 1 1 2 8 8-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 28-SOIC DSPIC33FJ16GS502-I/SO-ND 5.32 4.18 3.83
2K — 21 3/1 1 1 1 2 8 8-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 28-DIP DSPIC33FJ16GS502-I/SP-ND 5.56 4.37 4.01
2K — 35 3/1 1 1 1 2 8 12-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 44-QFN DSPIC33FJ16GS504-I/ML-ND 6.20 4.88 4.47
2K — 35 3/1 1 1 1 2 8 12-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 44-TQFP DSPIC33FJ16GS504-I/PT-ND 5.98 4.70 4.31
2K — 21 3/1 1 1 1 2 — 10-ch. 12-it, 10-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-QFN DSPIC33FJ32GP202-E/MM-ND 5.26 4.14 3.80
2K — 21 3/1 1 1 1 2 — 10-ch. 12-it, 10-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-QFN DSPIC33FJ32GP202-I/MM-ND 4.80 3.78 3.46
2K — 21 3/1 1 1 1 2 — 10-ch. 12-it, 10-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-SOIC DSPIC33FJ32GP202-E/SO-ND 4.94 3.88 3.56
2K — 21 3/1 1 1 1 2 — 10-ch. 12-it, 10-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SOIC DSPIC33FJ32GP202-I/SO-ND 4.50 3.53 3.23
2K — 21 3/1 1 1 1 2 — 10-ch. 12-it, 10-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-DIP .3 DSPIC33FJ32GP202-E/SP-ND 5.18 4.07 3.73
2K — 21 3/1 1 1 1 2 — 10-ch. 12-it, 10-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-DIP .3 DSPIC33FJ32GP202-I/SP-ND 4.74 3.72 3.41
2K — 21 3/1 1 1 1 2 8 6-ch. 12-it, 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-QFN DSPIC33FJ32MC202-E/MM-ND 5.18 4.09 3.75
2K — 21 3/1 1 1 1 2 8 6-ch. 12-it, 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-QFN DSPIC33FJ32MC202-I/MM-ND 4.72 3.72 3.41
2K — 21 3/1 1 1 1 2 8 6-ch. 12-it, 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-SOIC DSPIC33FJ32MC202-E/SO-ND 5.08 3.99 3.65
2K — 21 3/1 1 1 1 2 8 6-ch. 12-it, 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SOIC DSPIC33FJ32MC202-I/SO-ND 4.62 3.62 3.32
2K — 21 3/1 1 1 1 2 8 6-ch. 12-it, 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-DIP .3 DSPIC33FJ32MC202-E/SP-ND 5.32 4.18 3.83
2K — 21 3/1 1 1 1 2 8 6-ch. 12-it, 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-DIP .3 DSPIC33FJ32MC202-I/SP-ND 4.86 3.82 3.50
2K — 21 3/1 1 1 1 2 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Hih 28-QFN DSPIC33FJ32MC202-H/MM-ND NEW! 6.24 4.90 4.49
2K — 21 3/1 1 1 1 2 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Hih 28-SOIC DSPIC33FJ32MC202-H/SO-ND NEW! 6.10 4.78 4.38
2K — 35 3/1 1 1 1 2 — 13-ch. 12-it, 13-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-QFN DSPIC33FJ32GP204-I/ML-ND 4.82 3.78 3.46
2K — 35 3/1 1 1 1 2 — 13-ch. 12-it, 13-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-TQFP DSPIC33FJ32GP204-E/PT-ND 5.14 4.03 3.69
2K — 35 3/1 1 1 1 2 — 13-ch. 12-it, 13-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-TQFP DSPIC33FJ32GP204-I/PT-ND 4.66 3.66 3.36
2K — 35 3/1 1 1 1 2 8 9-ch. 12-it, 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-QFN DSPIC33FJ32MC204-E/ML-ND 5.46 4.29 3.93
2K — 35 3/1 1 1 1 2 8 9-ch. 12-it, 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-QFN DSPIC33FJ32MC204-I/ML-ND 4.98 3.91 3.59
2K — 35 3/1 1 1 1 2 8 9-ch. 12-it, 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-TQFP DSPIC33FJ32MC204-E/PT-ND 5.32 4.18 3.83
2K — 35 3/1 1 1 1 2 8 9-ch. 12-it, 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-TQFP DSPIC33FJ32MC204-I/PT-ND 4.84 3.80 3.48
32K 2K — 35 3/1 1 1 1 2 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Hih 44-QFN DSPIC33FJ32MC204-H/ML-ND NEW! 6.54 5.13 4.70
2K — 35 3/1 1 1 1 2 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Hih 44-TQFP DSPIC33FJ32MC204-H/PT-ND NEW! 6.38 5.01 4.59
4K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-QFN DSPIC33FJ32GP302-E/MM-ND 5.46 4.29 3.93
4K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-QFN DSPIC33FJ32GP302-I/MM-ND 4.98 3.91 3.59
4K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-SOIC DSPIC33FJ32GP302-E/SO-ND 5.32 4.18 3.83
4K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SOIC DSPIC33FJ32GP302-I/SO-ND 4.84 3.80 3.48
4K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-SPDIP DSPIC33FJ32GP302-E/SP-ND 5.56 4.37 4.01
4K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SPDIP DSPIC33FJ32GP302-I/SP-ND 5.08 3.99 3.66
4K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-QFN DSPIC33FJ32MC302-E/MM-ND 5.68 4.46 4.09
4K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.5 Ind. 28-QFN DSPIC33FJ32MC302-I/MM-ND 5.18 4.07 3.73
4K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-SOIC DSPIC33FJ32MC302-E/SO-ND 5.54 4.35 3.98
4K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SOIC DSPIC33FJ32MC302-I/SO-ND 5.04 3.95 3.62
4K — 21 3/1 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-SPDIP DSPIC33FJ32MC302-E/SP-ND 5.78 4.54 4.16
4K — 21 3/1 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SPDIP DSPIC33FJ32MC302-I/SP-ND 5.28 4.14 3.80
4K — 35 5/2 2 1 2 4 — 13-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-QFN DSPIC33FJ32GP304-E/ML-ND 5.96 4.67 4.28
4K — 35 5/2 2 1 2 4 — 13-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-QFN DSPIC33FJ32GP304-I/ML-ND 5.42 4.26 3.90
4K — 35 5/2 2 1 2 4 — 13-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-TQFP DSPIC33FJ32GP304-E/PT-ND 5.80 4.56 4.18
4K — 35 5/2 2 1 2 4 — 13-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-TQFP DSPIC33FJ32GP304-I/PT-ND 5.28 4.14 3.80
4K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-QFN DSPIC33FJ32MC304-E/ML-ND 6.16 4.84 4.44
4K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-QFN DSPIC33FJ32MC304-I/ML-ND 5.62 4.41 4.05
4K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-TQFP DSPIC33FJ32MC304-E/PT-ND 6.02 4.73 4.33
4K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-TQFP DSPIC33FJ32MC304-I/PT-ND 5.48 4.30 3.94
8K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-QFN DSPIC33FJ64GP202-E/MM-ND 6.16 4.84 4.44
8K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-QFN DSPIC33FJ64GP202-I/MM-ND 5.62 4.41 4.05
8K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-SPDIP DSPIC33FJ64GP202-E/SP-ND 6.26 4.92 4.51
8K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SPDIP DSPIC33FJ64GP202-I/SP-ND 5.72 4.49 4.12
8K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-SOIC DSPIC33FJ64GP202-E/SO-ND 6.02 4.73 4.33
8K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SOIC DSPIC33FJ64GP202-I/SO-ND 5.48 4.30 3.94
8K — 21 5/2 2 1 2 8 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-QFN DSPIC33FJ64MC202-E/MM-ND 6.50 5.10 4.67
8K — 21 5/2 2 1 2 8 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-QFN DSPIC33FJ64MC202-I/MM-ND 5.92 4.64 4.26
64K
8K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-DIP DSPIC33FJ64MC202-E/SP-ND 6.60 5.17 4.74
8K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-DIP DSPIC33FJ64MC202-I/SP-ND 6.02 4.72 4.33
8K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-SOIC DSPIC33FJ64MC202-E/SO-ND 6.34 4.98 4.57
8K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SOIC DSPIC33FJ64MC202-I/SO-ND 5.76 4.53 4.15
8K — 35 5/2 2 1 2 4 — 13-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-QFN DSPIC33FJ64GP204-E/ML-ND 6.50 5.10 4.67
8K — 35 5/2 2 1 2 4 — 13-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-QFN DSPIC33FJ64GP204-I/ML-ND 5.92 4.64 4.26
8K — 35 5/2 2 1 2 4 — 13-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-TQFP DSPIC33FJ64GP204-E/PT-ND 6.34 4.98 4.57
8K — 35 5/2 2 1 2 4 — 13-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-TQFP DSPIC33FJ64GP204-I/PT-ND 5.76 4.53 4.15
8K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-QFN DSPIC33FJ64MC204-E/ML-ND 6.68 5.25 4.81
8K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-QFN DSPIC33FJ64MC204-I/ML-ND 6.08 4.78 4.38
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Extended -40F 257F -40C 125C Hih Varies See Manuacturers data sheet or exact speciications
(Continued)
®
For Digi-Reel ® information, please see page 71.
128 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

16-bit dsPIC DSCs
dsPIC33F Devices, 40 MIPs (Cont.)
Memory Size
Output
Timer/
Comp/ Motor
Clock
Program RAM EEPROM I/O Counters
Std. Control
Int. Speed VCC Operating
Digi-Key
Price Each
Bytes Bytes Bytes Pins 16/32-bit UART I2C SPI PWM PWM
A/D
Osc. (MHz) (V) Temp. Package Part No.
1 10 25
8K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-TQFP DSPIC33FJ64MC204-E/PT-ND 6.54 5.13 4.70
8K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-TQFP DSPIC33FJ64MC204-I/PT-ND 5.94 4.66 4.28
8K — 53 9/4 2 1 2 8 — 18-ch. 12-it, 18-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-TQFP DSPIC33FJ64GP206-I/PT-ND 5.94 4.66 4.28
8K — 53 9/4 2 1 2 8 — 18-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-QFN DSPIC33FJ64GP206A-I/MR-ND NEW! 6.08 4.78 4.38
8K — 53 9/4 2 1 2 8 — 18-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-TQFP DSPIC33FJ64GP206A-I/PT-ND NEW! 5.94 4.66 4.28
8K — 53 9/ 2 2 2 8 — 18-ch. 12-it, 18-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-TQFP DSPIC33FJ64MC506-I/PT-ND 6.72 5.28 4.84
8K — 53 9/4 2 2 2 8 8 16-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-QFN DSPIC33FJ64MC506A-I/MR-ND NEW! 6.88 5.40 4.95
8K — 53 9/4 2 2 2 8 8 16-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-TQFP DSPIC33FJ64MC506A-I/PT-ND NEW! 6.72 5.28 4.84
8K — 53 9/4 2 2 2 8 8 16-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Hih 64-QFN DSPIC33FJ64MC506A-H/MR-ND NEW! 9.02 7.09 6.50
8K — 53 9/4 2 2 2 8 8 16-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Hih 64-TQFP DSPIC33FJ64MC506A-H/PT-ND NEW! 8.88 6.97 6.39
8K — 69 9/ 2 2 2 8 — 18-ch. 12-it, 18-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 80-TQFP DSPIC33FJ64MC508-I/PT-ND 7.26 5.70 5.23
8K — 69 9/4 2 2 2 8 8 16-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 80-TQFP DSPIC33FJ64MC508A-I/PT-ND NEW! 7.26 5.70 5.23
8K — 85 9/4 2 2 2 8 8 24-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ64MC510A-I/PF-ND NEW! 8.20 6.44 5.90
8K — 85 9/4 2 2 2 8 8 24-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ64MC510A-I/PF-ND NEW! 8.20 6.44 5.90
16K — 53 9/4 2 2 2 8 8 16-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-QFN DSPIC33FJ64MC706A-I/MR-ND NEW! 7.54 5.92 5.42
16K — 53 9/4 2 2 2 8 8 16-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-TQFP DSPIC33FJ64MC706A-I/PT-ND NEW! 7.38 5.80 5.32
16K — 85 9/4 2 2 2 8 8 24-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ64MC710A-I/PF-ND NEW! 9.22 7.25 6.64
16K — 85 9/4 2 2 2 8 8 24-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ64MC710A-I/PT-ND NEW! 8.62 6.76 6.20
16K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Hih 28-QFN DSPIC33FJ64GP802-H/MM-ND NEW! 8.06 6.32 5.80
16K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Hih 28-SOIC DSPIC33FJ64GP802-H/SO-ND NEW! 7.90 6.21 5.69
16K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Hih 28-QFN-S DSPIC33FJ64MC802-H/MM-ND NEW! 8.24 6.48 5.94
16K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Hih 28-SOIC DSPIC33FJ64MC802-H/SO-ND NEW! 8.10 6.36 5.83
16K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Hih 44-QFN DSPIC33FJ64MC804-H/ML-ND NEW! 9.16 7.19 6.59
16K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Hih 44-TQFP DSPIC33FJ64MC804-H/PT-ND NEW! 9.00 7.07 6.48
16K — 53 9/4 2 2 2 8 — 18-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-TQFP DSPIC33FJ64GP306-I/PT-ND 6.18 4.86 4.45
16K — 53 9/4 2 2 2 8 — 18-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-QFN DSPIC33FJ64GP306A-I/MR-ND NEW! 6.34 4.97 4.56
16K — 53 9/4 2 2 2 8 — 18-ch. 12-it, 18-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-TQFP DSPIC33FJ64GP306A-I/PT-ND NEW! 6.18 4.86 4.45
16K — 85 9/4 2 2 2 8 — 32-ch. 12-it, 32-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ64GP310-I/PF-ND 7.60 5.97 5.48
16K — 85 9/4 2 2 2 8 — 32-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ64GP310A-I/PF-ND NEW! 7.60 5.97 5.48
64K 16K — 85 9/4 2 2 2 8 — 32-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ64GP310A-I/PT-ND NEW! 7.00 5.49 5.04
16K — 53 9/ 2 2 2 8 — 18-ch. 12-it, 18-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 64-TQFP DSPIC33FJ64GP706-I/PT-ND 7.26 5.70 5.23
16K — 53 9/4 2 2 2 8 — 18-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-QFN DSPIC33FJ64GP706A-I/MR-ND NEW! 7.42 5.82 5.34
16K — 53 9/4 2 2 2 8 — 18-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-TQFP DSPIC33FJ64GP706A-I/PT-ND NEW! 7.26 5.70 5.23
16K — 69 9/ 2 2 2 8 — 24-ch. 12-it, 24-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 80-TQFP DSPIC33FJ64GP708-I/PT-ND 7.78 6.11 5.60
16 — 69 9/4 2 2 2 8 — 24-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 80-TQFP DSPIC33FJ64GP708A-I/PT-ND NEW! 7.78 6.11 5.60
16K — 85 9/ 2 2 2 8 — 24-ch. 12-it, 24-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ64GP710-I/PF-ND 8.68 6.82 6.25
16K — 85 9/4 2 2 2 8 — 32-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ64GP710A-I/PF-ND NEW! 8.68 6.82 6.25
16K — 85 9/4 2 2 2 8 — 32-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ64GP710A-I/PT-ND NEW! 8.08 6.34 5.81
16K — 85 9/ 2 2 2 8 8 24-ch. 12-it, 24-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ64MC710-I/PF-ND 9.22 7.25 6.64
16K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-QFN DSPIC33FJ64GP802-E/MM-ND 6.74 5.29 4.85
16K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-QFN DSPIC33FJ64GP802-I/MM-ND 6.14 4.82 4.42
16K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-SOIC DSPIC33FJ64GP802-E/SO-ND 6.58 5.17 4.74
16K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SOIC DSPIC33FJ64GP802-I/SO-ND 5.98 4.70 4.31
16K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-DIP DSPIC33FJ64GP802-E/SP-ND 6.84 5.37 4.92
16K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-DIP DSPIC33FJ64GP802-I/SP-ND 6.24 4.90 4.49
16K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-QFN DSPIC33FJ64MC802-E/MM-ND 6.90 5.42 4.96
16K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-QFN DSPIC33FJ64MC802-I/MM-ND 6.28 4.93 4.52
16K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-SOIC DSPIC33FJ64MC802-E/SO-ND 6.76 5.30 4.86
16K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SOIC DSPIC33FJ64MC802-I/SO-ND 6.14 4.82 4.42
16K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-DIP DSPIC33FJ64MC802-E/SP-ND 7.00 5.49 5.04
16K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-DIP DSPIC33FJ64MC802-I/SP-ND 6.38 5.01 4.59
16K — 35 5/2 2 1 2 4 — 13-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-QFN DSPIC33FJ64GP804-E/ML-ND 7.20 5.65 5.18
16K — 35 5/2 2 1 2 4 — 13-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-QFN DSPIC33FJ64GP804-I/ML-ND 6.56 5.15 4.72
16K — 35 5/2 2 1 2 4 — 13-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-TQFP DSPIC33FJ64GP804-E/PT-ND 7.04 5.53 5.07
16K — 35 5/2 2 1 2 4 — 13-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-TQFP DSPIC33FJ64GP804-I/PT-ND 6.40 5.03 4.61
16K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-QFN DSPIC33FJ64MC804-E/ML-ND 7.66 6.01 5.51
16K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-QFN DSPIC33FJ64MC804-I/ML-ND 6.98 5.47 5.02
16K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-TQFP DSPIC33FJ64MC804-E/PT-ND 7.50 5.89 5.40
16K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-TQFP DSPIC33FJ64MC804-I/PT-ND 6.82 5.36 4.91
8K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-QFN DSPIC33FJ128GP202-E/MM-ND 6.78 5.33 4.89
8K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-QFN DSPIC33FJ128GP202-I/MM-ND 6.18 4.86 4.45
8K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-SOIC DSPIC33FJ128GP202-E/SO-ND 6.64 5.22 4.78
8K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SOIC DSPIC33FJ128GP202-I/SO-ND 6.04 4.74 4.35
8K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 32Hz 64 3.0 3.6 Ext. 28-DIP DSPIC33FJ128GP202-E/SP-ND 6.88 5.41 4.96
8K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 28-DIP DSPIC33FJ128GP202-I/SP-ND 6.28 4.93 4.52
8K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 32Hz 64 3.0 3.6 Ext. 28-QFN DSPIC33FJ128MC202-E/MM-ND 7.04 5.52 5.06
8K — 21 5/2 2 1 2 4 8 10-ch. 12-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 28-QFN DSPIC33FJ128MC202-I/MM-ND 6.40 5.03 4.61
128K
8K — 21 5/2 2 1 2 4 8 10-ch. 12-it 7.37MHz, 32Hz 64 3.0 3.6 Ext. 28-SOIC DSPIC33FJ128MC202-E/SO-ND 6.88 5.41 4.96
8K — 21 5/2 2 1 2 4 8 10-ch. 12-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 28-SOIC DSPIC33FJ128MC202-I/SO-ND 6.26 4.91 4.51
8K — 21 5/2 2 1 2 4 8 10-ch. 12-it 7.37MHz, 32Hz 64 3.0 3.6 Ext. 28-DIP DSPIC33FJ128MC202-E/SP-ND 7.14 5.60 5.13
8K — 21 5/2 2 1 2 4 8 10-ch. 12-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 28-DIP DSPIC33FJ128MC202-I/SP-ND 6.50 5.11 4.68
8K — 35 5/2 2 1 2 4 8 13-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-QFN DSPIC33FJ128GP204-E/ML-ND 7.06 5.54 5.08
8K — 35 5/2 2 1 2 4 8 13-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-QFN DSPIC33FJ128GP204-I/ML-ND 6.44 5.05 4.63
8K — 35 5/2 2 1 2 4 — 13-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-TQFP DSPIC33FJ128GP204-E/PT-ND 6.92 5.43 4.98
8K — 44 5/2 2 1 2 4 — 13-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-TQFP DSPIC33FJ128GP204-I/PT-ND 6.28 4.93 4.52
8K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-QFN DSPIC33FJ128MC204-E/ML-ND 7.24 5.69 5.22
8K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-QFN DSPIC33FJ128MC204-I/ML-ND 6.60 5.18 4.75
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Extended -40F 257F -40C 125C Hih Varies See Manuacturers data sheet or exact speciications
(Continued)
C
®
For Digi-Reel ® information, please see page 71.
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
129
129

16-bit dsPIC DSCs
dsPIC33F Devices, 40 MIPs (Cont.)
C
Memory Size
Output
Program RAM EEPROM I/O
Timer/
Counters
Comp/
Std.
Motor
Control
Int.
Clock
Speed VCC Operating
Digi-Key
Price Each
Bytes Bytes Bytes Pins 16/32-bit UART I2C SPI PWM PWM
A/D
Osc. (MHz) (V) Temp. Package Part No.
1 10 25
8K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-TQFP DSPIC33FJ128MC204-E/PT-ND 7.10 5.58 5.11
8K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-TQFP DSPIC33FJ128MC204-I/PT-ND 6.46 5.07 4.65
8K — 53 9/4 2 1 2 8 — 18-ch. 12-it, 18-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 64-TQFP DSPIC33FJ128GP206-I/PT-ND 6.36 4.99 4.58
8K — 53 9/4 2 1 2 8 — 18-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-QFN DSPIC33FJ128GP206A-I/MR-ND NEW! 6.50 5.11 4.68
8K — 53 9/4 2 1 2 8 — 18-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-TQFP DSPIC33FJ128GP206A-I/PT-ND NEW! 6.36 4.99 4.58
8K — 53 9/4 2 2 2 8 8 16-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Hih 64-QFN DSPIC33FJ128MC506A-H/MR-ND NEW! 9.64 7.57 6.94
8K — 53 9/4 2 2 2 8 8 16-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Hih 64-TQFP DSPIC33FJ128MC506A-H/PT-ND NEW! 9.50 7.45 6.83
8K — 53 9/4 2 2 2 8 8 16-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-QFN DSPIC33FJ128MC506A-I/MR-ND NEW! 7.34 5.76 5.28
8K — 53 9/4 2 2 2 8 8 16-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-TQFP DSPIC33FJ128MC506A-I/PT-ND NEW! 7.20 5.65 5.18
8K — 53 9/4 2 2 2 8 8 16-ch. 12-it, 16-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 64-TQFP DSPIC33FJ128MC506-I/PT-ND 7.20 5.65 5.18
8K — 85 9/4 2 2 2 8 8 24-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ128MC510A-I/PF-ND NEW! 8.66 6.80 6.24
8K — 85 9/4 2 2 2 8 8 24-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ128MC510A-I/PT-ND NEW! 8.06 6.32 5.79
16K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Hih 28-QFN-S DSPIC33FJ128MC802-H/MM-ND NEW! 9.00 7.06 6.47
16K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Hih 28-SOIC DSPIC33FJ128MC802-H/SO-ND NEW! 8.84 6.95 6.37
16K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Hih 44-QFN DSPIC33FJ128MC804-H/ML-ND NEW! 9.94 7.80 7.15
16K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Hih 44-TQFP DSPIC33FJ128MC804-H/PT-ND NEW! 9.78 7.68 7.04
16K — 53 9/4 2 1 2 8 — 18-ch. 12-it, 18-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 64-TQFP DSPIC33FJ128GP306-I/PT-ND 6.66 5.22 4.79
16K — 53 9/4 2 2 2 8 — 18-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-QFN DSPIC33FJ128GP306A-I/MR-ND NEW! 6.80 5.34 4.89
16K — 53 9/4 2 2 2 8 — 18-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-TQFP DSPIC33FJ128GP306A-I/PT-ND NEW! 6.66 5.22 4.79
16K — 85 9/4 2 2 2 8 — 32-ch. 12-it, 32-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ128GP310-I/PF-ND 8.08 6.34 5.81
16K — 85 9/4 2 2 2 8 — 32-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ128GP310A-I/PF-ND NEW! 8.08 6.34 5.81
16K — 85 9/4 2 2 2 8 — 32-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ128GP310A-I/PT-ND NEW! 7.46 5.86 5.37
16K — 53 9/ 2 2 2 8 — 18-ch. 12-it, 18-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 64-TQFP DSPIC33FJ128GP706-I/PT-ND 7.70 6.05 5.55
16K — 53 9/4 2 2 2 8 — 18-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-QFN DSPIC33FJ128GP706A-I/MR-ND NEW! 7.86 6.17 5.65
16K — 53 9/4 2 2 2 8 — 18-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 64-TQFP DSPIC33FJ128GP706A-I/PT-ND NEW! 7.70 6.05 5.55
16K — 53 9/4 2 2 2 8 8 16-ch. 12-it, 16-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 64-TQFP DSPIC33FJ128MC706-I/PT-ND 7.88 6.19 5.67
16K — 53 9/4 2 2 2 8 8 16-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.3 Ind. 64-QFN DSPIC33FJ128MC706A-I/MR-ND NEW! 8.02 6.30 5.78
16K — 53 9/4 2 2 2 8 8 16-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.3 Ind. 64-TQFP DSPIC33FJ128MC706A-I/PT-ND NEW! 7.88 6.19 5.67
16K — 69 9/ 2 2 2 8 — 24-ch. 12-it, 24-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 80-TQFP DSPIC33FJ128GP708-I/PT-ND 8.22 6.46 5.92
16K — 69 9/4 2 2 2 8 — 24-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 80-TQFP DSPIC33FJ128GP708A-I/PT-ND NEW! 8.22 6.46 5.92
16K — 69 9/ 2 2 2 8 — 24-ch. 12-it, 24-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 80-TQFP DSPIC33FJ128MC708-I/PT-ND 8.76 6.88 6.31
128K 16K — 69 9/4 2 2 2 8 8 18-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 80-TQFP DSPIC33FJ128MC708A-I/PT-ND NEW! 8.76 6.88 6.31
16K — 85 9/ 2 2 2 8 — 24-ch. 12-it, 24-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ128GP710-I/PF-ND 9.14 7.17 6.57
16K — 85 9/ 2 2 2 8 — 24-ch. 12-it, 24-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ128GP710-I/PT-ND 8.52 6.69 6.13
16K — 85 9/4 2 2 2 8 — 32-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ128GP710A-I/PF-ND NEW! 9.14 7.17 6.57
16K — 85 9/4 2 2 2 8 — 32-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ128GP710A-I/PT-ND NEW! 8.52 6.69 6.13
16K — 85 9/ 2 2 2 8 — 24-ch. 12-it, 24-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ128MC710-I/PF-ND 9.70 7.61 6.98
16K — 85 9/4 2 2 2 8 8 24-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ128MC710A-I/PF-ND NEW! 9.70 7.61 6.98
16K — 85 9/4 2 2 2 8 8 24-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ128MC710A-I/PT-ND NEW! 9.08 7.13 6.54
16K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-QFN DSPIC33FJ128GP802-E/MM-ND 7.32 5.75 5.28
16K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-QFN DSPIC33FJ128GP802-I/MM-ND 6.68 5.24 4.81
16K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-SOIC DSPIC33FJ128GP802-E/SO-ND 7.18 5.64 5.17
16K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SOIC DSPIC33FJ128GP802-I/SO-ND 6.52 5.13 4.70
16K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-DIP DSPIC33FJ128GP802-E/SP-ND 7.42 5.83 5.35
16K — 21 5/2 2 1 2 4 — 10-ch. 12-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-DIP DSPIC33FJ128GP802-I/SP-ND 6.78 5.32 4.88
16K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-QFN DSPIC33FJ128MC802-E/MM-ND 7.52 5.90 5.41
16K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-QFN DSPIC33FJ128MC802-I/MM-ND 6.84 5.38 4.93
16K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-SOIC DSPIC33FJ128MC802-E/SO-ND 7.38 5.79 5.31
16K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-SOIC DSPIC33FJ128MC802-I/SO-ND 6.70 5.26 4.82
16K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 28-DIP DSPIC33FJ128MC802-E/SP-ND 7.62 5.98 5.48
16K — 21 5/2 2 1 2 4 8 6-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 28-DIP DSPIC33FJ128MC802-I/SP-ND 6.94 5.45 5.00
16K — 35 5/2 2 1 2 4 — 13-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-QFN DSPIC33FJ128GP804-E/ML-ND 7.78 6.12 5.61
16K — 35 5/2 2 1 2 4 — 13-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-QFN DSPIC33FJ128GP804-I/ML-ND 7.10 5.57 5.11
16K — 35 5/2 2 1 2 4 — 13-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-TQFP DSPIC33FJ128GP804-E/PT-ND 7.64 6.00 5.50
16K — 35 5/2 2 1 2 4 — 13-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-TQFP DSPIC33FJ128GP804-I/PT-ND 6.94 5.45 5.00
16K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-QFN DSPIC33FJ128MC804-E/ML-ND 8.30 6.52 5.98
16K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-QFN DSPIC33FJ128MC804-I/ML-ND 7.56 5.94 5.44
16K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ext. 44-TQFP DSPIC33FJ128MC804-E/PT-ND 8.16 6.40 5.87
16K — 35 5/2 2 1 2 4 8 9-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.6 Ind. 44-TQFP DSPIC33FJ128MC804-I/PT-ND 7.42 5.82 5.34
16K — 53 9/4 2 2 2 8 8 16-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.3 Hih 64-QFN DSPIC33FJ128MC706A-H/MR-ND NEW! 10.54 8.28 7.59
16K — 53 9/4 2 2 2 8 8 16-ch. 10-it 7.37MHz, 512Hz 64 3.0 3.3 Hih 64-TQFP DSPIC33FJ128MC706A-H/PT-ND NEW! 10.40 8.17 7.49
16K — 85 9/4 2 2 2 8 8 24-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Hih 100-TQFP DSPIC33FJ128MC710A-H/PF-ND NEW! 12.60 9.89 9.07
16K — 85 9/4 2 2 2 8 8 24-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Hih 100-TQFP DSPIC33FJ128MC710A-H/PT-ND NEW! 11.98 9.41 8.63
16K — 53 9/ 2 2 2 8 — 24-ch. 12-it, 24-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 64-TQFP DSPIC33FJ256GP506-I/PT-ND 7.36 5.78 5.30
16K — 53 9/4 2 2 2 8 — 18-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Hih 64-QFN DSPIC33FJ256GP506A-H/MR-ND NEW! 9.86 7.75 7.10
16K — 53 9/4 2 2 2 8 — 18-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Hih 64-TQFP DSPIC33FJ256GP506A-H/PT-ND NEW! 9.72 7.63 7.00
16K — 85 9/ 2 2 2 8 — 32-ch. 12-it, 32-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ256GP510-I/PF-ND 8.78 6.90 6.32
16K — 85 9/ 2 2 2 8 — 32-ch. 12-it, 32-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ256GP510-I/PT-ND 8.18 6.42 5.88
16K — 85 9/ 2 2 2 8 — 32-ch. 12-it, 32-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ256MC510-I/PF-ND 9.32 7.32 6.71
256K 16K — 85 9/ 2 2 2 8 — 32-ch. 12-it, 32-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ256MC510-I/PT-ND 8.72 6.84 6.27
16K — 85 9/ 2 2 2 8 — 24-ch. 12-it, 24-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ256GP710-I/PF-ND 9.94 7.81 7.16
16K — 85 9/ 2 2 2 8 — 24-ch. 12-it, 24-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ256GP710-I/PT-ND 9.32 7.32 6.71
30K — 85 9/ 2 2 2 8 — 24-ch. 12-it, 24-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ256MC710-I/PF-ND 10.56 8.29 7.60
30K — 85 9/ 2 2 2 8 — 24-ch. 12-it, 24-ch. 10-it 7.37MHz, 32Hz 64 3.0 3.6 Ind. 100-TQFP DSPIC33FJ256MC710-I/PT-ND 9.94 7.81 7.16
30K — 85 9/4 2 2 2 8 8 24-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Hih 100-TQFP DSPIC33FJ256MC710A-H/PF-ND NEW! 13.74 10.79 9.89
30K — 85 9/4 2 2 2 8 8 24-ch. 12-bit 7.37MHz, 512Hz 64 3.0 3.6 Hih 100-TQFP DSPIC33FJ256MC710A-H/PT-ND NEW! 13.12 10.30 9.44
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Extended -40F 257F -40C 125C Hih Varies See Manuacturers data sheet or exact speciications
®
For Digi-Reel ® information, please see page 71.
130 (US2011)
(TZM112.US)
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Extreme Low Power Microcontrollers
®
Memory Size
Timer/
Clock
Oper -
Program RAM EEPROM I/O Counters
Analog Int. Speed VCC ating
Digi-Key
Price Each
Words Bytes Bytes Pins 8/16-bit UART I2C SPI PWM A/D Comp. Osc. (MHz) (V) Temp. Package Part No.
1 10 25
128 — 25 2/1 1 AUSART, 1 EUSART 1 1 2 11-ch. 8 bit 2 16MHz 20 1.8 5.5 Ind. 28-UQFN PIC16F722-I/MV-ND✔ 2.04 1.60 1.47
256 256 16 2/1 1 AUSART, 1 EUSART 1 1 1 12-ch. 10-it 2 32MHz, 32Hz 32 1.8 5.5 Ind. 28-QFN PIC16F1826-I/ML-ND✔ 1.94 1.52 1.40
2K
256 256 16 2/1 1 AUSART, 1 EUSART 1 1 1 12-ch. 10-it 2 32MHz, 32Hz 32 1.8 5.5 Ind. 28-UQFN PIC16F1826-I/MV-ND✔ 1.80 1.52 1.39
256 256 16 2/1 1 AUSART, 1 EUSART 1 1 1 12-ch. 10-it 2 32MHz, 32Hz 32 1.8 5.5 Ind. 18-DIP PIC16F1826-I/P-ND✔ 1.82 1.43 1.31
256 256 16 2/1 1 AUSART, 1 EUSART 1 1 1 12-ch. 10-it 2 32MHz, 32Hz 32 1.8 5.5 Ind. 18-SOIC PIC16F1826-I/SO-ND✔ 1.70 1.33 1.22
256 256 16 2/1 1 AUSART, 1 EUSART 1 1 1 12-ch. 10-it 2 32MHz, 32Hz 32 1.8 5.5 Ind. 20-SSOP PIC16F1826-I/SS-ND✔ 1.70 1.33 1.22
192 — 25 2/1 1 AUSART, 1 EUSART 1 1 2 11-ch. 8 bit 2 16MHz 20 1.8 5.5 Ind. 28-UQFN PIC16F723-I/MV-ND✔ 2.26 1.79 1.64
384 256 16 4/1 1 AUSART, 1 EUSART 2 2 2 12-ch. 10-it 2 32MHz, 32Hz 32 1.8 5.5 Ind. 28-QFN PIC16F1827-I/ML-ND✔ 2.06 1.62 1.48
384 256 16 4/1 1 AUSART, 1 EUSART 2 2 2 12-ch. 10-it 2 32MHz, 32Hz 32 1.8 5.5 Ind. 28-UQFN PIC16F1827-I/MV-ND✔ 1.92 1.62 1.48
384 256 16 4/1 1 AUSART, 1 EUSART 2 2 2 12-ch. 10-it 2 32MHz, 32Hz 32 1.8 5.5 Ind. 18-DIP PIC16F1827-I/P-ND✔ 1.94 1.52 1.40
384 256 16 4/1 1 AUSART, 1 EUSART 2 2 2 12-ch. 10-it 2 32MHz, 32Hz 32 1.8 5.5 Ind. 18-SOIC PIC16F1827-I/SO-ND✔ 1.82 1.43 1.31
384 256 16 4/1 1 AUSART, 1 EUSART 2 2 2 12-ch. 10-it 2 32MHz, 32Hz 32 1.8 5.5 Ind. 20-SSOP PIC16F1827-I/SS-ND✔ 1.82 1.43 1.31
384 256 16 4/1 1 AUSART, 1 EUSART 2 2 2 12-ch. 10-it 2 32MHz, 32Hz 32 1.8 3.6 Ind. 28-QFN PIC16LF1827-I/ML-ND✔ 2.06 1.62 1.48
384 256 16 4/1 1 AUSART, 1 EUSART 2 2 2 12-ch. 10-it 2 32MHz, 32Hz 32 1.8 3.6 Ind. 28-UQFN PIC16LF1827-I/MV-ND✔ 1.92 1.62 1.48
384 256 16 4/1 1 AUSART, 1 EUSART 2 2 2 12-ch. 10-it 2 32MHz, 32Hz 32 1.8 3.6 Ind. 18-DIP PIC16LF1827-I/P-ND✔ 1.94 1.52 1.40
384 256 16 4/1 1 AUSART, 1 EUSART 2 2 2 12-ch. 10-it 2 32MHz, 32Hz 32 1.8 3.6 Ind. 18-SOIC PIC16LF1827-I/SO-ND✔ 1.82 1.43 1.31
384 256 16 4/1 1 AUSART, 1 EUSART 2 2 2 12-ch. 10-it 2 32MHz, 32Hz 32 1.8 3.6 Ind. 20-SSOP PIC16LF1827-I/SS-ND✔ 1.82 1.43 1.31
256 256 25 4/1 1 AUSART, 1 EUSART 1 1 3 11-ch. 10-it 2 32MHz, 32Hz 32 1.8 3.6 Ind. 28-QFN PIC16LF1933-I/ML-ND✔ 2.36 1.85 1.70
256 256 25 4/1 1 AUSART, 1 EUSART 1 1 3 11-ch. 10-it 2 32MHz, 32Hz 32 1.8 3.6 Ind. 28-SOIC PIC16LF1933-I/SO-ND✔ 2.20 1.73 1.59
256 256 25 4/1 1 AUSART, 1 EUSART 1 1 3 11-ch. 10-it 2 32MHz, 32Hz 32 1.8 3.6 Ind. 28-SDIP PIC16LF1933-I/SP-ND✔ 2.46 1.93 1.77
256 256 25 4/1 1 AUSART, 1 EUSART 1 1 3 11-ch. 10-it 2 32MHz, 32Hz 32 1.8 3.6 Ind. 28-SSOP PIC16LF1933-I/SS-ND✔ 2.16 1.70 1.55
4K
256 256 36 4/1 1 AUSART, 1 EUSART 1 1 3 14-ch. 10-it 2 32MHz, 32Hz 32 1.8 5.5 Ind. 44-QFN PIC16F1934-I/ML-ND✔ 2.72 2.14 1.96
256 256 36 4/1 1 AUSART, 1 EUSART 1 1 3 14-ch. 10-it 2 32MHz, 32Hz 32 1.8 5.5 Ind. 40-PDIP PIC16F1934-I/P-ND✔ 2.82 2.22 2.03
256 256 36 4/1 1 AUSART, 1 EUSART 1 1 3 14-ch. 10-it 2 32MHz, 32Hz 32 1.8 5.5 Ind. 44-TQFP PIC16F1934-I/PT-ND✔ 2.58 2.02 1.86
256 256 36 4/1 1 AUSART, 1 EUSART 1 1 3 14-ch. 10-it 2 32MHz, 32Hz 32 1.8 3.6 Ind. 44-QFN PIC16LF1934-I/ML-ND✔ 2.72 2.14 1.96
256 256 36 4/1 1 AUSART, 1 EUSART 1 1 3 14-ch. 10-it 2 32MHz, 32Hz 32 1.8 3.6 Ind. 40-PDIP PIC16LF1934-I/P-ND✔ 2.82 2.22 2.03
256 256 36 4/1 1 AUSART, 1 EUSART 1 1 3 14-ch. 10-it 2 32MHz, 32Hz 32 1.8 3.6 Ind. 44-TQFP PIC16LF1934-I/PT-ND✔ 2.58 2.02 1.86
256 256 17 1/3 1 AUSART, 1 EUSART 1 1 1 12-ch. 10-it 2 16MHz, 31Hz 64 1.8 3.6 Ind. 20-QFN PIC18LF13K22-I/ML-ND✔ 2.54 2.00 1.83
256 256 17 1/3 1 AUSART, 1 EUSART 1 1 1 12-ch. 10-it 2 16MHz, 31Hz 64 1.8 3.6 Ind. 20-PDIP PIC18LF13K22-I/P-ND✔ 2.76 2.17 1.99
256 256 17 1/3 1 AUSART, 1 EUSART 1 1 1 12-ch. 10-it 2 16MHz, 31Hz 64 1.8 3.6 Ind. 20-SOIC PIC18LF13K22-I/SO-ND✔ 2.58 2.02 1.86
256 256 17 1/3 1 AUSART, 1 EUSART 1 1 1 12-ch. 10-it 2 16MHz, 31Hz 64 1.8 3.6 Ind. 20-SSOP PIC18LF13K22-I/SS-ND✔ 2.34 1.83 1.68
512 256 25 1/3 1 AUSART, 1 EUSART 1 1 1 10-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ind. 28-UQFN PIC18F23K20-I/MV-ND✔ 2.36 1.85 1.70
512 — 12 /3 1 UART 1 1 1 7-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 14-PDIP PIC24F04KA200-I/P-ND✔ 2.20 1.72 1.58
512 — 12 /3 1 UART 1 1 1 7-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 14-TSSOP PIC24F04KA200-I/ST-ND✔ 2.02 1.58 1.45
512 — 18 /3 1 UART 1 1 1 9-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 20-QFN PIC24F04KA201-I/MQ-ND✔ 2.34 1.83 1.68
512 — 18 /3 1 UART 1 1 1 9-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 20-PDIP PIC24F04KA201-I/P-ND✔ 2.62 2.05 1.88
512 — 18 /3 1 UART 1 1 1 9-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 20-SOIC PIC24F04KA201-I/SO-ND✔ 2.34 1.84 1.69
512 — 18 /3 1 UART 1 1 1 9-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 20-SSOP PIC24F04KA201-I/SS-ND✔ 2.18 1.72 1.57
368 — 36 3/1 1 AUSART, 1 EUSART 1 1 2 14-ch. 8-bit 2 16MHz, 31Hz 20 1.8 3.6 Ind. 44-QFN PIC16LF707-I/ML-ND✔ 3.10 2.43 2.23
368 — 36 3/1 1 AUSART, 1 EUSART 1 1 2 14-ch. 8-bit 2 16MHz, 31Hz 20 1.8 3.6 Ind. 40-PDIP PIC16LF707-I/P-ND✔ 3.20 2.51 2.30
368 — 36 3/1 1 AUSART, 1 EUSART 1 1 2 14-ch. 8-bit 2 16MHz, 31Hz 20 1.8 3.6 Ind. 44-TQFP PIC16LF707-I/PT-ND✔ 2.94 2.31 2.12
368 — 25 2/1 1 AUSART, 1 EUSART 1 1 2 11-ch. 8-bit 2 16MHz 20 1.8 5.5 Ind. 28-UQFN PIC16F726-I/MV-ND✔ 2.52 1.99 1.82
512 256 25 4/1 1 AUSART, 1 EUSART 1 1 3 11-ch. 10-it 2 32MHz, 32Hz 32 1.8 5.5 Ind. 28-QFN PIC16F1936-I/ML-ND✔ 2.48 1.95 1.78
512 256 25 4/1 1 AUSART, 1 EUSART 1 1 3 11-ch. 10-it 2 32MHz, 32Hz 32 1.8 5.5 Ind. 28-SOIC PIC16F1936-I/SO-ND✔ 2.34 1.83 1.68
512 256 25 4/1 1 AUSART, 1 EUSART 1 1 3 11-ch. 10-it 2 32MHz, 32Hz 32 1.8 5.5 Ind. 28-SPDIP PIC16F1936-I/SP-ND✔ 2.58 2.02 1.86
512 256 25 4/1 1 AUSART, 1 EUSART 1 1 3 11-ch. 10-it 2 32MHz, 32Hz 32 1.8 5.5 Ind. 28-SSOP PIC16F1936-I/SS-ND✔ 2.28 1.79 1.64
512 256 25 4/1 1 AUSART, 1 EUSART 1 1 3 11-ch. 10-it 2 32MHz, 32Hz 32 1.8 5.5 Ind. 28-UQFN PIC16F1936-I/MV-ND✔ 2.46 1.95 1.78
512 256 25 4/1 1 AUSART, 1 EUSART 1 1 3 11-ch. 10-it 2 32MHz, 32Hz 32 1.8 3.6 Ind. 28-QFN PIC16LF1936-I/ML-ND✔ 2.48 1.95 1.78
512 256 25 4/1 1 AUSART, 1 EUSART 1 1 3 11-ch. 10-it 2 32MHz, 32Hz 32 1.8 3.6 Ind. 28-SOIC PIC16LF1936-I/SO-ND✔ 2.34 1.83 1.68
512 256 25 4/1 1 AUSART, 1 EUSART 1 1 3 11-ch. 10-it 2 32MHz, 32Hz 32 1.8 3.6 Ind. 28-SPDIP PIC16LF1936-I/SP-ND✔ 2.58 2.02 1.86
512 256 25 4/1 1 AUSART, 1 EUSART 1 1 3 11-ch. 10-it 2 32MHz, 32Hz 32 1.8 3.6 Ind. 28-SSOP PIC16LF1936-I/SS-ND✔ 2.28 1.79 1.64
512 256 36 4/1 1 AUSART, 1 EUSART 1 1 3 14-ch. 10-it 2 32MHz, 32Hz 32 1.8 5.5 Ind. 44-QFN PIC16F1937-I/ML-ND✔ 2.84 2.24 2.05
512 256 36 4/1 1 AUSART, 1 EUSART 1 1 3 14-ch. 10-it 2 32MHz, 32Hz 32 1.8 5.5 Ind. 40-PDIP PIC16F1937-I/P-ND✔ 2.94 2.31 2.12
512 256 36 4/1 1 AUSART, 1 EUSART 1 1 3 14-ch. 10-it 2 32MHz, 32Hz 32 1.8 5.5 Ind. 44-TQFP PIC16F1937-I/PT-ND✔ 2.70 2.12 1.94
512 256 36 4/1 1 AUSART, 1 EUSART 1 1 3 14-ch. 10-it 2 32MHz, 32Hz 32 1.8 3.6 Ind. 44-QFN PIC16LF1937-I/ML-ND✔ 2.84 2.24 2.05
512 256 36 4/1 1 AUSART, 1 EUSART 1 1 3 14-ch. 10-it 2 32MHz, 32Hz 32 1.8 3.6 Ind. 40-PDIP PIC16LF1937-I/P-ND✔ 2.94 2.31 2.12
512 256 36 4/1 1 AUSART, 1 EUSART 1 1 3 14-ch. 10-it 2 32MHz, 32Hz 32 1.8 3.6 Ind. 44-TQFP PIC16LF1937-I/PT-ND✔ 2.70 2.12 1.94
512 256 53 4/1 2 AUSART, 2 EUSART 2 2 3 17-ch. 10-it 3 32MHz, 32Hz 32 1.8 5.5 Ind. 64-QFN PIC16F1946-I/MR-ND✔ 3.20 2.52 2.31
512 256 53 4/1 2 AUSART, 2 EUSART 2 2 3 17-ch. 10-it 3 32MHz, 32Hz 32 1.8 3.6 Ind. 64-QFN PIC16LF1946-I/MR-ND✔ 3.20 2.52 2.31
1024 256 53 4/1 2 AUSART, 2 EUSART 2 2 3 17-ch. 10-it 3 32MHz, 32Hz 32 1.8 5.5 Ind. 64-QFN PIC16F1947-I/MR-ND✔ 3.32 2.62 2.40
1024 256 53 4/1 2 AUSART, 2 EUSART 2 2 3 17-ch. 10-it 3 32MHz, 32Hz 32 1.8 3.6 Ind. 64-QFN PIC16LF1947-I/MR-ND✔ 3.32 2.62 2.40
8K 512 256 15 1/3 1 AUSART, 1 EUSART 1 MI 2 C 1 5 9-ch. 10-it 2 16MHz, 32Hz 48 1.8 5.5 Ext. 20-SOIC PIC18F13K50-I/SO-ND✔ 2.74 2.16 1.98
512 256 15 1/3 1 AUSART, 1 EUSART 1 1 5 9-ch. 10-it 2 16MHz, 31Hz 48 1.8 5.5 Ind. 20-QFN PIC18F13K50-I/MQ-ND✔ 2.58 1.86 1.77
512 256 15 1/3 1 AUSART, 1 EUSART 1 MI2C 1 5 9-ch. 10-it 2 16MHz, 32Hz 48 1.8 5.5 Ind. 20-SOIC PIC18LF13K50-I/SO-ND 2.86 1.87 1.83
512 256 15 1/3 1 AUSART, 1 EUSART 1 MI2C 1 5 9-ch. 10-it 2 16MHz, 32Hz 48 1.8 5.5 Ind. 20-SSOP PIC18LF13K50-I/SS-ND 2.54 1.66 1.62
512 256 15 1/3 1 AUSART, 1 EUSART 1 1 5 9-ch. 10-it 2 16MHz, 32Hz 48 1.8 3.6 Ind. 20-QFN PIC18LF13K50-I/MQ-ND✔ 2.58 1.86 1.77
512 256 25 1/3 1 AUSART, 1 EUSART 1 1 2 10-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ind. 28-QFN PIC18F23K20-I/ML-ND 2.36 1.85 1.70
512 256 25 1/3 1 AUSART, 1 EUSART 1 1 2 10-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ind. 28-SOIC PIC18F23K20-I/SO-ND 2.20 1.73 1.59
512 256 25 1/3 1 AUSART, 1 EUSART 1 1 2 10-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ind. 28-DIP PIC18F23K20-I/SP-ND 2.46 1.93 1.77
512 256 25 1/3 1 AUSART, 1 EUSART 1 1 2 10-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ind. 28-SSOP PIC18F23K20-I/SS-ND 2.16 1.70 1.55
512 256 36 1/3 1 AUSART, 1 EUSART 1 1 2 13-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ind. 40-DIP PIC18F43K20-I/P-ND 2.82 2.22 2.03
512 256 36 1/3 1 AUSART, 1 EUSART 1 1 2 13-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ind. 44-TQFP PIC18F43K20-I/PT-ND 2.58 2.02 1.86
512 256 36 1/3 1 AUSART, 1 EUSART 1 1 1 13-ch. 10-it 2 16MHz, 31Hz 64 1.8 3.6 Ind. 44-QFN PIC18F43K20-I/ML-ND✔ 2.72 2.14 1.96
512 256 26 1/3 1 AUSART, 1 EUSART 1 1 1 10-ch. 10-it 2 16MHz, 31Hz 64 1.8 3.6 Ind. 28-UQFN PIC18F23K20T-I/MVTR-ND‡ ✔ 5214.02/3,300
512 256 17 1/3 1 AUSART, 1 EUSART 1 1 1 12-ch. 10-it 2 16MHz, 31Hz 64 1.8 5.5 Ind. 20-QFN PIC18F14K22-I/ML-ND✔ 2.80 2.19 2.01
512 256 17 1/3 1 AUSART, 1 EUSART 1 1 1 12-ch. 10-it 2 16MHz, 31Hz 64 1.8 5.5 Ind. 20-PDIP PIC18F14K22-I/P-ND✔ 3.00 2.36 2.16
512 256 17 1/3 1 AUSART, 1 EUSART 1 1 1 12-ch. 10-it 2 16MHz, 31Hz 64 1.8 5.5 Ind. 20-SOIC PIC18F14K22-I/SO-ND✔ 2.82 2.22 2.03
512 256 17 1/3 1 AUSART, 1 EUSART 1 1 1 12-ch. 10-it 2 16MHz, 31Hz 64 1.8 5.5 Ind. 20-SSOP PIC18F14K22-I/SS-ND✔ 2.58 2.02 1.86
512 256 17 1/3 1 AUSART, 1 EUSART 1 1 1 12-ch. 10-it 2 16MHz, 31Hz 64 1.8 3.6 Ind. 20-QFN PIC18LF14K22-I/ML-ND✔ 2.80 2.19 2.01
512 256 17 1/3 1 AUSART, 1 EUSART 1 1 1 12-ch. 10-it 2 16MHz, 31Hz 64 1.8 3.6 Ind. 20-PDIP PIC18LF14K22-I/P-ND✔ 3.00 2.36 2.16
512 256 17 1/3 1 AUSART, 1 EUSART 1 1 1 12-ch. 10-it 2 16MHz, 31Hz 64 1.8 3.6 Ind. 20-SOIC PIC18LF14K22-I/SO-ND✔ 2.82 2.22 2.03
512 256 17 1/3 1 AUSART, 1 EUSART 1 1 1 12-ch. 10-it 2 16MHz, 31Hz 64 1.8 3.6 Ind. 20-SSOP PIC18LF14K22-I/SS-ND✔ 2.58 2.02 1.86
1536 512 18 /3 2 UART 1 1 1 9-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 20-DIP PIC24F08KA101-I/P-ND 2.94 2.32 2.10
1536 512 18 /3 2 UART 1 1 1 9-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 20-SOIC PIC24F08KA101-I/SO-ND 2.78 2.18 1.98
1536 512 18 /3 2 UART 1 1 1 9-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 20-SSOP PIC24F08KA101-I/SS-ND 2.54 2.00 1.82
† Cut Tape ‡ Tape and Reel ✔NEW!
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Extended -40F 257F -40C 125C Hih Varies See Manuacturers data sheet or exact speciications
(Continued)
C
®
For Digi-Reel ® information, please see page 71.
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(TZM112.US)
131
131

Extreme Low Power Microcontrollers (Cont.)
®
C
Memory Size
Timer/
Clock
Oper -
Program RAM EEPROM I/O Counters
Analog Int. Speed VCC ating
Digi-Key
Price Each
Words Bytes Bytes Pins 8/16-bit UART I2C SPI PWM A/D Comp. Osc. (MHz) (V) Temp. Package Part No.
1 10 25
1536 512 18 /3 2 UART 1 1 1 9-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 20-QFN PIC24F08KA101-I/MQ-ND✔ 2.74 2.16 1.96
1536 512 24 /3 2 UART 1 1 1 9-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 28-QFN PIC24F08KA102-I/ML-ND 2.88 2.27 2.06
8K 1536 512 24 /3 2 UART 1 1 1 9-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 28-SOIC PIC24F08KA102-I/SO-ND 2.70 2.13 1.93
1536 512 24 /3 2 UART 1 1 1 9-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 28-DIP PIC24F08KA102-I/SP-ND 2.94 2.31 2.10
1536 512 24 /3 2 UART 1 1 1 9-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 28-SSOP PIC24F08KA102-I/SS-ND 2.66 2.09 1.90
768 256 15 1/3 1 EUSART 1 MI2C 1 5 9-ch. 10-it 2 16MHz, 32Hz 48 1.8 5.5 Ind. 20-DIP PIC18F14K50-I/P-ND 3.04 2.39 2.19
768 256 15 1/3 1 EUSART 1 MI2C 1 5 9-ch. 10-it 2 16MHz, 32Hz 48 1.8 5.5 Ind. 20-SOIC PIC18F14K50-I/SO-ND 2.98 2.35 2.16
768 256 15 1/3 1 EUSART 1 MI2C 1 5 9-ch. 10-it 2 16MHz, 32Hz 48 1.8 5.5 Ind. 20-SSOP PIC18F14K50-I/SS-ND 2.66 2.10 1.93
768 256 15 1/3 1 AUSART, 1 EUSART 1 1 5 9-ch. 10-it 2 16MHz, 31Hz 48 1.8 5.5 Ind. 20-QFN PIC18F14K50-I/MQ-ND✔ 2.82 2.04 1.94
768 256 15 1/3 1 EUSART 1 MI2C 1 5 9-ch. 10-it 2 16MHz, 31Hz 48 1.8 3.6 Ind. 20-DIP PIC18LF14K50-I/P-ND 3.18 2.08 2.03
768 256 15 1/3 1 AUSART, 1 EUSART 1 MI2C 1 5 9-ch. 10-it 2 16MHz, 31Hz 48 1.8 5.5 Ind. 20-SOIC PIC18LF14K50-I/SO-ND 3.12 2.04 1.99
768 256 15 1/3 1 AUSART, 1 EUSART 1 MI2C 1 5 9-ch. 10-it 2 16MHz, 32Hz 48 1.8 5.5 Ind. 20-SSOP PIC18LF14K50-I/SS-ND 2.80 1.83 1.79
768 256 15 1/3 1 AUSART, 1 EUSART 1 1 5 9-ch. 10-it 2 16MHz, 32Hz 48 1.8 3.6 Ind. 20-QFN PIC18LF14K50-I/MQ-ND✔ 2.82 2.04 1.94
768 — 25 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-DIP PIC18F24J11-I/SP-ND 3.18 2.51 2.30
768 256 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz, 32Hz 64 1.8 3.6 Ext. 28-QFN PIC18F24K20-E/ML-ND 2.72 2.13 1.95
768 256 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz, 32Hz 64 1.8 3.6 Ind. 28-QFN PIC18F24K20-I/ML-ND 2.48 1.95 1.78
768 256 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz, 32Hz 64 1.8 3.6 Ext. 28-SOIC PIC18F24K20-E/SO-ND 2.56 2.01 1.85
768 256 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz, 32Hz 64 1.8 3.6 Ind. 28-SOIC PIC18F24K20-I/SO-ND 2.34 1.83 1.68
768 256 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz, 32Hz 64 1.8 3.6 Ext. 28-SDIP PIC18F24K20-E/SP-ND 2.82 2.21 2.02
768 256 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz, 32Hz 64 1.8 3.6 Ind. 28-SDIP PIC18F24K20-I/SP-ND 2.58 2.02 1.86
768 256 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz, 32Hz 64 1.8 3.6 Ext. 28-SSOP PIC18F24K20-E/SS-ND 2.52 1.98 1.81
768 256 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 8MHz, 32Hz 64 1.8 3.6 Ind. 28-SSOP PIC18F24K20-I/SS-ND 2.28 1.79 1.64
1536 256 25 3/4 2 AUSART, 2 EUSART 2 2 2 17-ch. 10-it 2 16MHz, 32Hz 64 1.8 5.5 Ind. 28-QFN PIC18F25K22-I/ML-ND✔ 3.04 2.39 2.19
1536 256 25 3/4 2 AUSART, 2 EUSART 2 2 2 17-ch. 10-it 2 16MHz, 32Hz 64 1.8 5.5 Ind. 28-SOIC PIC18F25K22-I/SO-ND✔ 2.90 2.27 2.08
1536 256 25 3/4 2 AUSART, 2 EUSART 2 2 2 17-ch. 10-it 2 16MHz, 32Hz 64 1.8 5.5 Ind. 28-SDIP PIC18F25K22-I/SP-ND✔ 3.14 2.47 2.26
1536 256 25 3/4 2 AUSART, 2 EUSART 2 2 2 17-ch. 10-it 2 16MHz, 32Hz 64 1.8 5.5 Ind. 28-SSOP PIC18F25K22-I/SS-ND✔ 2.84 2.24 2.05
1536 256 25 3/4 2 AUSART, 2 EUSART 2 2 2 17-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ind. 28-QFN PIC18LF25K22-I/ML-ND✔ 3.04 2.39 2.19
1536 256 25 3/4 2 AUSART, 2 EUSART 2 2 2 17-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ind. 28-SOIC PIC18LF25K22-I/SO-ND✔ 2.90 2.27 2.08
1536 256 25 3/4 2 AUSART, 2 EUSART 2 2 2 17-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ind. 28-SDIP PIC18LF25K22-I/SP-ND✔ 3.14 2.47 2.26
1536 256 25 3/4 2 AUSART, 2 EUSART 2 2 2 17-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ind. 28-SSOP PIC18LF25K22-I/SS-ND✔ 2.84 2.24 2.05
1536 256 36 3/4 2 AUSART, 2 EUSART 2 2 2 28-ch. 10-it 2 16MHz, 32Hz 64 1.8 5.5 Ind. 44-QFN PIC18F45K22-I/ML-ND✔ 3.46 2.72 2.49
1536 256 36 3/4 2 AUSART, 2 EUSART 2 2 2 28-ch. 10-it 2 16MHz, 32Hz 64 1.8 5.5 Ind. 40-PDIP PIC18F45K22-I/P-ND✔ 3.56 2.79 2.56
1536 256 36 3/4 2 AUSART, 2 EUSART 2 2 2 28-ch. 10-it 2 16MHz, 32Hz 64 1.8 5.5 Ind. 44-TQFP PIC18F45K22-I/PT-ND✔ 3.32 2.60 2.39
1536 256 36 3/4 2 AUSART, 2 EUSART 2 2 2 28-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ind. 44-QFN PIC18LF45K22-I/ML-ND✔ 3.46 2.72 2.49
1536 256 36 3/4 2 AUSART, 2 EUSART 2 2 2 28-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ind. 40-PDIP PIC18LF45K22-I/P-ND✔ 3.56 2.79 2.56
1536 256 36 3/4 2 AUSART, 2 EUSART 2 2 2 28-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ind. 44-TQFP PIC18LF45K22-I/PT-ND✔ 3.32 2.60 2.39
16K
1536 512 18 /3 2 UART 1 1 1 9-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 20-DIP PIC24F16KA101-I/P-ND 3.06 2.41 2.19
1536 512 18 /3 2 UART 1 1 1 9-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 20-SOIC PIC24F16KA101-I/SO-ND 2.88 2.27 2.06
1536 512 18 /3 2 UART 1 1 1 9-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 20-SSOP PIC24F16KA101-I/SS-ND 2.66 2.09 1.90
1536 512 18 /3 2 UART 1 1 1 9-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 20-QFN PIC24F16KA101-I/MQ-ND✔ 2.86 2.25 2.04
1536 512 24 /3 2 UART 1 1 1 9-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 28-QFN PIC24F16KA102-I/ML-ND 3.00 2.36 2.15
1536 512 24 /3 2 UART 1 1 1 9-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 28-SOIC PIC24F16KA102-I/SO-ND 2.82 2.22 2.01
1536 512 24 /3 2 UART 1 1 1 9-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 28-DIP PIC24F16KA102-I/SP-ND 3.04 2.40 2.18
1536 512 24 /3 2 UART 1 1 1 9-ch. 10-it 2 8MHz, 32Hz 32 1.8 3.6 Ind. 28-SSOP PIC24F16KA102-I/SS-ND 2.78 2.18 1.98
2048 — 35 /3 1 UART 1 1 2 13-ch. 12-bit 2 7.37MHz, 512Hz 40 3.0 3.6 Hih 44-QFN PIC24HJ16GP304-H/ML-ND✔ 5.74 4.52 4.11
2048 — 35 /3 1 UART 1 1 2 13-ch. 12-bit 2 7.37MHz, 512Hz 40 3.0 3.6 Hih 44-TQFP PIC24HJ16GP304-H/PT-ND✔ 5.62 4.41 4.01
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-QFN PIC18F24J11-I/ML-ND 3.14 2.47 2.26
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SOIC PIC18F24J11-I/SO-ND 2.94 2.31 2.12
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SSOP PIC18F24J11-I/SS-ND 2.88 2.27 2.08
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-QFN PIC18LF24J11-I/ML-ND 3.14 2.47 2.26
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SOIC PIC18LF24J11-I/SO-ND 2.94 2.31 2.12
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-DIP PIC18LF24J11-I/SP-ND 3.18 2.51 2.30
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SSOP PIC18LF24J11-I/SS-ND 2.88 2.27 2.08
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-QFN PIC18F24J50-I/ML-ND 3.50 2.76 2.53
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SOIC PIC18F24J50-I/SO-ND 3.30 2.60 2.39
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-DIP PIC18F24J50-I/SP-ND 3.54 2.79 2.56
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SSOP PIC18F24J50-I/SS-ND 3.26 2.56 2.35
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-QFN PIC18LF24J50-I/ML-ND 3.50 2.76 2.53
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SOIC PIC18LF24J50-I/SO-ND 3.30 2.60 2.39
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-DIP PIC18LF24J50-I/SP-ND 3.54 2.79 2.56
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SSOP PIC18LF24J50-I/SS-ND 3.26 2.56 2.35
3800 — 34 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-QFN PIC18F44J11-I/ML-ND 3.62 2.85 2.61
3800 — 34 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-TQFP PIC18F44J11-I/PT-ND 3.40 2.68 2.46
3800 — 34 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-QFN PIC18LF44J11-I/ML-ND 3.62 2.85 2.61
3800 — 34 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-TQFP PIC18LF44J11-I/PT-ND 3.40 2.68 2.46
3800 — 34 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-QFN PIC18F44J50-I/ML-ND 4.00 3.14 2.88
3800 — 34 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-TQFP PIC18F44J50-I/PT-ND 3.78 2.97 2.72
3800 — 34 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-QFN PIC18LF44J50-I/ML-ND 4.00 3.14 2.88
3800 — 34 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-TQFP PIC18LF44J50-I/PT-ND 3.78 2.97 2.72
1536 256 25 1/3 1 EUSART 1 MI2C 1 1 10-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ext. 28-QFN PIC18F25K20-E/ML-ND 2.84 2.24 2.05
1536 256 25 1/3 1 EUSART 1 MI2C 1 1 10-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ind. 28-QFN PIC18F25K20-I/ML-ND 2.60 2.04 1.87
1536 256 25 1/3 1 EUSART 1 MI2C 1 1 10-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ext. 28-SOIC PIC18F25K20-E/SO-ND 2.70 2.12 1.94
1536 256 25 1/3 1 EUSART 1 MI2C 1 1 10-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ind. 28-SOIC PIC18F25K20-I/SO-ND 2.46 1.93 1.77
1536 256 25 1/3 1 EUSART 1 MI2C 1 1 10-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ext. 28-SDIP PIC18F25K20-E/SP-ND 2.94 2.31 2.12
1536 256 25 1/3 1 EUSART 1 MI2C 1 1 10-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ind. 28-SDIP PIC18F25K20-I/SP-ND 2.70 2.12 1.94
1536 256 25 1/3 1 EUSART 1 MI2C 1 1 10-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ext. 28-SSOP PIC18F25K20-E/SS-ND 2.66 2.08 1.91
32K 1536 256 25 1/3 1 EUSART 1 MI2C 1 1 10-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ind. 28-SSOP PIC18F25K20-I/SS-ND 2.40 1.89 1.73
1536 256 25 1/3 1 EUSART 1 MI2C 1 1 10-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ind. 28-SSOP PIC18F25K20T-I/SSCT-ND† 2.77 1.94 1.78
1536 256 25 1/3 1 EUSART 1 MI2C 1 1 10-ch. 10-it 2 16MHz, 32Hz 64 1.8 3.6 Ind. 28-SSOP PIC18F25K20T-I/SSTR-ND‡ 3380.99/2,100
1536 256 36 1/3 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 8MHz, 32Hz 64 1.8 3.6 Ext. 44-QFN PIC18F45K20-E/ML-ND 3.26 2.55 2.34
1536 256 36 1/3 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 8MHz, 32Hz 64 1.8 3.6 Ind. 44-QFN PIC18F45K20-I/ML-ND 2.98 2.33 2.14
1536 256 36 1/3 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 8MHz, 32Hz 64 1.8 3.6 Ext. 40-DIP PIC18F45K20-E/P-ND 3.36 2.63 2.41
1536 256 36 1/3 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 8MHz, 32Hz 64 1.8 3.6 Ind. 40-DIP PIC18F45K20-I/P-ND 3.06 2.41 2.21
1536 256 36 1/3 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 8MHz, 32Hz 64 1.8 3.6 Ext. 44-TQFP PIC18F45K20-E/PT-ND 3.10 2.44 2.23
† Cut Tape ‡ Tape and Reel ✔NEW!
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Extended -40F 257F -40C 125C Hih Varies See Manuacturers data sheet or exact speciications
(Continued)
®
For Digi-Reel ® information, please see page 71.
132 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Extreme Low Power Microcontrollers (Cont.)
®
Memory Size
Timer/
Clock
Oper -
Program RAM EEPROM I/O Counters
Analog Int. Speed VCC ating
Digi-Key
Price Each
Words Bytes Bytes Pins 8/16-bit UART I2C SPI PWM A/D Comp. Osc. (MHz) (V) Temp. Package Part No.
1 10 25
1536 256 36 1/3 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 8MHz, 32Hz 64 1.8 3.6 Ind. 44-TQFP PIC18F45K20-I/PT-ND 2.82 2.22 2.03
2048 — 21 /3 1 UART 1 1 2 10-ch. 12-it — 7.37MHz, 512Hz 40 3.0 3.6 Hih 28-QFN PIC24HJ32GP202-H/MM-ND✔ 5.72 4.50 4.08
2048 — 21 /3 1 UART 1 1 2 10-ch. 12-it — 7.37MHz, 512Hz 40 3.0 3.6 Hih 28-SOIC PIC24HJ32GP202-H/SO-ND✔ 5.58 4.39 3.99
2048 — 21 /3 1 UART 1 1 2 10-ch. 12-it — 7.37MHz, 512Hz 40 3.0 3.6 Hih 44-QFN PIC24HJ32GP204-H/ML-ND✔ 5.94 4.67 4.24
2048 — 21 /3 1 UART 1 1 2 10-ch. 12-it — 7.37MHz, 512Hz 40 3.0 3.6 Hih 44-TQFP PIC24HJ32GP204-H/PT-ND✔ 5.80 4.56 4.14
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-QFN PIC18F25J50-I/ML-ND 3.74 2.95 2.70
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SOIC PIC18F25J50-I/SO-ND 3.54 2.79 2.56
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-DIP PIC18F25J50-I/SP-ND 3.80 2.99 2.74
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SSOP PIC18F25J50-I/SS-ND 3.50 2.76 2.53
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-QFN PIC18LF25J50-I/ML-ND 3.74 2.95 2.70
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SOIC PIC18LF25J50-I/SO-ND 3.54 2.79 2.56
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-DIP PIC18LF25J50-I/SP-ND 3.80 2.99 2.74
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SSOP PIC18LF25J50-I/SS-ND 3.50 2.76 2.53
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-QFN PIC18F25J11-I/ML-ND 3.38 2.66 2.44
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 10-ch 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SOIC PIC18F25J11-I/SO-ND 3.18 2.51 2.30
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-DIP PIC18F25J11-I/SP-ND 3.42 2.70 2.47
32K
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SSOP PIC18F25J11-I/SS-ND 3.14 2.47 2.26
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-QFN PIC18LF25J11-I/ML-ND 3.38 2.66 2.44
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SOIC PIC18LF25J11-I/SO-ND 3.18 2.51 2.30
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-DIP PIC18LF25J11-I/SP-ND 3.42 2.70 2.47
3800 — 25 2/3 2 AUSART, 2 EUSART 1 MI 2 C 1 1 10-ch. 10-it 2 16MHz, 32Hz 64 2.0 3.6 Ind. 28-SSOP PIC18LF25J11-I/SS-ND 3.14 2.47 2.26
3800 — 34 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-QFN PIC18F45J11-I/ML-ND 3.86 3.05 2.79
3800 — 34 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-TQFP PIC18F45J11-I/PT-ND 3.64 2.87 2.63
3800 — 34 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-QFN PIC18LF45J11-I/ML-ND 3.86 3.05 2.79
3800 — 34 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-TQFP PIC18LF45J11-I/PT-ND 3.64 2.87 2.63
3800 — 34 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-QFN PIC18F45J50-I/ML-ND 4.24 3.33 3.06
3800 — 34 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-TQFP PIC18F45J50-I/PT-ND 4.02 3.16 2.90
3800 — 34 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-QFN PIC18LF45J50-I/ML-ND 4.24 3.33 3.06
3800 — 34 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-TQFP PIC18LF45J50-I/PT-ND 4.02 3.16 2.90
8192 — 21 /5 2 UART 2 2 5 10-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 28-QFN PIC24FJ32GA102-I/ML-ND✔ 4.10 3.22 2.95
8192 — 21 /5 2 UART 2 2 5 10-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 28-SOIC PIC24FJ32GA102-I/SO-ND✔ 3.90 3.06 2.81
8192 — 21 /5 2 UART 2 2 5 10-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 28-DIP PIC24FJ32GA102-I/SP-ND✔ 4.14 3.26 2.99
8192 — 35 /5 2 UART 2 2 5 13-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 44-QFN PIC24FJ32GA104-I/ML-ND✔ 4.50 3.53 3.23
8192 — 35 /5 2 UART 2 2 5 13-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 44-TQFP PIC24FJ32GA104-I/PT-ND✔ 4.28 3.35 3.07
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-QFN PIC18F26J11-I/ML-ND 3.86 3.05 2.79
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SOIC PIC18F26J11-I/SO-ND 3.68 2.89 2.65
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-DIP PIC18F26J11-I/SP-ND 3.92 3.08 2.83
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SSOP PIC18F26J11-I/SS-ND 3.62 2.85 2.61
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-QFN PIC18F26J50-I/ML-ND 4.24 3.33 3.06
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SOIC PIC18F26J50-I/SO-ND 4.04 3.18 2.92
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-DIP PIC18F26J50-I/SP-ND 4.28 3.37 3.09
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SSOP PIC18F26J50-I/SS-ND 4.00 3.14 2.88
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-QFN PIC18LF26J11-I/ML-ND 3.86 3.05 2.79
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SOIC PIC18LF26J11-I/SO-ND 3.68 2.89 2.65
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-DIP PIC18LF26J11-I/SP-ND 3.92 3.08 2.83
3800 — 21 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SSOP PIC18LF26J11-I/SS-ND 3.62 2.85 2.61
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-QFN PIC18LF26J50-I/ML-ND 4.24 3.33 3.06
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SOIC PIC18LF26J50-I/SO-ND 4.04 3.18 2.92
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-DIP PIC18LF26J50-I/SP-ND 4.28 3.37 3.09
3800 — 22 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 10-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 28-SSOP PIC18LF26J50-I/SS-ND 4.00 3.14 2.88
3800 — 34 2/3 2 AUSART, 2 EUSART 2 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-QFN PIC18F46J11-I/ML-ND 4.36 3.43 3.14
3800 — 34 2/3 2 AUSART, 2 EUSART 2 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-QFN PIC18F46J50-I/ML-ND 4.72 3.72 3.41
3800 — 34 2/3 2 AUSART, 2 EUSART 2 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-TQFP PIC18F46J50-I/PT-ND 4.50 3.55 3.25
3800 — 34 2/3 2 AUSART, 2 EUSART 2 MI 2 C 1 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-TQFP PIC18F46J11-I/PT-ND 4.14 3.26 2.99
3800 — 34 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-QFN PIC18LF46J11-I/ML-ND 4.36 3.43 3.14
3800 — 34 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-TQFP PIC18LF46J11-I/PT-ND 4.14 3.26 2.99
3800 — 34 2/3 2 AUSART, 2 EUSART 2 MI 2 C 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-QFN PIC18LF46J50-I/ML-ND 4.72 3.72 3.41
64K 3800 — 34 2/3 2 AUSART, 2 EUSART 2 MI2C 2 2 13-ch. 10-it 2 8MHz, 32Hz 48 2.0 3.6 Ind. 44-TQFP PIC18LF46J50-I/PT-ND 4.50 3.55 3.25
3936 1024 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 16MHz, 32Hz 40 1.8 3.6 Ext. 28-QFN PIC18F26K20-E/ML-ND 3.38 2.66 2.44
3936 1024 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 16MHz, 32Hz 40 1.8 3.6 Ind. 28-QFN PIC18F26K20-I/ML-ND 3.10 2.43 2.23
3936 1024 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 16MHz, 32Hz 40 1.8 3.6 Ext. 28-SOIC PIC18F26K20-E/SO-ND 3.24 2.54 2.33
3936 1024 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 16MHz, 32Hz 40 1.8 3.6 Ind. 28-SOIC PIC18F26K20-I/SO-ND 2.94 2.31 2.12
3936 1024 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 16MHz, 32Hz 40 1.8 3.6 Ext. 28-DIP PIC18F26K20-E/SP-ND 3.48 2.74 2.51
3936 1024 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 16MHz, 32Hz 40 1.8 3.6 Ind. 28-DIP PIC18F26K20-I/SP-ND 3.20 2.51 2.30
3936 1024 25 1/3 1 EUSART 1 MI 2 C 1 2 10-ch. 10-it 2 16MHz, 32Hz 40 1.8 3.6 Ext. 28-SSOP PIC18F26K20-E/SS-ND 3.20 2.51 2.30
3936 1024 25 1/3 1 EUSART 1 MI2C 1 2 10-ch. 10-it 2 16MHz, 32Hz 40 1.8 3.6 Ind. 28-SSOP PIC18F26K20-I/SS-ND 2.90 2.27 2.08
3936 1024 36 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 16MHz, 32Hz 40 1.8 3.6 Ext. 44-QFN PIC18F46K20-E/ML-ND 3.66 2.87 2.63
3936 1024 36 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 16MHz, 32Hz 40 1.8 3.6 Ind. 44-QFN PIC18F46K20-I/ML-ND 3.34 2.62 2.40
3936 1024 36 1/3 1 EUSART 1 MI2C 1 2 13-ch. 10-it 2 16MHz, 32Hz 40 1.8 3.6 Ext. 40-DIP PIC18F46K20-E/P-ND 3.76 2.95 2.70
3936 1024 36 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 16MHz, 32Hz 40 1.8 3.6 Ind. 40-DIP PIC18F46K20-I/P-ND 3.44 2.70 2.47
3936 1024 36 1/3 1 EUSART 1 MI 2 C 1 2 13-ch. 10-it 2 16MHz, 32Hz 40 1.8 3.6 Ind. 44-TQFP PIC18F46K20-I/PT-ND 3.20 2.51 2.30
4096 — 21 /5 2 UART 1 2 4 10-ch. 12-it 2 7.37MHz, 512Hz 40 3.0 3.6 Hih 28-QFN PIC24HJ64GP502-H/MM-ND✔ 7.86 6.17 5.66
4096 — 21 /5 2 UART 1 2 4 10-ch. 12-it 2 7.37MHz, 512Hz 40 3.0 3.6 Hih 28-SOIC PIC24HJ64GP502-H/SO-ND✔ 7.72 6.05 5.55
8192 — 35 5/ 2 UART 2 2 5 13-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 44-QFN PIC24FJ64GA104-I/ML-ND 5.22 4.11 3.76
8192 — 35 5/ 2 UART 2 2 5 13-ch. 10-it 5 8MHz, 32Hz 32 2.0 3.6 Ind. 44-TQFP PIC24FJ64GA104-I/PT-ND 5.00 3.93 3.60
8192 — 21 /5 2 UART 2 2 5 9-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 28-QFN PIC24FJ64GB002-I/ML-ND✔ 5.20 4.09 3.75
8192 — 21 /5 2 UART 2 2 5 9-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 28-SOIC PIC24FJ64GB002-I/SO-ND✔ 5.00 3.93 3.60
8192 — 21 /5 2 UART 2 2 5 10-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 28-QFN PIC24FJ64GA102-I/ML-ND✔ 4.84 3.80 3.48
8192 — 21 /5 2 UART 2 2 5 10-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 28-SOIC PIC24FJ64GA102-I/SO-ND✔ 4.64 3.64 3.34
8192 — 21 /5 2 UART 2 2 5 10-ch. 10-it 3 8MHz, 32Hz 32 2.0 3.6 Ind. 28-DIP PIC24FJ64GA102-I/SP-ND✔ 4.88 3.84 3.52
8192 — 53 /9 2 UART 2 2 8 18-ch. 12-bit — 7.37MHz, 512Hz 40 3.0 3.6 Ind. 64-QFN PIC24HJ64GP206A-I/MR-ND✔ 6.08 4.78 4.38
† Cut Tape ‡ Tape and Reel ✔NEW!
Note: Operating Temperature Range: Industrial -40F 185F -40C 85C Extended -40F 257F -40C 125C Hih Varies See Manuacturers data sheet or exact speciications
C
®
For Digi-Reel ® information, please see page 71.
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133

Programmers, In-Circuit Debug gers, and In-Circuit Emulators
C
Description
Digi-Key
Part No.
Price
Each
ICD3 In-Circuit Deuer DV164035-ND 189.99
PICit 2 Starter Kit DV164120-ND 49.99
PICit 2 Deu Express DV164121-ND 49.99
PICit 3 Deu Express DV164131-ND 69.99
F1 Evaluation Kit DV164132-ND◆✔ 69.99
PICSTART PLUS DV003001-ND 199.99
PM3 DV007004-ND 895.00
PICit 2 MCU Prorammer PG164120-ND 34.99
PICit 3 In-Circuit Deuer PG164130-ND◆✔ 44.95
ICE 2000 POD ICE2000-ND 1000.00
Accessories
PIC10F Cap Touch Demo Board AC103003-ND 11.00
PIC10F Hoy Kit AC163021-ND 12.00
SOT23-6 Adapter AC163020-ND 45.00
ICSP Cale or MPLAB PM3 AC002021-ND 21.00
Power Supply AC162039-ND 24.00
Power Supply with Cable AC162048-ND 29.99
SOT23-6 to 8-DIP Adapter AC163020-2-ND 60.00
PICDEM 2.46GHz Dauhter Card AC163027-4-ND 39.99
Jumper Wire Kit Multi Color 5 AC163029-ND 8.99
RJ-11 to ICSP Adapter AC164110-ND 9.99
PM3 ICSP to RJ-11 Adapter AC164111-ND 18.00
ENA Networ Analyzer DM183023-ND 129.99
PIC16F/PIC24F Evaluation Kit DM183026-ND 84.95
PICDEM Inductive Touch
Development Kit
DM183027-ND◆✔ 69.99
KEELOQ 3 Development Kit DM303007-ND 159.99
Demo Board LCD GPIO GPIODM-KPLCD-ND 55.00
PIC16F1937 Plu-in Module MA160012-ND◆✔ 25.00
PIC18F25J1028L MA180011-ND 25.00
PIC18LF25J1028L MA180012-ND 25.00
PIC18F45J10 44L MA180013-ND 25.00
PIC18LF45J10 44L MA180014-ND 25.00
PIC18F87J10 MA180015-ND 25.00
PICDEM HPC Blan MA180016-ND 18.00
PIC18F85J11 PIM or HPC MA180018-ND 25.00
PICDEM LCD 2 PIM Pac MA180019-ND 40.00
PIC18F87J50 Full Speed USB MA180021-ND 40.00
PIC18F85J90 PIM MA180022-ND 25.00
PIC18F46J11 PIM MA180023-ND 25.00
PIC18F46J50 Full Speed USB PIM MA180024-ND 45.00
PIC18F87J90 PIM MA180025-ND 25.00
PIC18F45K20 Module Plu-in 44-pin TQFP MA180026-ND◆✔ 25.00
PIC24F 100P to 100P TQFP
Plug-in Module
MA240011-ND◆✔ 25.00
PIC24H 100P MA240012-ND 25.00
PIC24 44P PIM MA240013-ND 25.00
PIC24 100P PIM - OTG MA240014-ND 25.00
General Purpose PIM or 24F256GA MA240015-ND 25.00
PIC24HJ128GP504 100 PIN PIM MA240016-ND 25.00
PIC24HJ Graphics Plu-in Module MA240016-2-ND◆✔ 25.00
PIC24F16KA102 PIM MA240017-ND 25.00
dsPIC30F 80L MA300014-ND 25.00
dsPIC30F 80L MA300015-ND 25.00
dsPICDEM 80-PIN MA300016-ND 25.00
Description
Digi-Key
Part No.
Price
Each
PIC32 100P PIM MA320001-ND 25.00
PIC32 100P PIM - OTG MA320002-ND 25.00
dsPIC33F GP 100P MA330011-ND 25.00
dsPIC33F GP 84P MA330012-ND 25.00
dsPIC33F MC 100P MA330013-ND 25.00
dsPIC33 MC 100P MA330014-ND 25.00
dsPIC33 GP 100P MA330015-ND 25.00
dsPIC33 GP 100P MA330016-ND 25.00
dsPIC33 MC 100P MA330017-ND 25.00
PIM DSPIC33F GP 44P 100P QFN MA330018-ND 25.00
PIM DSPIC33F MC 44P 100P QFN MA330019-ND 25.00
dsPIC33F Graphics Plu-in Module MA330019-2-ND◆✔ 25.00
dsPIC33F Module Plu-In 44-QFN MA330020-ND 25.00
PIC32 Module Plu-In CAN USB MA320003-ND◆✔ 25.00
PIC24FJ64GB004 Module Plu-In MA240019-ND◆✔ 25.00
Module Plu-In MA240020-ND◆✔ 25.00
Evaluation Board 8-SOIC SOIC8EV-ND 10.00
Cale Ta-Connect In-Circuit Le TC2030-MCP-ND◆✔ 33.70
Barte Explorer 16 Prototypin
Extension Board, Model PTB1
TPDPTB1-ND◆✔ 146.25
MPLAB® ICD2 Accessories — RoHS Compliant
Universal Programming Module AC162049-ND 39.99
28/40-Pin MPLAB ICD2 Header AC162051-ND 19.99
64/80-Pin MPLAB ICD2 Header AC162079-ND 50.00
8/14-Pin MPLAB ICD2 Header AC162083-ND 35.00
68/84-Pin MPLAB ICD2 Header AC162087-ND 50.00
MPLAB ICD2 VPP Voltae Limiter AC164112-ND 9.99
MPLAB PM3 Programming Adapter AC164114-ND✔ 29.99
ICD2 Header Interfaces
ICD2 Header or PIC12F629/675 AC162050-ND 25.00
ICD2 Header or PIC16F630/676 AC162052-ND 25.00
ICD2 Header or PIC16F627A/628A/648A AC162053-ND 35.00
ICD2 Header or PIC16F716 AC162054-ND 35.00
ICD2 Header or PIC16F684 AC162055-ND 25.00
ICD2 Header or PIC16F688 AC162056-ND 25.00
ICD2 Header or PIC12F635, PIC16F636 AC162057-ND 25.00
ICD2 Header or PIC12F683 AC162058-ND 25.00
ICD2 Header or PIC10F,
PIC12F508/9, PIC16F505
AC162059-ND 25.00
ICD2 Header or PIC16F785/HV785 AC162060-ND 35.00
ICD2 Header or PIC16F631/
677/685/687/689/690
AC162061-ND 35.00
ICD2 Header or PIC18Fx5J1x AC162062-ND 50.00
MPLAB ICD2, 64/80/100 AC162064-ND 35.00
ICD2 Header or PIC16F639 AC162066-ND 35.00
ICD2 Header PIC18F45J10 AC162067-ND 35.00
ICD2 Breadoard Cale AC162069-ND 14.99
ICD2 Header or PIC10F, PIC12F508/9 AC162070-ND 25.00
ICD2 Header or PIC18F45J10 AC162074-ND 25.00
ICD2 14/28P Header Interace AC162078-ND 50.00
MPLAB ICD2 28P Header 24FJ64GA004 AC162088-ND 50.00
MPLAB ICD2 8/14L Header PIC16F526 AC162096-ND 25.00
Processor Extension PAK or
24FJ128GA010-ICE
AC244022-ND 70.00
MPLAB® ICE 2000 Accessories
ICE 2000 Power Supply ACICE0103-ND 50.00
ICE 2000 Loic Proes ACICE0104-ND 60.00
Digi-Key
Price
Description
Part No.
Each
ICE 2000 Parallel Cale ACICE0105-ND 40.00
ICE 2000 Tripod ACICE0106-ND 30.00
ICE 2000 Flex Cale ACICE0107-ND 55.00
ICE 2000 USB Parallel Adapter ACICE0108-ND 99.99
MPLAB® ICE 4000 Accessories
Adapter Plu, 20P, 300 mil. ACICE0203-ND 20.00
Adapter Plu, 28P, 300 mil. ACICE0204-ND 30.00
Adapter Plu, 28P, 600 mil. ACICE0205-ND 30.00
Adapter Plu, 40P, 600 mil. ACICE0206-ND 40.00
PICSTART® Accessories — RoHS Compliant
28-QFN Adapter AC164031-ND 159.99
8-DFN Adapter AC164032-ND 159.99
28-QFN Adapter AC164033-ND 159.99
PICSTART Firmware Module UK003010-ND 29.99
PICkit Accessories
PICit 1 Firmware Uprade Kit UK164101-ND 5.00
rPIC TX Module 433.92 MHz AC164101-ND 30.00
rPIC TX Module 315 MHz AC164102-ND 30.00
rRXD RCVR Module 315 MHz AC164104-ND 25.00
PICtail Dauhter Board AC164120-ND 25.00
PICtail Dauhter Board AC164121-ND 39.99
PICtail Dauhter Board AC164122-ND 37.99
Ethernet PICtail Dauhter Board AC164123-ND 39.99
PICtail Dauhter Board AC164124-ND 25.00
Speech Play Bac PICtail AC164125-ND 45.00
PICtail Plus Prototype Dauhter Board AC164126-ND 20.00
PICtail Plus Dauhter Board with 3.2
Display Kit
AC164127-3-ND 154.99
PICtail Graphic Display
Truly 3.2 240x320 Board
AC164127-4-ND 99.99
PICtail Plus SSD1926 Board AC164127-5-ND 69.99
Motor Control Interace PICtail
Plus Daughter Board
AC164128-ND 125.00
PICtail Plus USB Dauhter Board AC164131-ND 60.00
Board Dauhter DSPIC Pictail Plus AC164133-ND 89.99
PICtail/PICtail Plus Dauhter Board AC164134-1-ND◆✔ 24.99
PICtail Plus Dauhter Board AC164135-ND 49.99
Serial EEPROM PIM PICtail Pac AC243003-ND 35.00
PICit Serial I2C Demo Board PKSERIAL-I2C1-ND 25.00
PICit Serial SPI Demo Board PKSERIAL-SPI1-ND 35.00
REAL ICE Accessories — RoHS Compliant
MPLAB REAL ICE ICSP Driver Board AC244001-ND 70.00
REAL ICE Perormance Pa AC244002-ND 159.98
MPLAB REAL ICE Loopac Test Board AC244003-ND 9.99
MPLAB REAL ICE Isolator AC244005-ND✔ 299.99
MPLAB REAL ICE AC Isolation Kit AC244005-2-ND✔ 429.99
REAL ICE Proe Kit DV244005-ND 499.98
REAL ICE Trace Kit AC244006-ND 79.99
REAL ICE Processor Extension Pa AC244023-ND 50.00
REAL ICE Processor Extension Pak
or PIC18LFxK50
AC244024-ND✔ 50.00
REAL ICE Processor Extension Pak
AC244028-ND✔
or PIC24F16KA102 and PIC24F04KA201
50.00
◆ RoHS Compliant ✔NEW!
Processor Modules
Digi-Key
Part No.
Price
Each
PCM12XA0-ND 445.00
PCM12XC0-ND◆ 445.00
PCM16XA0-ND 445.00
PCM16XB1-ND 445.00
PCM16XC0-ND 445.00
PCM16XD0-ND 445.00
PCM16XF0-ND 445.00
PCM16XG0-ND 445.00
PCM16XH1-ND◆ 445.00
PCM16XH2-ND◆ 445.00
PCM16XJ0-ND 445.00
PCM16XK1-ND◆ 445.00
PCM16XL0-ND 445.00
PCM16XN0-ND 445.00
PCM16XP1-ND◆ 445.00
PCM16XQ1-ND 445.00
PCM16XR0-ND 445.00
PCM16XR1-ND 445.00
PCM16XT0-ND 445.00
PCM16XV0-ND 445.00
PCM16XW0-ND 445.00
PCM16YB0-ND 445.00
PCM16YC0-ND 445.00
PCM16YD0-ND 445.00
PCM16YE0-ND 445.00
PCM16YF0-ND 445.00
PCM16YG0-ND 445.00
PCM16YH0-ND 445.00
PCM16YJ0-ND 445.00
PCM16YK0-ND 445.00
PCM16YM0-ND 445.00
PCM16YN0-ND 445.00
PCM16YP0-ND 445.00
PCM16YQ0-ND 445.00
PCM16YR0-ND◆ 445.00
PCM18XD1-ND 445.00
PCM18XJ1-ND 445.00
PCM18XK1-ND 445.00
PCM18XN1-ND◆ 445.00
PCM18XP1-ND◆ 445.00
PCM18XQ0-ND 445.00
PCM18XQ1-ND◆ 445.00
Digi-Key
Price
Part No.
Each
PCM18XR1-ND◆ 445.00
PCM18XT0-ND 445.00
PMF18WJ1-ND◆ 595.00
PCM18XQ2-ND◆ 445.00
◆ RoHS Compliant
Device Adapters
Digi-Key
Part No.
Price
Each
DVA1001-ND◆ 125.00
DVA1003-ND◆ 125.00
DVA1006-ND◆ 125.00
DVA12XP081-ND 125.00
DVA16PQ441-ND 225.00
DVA16PQ640-ND 225.00
DVA16XL441-ND 165.00
DVA16XL680-ND 225.00
DVA16XP140-ND 125.00
DVA16XP141-ND 125.00
DVA16XP180-ND 125.00
DVA16XP182-ND 165.00
DVA16XP183-ND 165.00
DVA16XP185-ND 165.00
DVA16XP200-ND 165.00
DVA16XP201-ND 165.00
DVA16XP202-ND 165.00
DVA16XP280-ND 125.00
DVA16XP282-ND◆ 165.00
DVA17PQ441-ND 225.00
DVA17PQ801-ND 225.00
DVA17XL441-ND 165.00
DVA17XL841-ND 165.00
DVA17XP401-ND 125.00
DVA18PQ440-ND◆ 225.00
DVA18PQ640-ND 225.00
DVA18PQ800-ND 225.00
DVA18PQ802-ND 225.00
DVA18XL680-ND 225.00
DVA18XL840-ND 225.00
DVA18XP180-ND◆ 165.00
DVA18XP280-ND 165.00
DVA18XP400-ND◆ 165.00
◆ RoHS Compliant
Transition Sockets
Digi-Key
Price
Part No.
Each
XLT06SOT-ND◆ 18.00
XLT08DFN2-ND 75.00
XLT08SN-1-ND 75.00
XLT08SO-1-ND 75.00
XLT14SO-1-ND 125.00
XLT14SS-1-ND 125.00
XLT16QFN1-ND 40.00
XLT18SO-1-ND 125.00
XLT20QFN-1-ND◆ 175.00
XLT20SO1-1-ND◆ 125.00
XLT20SS-1-ND 125.00
XLT20SS1-1-ND◆ 125.00
XLT28QFN3-ND 175.00
XLT28QFN4-ND 40.00
XLT28SO-1-ND 125.00
XLT28SS2-1-ND◆ 125.00
XLT44L2-ND 175.00
XLT44PT3-ND◆ 225.00
XLT44QFN2-ND 175.00
XLT44QFN3-ND 125.00
XLT44QFN4-ND 125.00
XLT44QFN5-ND 125.00
XLT64PT3-ND 125.00
XLT64PT5-ND◆ 225.00
XLT80PT3-ND◆ 250.00
◆ RoHS Compliant
Socket Modules
Digi-Key
Part No.
Price
Each
AC002012-ND 33.00
AC002013-ND◆ 50.00
AC163022-ND 60.00
AC164014-ND 159.99
AC164022-ND 159.99
AC164023-ND 159.99
AC164028-ND 159.99
AC164029-ND 159.99
AC164030-ND 159.99
AC164035-ND◆ 159.99
Digi-Key
Price
Part No.
Each
AC164036-ND 159.99
AC164038-ND 159.99
AC164301-ND◆ 189.99
AC164302-ND◆ 189.99
AC164303-ND◆ 189.99
AC164305-ND◆ 189.99
AC164306-ND◆ 189.99
AC164307-ND◆ 189.99
AC164308-ND 189.99
AC164309-ND◆ 189.99
AC164310-ND 189.99
AC164311-ND 189.99
AC164312-ND◆ 189.99
AC164313-ND 189.99
AC164317-ND 189.99
AC164321-ND◆ 189.99
AC164322-ND◆ 189.99
AC164323-ND 189.99
AC164324-ND◆ 189.99
AC164325-ND 189.99
AC164326-ND◆ 189.99
AC164327-ND◆ 189.99
AC164328-ND 189.99
AC164329-ND◆ 189.99
AC164331-ND◆ 189.99
AC164332-ND 189.99
AC164333-ND◆ 289.99
AC164338-ND◆ 189.99
AC164339-ND◆ 189.99
AC164335-ND 189.99
AC164336-ND 289.99
AC164337-ND 189.99
AC164340-ND◆ 189.99
AC164341-ND◆ 189.99
AC164350-ND◆ 129.99
AC30F001-ND 159.99
AC30F002-ND 159.99
AC30F003-ND 159.99
AC30F004-ND 189.99
AC30F005-ND 189.99
AC164334-ND◆ NEW! 189.99
AC164342-ND◆ NEW! 209.99
AC164343-ND◆ NEW! 189.99
AC164348-ND◆ NEW! 189.99
AC164349-ND◆ NEW! 189.99
◆ RoHS Compliant
134 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Demo Kits
Description
Digi-Key
Part No.
Price
Each
PICDEM CAN-LIN 2 DM163011-ND 199.99
PICDEM 4 DM163014-ND 129.99
PICDEM CAN-LIN 3 DM163015-ND 199.99
PICDEM 2 Plus DM163022-ND 99.99
PICDEM 2 Demo Board DM163024-ND 165.00
PICDEM FS USB Demo Board DM163025-ND 59.99
Low-Power Solutions Demo Board DM163026-ND 129.99
PICDEM 2.4GHz DM163027-5-ND 269.99
PICDEM Mechatronics Demo Kit DM163029-ND 149.99
PICDEM LCD 2 Demo Board DM163030-ND 125.00
PICDEM La Development Kit DM163035-ND 124.99
PICDEM LCD Dauhter Board MA160011-ND 29.99
Expl 18F87J11 Plu-In Module MA180020-ND 25.00
PICit 2, Starter Kit DM164120-1-ND 23.99
PICit 2, 44-Pin Demo Board DM164120-2-ND 23.99
PICit 2, 28-Pin Demo Board DM164120-3-ND 24.99
PICit 2, 18-Pin Demo Board DM164120-4-ND 23.99
PICit 2, 64/80-Pin Demo Board DM164120-5-ND 35.00
PICDEM System Manaement DM164123-ND 110.00
PICDEM Touch Sense 1 Kit DM164125-ND 139.99
USB Development Kit DM164127-ND 39.99
PICDEM MC LV Dev. Board DM183021-ND 99.99
PIC18FXX22 64/80-Pin
TQFP Demo Board DM183022-ND 59.99
Explorer 16 Development Board DM240001-ND 129.99
Explorer 16 Development Board DM240002-ND 129.99
dsPICDEM Development Board DM330022-ND◆✔ 129.99
dsPICDEM 2 Development Board DM300018-ND 99.99
dsPICDEM MCSM Dev. Board DV330021-ND◆✔ 150.00
dsPICDEM 80P Starter DM300019-ND 79.99
dsPICDEM MC1 DM300020-ND 300.00
dsPICDEM 1.1 Plus GP
Demo Board DM300024-ND 299.99
16-Bit, 28-Pin Demo Board DM300027-ND 79.99
PIC32MX Starter Kit DM320001-ND 49.99
dsPICDEM SMPS
BUCK Demo Board DM300023-ND 149.99
PICit 1 DV164101-ND 36.00
Description
Digi-Key
Part No.
Price
Each
rPIC Kit 1 DV164102-ND 135.00
PICit 2, 20-Pin Demo Kit DV164126-ND 59.98
XLP 16-it Enery Harvestin
Development Kit
DV164133-ND◆✔ 195.00
PIC18 Development Kit DV164136-ND◆✔ 165.00
PICtail Humidity
Sensor Demo Board PIC16F690DM-PCTLHS-ND 50.00
PICtail Plus Module MRF24J40MA-I/RM-ND 9.95
PIC32 Demo Board DM320003-ND 55.00
Graphics Display Powertip Board AC164127-6-ND◆✔ 115.00
PICtail Plus Dauhter Board AC164127-ND 135.00
PICtail Plus Dauhter Card AC164129-ND 80.00
PICtail Plus Dauhter Board AC164130-ND 45.00
PICtail Plus Dauhter Board AC164132-ND◆✔ 49.99
PICtail Plus Card 2.4GHz AC164134-ND 18.95
eroG PICtail Plus Dauhter Board AC164136-2-ND◆✔ 59.99
MRF49XA PICtail
Plus Daughter Board
AC164137-1-ND◆✔ 39.99
MRF49XA PICtail
Plus Daugher Board
AC164137-2-ND◆✔ 39.99
PIC32 Expansion Board DM320002-ND 72.00
MPLAB® Starter Kit or
PIC18F MCU
DM180021-ND ✔ 59.98
PIC32 USB Starter Kit II DM320003-2-ND◆✔ 55.00
PIC32 Ethernet Starter Kit DM320004-ND◆✔ 72.00
dsPIC Starter Kit DM330011-ND 59.98
PIC18F4XK20 Starter Kit DM164124-ND 99.80
SRL MEM Starter Kit DV243003-ND 79.98
UNI/O Bus Parasitic Power
Demo Board
AC243004-ND◆✔ 20.00
24V 3-Phase Brushless DC
Motor with Encoder AC300022-ND 160.00
PIC32 Starter Board to Explorer
16 PIM Adapter AC320002-ND 30.00
Ref. Design, Automotive Lighting APGRD004-ND 30.00
PICDEM Touch Sense 2 Dev. Kit DM164128-ND 99.99
PICDEM 18 Explorer
Demo Board DM183032-ND 99.99
Internet Radio Demo Board DM183033-ND 99.99
MPLAB Starter Kit or PIC24F DM240011-ND 59.98
MPLAB Starter Kit or PIC24H DM240021-ND 59.98
dsPICDEM MCLV Dev. Board DM330021-ND 150.00
Evaluation Board Voltage Regulator SOT223-5EV-VREG-ND 35.00
ICD3 Eval. Kit with PICDEM 2 Plus DV164036-ND◆✔ 229.99
ICD3 Eval. Kit with Explorer 16 DV164037-ND◆✔ 299.99
LIN Serial Analyzer APGDT001-ND◆✔ 64.95
PIC16LF1937 PICit Eval Board DM164130-1-ND◆✔ 39.99
Description
Digi-Key
Part No.
Price
Each
PIC24F16KA102 XLP Dev. Board DM240311-ND◆✔ 59.99
DSPICDEM MCHV Dev. Board DM330023-ND◆✔ 650.00
MCP3909 ADC Evaluation Board MCP3909EV-MCU16-ND◆✔ 80.00
SC70-6 and SOT-23-6/8 to DIP-8
Evaluation Board
SC70EV-ND◆✔ 9.99
MPLAB ICD 2 Breadoard Cale TC2030-MCP-NL-ND◆✔ 33.70
EZLink Development Kit TDKE915-ND◆✔ 270.00
TO-220-5/TO263-5 Voltae
Regulator Evaluation Board
TO263-5EV-VREG-ND◆✔ 30.00
SchmartModule 8-bit Dev. Board TSB8BITDB-ND◆✔ 16.88
20-pin TSSOP and SSOP
Evaluation Board
TSSOP20EV-ND◆✔ 9.99
◆ RoHS Compliant ✔NEW!
Software
Description
Digi-Key
Part No.
Price
Each
C18 C Compiler SW006011-ND 495.00
C30 C Compiler SW006012-ND 895.00
MPLAB C Compiler or dsPIC DSCs SW006013-ND 495.00
MPLAB C Compiler or PIC24 MCUs SW006014-ND 495.00
C32 C Compiler SW006015-ND 895.00
XTEA Battery Authentication SW163051-ND 5.00
ENA Networ Analyzer Sotware SW183052-ND 5.00
Visual FilterLab® SW300001-ND 249.99
Digital Filter Design Lite SW300001-LT-ND 29.99
Soft Modem SW300003-EVAL-ND 5.00
Speech Recognition Library SW300010-EVAL-ND 5.00
Noise Suppression Library SW300040-EVAL-ND 5.00
Symmetric Key Encryption Lirary SW300050-EVAL-ND 5.00
Asymmetric Key Encryption Lirary SW300055-EVAL-ND 5.00
Acoustic Echo Cancellation Library SW300060-EVAL-ND 5.00
Speech Encodin/Decodin Lirary SW300070-EVAL-ND 5.00
Line Echo Cancellation Library SW300080-EVAL-ND 5.00
HI-TECH PICC STD Compiler SW500005-ND 495.00
PICC Enterprise SW500006-ND 3795.00
PICC-18 PRO SW500007-ND 1195.00
HI-TECH PICC-18 STD Compiler SW500008-ND 495.00
DSPIC/PIPC24 SW500009-ND 895.00
HI-TECH C PRO or PIC10/12/16 MCU
Family ANSI C Compiler v9.60PL5 SW500010-ND 1195.00
HI-TECH C PRO or the PIC32
MCU Family SW500011-ND 1495.00
HI-TECH C Compiler or PIC32 MCUs SW500012-ND◆✔ 895.00
HIDmaer FS SW500050-ND ✔ 674.95
TCPmaker PRO SW500052-ND ✔ 427.45
PICtail Plus 2.4GHz RF Card AC164134-2-ND ✔ 29.99
◆ RoHS Compliant ✔NEW!
C
Breakout and
Evaluation Boards
Description
Digi-Key
Part No.
Price
Each
Mfg.
Part No.
PIC32 Breaout Board 876-1000-ND 30.00 DKSB1000C
DSPIC33 Breaout Board 876-1001-ND 40.00 DKSB1001B
ADXL335 Evaluation Board 876-1002-ND 20.00 DKSB1002A
LM3406 LED Driver Evaluation Board 876-1003-ND 25.00 DKSB1003A
PIC24 Breaout Board 876-1004-ND 40.00 DKSB1011A
DVI/VGA L137 Adapter Board 906-1000-ND NEW! 40.00 DKSB1007A
Microcontrollers with Firmware
Description
Digi-Key
Part No.
Price
Each
FlexiPanel
Part No.
TEAclipper/PIC Prorammer, Hih-Voltae 658-1027-5-ND 34.02 TEACLIPPER-PIC-HV-PT
TEAclipper/PIC Prorammer, Low-Voltae 658-1028-5-ND 25.11 TEACLIPPER-PIC-LV-PT
TEAlea-USB IC Encryption Key, 28-DIL 658-1029-5-ND 9.76 TEALEAF-USB-DIL
TEAlea-USB IC Encryption Key, 20-SSOP 658-1030-5-ND 7.68 TEALEAF-USB-SS
TEAlea-USB IC Encryption Key 658-1031-5-ND 33.75 TEALEAF-USB
USB-232 IC USB Asynchronous Serial UART, 28-DIL 658-1032-5-ND 8.16 USB-232-DIL
USB-232 IC Asynchronous Serial UART, 20-SSOP 658-1033-5-ND 6.24 USB-232-SS
USB-SPI IC USB Synchronous Serial SPI, 28-DIL 658-1034-5-ND 10.24 USB-SPI-DIL
USB-SPI IC USB Synchronous Serial SPI, 20-SSOP 658-1035-5-ND 6.24 USB-SPI-SS
USB-I2C IC USB Synchronous Serial I2C, 28-DIL 658-1036-5-ND 10.24 USB-I2C-DIL
USB-I2C IC USB Synchronous Serial I2C, 20-SSOP 658-1037-5-ND 6.24 USB-I2C-SS
Description
Digi-Key
Part No.
Price
Each
FlexiPanel
Part No.
expandIO-USB IC USB I/O Expander, 28-DIL 658-1038-5-ND 11.12 EXPANDIO-USB-FS-DIL-28
expandIO-USB IC USB I/O Expander, 44-TQFP 658-1039-5-ND 10.72 EXPANDIO-USB-PT-FS
expandIO-USB IC USB I/O Expander, 20-SSOP 658-1040-5-ND 6.24 EXPANDIO-USB-SS
USB-DAQ IC System Data Loer, 28-DIL 658-1041-5-ND 14.24 USB-DAQ-DIL
USB-DAQ IC System Data Loer, 20-SSOP 658-1042-5-ND 10.24 USB-DAQ-SS
USB-FileSys IC System USB FAT File, 28-DIL 658-1043-5-ND 14.24 USB-FILESS-DIL
USB-FileSys IC System USB FAT File, 20-SSOP 658-1044-5-ND 10.24 USB-FILESS-SS
USB Evaluation Board 658-1045-5-ND 27.00 USB-EVAL
AccessTouch Touch Sensitive Keyed Access IC
Controller, 20-SSOP 658-1046-5-ND 11.68 ACCESS-TOUCH-SS
AccessTouch Evaluation Board 658-1047-5-ND 125.00 ACCESS-TOUCH-EVAL
C-Compilers and Debuggers
C-Compiler for PICmicro® MCUs: C-Compiler or 12Bit, 14Bit and PIC18 PICmicro MCUs. This Interated C Development Environment ives developers the capaility to
produce eicient code rom an easily maintainale hih level lanuae. With ull standard C compatiility, a ull eatured Win dows IDE with uilt-in unctions and example
prorams, you will e ale to develop emedded solutions or the ull line o PICmicro MCUs. ICD-S40: This ICD unit communicates to the PC and the deuin
sotware over an RS232 connection and operates at a 40MHz cloc reuency resultin in uic deu times RS232 serial cale included. The ICD-S40 is powered
rom the taret oard. The taret oard needs to supply 5 volts to the ICD. The ICD-U64 connects to your PC via a USB port and can power your taret oard. The ICD is
powered rom The USB Bus Power a oard at 5.0V y closin the umper near the ICD ac inside the unit The unit must e opened
Description
Digi-Key
Part No.
Price
Each
C-Compiler PCWH 429-1000-ND 500.00
C-Compiler or 12 it PICs PCB 429-1001-ND 50.00
C-Compiler or 14 it PICs PCM 429-1002-ND 150.00
C-Compiler or PIC18 PCH 429-1003-ND 200.00
C-Compiler or 12-14 it PICs PCW 429-1004-ND 350.00
In-Circuit Deuer ICD-S40 Serial 429-1005-ND 75.00
Description
Digi-Key
Part No.
CCS Wireless-Ember ZigBee Edition Development Kit Includes: Two sensor oards with PIC16LF886 processor chips and EM260 modules One base
station oard with PIC18LF4620 processor chip and EM260 module Carrying Case Exercise Booklet and Ember Documentation In-Circuit Deuer/
Programmer DC Adapters 9VDC Serial PC to Prototyping Board Cable Modular Cale ICD to Prototypin Board USB or serial PC to ICD cale
Two 9V atteries
429-1011-ND Wireless-Ember Zigbee Kit ......................................................................................................... $724.00
Price
Each
In-Circuit Deuer ICD-U64 USB 429-1012-ND 75.00
C-Compiler or MCU DSPIC 429-1007-ND 250.00
C-Compiler or MCU DSPIC with IDE 429-1008-ND 350.00
C-Compiler PCWHD 429-1009-ND 600.00
PIC Hi-Speed Mach X Prorammer 429-1013-ND NEW! 199.00
Feature Comparison PCB PCM PCH PCW PCWH
Command Line Compiler √ √ √ √ √
Built-in Functions √ √ √ √ √
Example Programs √ √ √ √ √
Device Drivers √ √ √ √ √
MPLAB Interace √ √ √ √ √
Windows IDE √ √
C Aware Editor √ √
New Proect Wizard √ √
Debugger √ √
Device Selector/Editor √ √
Call Tree and Memory Map √ √ √ √ √
Statistics √ √
Special Viewers √ √
Serial Port Utility √ √
12bit Support √ √ √
14bit Support √ √ √
PIC18 Support √ √
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
135
135

28P
INC
La tice
ispLSI 1016-80LJ
D541801
La tice
ispLSI 1016-80LJ
D541801
NC
IN
OUT
PicBasic Pro Compiler
PicBasic Pro converts your BASIC prorams into iles that can e prorammed directly into a PICmicro ® MCU. Full support
or 14-it and 16-it MCUs. Limited support or 12-it MCUs. The PicBasic Pro Compiler eatures BASIC commands,
direct and lirary routine access to pins on PORTA, C, D, E, as well as PORTB, arrays, real IF..THEN..ELSE and interrupt
processin in BASIC. Includes Code Desiner Lite, a Windows interated development environment IDE that is compatile
with our PicBasic Pro Compiler. Comes with Software, Manual with instruction set and explanations and directions. Works
on any version o Dos or Windows with CodeDesiner Lite. Windows95, 98, 2000, XP and ME compatile.
The LAB-X1A is an independent hardware platorm, similar to the Microchip PICDEM. It can run prorams written in any
lanuae, includin C, Assemly, and PicBasic. Includes 40 Pin i Socet, LCD display, memory, Rs232 port, Pots or
ADCs and many extras
444-1000-ND PicBasic Pro Compiler ..........................................................................$249.95
444-1001-ND LAB-X1 Experimenter Board ....................................................................$199.95
QuickWriter
Programmer
Shown with 4 Gan Adapter not
included. Prorammin adapters
must be purchased separately.
C QuicWriter comes with power supply, serial cale and in circuit pro rammin
cale. Adapter reuired when not usin ICSP cale. One prorammer or all o
your PIC® MCU development needs In-circuit Serial Prorammin 4 Gan
Serial device prorammin Sinle device prorammin serial and parallel
QuicWriter is a low cost prorammer with these advanced eatures
Over-sized drivers and power supply to properly support multiple device
prorammin and in-circuit prorammin Measures prorammin voltaes
and current to veriy proper taret connections or device insertions Flash
irmware updates Data tale driven New devices are supported with ree
data tale downloads rom the TechTools we site www.tech-tools.com
Prorams ALL 12-it, 14-it and 18-it series Microchip PIC processors.
This includes all 12C, 14000, 16C, 16F, 18C and 18F amilies Includes the
TechTools Development Environment TDE, a ull eatured, Windows hosted
IDE. TDE supports development with all popular PIC MCU compilers and
assemlers. TDE includes a multi-ile editor, interated MAKE and one-clic
cross referencing of compiler errors. TDE also interfaces to the TechTools
ClearView Mathias not included or ull eatured, real-time, in-circuit
emulation and source level deuin. Includes TechTools PIC MCU
assemler, CVASM16 which supports ALL 12-it and 14-it PIC MCU
processors. CVASM16 assemles Parallax source iles SPASM ormat and
accepts Microchip mnemonics. Compatile with existin TechTools and
Parallax prorammin adapters Accepts HEX iles enerated y all popular
PIC MCU compilers and assemlers Supports auto-incrementin serialization
Runs under Win95 throuh XP as well as NT throuh XP Pro Includes serial
cable, in-circuit programming cable and power supply
Description
Digi-Key
Part No.
Price
Each
TechTools
Part No.
Programmer
PICmicro MCU QW1-ND 199.00 QW1
Adapters
40-Pin IFX MP-IF40-ND† 49.00 MP-IF40
18/28-Pin IF MP-IF18/28-ND 69.00 MP-IF18/28
14-Pin IF MP-IF14-ND 59.00 MP-IF14
44-Pin PLCC MP-PLCC44-ND 129.00 MP-PLCC44
28-Pin SOIC MP-SOIC28-ND 129.00 MP-SOIC28
18-Pin SOIC MP-SOIC18-ND 79.00 MP-SOIC18
8/14-Pin SOIC MP-SOIC8/14-ND 89.00 MP-SOIC814
PIC14000 MP-14000-ND 59.00 MP-14000
28-Pin SSOP MP-SSOP28-ND 99.00 MP-SSOP28
18-Pin SSOPX MP-SSOP18-ND 79.00 MP-SSOP18
4 Gang Adapters for QuickWriter
40-Pin IF QW-4IF40/28-ND† 199.00 QW-4IF40/28
44-Pin PLCC QW-4PLCC44-ND 199.00 QW-4PLCC44
28-SOIC QW-4SOIC28-ND 249.00 QW-4SOIC28
18-Pin IF QW-4IF18-ND 199.00 QW-4IF18
18-Pin SOIC QW-4SOIC18-ND 249.00 QW-4SOIC18
8/14-Pin Narrow SOIC QW-4SO8/14N-ND 249.00 QW-4SO8/14N
8/14-Pin Wide SOIC QW-4SO8/14W-ND 249.00 QW-4SO8/14W
† Use with 28 and 40-Pin 14 it dip parts.
PIC Emulators ClearView TM Mathias
CVM1 supports emulation for
16C5X and 16CXX devices
using Microsoft Windows for
a complete integrated design
environment. Family modules
select 5X or XX device amily, while
Memer modules select speciic
device. Optional timing module shows
execution time and number of processor
cycles. Optional 16K trace uer module
additionally provides execution history and
8 external trace inputs. Provides full emulation of
proram and reister memory and I/O activity with unlimited
hardware breakpoints. Built-in PLL oscillator generates any frequencies from
32KHz to 33MHz.
System requirements: IBM PC or compatile, VGA monitor, serial port, 3.5
disk drive, and Windows 3.1, Win95, Win98 or NT
Description
Digi-Key
Part No.
Family Module
Advanced 14 Bit Family
CVM04F-ND
Module with Data Breakpoints
141.60 CVM04F
PIC16C5X Family Module CVM5XF-ND 106.20 CVM5XF
Member Module
PIC16C55X/62X/CE62X CVM001M-ND 141.60 CVM001M
PIC12C508/509 CVM50XM-ND 53.10 CVM50XM
PIC16C50X/CE51X/16C505 CVM5XXM-ND 70.80 CVM5XXM
PIC12C671/672 CVM67XM-ND† 70.80 CVM67XM
PIC16C5X CVM5XM-ND 35.40 CVM5XM
PIC16C554/556/558 CVM55XM-ND 70.80 CVM55XM
PIC16C61 CVM61M-ND 70.80 CVM61M
PIC16C62X CVM62XM-ND 70.80 CVM62XM
PIC16C62X/61/71/84 CVM6/8M-ND 141.60 CVM6/8M
PIC16C641/642/661/662 CVM66XM-ND 141.60 CVM66XM
PIC16C715 CVM715M-ND 70.80 CVM715M
PIC16C70,71,710,711 CVM711M-ND 70.80 CVM711M
PIC16C62-65/72-74 CVM7XM-ND 141.60 CVM7XM
PIC16C66/67/76/77 CVM77M-ND 141.60 CVM77M
PIC16C773,774 CVM77XM-ND 141.60 CVM77XM
PIC16F627/628 CVMF628M-ND 141.60 CVMF628M
PIC16F873,874,876,877 CVM87XAM-ND 141.60 CVM87XM
PIC16F73/F74/F76/F77 CVMF77M-ND 141.60 CVMF77M
PIC16F870/F871 CVM871M-ND 141.60 CVM871M
Trace Buffer and Timing Module
Mathias Timing Module CVMT1-ND 92.04 CVMT1
Mathias Trace Buffer
and Timing Module
CVMT2-ND 191.16 CVMT2
Kit Module
Firmware/Loic Field
Uprade Kit
CVM1-FWL-ND‡ 38.94 CVM1-FWL
Adapter
PIC16C712C716 ADP716-ND§ 24.78 ADP716
† Reuires the CVM03F Family Module § Reuires Memer Module CVM77M
‡ For use with TDE 4.0 sotware eatures o Stac Viewin, Variale Trace
Size, aster Step-out unction and aster Reister Window Updates. Contains
firmware V2.2 and UC13 Ver C.
TRACE
40 PIN PIC
28/40 PIN XX POD
+5VEXT
FC-34P
+5VEMU
MICROCHIP
PIC16C74A-ME
9609SBT
"The family is one"
ClearView Mathias
Price
Each
010110
TechTools
Part No.
ER3 EconoROM III
Economical
EPROM
Emulator
EconoROM III is desined or uic, in-circuit irmware test cycles. Eliminate
the urn/insert/test/remove/erase cycle. The ER3 will speed up your irmware
development by eliminating the need to remove-erase-program and re-install
EPROMs each time you test a code change. These devices plug into the
EPROM socket on your target board and emulate the EPROM throughout the
development process.
Features:
Interated Low-Voltae Support Taret Voltae Sense and Measurement
External Power Option Jumper-less Address Coniuration Up to 8Mit
Emulation in a sinle unit Fast Downloads up to 2.5 Mit per second
Replaces standard EPROM device durin development Connects to any
Parallel Port Auto/Manual Taret Reset on download Read-ac, Veriy
and Sel-test unctions Daisy-chain cale included LPT cale 8 wire
Modular Cale and DB25 adapter included Taret cales standard IDC to
DIP Rion Cale included Includes 2 versions o sotware 16 it DOS
version and 32 it Win9X/NT/2000 version QuicLoader with Full-screen
editor included Batchale loader and utilities included Accepts Intel HEX,
Tetronix HEX, Motorolla S records and inary iles Free sotware updates
via WEB downloads
Capacity
Cables
Supplied
QuickLoader 3.0
& Command-Line Utilities
EconoROM I & FlexROM I
Win9x/NT/2000 & DOS Software
(9720 272-9392
FAX: (972) 494-5814
h tp: / w.tech-t ols.com
Speed
Pin 1 [28pin EPROM]
Active LOW Pin 1 [32pin EPROM]
Active HIGH Target Reset
Digi-Key
Part No.
Price
Each
256Kit/ 32K x 8 28-Pin Dip 45ns ER3-256-ND 179.00
512Kit/ 64K x 8 28-Pin Dip 45ns ER3-512-ND 239.00
1Mit/ 128K x 8 28 and 32-Pin Dip 45ns ER3-1M-ND 299.00
4Mit/ 512K x 8 28 and 32-Pin Dip 45ns ER3-4M-ND 399.00
8Mit/ 1M x 8 28 and 32-Pin Dip 45ns ER3-8M-ND 499.00
TechTools
Embe ded Systems Development T ols
TechTools Support Software
Software included:
* TDE TM TechT ols Design Environment
* PICwriter Progra ming Software
* CVASM16 TM A sembler
* QuickLoader HEX/Binary Downloader
* UREDI TM LIV Editor
Products Supported:
DigiView Logic Analyzer
Features: 18 Channels 100MHz 10ns Automatic Real time Hardware
Compression Tri-Mode Eliminates Resolution vs. Depth tradeoffs
Advanced Universal Match Circuits 8 Selectale Match Types 9 Flexible
Cascadale Seuencers 4x4 Seuencer Counters 16 1M each 0.5V
2.8V Adjustable Threshold Maximum continuous voltage ±20V all channels
Ground current protection round lead to - voltae ±12V Graphical
Trier Layouts New Sotware version 6.0.4 USB Powered USB 2.0
with USB 1.1 compatibility All cales, clips 20 ty and sotware included
DV3400-ND Loic Analyzer ........................................ $1499.00
DV3100-ND NEW! Loic Analyzer ................................ $499.00
CBL-DV3-ND Cable Replacement ......................................$35.00
CLIP3-10-ND Clip Replacement ........................................$35.00
* ClearView Mathias
TM
* PICwriter TM
* I
* EconoROMTM FlexROM II
* UniROM TM
Bonus Software:
* Netscape ® Co municator
* PIC 'C'Compiler DEMO's
Download the latest updates from
our Web Site:
www.tech-t ols.com
ICEPIC, ICEPIC2 and
ICEPIC3 PIC Emulators
ICEPIC, ICEPIC2, and the ICEPIC3 emulators are ully modular, ull speed, real
time, in-circuit emulator sys tems, or use with Microchip PIC processors, usin
interchaneale personality dauhteroards which connect directly to the users
target board and are sold separately.
The ICEPIC3 Emulator is compact, portale, lihtweiht and oers ex ceptional
perormance and value. It uses a uic hot connection to the host computer via
USB Port, with the system firmware being upgraded at any time from the internet
ivin total uprade aility. The ICEPIC3 has additional real-time analysis when
using the plug-in trace board which is sold separately.
All ICEPIC emulators operate within Microchips MPLAB 32it IDE ivin the user
easy control to perorm eicient ast emulation. ICEPIC emulators are supplied as
complete systems with power supply, cables, manual and a copy of Microchip’s
MPASM assembler.
Features ICEPIC ICEPIC2 ICEPIC3
Real-Time Emulation 32Hz 20MHz 32Hz 33MHz 1Hz 50MHz
Device Emulated 12C, 16C 12C, 16C, 17C PIC12, 16, 18
Runs Under MPLAB es es es
Source Level Debug es es es
C Source Level Deu es es es
Real Time Trace No es es†
Time Stamp es es es†
Freeze Mode es es es
Break Points Unlimited Unlimited Unlimited
Stack Breaks es es es
WDT Breaks es es es
Stack View es es es
Custom Watch es es es
Assembler Support MPASM MPASM MPASM
Communications RS-232C RS-232C USB
† Usin optional Modular Trace Board I3-TRACER1-ND
Description
Digi-Key
Part No.
Price
Each
ICSP Adaptor
In-Circuit Serial Prorammin Adaptor ISPICR1-ND 73.06
ICEPIC Emulators
ICEPIC Emulator System ICEPIC-ND 432.00
ICEPIC2 Emulator System ICEPIC2-ND 654.00
ICEPIC3 Emulator System ICEPIC3-US-ND 1050.00
ICEPIC Daughter Boards
12C671, 16C672 DB12C67X-ND 312.00
16C554, 16C556, 16C558 DB55X-ND 312.00
16C620, 16C621, 16C622 DB62X-ND 312.00
16C641/642/661/662 DB66X-ND 372.00
16C61, 16C71, 16C710, 16C711 DB711-ND 312.00
Description
Digi-Key
Part No.
Price
Each
16C715 DB715-ND 312.00
16C62/63/64/65/72/73/74 DB74A-ND 372.00
16C66, 16C67, 16C76, 16C77 DB77-ND 372.00
16C772, 16C773, 16C774 DB77X-ND 312.00
16C84, 16F83, 16F84 DB84A-ND 312.00
17C42/43/44, 17C752/756
ICEPIC2 Only
DB756-ND 312.00
16F73, 16F74, 16F76, 16F77 DBF77-ND 372.00
16F870/71 DBF871-ND 276.00
ICEPIC3 Daughter Boards
12F675, 12F629 I3DB12F675-ND 638.75
12F683 I3-DB12F683-ND 638.75
16F684A I3-DB16F84A-ND 638.75
16F716 I3-DB16F716-ND 638.75
16F871, 16F870 I3-DB16F871-ND 638.75
18C452/442/252/242 I3DB18C452-ND 638.75
18F2220/2320/4220/4320 I3DB18F4320-ND 638.75
18F452/442/252/242 I3DB18F452-ND 638.75
18F1320, 18F1220 I3-DB18F1320-ND 638.75
18F4431/4331/2431/2331 I3-DB18F4431-ND 638.75
18F4550/2455/2550/4445 I3-DB18F4550-ND 638.75
18F4620/4525/2620/2525 I3DB18F4620-ND 638.75
18F4680/2680/2585/4685 I3-DB18F4680-ND 638.75
16F872A/873A/874A/876A/877A I3DB877A-ND 638.75
16F627A, 16F628A, 16F648A I3DBF648-ND 638.75
16F676, 16F630 I3DBF676-ND 638.75
16F72, 16F73, 16F74, 16F76, 16F77 I3DBF77-ND 638.75
16F737, 16F767, 16F747, 16F777 I3DBF777-ND 638.75
16F818, 16F819 I3DBF819-ND 638.75
16F87, 16F88 I3DBF88-ND 638.75
Trace Boards
ICEPIC3 Trace Board I3-TRACER1-ND 1312.50
136 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

ARM ® Cortex -M3 Microcontrollers
Flash
(KB)
8
16
32
64
64
96
128
256
ADC
PWM§
Speed
Sample No. of
Analog
(Clock
SRAM
Per 10-Bit
Comparators
PWM CCP
Frequency Digi-Key
Price Each
Texas Instruments
(KB) GPIOs† Timers‡ Second Channels UARTs SSI I2C
Pins Pins QEI Package in MHz) Part No.
1 25 100 Part No.
Low Pin Count Real-Time MCUs
2 2 18 2 — — 1 1 1 2 — — — 48-VQFN 20 296-25513-ND NEW! 5.74 4.62 4.21 LM3S101-IG20-C2
2 0 18 2 — — 1 1 1 1 — — — 48-VQFN 20 296-25514-ND NEW! 5.74 4.62 4.21 LM3S102-IG20-C2
2 12 33 2 250K 3 1 1 1 2 6 2 — 48-VQFN 20 296-25516-ND NEW! 6.16 4.95 4.51 LM3S301-IG20-C2
2 12 33 2 250K 3 1 1 — 2 2 2 — 48-LQFP 20 726-1002-ND 6.16 4.95 4.51 LM3S301-IQN20
2 12 33 4 250K 3 1 1 — 2 2 2 — 48-LQFP 20 296-24904-ND NEW! 6.16 4.95 4.51 LM3S301-IQN20-C2
4 8 36 3 — — 2 1 1 3 6 6 — 48-VQFN 25 296-25515-5-ND NEW! 5.18 4.17 3.80 LM3S300-IG25-C2
4 8 36 3 — — 2 1 1 3 — 6 — 48-LQFP 25 726-1088-ND 5.18 4.17 3.80 LM3S300-IQN25-C2
4 5 28 3 500K 8 2 1 1 1 6 — — 48-VQFN 25 296-25517-ND NEW! 5.18 4.17 3.80 LM3S308-IG25-C2
4 5 28 5 500K 8 2 1 1 1 — 6 — 48-LQFP 25 296-24905-ND NEW! 5.18 4.17 3.80 LM3S308-IQN25-C2
4 3 36 3 — — 2 1 — 3 6 — — 48-VQFN 25 296-25518-5-ND NEW! 6.16 4.95 4.51 LM3S310-IG25-C2
4 7 32 3 250K 4 2 1 — 1 6 6 — 48-VQFN 25 296-25519-5-ND NEW! 6.16 4.95 4.51 LM3S315-IG25-C2
4 3 32 3 250K 4 2 1 1 1 6 6 — 48-VQFN 25 296-25520-5-ND NEW! 6.16 4.95 4.51 LM3S316-IG25-C2
4 3 30 3 250K 6 1 1 — 1 6 6 — 48-VQFN 25 296-25521-5-ND NEW! 6.16 4.95 4.51 LM3S317-IG25-C2
4 7 28 3 500K 8 2 1 1 — 6 — — 48-VQFN 25 296-25522-5-ND NEW! 5.18 4.17 3.80 LM3S328-IG25-C2
8 8 36 3 — — 2 1 1 3 6 — 1 48-VQFN 50 296-25523-5-ND NEW! 5.60 4.50 4.10 LM3S600-IG50-C2
8 8 36 3 — — 2 1 1 3 — 6 — 48-LQFP 50 726-1090-ND 5.60 4.50 4.10 LM3S600-IQN50
8 8 36 5 — — 2 1 1 3 — 6 — 48-LQFP 50 296-24909-ND NEW! 5.60 4.50 4.10 LM3S600-IQN50-C2
8 0 36 3 — — 2 1 1 3 6 6 1 48-VQFN 50 296-25524-5-ND NEW! 6.58 5.29 4.82 LM3S601-IG50-C2
8 0 36 3 — — 2 1 1 3 6 6 1 48-LQFP 50 726-1008-ND 6.58 5.29 4.82 LM3S601-IQN50-C2
8 5 28 3 500K 8 2 1 1 1 6 6 1 48-VQFN 50 296-25525-5-ND NEW! 5.60 4.50 4.10 LM3S608-IG50-C2
8 5 28 3 500K 8 2 1 1 1 — 6 — 48-LQFP 50 726-1091-ND 5.60 4.50 4.10 LM3S608-IQN50
8 5 28 5 500K 8 2 1 1 1 — 6 — 48-LQFP 50 296-24910-ND NEW! 5.60 4.50 4.10 LM3S608-IQN50-C2
8 6 34 3 500K 2 2 1 1 — 6 6 1 48-VQFN 50 296-25526-5-ND NEW! 6.58 5.29 4.82 LM3S610-IG50-C2
8 4 32 3 500K 4 2 1 1 — 6 6 1 48-VQFN 50 296-25527-5-ND NEW! 6.58 5.29 4.82 LM3S611-IG50-C2
8 7 34 3 500K 2 2 1 1 1 6 6 1 48-VQFN 50 296-25528-5-ND NEW! 6.58 5.29 4.82 LM3S612-IG50-C2
8 3 32 3 500K 4 2 1 1 1 6 6 1 48-VQFN 50 296-25529-5-ND NEW! 6.58 5.29 4.82 LM3S613-IG50-C2
8 3 32 3 500K 4 2 1 1 1 6 6 1 48-LQFP 50 726-1012-ND NEW! 6.58 5.29 4.82 LM3S613-IQN50-C2
8 0 34 3 500K 2 2 1 1 3 6 6 1 48-VQFN 50 296-25530-5-ND NEW! 6.58 5.29 4.82 LM3S615-IG50-C2
8 1 30 3 500K 6 2 1 1 1 6 6 1 48-VQFN 50 296-25531-5-ND NEW! 6.58 5.29 4.82 LM3S617-IG50-C2
8 0 30 3 500K 6 2 1 1 1 6 4 1 48-VQFN 50 296-25551-ND NEW! 6.58 5.29 4.82 LM3S618-IG50-C2
8 0 30 5 500K 6 2 1 — 1 6 4 1 48-LQFP 50 296-24911-ND NEW! 6.58 5.29 4.82 LM3S618-IQN50-C2
8 1 30 3 500K 6 2 1 — 1 6 4 1 48-LQFP 50 726-1015-ND 6.64 5.34 4.86 LM3S618-IQN50
8 9 28 3 1M 8 2 1 1 — 6 2 1 48-VQFN 50 296-25552-ND NEW! 5.60 4.50 4.10 LM3S628-IG50-C2
8 8 36 3 — — 2 1 1 3 6 — 1 48-VQFN 50 296-25532-5-ND NEW! 6.44 5.18 4.72 LM3S800-IG50-C2
8 8 36 3 — — 2 1 1 3 — 6 — 48-LQFP 50 726-1092-ND 6.44 5.18 4.72 LM3S800-IQN50
8 8 36 5 — — 2 1 1 3 — 6 — 48-LQFP 50 296-24917-ND NEW! 6.44 5.18 4.72 LM3S800-IQN50-C2
8 0 36 3 — — 2 1 1 3 6 6 1 48-VQFN 50 296-25533-5-ND NEW! 6.88 5.64 5.09 LM3S801-IG50-C2
8 5 28 3 500K 8 2 1 1 1 6 — 1 48-VQFN 50 296-25534-5-ND NEW! 6.44 5.18 4.72 LM3S808-IG50-C2
8 5 28 3 500K 8 2 1 1 1 — 6 — 48-LQFP 50 726-1093-ND 6.44 5.18 4.72 LM3S808-IQN50-C2
8 1 32 3 500K 4 2 1 1 1 6 6 1 48-VQFN 50 296-25535-5-ND NEW! 6.88 5.64 5.09 LM3S811-IG50-C2
8 1 32 5 500K 4 2 1 1 1 6 6 — 48-LQFP 50 296-24918-ND NEW! 6.88 5.64 5.09 LM3S811-IQN50-C2
8 7 34 3 250K 2 2 1 1 1 6 6 1 48-VQFN 50 296-25536-5-ND NEW! 6.88 5.64 5.09 LM3S812-IG50-C2
8 0 34 3 500K 2 2 1 1 3 6 6 1 48-VQFN 50 296-25537-5-ND NEW! 6.88 5.64 5.09 LM3S815-IG50-C2
8 1 30 3 1M 6 2 1 — 1 6 6 1 48-VQFN 50 296-25538-5-ND NEW! 6.88 5.64 5.09 LM3S817-IG50-C2
8 0 30 3 1M 6 2 1 — 1 6 6 — 48-LQFP 50 726-1021-ND 6.88 5.64 5.09 LM3S817-IQN50-C2
8 0 30 3 1M 6 2 1 — 1 8 4 1 48-VQFN 50 296-25539-5-ND NEW! 6.88 5.64 5.09 LM3S818-IG50-C2
8 0 30 3 1M 6 2 1 — 1 6 4 1 48-LQFP 50 726-1022-ND 6.88 5.64 5.09 LM3S818-IQN50
8 0 30 5 1M 6 2 1 — 1 6 4 1 48-LQFP 50 296-24919-ND NEW! 6.88 5.64 5.09 LM3S818-IQN50-C2
8 7 28 3 1M 8 2 1 1 — 6 6 — 48-VQFN 50 296-25540-5-ND NEW! 6.44 5.18 4.72 LM3S828-IG50-C2
High Pin Count Real-Time MCUs
16 20 41 3 — — 3 2 2 2 8 2 2 108-BGA 25 296-25665-ND NEW! 6.88 5.64 5.09 LM3S1110-IB25-A2
16 20 41 3 — — 2 1 1 2 — 2 — 100-LQFP 25 726-1094-ND 6.88 5.64 5.09 LM3S1110-IQC25-A2
16 9 44 4 250K 2 3 2 2 1 8 8 2 108-BGA 50 296-25666-ND NEW! 7.88 6.46 5.83 LM3S1133-IB50-A2
16 9 44 4 250K 2 3 2 1 1 2 8 2 100-LQFP 50 726-1095-ND 7.88 6.46 5.83 LM3S1133-IQC50-A2
16 9 46 4 1M 8 3 2 2 3 8 6 2 108-BGA 50 296-25667-ND NEW! 7.13 5.85 5.28 LM3S1138-IB50-A2
16 9 46 6 1M 8 3 2 2 3 — 6 — 100-LQFP 50 296-24900-ND NEW! 7.13 5.85 5.28 LM3S1138-IQC50-A2
16 7 52 4 — — 3 2 1 3 6 6 1 100-LQFP 50 726-1097-ND 7.88 6.46 5.83 LM3S1150-IQC50-A2
16 7 52 4 — — 3 2 2 3 8 6 2 108-BGA 50 296-25668-ND NEW! 7.88 6.46 5.83 LM3S1150-IB50-A2
16 4 46 4 500K 2 3 2 2 3 8 6 2 108-BGA 50 296-25669-ND NEW! 7.88 6.46 5.83 LM3S1162-IB50-A2
16 4 46 4 500K 2 3 2 1 3 6 6 — 100-LQPF 50 726-1098-ND 7.88 6.46 5.83 LM3S1162-IQC50-A2
16 4 43 4 500K 4 3 2 2 1 8 8 2 108-BGA 50 296-25670-ND NEW! 7.88 6.46 5.83 LM3S1165-IB50-A2
16 4 43 4 500K 4 3 2 1 1 6 8 — 100-LQFP 50 726-1099-ND 7.88 6.46 5.83 LM3S1165-IQC50-A2
16 29 57 4 250K 3 3 2 2 3 8 8 2 108-BGA 50 296-25671-ND NEW! 8.13 6.67 6.02 LM3S1332-IB50-A2
16 29 57 4 250K 3 2 1 — 3 — 8 — 100-LQFP 50 726-1100-ND 8.13 6.67 6.02 LM3S1332-IQC50-A2
32 21 46 3 500K 2 3 2 2 1 8 4 2 108-BGA 50 296-25672-ND NEW! 9.50 7.79 7.03 LM3S1435-IB50-A2
32 21 46 3 500K 2 2 1 1 1 2 4 — 100-LQFP 50 726-1101-ND 9.50 7.79 7.03 LM3S1435-IQC50-A2
32 14 52 3 500K 4 2 2 1 1 6 6 1 108-BGA 50 726-1134-ND 9.50 7.79 7.03 LM3S1439-IB50-A2
32 14 52 3 500K 4 2 2 1 1 6 6 1 100-LQFP 50 726-1102-ND 9.50 7.79 7.03 LM3S1439-IQC50-A2
64 15 58 4 250K 2 3 2 2 3 8 8 2 108-BGA 25 296-25673-ND NEW! 8.75 7.18 6.48 LM3S1512-IB25-A2
64 15 58 4 250K 2 3 2 2 3 — 8 1 100-LQFP 25 726-1103-ND 8.75 7.18 6.48 LM3S1512-IQC25-A2
64 9 43 4 500K 8 3 2 2 — — 8 1 100-LQFP 50 726-1104-ND 8.75 7.18 6.48 LM3S1538-IQC50-A2
64 9 43 4 500K 8 3 2 2 — 8 8 2 108-BGA 50 296-25674-ND NEW! 8.75 7.18 6.48 LM3S1538-IB50-A2
32 23 60 4 — — 3 2 2 2 8 8 2 108-BGA 50 296-25675-ND NEW! 8.38 6.87 6.20 LM3S1601-IB50-A2
32 23 60 4 — — 3 2 2 2 — 8 — 100-LQFP 50 726-1135-ND 8.38 6.87 6.20 LM3S1601-IQC50-A2
32 0 33 6 500K 8 3 2 2 — 8 6 2 64-LQFP 50 296-25363-ND NEW! 7.38 6.05 5.46 LM3S1607-IQR50-A0
32 17 52 4 500K 8 3 2 2 2 8 8 2 108-BGA 50 296-25676-ND NEW! 8.38 6.87 6.20 LM3S1608-IB50-A2
32 17 52 4 500K 8 2 2 2 2 — 8 — 100-LQFP 50 726-1136-ND 8.38 6.87 6.20 LM3S1608-IQC50-A2
32 11 52 3 — — 3 2 2 3 8 4 2 108-BGA 25 296-25677-ND NEW! 9.63 7.90 7.13 LM3S1620-IB25-A2
32 11 52 3 — — 2 2 1 3 6 4 1 100-LQFP 25 726-1105-ND 9.63 7.90 7.13 LM3S1620-IQC25-A2
32 0 33 6 500K 6 3 2 2 1 8 4 2 64-LQFP 50 296-25364-ND NEW! 7.63 6.26 5.65 LM3S1625-IQR50-A0
32 0 33 6 500K 6 3 2 2 — 8 4 2 64-LQFP 50 296-25658-ND NEW! 7.63 6.26 5.65 LM3S1626-IQR50-A0
32 0 33 6 500K 4 3 2 2 — 8 4 2 64-LQFP 50 296-25365-ND NEW! 7.88 6.46 5.83 LM3S1627-IQR50-A0
32 12 56 4 500K 4 3 2 2 2 8 8 2 108-BGA 50 296-25678-ND NEW! 9.63 7.90 7.13 LM3S1635-IB50-A2
32 12 56 4 500K 4 3 2 2 2 6 8 — 100-LQFP 50 726-1106-ND 9.63 7.90 7.13 LM3S1635-IQC50-A2
32 7 43 4 1M 4 3 2 2 1 8 6 2 108-BGA 50 296-25679-ND NEW! 9.63 7.90 7.13 LM3S1637-IB50-A2
32 7 43 4 1M 4 3 1 1 1 6 6 1 100-LQFP 50 726-1107-ND 9.63 7.90 7.13 LM3S1637-IQC50-A2
64 21 56 3 500K 4 3 2 2 1 8 6 2 108-BGA 50 296-25680-ND NEW! 10.25 8.41 7.59 LM3S1751-IB50-A2
64 21 56 3 500K 4 3 2 1 1 4 6 — 100-LQFP 50 726-1108-ND 10.25 8.41 7.59 LM3S1751-IQC50
64 21 56 5 500K 4 3 2 1 1 4 6 — 100-LQFP 50 296-24901-ND NEW! 10.25 8.41 7.59 LM3S1751-IQC50-A2
64 1 33 — 1M 6 3 2 2 — 8 2 2 64-LQFP 50 296-25366-ND NEW! 10.00 8.20 7.40 LM3S1776-IQR50-A0
32 17 56 3 — — 3 2 2 3 8 6 2 108-BGA 50 296-25681-ND NEW! 11.38 9.33 8.42 LM3S1850-IB50-A2
32 17 56 3 — — 2 1 1 3 6 6 1 100-LQFP 50 726-1109-ND 11.38 9.33 8.42 LM3S1850-IQC50-A2
64 23 60 4 — — 3 2 2 2 — 8 — 108-BGA 50 726-1137-ND 11.00 9.02 8.14 LM3S1911-IB50-A2
64 23 60 4 — — 3 2 2 2 — 8 — 100-LQFP 50 726-1138-ND 11.00 9.02 8.14 LM3S1911-IQC50-A2
64 17 52 4 500K 8 2 2 2 2 — 8 — 108-BGA 50 726-1139-ND 11.00 9.02 8.14 LM3S1918-IB50-A2
64 17 52 4 500K 8 2 2 2 2 — 8 — 100-LQFP 50 726-1140-ND 11.00 9.02 8.14 LM3S1918-IQC50-A2
64 27 56 3 1M 4 3 2 2 1 8 4 2 108-BGA 50 296-25682-ND NEW! 11.50 9.43 8.51 LM3S1937-IB50-A2
64 27 56 3 1M 4 2 1 1 1 6 4 — 100-LQFP 50 726-1110-ND 11.50 9.43 8.51 LM3S1937-IQC50-A2
64 21 52 4 1M 8 3 2 2 — — 8 — 108-BGA 50 726-1141-ND 11.00 9.02 8.14 LM3S1958-IB50-A2
64 21 52 4 1M 8 3 2 2 — — 8 — 100-LQFP 50 726-1111-ND 11.00 9.02 8.14 LM3S1958-IQC50-A2
64 21 52 6 1M 8 3 2 2 — — 8 — 100-LQFP 50 296-24902-ND NEW! 11.00 9.02 8.14 LM3S1958-IQC50-A2
† Minimum is numer o pins dedicated to GPIO additional pins are availale i certain peripherals are not used See data sheet or details ‡ One timer available as RTC § PWM motion control functionality can be achieved through dedicated
motion control hardware usin the PWM pins or throuh the motion control eatures o the eneral-purpose timers usin CCP pins See data sheet or details
(Continued)
C
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137
137

ARM® Cortex -M3 Microcontrollers (Cont.)
C
Flash
(KB)
256
64
96
128
256
64
96
128
256
128
128
96
128
ADC
PWM§
Speed
Sample No. of
Analog
(Clock
SRAM
Per 10-Bit
Comparators
PWM CCP
Frequency Digi-Key
Price Each
Texas Instruments
(KB) GPIOs† Timers‡ Second Channels UARTs SSI I2C
Pins Pins QEI Package in MHz) Part No.
1 25 100 Part No.
64 7 60 4 — — 3 2 2 3 8 8 2 108-BGA 50 296-25683-ND NEW! 11.50 9.43 8.51 LM3S1960-IB50-A2
64 7 60 4 — — 3 2 2 3 6 8 2 100-LQFP 50 726-1112-ND 11.50 9.43 8.51 LM3S1960-IQC50-A2
64 5 52 4 1M 8 3 2 2 3 6 4 2 100-LQFP 50 726-1113-ND 11.50 9.43 8.51 LM3S1968-IQC50-A2
64 5 52 4 1M 8 3 2 2 3 6 4 2 108-BGA 50 726-1142-ND 11.50 9.43 8.51 LM3S1968-IB50-A2
Ethernet Connected MCUs
16 8 35 3 — — 3 2 2 3 6 4 2 108-BGA 25 296-25696-ND NEW! 11.75 9.64 8.70 LM3S6110-IB25-A2
16 10 30 3 — — 3 2 2 1 6 4 2 108-BGA 25 296-25695-ND NEW! 11.50 9.43 8.51 LM3S6100-IB25-A2
16 10 30 3 — — 1 1 — 1 — 4 — 100-LQFP 25 726-1070-ND 11.50 9.43 8.51 LM3S6100-IQC25-A2
32 23 46 3 — — 3 2 2 2 6 4 2 108-BGA 25 296-25697-ND NEW! 11.75 9.64 8.70 LM3S6420-IB25-A2
32 12 34 3 250K 2 3 2 2 2 6 4 2 108-BGA 25 296-25698-ND NEW! 12.13 9.95 8.98 LM3S6422-IB25-A2
32 14 43 3 250K 3 2 1 1 2 2 4 — 108-BGA 50 726-1155-ND 11.55 9.72 8.93 LM3S6432-IB50-A2
32 14 43 5 250K 3 2 1 1 2 1 4 — 100-LQFP 50 296-24912-ND NEW! 11.55 9.72 8.93 LM3S6432-IQC50-A2
64 6 41 4 500K 4 3 2 2 2 6 6 2 108-BGA 50 296-25699-ND NEW! 11.88 9.99 9.18 LM3S6537-IB50-A2
64 6 41 4 500K 4 2 1 1 2 6 6 — 100-LQFP 50 726-1114-ND 11.88 9.99 9.18 LM3S6537-IQC50-A2
32 5 46 4 — — 3 2 2 3 6 6 2 108-BGA 25 296-25700-ND NEW! 12.21 10.27 9.44 LM3S6610-IB25-A2
32 10 46 4 — — 3 2 2 2 — 6 — 108-BGA 50 726-1156-ND 11.66 9.81 9.01 LM3S6611-IB50-A2
32 10 46 4 — — 3 2 2 2 — 6 — 100-LQFP 50 726-1157-ND 11.66 9.81 9.01 LM3S6611-IQC50-A2
32 5 38 4 500K 8 3 2 2 2 8 6 2 108-BGA 50 296-25701-ND NEW! 12.21 10.27 9.44 LM3S6618-IB50-A2
32 5 38 4 500K 8 2 2 2 2 — 6 — 100-LQFP 50 726-1158-ND 12.21 10.27 9.44 LM3S6618-IQC50-A2
32 15 41 3 500K 3 3 2 2 1 6 6 2 108-BGA 50 296-25702-ND NEW! 12.21 10.27 9.44 LM3S6633-IB50-A2
32 11 41 4 1M 4 2 1 1 3 — 6 — 108-BGA 50 726-1159-ND 12.43 10.46 9.61 LM3S6637-IB50-A2
64 23 46 3 — — 1 1 — 2 — 4 — 108-BGA 50 726-1160-ND 12.65 10.64 9.78 LM3S6730-IB50-A2
64 5 41 4 500K 4 3 2 2 2 6 4 2 108-BGA 50 296-25703-ND NEW! 12.65 10.64 9.78 LM3S6753-IB50-A2
64 5 41 4 500K 4 2 1 1 2 6 4 1 100-LQFP 50 726-1115-ND 12.65 10.64 9.78 LM3S6753-IQC50-A2
64 10 46 4 — — 3 2 2 2 — 6 — 108-BGA 50 726-1161-ND 12.76 10.73 9.86 LM3S6911-IB50-A2
64 10 46 4 — — 3 2 2 2 — 6 — 100-LQFP 50 726-1162-ND 12.76 10.73 9.86 LM3S6911-IQC50
64 10 46 6 — — 3 2 2 2 — 6 — 100-LQFP 50 296-24913-ND NEW! 12.76 10.73 9.86 LM3S6911-IQC50-A2
64 5 38 4 500K 8 2 2 2 2 — 6 — 108-BGA 50 726-1163-ND 12.98 10.92 10.03 LM3S6918-IB50-A2
64 5 38 4 500K 8 2 2 2 2 — 6 — 100-LQFP 50 726-1164-ND 12.98 10.92 10.03 LM3S6918-IQC50
64 5 38 6 500K 8 2 2 2 2 — 6 — 100-LQFP 50 296-24914-ND NEW! 12.76 10.73 9.86 LM3S6918-IQC50-A2
64 7 38 4 1M 8 3 1 1 3 — 6 — 108-BGA 50 726-1165-ND 13.86 11.66 10.71 LM3S6938-IB50-A2
64 7 38 4 1M 8 3 1 2 3 6 6 — 100-LQFP 50 296-26107-ND NEW! 13.86 11.66 10.71 LM3S6938-IQC50-A2
64 1 46 4 — — 3 2 2 3 6 6 2 108-BGA 50 296-25704-ND NEW! 13.86 11.66 10.71 LM3S6950-IB50-A2
64 1 46 4 — — 3 2 1 3 6 6 1 100-LQFP 50 726-1116-ND 13.86 11.66 10.71 LM3S6950-IQC50
64 1 46 6 — — 3 2 1 3 6 6 1 100-LQFP 50 296-24915-ND NEW! 13.86 11.66 10.71 LM3S6950-IQC50-A2
64 6 43 3 500K 3 3 2 2 3 6 4 2 108-BGA 50 296-25705-ND NEW! 13.86 11.66 10.71 LM3S6952-IB50-A2
64 0 42 4 1M 4 3 1 2 2 6 4 2 108-BGA 50 726-1166-ND 15.29 12.86 11.82 LM3S6965-IB50-A2
64 0 42 4 1M 4 3 1 2 2 6 4 2 100-LQFP 50 726-1081-ND 15.29 12.86 11.82 LM3S6965-IQC50
64 0 42 6 1M 4 3 1 2 2 6 4 2 100-LQFP 50 296-24916-ND NEW! 15.29 12.86 11.82 LM3S6965-IQC50-A2
CAN Connected MCUs
16 11 40 3 — — 3 2 2 3 8 4 2 108-BGA 25 296-25684-ND NEW! 8.25 6.77 6.11 LM3S2110-IB25-A2
16 26 56 3 250K 4 3 2 2 3 8 6 2 108-BGA 25 296-25685-ND NEW! 8.25 6.77 6.11 LM3S2139-IB25-A2
32 0 33 3 1M 6 1 1 1 — 8 1 — 64-LQPF 50 726-1178-ND 8.25 6.77 6.11 LM3S2678-IQR50-A0
32 37 60 3 250K 3 3 2 2 2 8 4 2 108-BGA 25 296-25686-ND NEW! 9.13 7.49 6.76 LM3S2410-IB25-A2
32 20 49 3 250K 3 3 2 2 2 8 4 2 108-BGA 25 296-25687-ND NEW! 9.63 7.90 7.13 LM3S2412-IB25-A2
32 5 34 3 250K 3 3 2 2 2 8 4 2 108-BGA 50 296-25688-ND NEW! 9.63 7.90 7.13 LM3S2432-IB50-A2
64 11 48 4 250K 3 3 2 2 3 8 6 2 108-BGA 50 296-25689-ND NEW! 10.25 8.41 7.59 LM3S2533-IB50-A2
64 10 48 4 250K 3 2 1 1 3 6 6 — 100-LQFP 50 726-1060-ND 10.25 8.41 7.59 LM3S2533-IQC50-A2
16 1 33 — 1M 6 3 2 2 2 8 — 2 64-LQFP 50 296-25367-ND NEW! 8.63 7.08 6.39 LM3S2616-IQR50-A0
32 21 60 4 — — 3 2 2 2 8 8 2 108-BGA 50 296-25690-ND NEW! 9.50 7.79 7.03 LM3S2601-IB50-A2
32 21 60 4 — — 3 2 2 2 — 8 — 100-LQFP 50 726-1143-ND 9.50 7.79 7.03 LM3S2601-IQC50-A2
32 15 52 4 500K 8 3 2 2 2 8 8 2 108-BGA 50 296-25691-ND NEW! 9.50 7.79 7.03 LM3S2608-IB50-A2
32 15 52 4 500K 8 2 2 2 2 — 8 — 100-LQFP 50 726-1144-ND 9.50 7.79 7.03 LM3S2608-IQC50-A2
32 12 52 4 — — 1 1 1 3 4 6 1 108-BGA 25 726-1145-ND 9.63 7.90 7.13 LM3S2620-IB25-A2
32 15 46 4 500K 4 3 2 2 3 8 6 2 108-BGA 50 296-25692-ND NEW! 9.63 7.90 7.13 LM3S2637-IB50-A2
32 16 53 4 500K 4 3 2 2 1 8 6 2 108-BGA 50 296-25693-ND NEW! 9.63 7.90 7.13 LM3S2651-IB50-A2
32 3 33 — 500K 4 3 2 2 3 8 2 2 64-LQFP 50 296-25368-ND NEW! 8.63 7.08 6.39 LM3S2671-IQR50-A0
32 1 33 4 500K 8 1 1 — — 4 2 1 64-LQPF 50 726-1179-ND 8.88 7.28 6.57 LM3S2678-IQR50-A0
64 37 60 3 — — 1 1 — 2 — 4 — 108-BGA 50 726-1146-ND 10.25 8.41 7.59 LM3S2730-IB50-A2
64 37 60 3 — — 1 1 — 2 — 4 — 100-LQFP 50 726-1064-ND 10.25 8.41 7.59 LM3S2730-IQC50-A2
64 0 33 3 1M 6 1 1 1 — 8 1 — 64-LQPF 50 726-1180-ND 12.98 10.92 10.03 LM3S2776-IQR50-A0
64 27 61 — 500K 8 3 2 2 — 8 2 2 100-LQFP 50 296-25372-ND NEW! 11.33 9.53 8.76 LM3S5747-IQC50-A0
64 21 60 4 — — 3 2 2 2 — 8 — 108-BGA 50 726-1148-ND 11.63 9.54 8.61 LM3S2911-IB50-A2
64 21 60 4 — — 3 2 2 2 — 8 — 100-LQFP 50 726-1149-ND 11.63 9.54 8.61 LM3S2911-IQC50-A2
64 15 52 4 500K 8 2 2 2 2 — 8 — 108-BGA 50 726-1150-ND 11.63 9.54 8.61 LM3S2918-IB50-A2
64 15 52 4 500K 8 2 2 2 2 — 8 — 100-LQFP 50 726-1151-ND 11.63 9.54 8.61 LM3S2918-IQC50-A2
64 18 57 3 500K 3 3 1 1 3 4 4 1 108-BGA 50 726-1152-ND 11.63 9.54 8.61 LM3S2939-IB50-A2
64 12 52 4 1M 8 3 2 1 3 — 8 — 108-BGA 50 726-1153-ND 11.63 9.54 8.61 LM3S2948-IB50-A2
64 12 52 4 1M 8 3 2 1 3 — 8 — 100-LQFP 50 726-1067-ND 11.63 9.54 8.61 LM3S2948-IQC50-A2
64 10 60 4 — — 3 2 2 3 8 6 2 108-BGA 50 296-25694-ND NEW! 11.63 9.54 8.61 LM3S2950-IB50-A2
64 10 60 4 — — 3 2 1 3 6 6 1 100-LQFP 50 726-1068-ND 11.63 9.54 8.61 LM3S2950-IQC50-A2
64 3 56 4 1M 4 3 2 2 3 6 6 2 108-BGA 50 726-1154-ND 11.63 9.54 8.61 LM3S2965-IB50-A2
64 3 56 4 1M 4 3 2 2 3 6 6 2 100-LQFP 50 726-1069-ND 11.63 9.54 8.61 LM3S2965-IQC50
64 3 56 6 1M 4 3 2 2 3 6 6 2 100-LQFP 50 296-24903-ND NEW! 11.63 9.54 8.61 LM3S2965-IQC50-A2
USB + CAN Internetworking MCUs
32 0 33 5 500K 6 3 2 2 1 8 6 2 64-LQFP 50 296-25660-ND NEW! 11.63 9.54 8.61 LM3S5652-IQR50-A0
64 20 56 3 500K 4 2 1 1 1 6 6 1 108-BGA 50 726-1147-ND 10.50 8.61 7.77 LM3S2739-IB50-A2
64 1 33 — 500K 6 3 2 2 — 8 5 2 64-LQFP 50 296-25370-ND NEW! 12.38 10.15 9.16 LM3S5732-IQR50-A0
64 27 61 — 500K 8 3 2 2 — 8 3 2 100-LQFP 50 296-25371-ND NEW! 11.33 9.53 8.76 LM3S5737-IQC50-A0
64 0 33 5 500K 6 3 2 2 1 8 6 2 64-LQFP 50 296-25662-ND NEW! 12.38 10.15 9.16 LM3S5752-IQR50-A0
64 0 33 5 500K 4 3 2 2 — 8 5 2 64-LQFP 50 296-25656-ND NEW! 12.38 10.15 9.16 LM3S5762-IQR50-A0
USB Connected MCUs
32 0 33 6 500K 4 3 2 2 2 8 8 1 64-LQFP 50 296-25655-ND NEW! 11.25 9.23 8.33 LM3S3651-IQR50-A0
32 1 33 3 500K 6 2 1 2 — — 5 — 64-LQPF 50 726-1182-ND 11.38 9.33 8.42 LM3S5632-IQR50
32 1 33 5 500K 6 2 — 2 — — 5 — 64-LQFP 50 296-24907-ND NEW! 11.38 9.33 8.42 LM3S5632-IQR50-A0
64 14 61 — 500K 8 3 2 2 2 8 8 1 100-LQFP 50 296-25369-ND NEW! 11.11 9.35 8.59 LM3S3739-IQC50-A0
64 3 61 4 1M 8 2 2 2 2 8 8 1 100-LQPF 50 726-1181-ND 11.11 9.35 8.59 LM3S3748-IQC50
64 3 61 6 1M 8 2 — 2 2 8 8 1 100-LQFP 50 296-24906-ND NEW! 11.11 9.35 8.59 LM3S3748-IQC50-A0
64 0 61 6 1M 8 3 2 2 2 8 7 1 100-LQFP 50 296-25659-ND NEW! 11.11 9.35 8.59 LM3S3749-IQC50-A0
64 12 61 6 500K 8 3 2 2 2 8 8 2 100-LQFP 50 296-25661-ND NEW! 11.33 9.53 8.76 LM3S5739-IQC50-A0
64 0 61 4 1M 8 2 2 2 2 8 5 1 100-LQPF 50 726-1183-ND 11.33 9.53 8.76 LM3S5749-IQC50
64 0 61 6 1M 8 2 — 2 2 8 5 1 100-LQFP 50 296-24908-ND NEW! 11.33 9.53 8.76 LM3S5749-IQC50-A0
Ethernet + CAN Internetworking MCUs
64 8 35 4 — — 3 2 2 — 6 2 2 108-BGA 50 296-25706-ND NEW! 14.08 11.84 10.88 LM3S8530-IB50-A2
64 8 35 4 — — 1 2 1 — — 2 — 100-LQFP 50 726-1117-ND 14.08 11.84 10.88 LM3S8530-IQC50-A2
64 7 36 4 1M 8 3 2 2 3 6 4 2 108-BGA 50 296-25707-ND NEW! 13.64 11.47 10.54 LM3S8538-IB50-A2
64 7 36 4 1M 8 2 1 1 3 — 4 — 100-LQFP 50 726-1118-ND 13.64 11.47 10.54 LM3S8538-IQC50-A2
32 10 31 4 — — 2 1 1 — — 2 — 100-LQFP 50 726-1119-ND 12.54 10.55 9.69 LM3S8630-IQC50-A2
32 10 31 4 — — 3 2 2 — 6 2 2 108-BGA 50 296-25708-ND NEW! 12.54 10.55 9.69 LM3S8630-IB50-A2
64 11 32 4 — — 3 2 2 — 6 2 2 108-BGA 50 296-25709-ND NEW! 13.09 11.01 10.12 LM3S8730-IB50-A2
64 11 32 4 — — 2 1 1 — — 2 — 100-LQFP 50 726-1120-ND 13.09 11.01 10.12 LM3S8730-IQC50-A2
64 5 35 4 500K 4 3 2 2 — 6 4 2 108-BGA 50 296-25710-ND NEW! 13.09 11.01 10.12 LM3S8733-IB50-A2
† Minimum is numer o pins dedicated to GPIO additional pins are availale i certain peripherals are not used See data sheet or details ‡ One timer available as RTC § PWM motion control functionality can be achieved through dedicated
motion control hardware usin the PWM pins or throuh the motion control eatures o the eneral-purpose timers usin CCP pins See data sheet or details
(Continued)
138 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

ARM® Cortex -M3 Microcontrollers (Cont.)
Flash
(KB)
128
256
256
ADC
PWM§
Speed
Sample No. of
Analog
(Clock
SRAM
Per 10-Bit
Comparators
PWM CCP
Frequency Digi-Key
Price Each
Texas Instruments
(KB) GPIOs† Timers‡ Second Channels UARTs SSI I2C
Pins Pins QEI Package in MHz) Part No.
1 25 100 Part No.
64 5 35 4 500K 4 2 1 1 3 — 4 — 100-LQFP 50 726-1121-ND 13.09 11.01 10.12 LM3S8733-IQC50-A2
64 4 38 4 500K 8 3 2 1 1 — 6 — 100-LQFP 50 726-1122-ND 12.98 10.92 10.03 LM3S8738-IQC50-A2
64 4 38 4 500K 8 3 2 2 1 6 6 2 108-BGA 50 296-25711-ND NEW! 12.98 10.92 10.03 LM3S8738-IB50-A2
64 13 34 4 — — 3 2 2 — 6 2 2 108-BGA 50 296-25712-ND NEW! 14.30 12.03 11.05 LM3S8930-IB50-A2
64 13 34 4 — — 1 1 1 — — 2 — 100-LQFP 50 726-1123-ND 14.30 12.03 11.05 LM3S8930-IQC50-A2
64 6 36 4 1M 4 3 2 2 3 6 4 2 108-BGA 50 296-25713-ND NEW! 14.08 11.84 10.88 LM3S8933-IB50-A2
64 6 36 4 1M 4 2 1 1 3 — 4 — 100-LQFP 50 726-1124-ND 14.08 11.84 10.88 LM3S8933-IQC50-A2
64 3 38 4 1M 8 3 2 2 3 6 6 2 108-BGA 50 296-25714-ND NEW! 14.08 11.84 10.88 LM3S8938-IB50-A2
64 3 38 4 1M 8 3 1 2 3 — 6 — 100-LQFP 50 726-1125-ND 15.95 13.42 12.33 LM3S8938-IQC50
64 3 38 6 1M 8 3 1 2 3 — 6 — 100-LQFP 50 296-24920-ND NEW! 14.08 11.84 10.88 LM3S8938-IQC50-A2
64 5 42 4 500K 4 2 1 1 1 6 2 2 108-BGA 50 726-1167-ND 14.19 11.94 10.97 LM3S8962-IB50-A2
64 5 42 4 500K 4 2 1 1 1 6 2 2 100-LQFP 50 726-1126-ND 14.19 11.94 10.97 LM3S8962-IQC50
64 5 42 6 500K 4 2 1 1 1 6 2 2 100-LQFP 50 296-24921-ND NEW! 14.19 11.94 10.97 LM3S8962-IQC50-A2
64 17 46 4 — — 2 2 1 — — 2 — 108-BGA 50 726-1168-ND 15.07 12.68 11.65 LM3S8970-IB50-A2
64 17 46 4 — — 2 2 1 — — 2 — 100-LQFP 50 726-1127-ND 15.07 12.68 11.65 LM3S8970-IQC50
64 17 46 6 — — 2 2 1 — — 2 — 100-LQFP 50 296-24922-ND NEW! 15.07 12.68 11.65 LM3S8970-IQC50-A2
64 4 38 4 1M 8 1 1 — 1 6 6 1 108-BGA 50 726-1169-ND 14.08 11.84 10.88 LM3S8971-IB50-A2
64 4 38 4 1M 8 1 1 — 1 6 6 1 100-LQFP 50 726-1170-ND 14.08 11.84 10.88 LM3S8971-IQC50
64 4 38 4 1M 8 1 1 — 1 6 6 1 100-LQFP 50 296-24923-ND NEW! 14.08 11.84 10.88 LM3S8971-IQC50-A2
NEW! USB + Ethernet + CAN Internetworking MCUs NEW!
64 0 60 4 1M 2 3 2 2 2 6 8 2 100-LQFP 80 296-25345-ND 16.94 14.25 13.09 LM3S9997-IQC80-C1
96 0 60 4 1M 16 3 2 2 3 — 8 — 100-LQFP 80 296-25346-ND 16.94 14.25 13.09 LM3S9B90-IQC80-C1
96 0 65 4 1M 2 3 2 2 3 8 8 2 100-LQFP 80 296-25347-ND 17.49 14.71 13.52 LM3S9B92-IQC80-C1
96 0 65 4 1M 16 3 2 2 3 8 8 2 100-LQFP 80 296-25349-ND 17.49 14.71 13.52 LM3S9B95-IQC80-C1
96 0 65 4 1M 16 3 2 2 3 8 8 2 100-LQFP 100 296-25348-ND 19.58 16.47 15.13 LM3S9B95-IQC100-C0
† Minimum is numer o pins dedicated to GPIO additional pins are availale i certain peripherals are not used See data sheet or details ‡ One timer available as RTC § PWM motion control functionality can be achieved through dedicated
motion control hardware usin the PWM pins or throuh the motion control eatures o the eneral-purpose timers usin CCP pins See data sheet or details
C
Stellaris ® Evaluation and Design Kits
Description
Digi-Key
Part No.
Price
Each
Texas Instruments
Part No.
LM3S811 Evaluation Kit; Keil RealView® 726-1044-ND 49.10 EKK-LM3S811
LM3S811 Evaluation Kit; IAR Systems 726-1043-ND 49.10 EKI-LM3S811
LM3S811 Evaluation Kit; CodeSourcery G++ GNU 726-1042-ND 49.10 EKC-LM3S811
LM3S811 Evaluation Kit; Code Red Technologies 726-1129-ND 49.10 EKT-LM3S811
LM3S811 Evaluation Kit with Code Composer Studio 296-25783-ND NEW! 49.10 EKS-LM3S811
LM3S1968 Evaluation Kit; Keil RealView 726-1082-ND 59.15 EKK-LM3S1968
LM3S1968 Evaluation Kit; IAR Systems 726-1084-ND 59.15 EKI-LM3S1968
LM3S1968 Evaluation Kit; CodeSourcery G++ GNU 726-1083-ND 59.15 EKC-LM3S1968
LM3S1968 Evaluation Kit; Code Red Technologies 726-1130-ND 59.15 EKT-LM3S1968
LM3S2965 CAN Evaluation Kit; Keil RealView 726-1053-ND 79.20 EKK-LM3S2965
LM3S2965 CAN Evaluation Kit; IAR Systems 726-1051-ND 79.20 EKI-LM3S2965
LM3S2965 CAN Evaluation Kit; CodeSourcery G++ GNU 726-1049-ND 79.20 EKC-LM3S2965
LM3S2965 CAN Evaluation Kit; Code Red Technologies 726-1131-ND 79.20 EKT-LM3S2965
LM3S2965 Evaluation Kit with Code Composer Studio 296-25780-ND NEW! 79.20 EKS-LM3S2965
LM3S3748 USB Host/Device Evaluation Kit; Keil RealView 726-1184-ND 109.25 EKK-LM3S3748
LM3S3748 USB Host/Device Evaluation Kit; IAR Systems 726-1185-ND 109.25 EKI-LM3S3748
LM3S3748 USB Host/Device Evaluation Kit; CodeSourcery G++ GNU 726-1186-ND 109.25 EKC-LM3S3748
LM3S3748 USB Host/Device Evaluation Kit; Code Red Technologies 726-1187-ND 109.25 EKT-LM3S3748
LM3S3748 Evaluation Kit with Code Composer Studio 296-25781-ND NEW! 109.25 EKS-LM3S3748
LM3S6965 Ethernet Evaluation Kit; Keil RealView 726-1054-ND 69.15 EKK-LM3S6965
LM3S6965 Ethernet Evaluation Kit; IAR Systems 726-1052-ND 69.15 EKI-LM3S6965
LM3S6965 Ethernet Evaluation Kit; CodeSourcery G++ GNU 726-1050-ND 69.15 EKC-LM3S6965
LM3S6965 Ethernet Evaluation Kit; Code Red Technologies 726-1132-ND 69.15 EKT-LM3S6965
LM3S6965 Evaluation Kit with Code Composer Studio 296-25782-ND NEW! 69.15 EKS-LM3S6965
LM3S8962 Ethernet+CAN Evaluation Kit; Keil RealView 726-1085-ND 89.20 EKK-LM3S8962
LM3S8962 Ethernet+CAN Evaluation Kit; IAR Systems 726-1087-ND 89.20 EKI-LM3S8962
LM3S8962 Ethernet+CAN Evaluation Kit; CodeSourcery G++ GNU 726-1086-ND 89.20 EKC-LM3S8962
LM3S8962 Ethernet+CAN Evaluation Kit; Code Red Technologies 726-1133-ND 89.20 EKT-LM3S8962
LM3S8962 Evaluation Kit with Code Composer Studio 296-25784-ND NEW! 89.20 EKS-LM3S8962
LM3S9B90 Evaluation Kit; Keil RealView 726-1196-ND 99.20 EKK-LM3S9B90
LM3S9B90 Evaluation Kit; IAR Systems 726-1197-ND 99.20 EKI-LM3S9B90
LM3S9B90 Evaluation Kit; CodeSourcery G++ GNU 726-1198-ND 99.20 EKC-LM3S9B90
LM3S9B90 Evaluation Kit; Code Red Technologies 726-1199-ND 99.20 EKT-LM3S9B90
LM3S9B90 Evaluation Kit with Code Composer Studio 296-25785-ND NEW! 99.20 EKS-LM3S9B90
LM3S9B92 Evaluation Kit; Keil RealView 726-1200-ND 99.20 EKK-LM3S9B92
LM3S9B92 Evaluation Kit; IAR Systems 726-1201-ND 99.20 EKI-LM3S9B92
LM3S9B92 Evaluation Kit; CodeSourcery G++ GNU 726-1202-ND 99.20 EKC-LM3S9B92
LM3S9B92 Evaluation Kit; Code Red Technologies 726-1203-ND 99.20 EKT-LM3S9B92
LM3S9B92 Evaluation Kit with Code Composer Studio 296-25786-ND NEW! 99.20 EKS-LM3S9B92
DK-LM3S9B96 Development Kit; Keil, IAR, Code Sourcery, and Code Red 726-1194-ND 425.85 DK-LM3S9B96
FPGA Expansion Board for DK-LM3S9B96 296-27564-ND NEW! 176.12 DK-LM3S9B96-FPGA
Memory Expansion Board for DK-LM3S9B96 296-25451-ND NEW! 52.22 DK-LM3S9B96-FS8
LM3S11968 Evaluation Kit with Code Composer Studio 296-25779-ND NEW! 59.15 EKS-LM3S1968
Intelligent Display Reference Design Kit 726-1176-ND 219.45 RDK-IDM
Serial-to-Ethernet Reference Design Kit 726-1177-ND 139.30 RDK-S2E
AC Induction Motor Reference Design Kit 726-1047-ND 379.80 RDK-ACIM
Brushless DC Motor Control Reference Design Kit 726-1128-ND 219.45 RDK-BLDC
Stepper Motor Reference Design Kit 726-1048-ND 199.40 RDK-STEPPER
Intelligent isplay Module with .5 andscape isplay 726-1191-ND 219.45 RDK-IDM-L35
Stellaris Brushed DC Motor Control Module with CAN 726-1192-ND 219.00 RDK-BDC
Stellaris Intelligent Display Module Single-Board Computer 726-1195-ND 299.60 RDK-IDM-SBC
Production Ready Modules
Description
Digi-Key
Part No.
Price
Each
Texas Instruments
Part No.
Intellient Display Module 726-1174-ND 199.40 MDL-IDM
Serial-to-Ethernet Module 726-1175-ND 49.10 MDL-S2E
Stellaris ACIM Control Board 726-1171-ND 239.50 MDL-ACIM
Brushless DC Motor Control Board 726-1172-ND 149.30 MDL-BLDC
Stellaris Stepper Motor Control Board 726-1173-ND 169.35 MDL-STEPPER
Intellient Display Module with 3.5 Landscape Display 726-1190-ND 185.40 MDL-IDM-L35
Description
Digi-Key
Part No.
Price
Each
Texas Instruments
Part No.
Stellaris 12V Brushed DC Motor Control Board 726-1189-ND 109.00 MDL-BDC
Ethernet-Enaled Intellient Display Module 726-1188-ND 185.40 MDL-IDM28
10-Pin to 20-Pin JTAG Adapter Module 726-1193-ND 20.00 MDL-ADA2
Stellaris Brushed DC Motor Control Module with CAN 296-25445-ND NEW! 109.00 MDL-BDC24
Stellaris Brushed DC Motor Control Reerence Desin Kit 296-25446-ND NEW! 219.45 RDK-BDC24
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
139
139

ZNEO Z16F Series
The NEO 16F Series o Flash microcontrollers represents
ilos evolution into 16-it processin. The NEO 16F
CPU instruction set has een optimized or near sinle-cycle
instructions yieldin up to 20 MIPS at 20MHz. Comined
with 128KB o zero wait state internal Flash, powerul math
unctions, 32-it ALU supportin 8, 16 and 32-it operations,
emedded 32 x 32 multiply/ 64 x 32 divide operations, 16-it
us widths and external 16-it us or the 16F2811s,
the NEO 16F delivers a powerul, yet cost eective microcontroller
solution. A rich array of peripherals and analog
features make this microcontroller suitable for a large number
of applications from security panels to motor control.
Features: WDT POR VBO 12-Channel, 10-it ADC
Analo Comparator Operational Ampliier
Memory Size
(Bytes)
32K
64K
128K
RAM
(Bytes)
I/O
Pins
Operating
Voltage
Speed
(MHz)
Timers
(16-bit)
Package
Digi-Key
Part No.
Price Each
1 25 100
Zilog
Part No.
Development
Tools
4 76 2.7 3.6V 20 3 80-QFP 269-4569-ND 7.80 5.85 4.33 16F3211FI20SG 269-4537-ND
4 76 2.7 3.6V 20 3 100-LQFP 269-4568-ND 7.95 5.97 4.41 16F3211AL20SG 269-4537-ND
4 76 2.7 3.6V 20 3 80-QFP 269-4571-ND 8.43 6.33 4.69 16F6411FI20SG 269-4537-ND
4 76 2.7 3.6V 20 3 100-LQFP 269-4570-ND 8.58 6.44 4.76 16F6411AL20SG 269-4537-ND
4 46 2.7 3.6V 20 3 64-LQFP 269-4535-ND 8.49 6.37 4.71 16F2810AG20SG 269-4537-ND
4 46 2.7 3.6V 20 3 68-PLCC 269-4536-ND 8.52 6.39 4.73 16F2810VH20SG 269-4537-ND
4 46 2.7 3.6V 20 3 68-PLCC 269-4691-5-ND 8.97 6.73 4.99 16F2810VH20EG 269-4537-ND
4 60 2.7 3.6V 20 3 80-QFP 269-4534-ND 9.12 6.84 5.06 16F2811FI20SG 269-4537-ND
4 76 2.7 3.6V 20 3 80-QFP 269-4567-ND 8.64 6.48 4.80 16F2810FI20SG 269-4537-ND
4 76 2.7 3.6V 20 3 100-LQFP 269-4533-ND 9.24 6.93 5.14 16F2811AL20SG 269-4537-ND
C
Crimzon Z8 OTP Microcontrollers
ilos Crimzon amily o microcontrollers is ideal or use in applications
requiring infrared transmission capability. Based on the famous Z8 core, this
amily o microcontrollers provides up to 1KB random access memory RAM,
up to 128KB o one-time prorammale OTP memory or 64K read-only ROM
memory, and a built-in learning amplifier all of which contribute to significant bill
of material cost reductions.
Features: WDT LV Detect POR 2 Comparators HVD Speed 8MHz
Timers 8/16-it 1/1 Operatin Voltae 2.0V 3.6V Temperature Rane
0°C 70°C
OTP
(Bytes)
4K
8K
16K
32K
Crimzon® Infrared Microcontrollers
ZLF645 Series Flash MCUs
Flash
RAM I/O
Digi-Key
Tube Price Each
Zilog
Development
(Bytes) (Bytes) Lines Package Part No.
1 25 100 Part No.
Tools
64K 1K 24 28-SOIC 269-4707-5-ND 3.18 2.40 1.70 LF645E0S2864G 269-4685-ND
Z8 Encore! ® Flash Microcontrollers
Zilog redefines 8-bit with the new Z8 Encore! family of flash microcontrollers. Featuring flash memory and the
high-performance register-to-register architecture. Z8 Encore! MCU accelerates design development while
re ducing total system cost. The same CPU core and peripheral interfaces ensure code compatibility across
Memory Size
Program
(Bytes)
1K
RAM
(Bytes)
I/O
Lines
Package
Digi-Key
Part No.
Price Each
1 25 100
Zilog
Part No.
Development
Tools
237 16 20-DIP 269-3854-ND 3.96 2.97 2.20 LP32300P2004G 269-3398-ND
237 16 20-SOIC 269-3857-ND 3.76 2.84 2.03 LP32300S2004G 269-3398-ND
237 16 20-SSOP 269-3851-ND 3.66 2.75 2.03 LP32300H2004G 269-3398-ND
237 24 28-DIP 269-3855-ND 4.29 3.22 2.39 LP32300P2804G 269-3398-ND
237 24 28-SOIC 269-3858-ND 3.75 2.82 2.09 LP32300S2804G 269-3398-ND
237 24 28-SSOP 269-3852-ND 3.75 2.82 2.09 LP32300H2804G 269-3398-ND
237 32 40-DIP 269-3856-ND 4.65 3.49 2.59 LP32300P4004G 269-3398-ND
237 32 48-SSOP 269-3853-ND 3.78 2.84 2.10 LP32300H4804G 269-3398-ND
237 16 20-DIP 269-3422-ND 4.20 3.15 2.34 LP32300P2008C 269-3398-ND
237 16 20-SOIC 269-3423-ND 3.90 2.93 2.17 LP32300S2008C 269-3398-ND
237 16 20-SSOP 269-3424-ND 3.90 2.93 2.17 LP32300H2008C 269-3398-ND
237 24 28-DIP 269-3425-ND 4.56 3.42 2.53 LP32300P2808C 269-3398-ND
237 24 28-SOIC 269-3426-ND 4.02 3.02 2.23 LP32300S2808C 269-3398-ND
237 24 28-SSOP 269-3427-ND 4.02 3.02 2.23 LP32300H2808C 269-3398-ND
237 32 40-DIP 269-3428-ND 4.92 3.69 2.73 LP32300P4008C 269-3398-ND
237 32 48-SSOP 269-3429-ND 4.02 3.02 2.24 LP32300H4808C 269-3398-ND
237 16 20-DIP 269-3406-ND 4.74 3.56 2.63 LP32300P2016C 269-3398-ND
237 16 20-SOIC 269-3407-ND 4.17 3.13 2.31 LP32300S2016C 269-3398-ND
237 16 20-SSOP 269-3408-ND 4.44 3.33 2.46 LP32300H2016C 269-3398-ND
237 24 28-DIP 269-3409-ND 4.80 3.60 2.67 LP32300P2816C 269-3398-ND
237 24 28-SOIC 269-3410-ND 4.26 3.20 2.37 LP32300S2816C 269-3398-ND
237 24 28-SSOP 269-3411-ND 4.26 3.20 2.37 LP32300H2816C 269-3398-ND
237 32 40-DIP 269-3412-ND 5.16 3.87 2.87 LP32300P4016C 269-3398-ND
237 32 48-SSOP 269-3413-ND 4.29 3.22 2.39 LP32300H4816C 269-3398-ND
237 16 20-DIP 269-3414-ND 4.98 3.74 2.77 LP32300P2032C 269-3398-ND
237 16 20-SOIC 269-3415-ND 4.44 3.33 2.46 LP32300S2032C 269-3398-ND
237 16 20-SSOP 269-3416-ND 4.44 3.33 2.46 LP32300H2032C 269-3398-ND
OTP
(Bytes)
237 24 28-DIP 269-3417-ND 5.07 3.81 2.81 LP32300P2832C 269-3398-ND ◆ RoHS Compliant
◆ RoHS Compliant † Tube Note: emperature Rane: • Commercial: -C ~ C Extended -4C ~ 15C
32K
64K
96K
128K
the entire family. Incorporate the Z8 Encore! into new designs or upgrade from the existing Z8 architecture.
Features rogram Memory Type lash and On-Chip Special eatures OR, O and T COMM Interfaces:
I 2 C, UART and OCD
Clock Timer/
RAM I/O Serial
VCC Speed Counters Operating
Digi-Key
Price Each Zilog
Development
(Bytes) Pins Communication ADC (V) (MHz) (16-bit) Temp. Package Part No.
1 25 100 Part No.
Tools
256 6 UART — 2.7 3.6 5 2 Extended 8-DIP 269-3745-ND 2.40 1.80 1.34 8F0113PB005EG 269-3389-ND
256 6 UART — 2.7 3.6 5 2 Commercial 8-DIP 269-3746-ND 2.19 1.65 1.21 8F0113PB005SG 269-3389-ND
256 6 UART — 2.7 3.6 5 2 Extended 8-QFN 269-3747-ND 2.40 1.80 1.34 8F0113QB005EG 269-3389-ND
256 6 UART — 2.7 3.6 5 2 Commercial 8-QFN 269-3748-ND 2.19 1.65 1.21 8F0113QB005SG 269-3389-ND
256 6 UART — 2.7 3.6 5 2 Extended 8-SOIC 269-3749-ND 2.40 1.80 1.34 8F0113SB005EG 269-3389-ND
256 6 UART — 2.7 3.6 5 2 Commercial 8-SOIC 269-3750-ND 2.19 1.65 1.21 8F0113SB005SG 269-3389-ND
256 16 1 UART, IrDA — 2.7 3.6 5 2 Extended 20-SSOP 269-3430-ND 2.70 2.03 1.50 8F0113HH005EC 269-3389-ND
256 16 1 UART, IrDA — 2.7 3.6 5 2 Commercial 20-SSOP 269-3431-ND 2.46 1.85 1.36 8F0113HH005SC 269-3389-ND
256 16 1 UART, IrDA — 2.7 3.6 5 2 Extended 20-DIP 269-3434-ND 2.82 2.12 1.57 8F0113PH005EC 269-3389-ND
256 16 1 UART, IrDA — 2.7 3.6 5 2 Commercial 20-DIP 269-3435-ND 2.58 1.94 1.43 8F0113PH005SC 269-3389-ND
256 16 1 UART, IrDA — 2.7 3.6 5 2 Extended 20-SOIC 269-3438-ND 2.70 2.03 1.50 8F0113SH005EC 269-3389-ND
256 16 1 UART, IrDA — 2.7 3.6 5 2 Commercial 20-SOIC 269-3439-ND 2.46 1.85 1.36 8F0113SH005SC 269-3389-ND
256 24 1 UART, IrDA — 2.7 3.6 5 2 Extended 28-SSOP 269-3432-ND 2.70 2.03 1.50 8F0113HJ005EC 269-3389-ND
256 24 1 UART, IrDA — 2.7 3.6 5 2 Commercial 28-SSOP 269-3433-ND 2.46 1.85 1.36 8F0113HJ005SC 269-3389-ND
256 24 1 UART, IrDA — 2.7 3.6 5 2 Commercial 28-DIP 269-3437-ND 2.70 2.03 1.50 8F0113PJ005SC 269-3389-ND
256 24 1 UART, IrDA — 2.7 3.6 5 2 Extended 28-SOIC 269-3440-ND 2.70 2.03 1.50 8F0113SJ005EC 269-3389-ND
RAM
(Bytes)
I/O
Lines
Package
Digi-Key
Part No.
Price Each
1 25 100
Zilog
Part No.
Development
Tools
237 24 28-SOIC 269-3418-ND 4.53 3.40 2.51 LP32300S2832C 269-3398-ND
237 24 28-SSOP 269-3419-ND 4.53 3.40 2.51 LP32300H2832C 269-3398-ND
237 24 28-SSOP 269-4507-ND 4.66 3.52 2.51 LP32300H2832G 269-3398-ND
237 32 40-DIP 269-3420-ND 5.46 4.10 3.04 LP32300P4032C 269-3398-ND
1K 16 20-DIP 269-3839-ND 5.96 4.50 3.21 LP12840P2032G 269-3398-ND
1K 16 20-SOIC 269-3845-ND 5.33 4.02 2.87 LP12840S2032G 269-3398-ND
1K 16 20-SSOP 269-3833-ND 5.33 4.02 2.87 LP12840H2032G 269-3398-ND
1K 24 28-DIP 269-3842-ND 6.04 4.56 3.26 LP12840P2832G 269-3398-ND
1K 24 28-SOIC 269-3848-ND 5.43 4.10 2.93 LP12840S2832G 269-3398-ND
1K 24 28-SSOP 269-3836-ND 5.43 4.10 2.93 LP12840H2832G 269-3398-ND
1K 16 20-DIP 269-3840-ND 6.57 4.96 3.54 LP12840P2064G 269-3398-ND
1K 16 20-SOIC 269-3846-ND 5.88 4.44 3.16 LP12840S2064G 269-3398-ND
1K 16 20-SSOP 269-3834-ND 5.88 4.44 3.16 LP12840H2064G 269-3398-ND
1K 24 28-DIP 269-3843-ND 6.65 5.02 3.59 LP12840P2864G 269-3398-ND
1K 24 28-SOIC 269-3849-ND 5.99 4.52 3.23 LP12840S2864G 269-3398-ND
1K 16 20-DIP 269-3841-ND 7.23 5.46 3.90 LP12840P2096G 269-3398-ND
1K 16 20-SOIC 269-3847-ND 6.47 4.88 3.49 LP12840S2096G 269-3398-ND
1K 24 28-DIP 269-3844-ND 7.34 5.54 3.96 LP12840P2896G 269-3398-ND
1K 24 28-SOIC 269-3850-ND 6.60 4.98 3.56 LP12840S2896G 269-3398-ND
1K 24 28-SOIC 269-4667-ND 7.47 5.61 3.56 LP12840H2896G 269-3398-ND
1K 24 28-SSOP 269-3838-ND 6.60 4.98 3.56 LP12840H2896G 269-3398-ND
1K 16 20-DIP 269-3825-ND 7.98 6.02 4.30 LP12840P2028G 269-3398-ND
1K 16 20-SOIC 269-3827-ND 7.13 5.38 3.84 LP12840S2028G 269-3398-ND
1K 16 20-SSOP 269-3823-ND 7.13 5.38 3.84 LP12840H2028G 269-3398-ND
1K 24 28-DIP 269-3826-ND 8.08 6.10 4.36 LP12840P2828G 269-3398-ND
1K 24 28-SOIC 269-3828-ND 7.26 5.48 3.91 LP12840S2828G 269-3398-ND
1K 24 28-SSOP 269-3824-ND 7.26 5.48 3.91 LP12840H2828G 269-3398-ND
(Continued)
140 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Z8 Encore! ® Flash Microcontrollers (Cont.)
Memory Size
Program
(Bytes)
1K
2K
4K
Clock
Speed
(MHz)
Timer/
Counters
(16-bit)
RAM
(Bytes)
I/O
Pins
Serial
Communication ADC
VCC
(V)
Operating
Temp. Package
Digi-Key
Part No.
1
Price Each
25 100
Zilog
Part No.
Development
Tools
256 24 1 UART, IrDA — 2.7 3.6 5 2 Commercial 28-SOIC 269-3441-ND 2.46 1.85 1.36 8F0113SJ005SC 269-3389-ND
256 6 UART 4-ch. 10-it 2.7 3.6 5 2 Extended 8-DIP 269-3753-ND 2.55 1.92 1.41 8F0123PB005EG 269-3389-ND
256 6 UART 4-ch. 10-it 2.7 3.6 5 2 Commercial 8-DIP 269-3754-ND 2.31 1.74 1.29 8F0123PB005SG 269-3389-ND
256 6 UART 4-ch. 10-it 2.7 3.6 5 2 Extended 8-QFN 269-3755-ND 2.55 1.92 1.41 8F0123QB005EG 269-3389-ND
256 6 UART 4-ch. 10-it 2.7 3.6 5 2 Commercial 8-QFN 269-3756-ND 2.31 1.74 1.29 8F0123QB005SG 269-3389-ND
256 6 UART 4-ch. 10-it 2.7 3.6 5 2 Extended 8-SOIC 269-3757-ND 2.55 1.92 1.41 8F0123SB005EG 269-3389-ND
256 6 UART 4-ch. 10-it 2.7 3.6 5 2 Commercial 8-SOIC 269-3758-ND 2.31 1.74 1.29 8F0123SB005SG 269-3389-ND
256 16 1 UART, IrDA 7-ch. 10-it 2.7 3.6 5 2 Extended 20-SSOP 269-3442-ND 2.82 2.12 1.57 8F0123HH005EC 269-3389-ND
256 16 1 UART, IrDA 7-ch. 10-it 2.7 3.6 5 2 Commercial 20-SSOP 269-3443-ND 2.58 1.94 1.43 8F0123HH005SC 269-3389-ND
256 16 1 UART, IrDA 7-ch. 10-it 2.7 3.6 5 2 Extended 20-DIP 269-3446-ND 3.00 2.25 1.66 8F0123PH005EC 269-3389-ND
256 16 1 UART, IrDA 7-ch. 10-it 2.7 3.6 5 2 Commercial 20-DIP 269-3447-ND 2.70 2.03 1.50 8F0123PH005SC 269-3389-ND
256 16 1 UART, IrDA 7-ch. 10-it 2.7 3.6 5 2 Extended 20-SOIC 269-3450-ND 2.82 2.12 1.57 8F0123SH005EC 269-3389-ND
256 16 1 UART, IrDA 7-ch. 10-it 2.7 3.6 5 2 Commercial 20-SOIC 269-3451-ND 2.58 1.94 1.43 8F0123SH005SC 269-3389-ND
256 22 1 UART, IrDA 8-ch. 10-it 2.7 3.6 5 2 Extended 28-SSOP 269-3444-ND 2.82 2.12 1.57 8F0123HJ005EC 269-3389-ND
256 22 1 UART, IrDA 8-ch. 10-it 2.7 3.6 5 2 Commercial 28-SSOP 269-3445-ND 2.58 1.94 1.43 8F0123HJ005SC 269-3389-ND
256 22 1 UART, IrDA 8-ch. 10-it 2.7 3.6 5 2 Extended 28-DIP 269-3448-ND 3.12 2.34 1.73 8F0123PJ005EC 269-3389-ND
256 22 1 UART, IrDA 8-ch. 10-it 2.7 3.6 5 2 Commercial 28-DIP 269-3449-ND 2.82 2.12 1.57 8F0123PJ005SC 269-3389-ND
256 22 1 UART, IrDA 8-ch. 10-it 2.7 3.6 5 2 Extended 28-SOIC 269-3452-ND 2.82 2.12 1.57 8F0123SJ005EC 269-3389-ND
256 22 1 UART, IrDA 8-ch. 10-it 2.7 3.6 5 2 Commercial 28-SOIC 269-3453-ND 2.58 1.94 1.43 8F0123SJ005SC 269-3389-ND
512 6 UART — 2.7 3.6 5 2 Extended 8-DIP 269-3761-ND 2.55 1.92 1.41 8F0213PB005EG 269-3389-ND
512 6 UART — 2.7 3.6 5 2 Commercial 8-DIP 269-3762-ND 2.31 1.74 1.29 8F0213PB005SG 269-3389-ND
512 6 UART — 2.7 3.6 5 2 Extended 8-QFN 269-3763-ND 2.55 1.92 1.41 8F0213QB005EG 269-3389-ND
512 6 UART — 2.7 3.6 5 2 Commercial 8-QFN 269-3764-ND 2.31 1.74 1.29 8F0213QB005SG 269-3389-ND
512 6 UART — 2.7 3.6 5 2 Extended 8-SOIC 269-3765-ND 2.55 1.92 1.41 8F0213SB005EG 269-3389-ND
512 6 UART — 2.7 3.6 5 2 Commercial 8-SOIC 269-3766-ND 2.31 1.74 1.29 8F0213SB005SG 269-3389-ND
512 16 1 UART, IrDA — 2.7 3.6 5 2 Extended 20-SSOP 269-4044-ND 2.82 2.12 1.57 8F0213HH005EG 269-3389-ND
512 16 1 UART, IrDA — 2.7 3.6 5 2 Commercial 20-SSOP 269-4045-ND 2.58 1.94 1.43 8F0213HH005SG 269-3389-ND
512 16 1 UART, IrDA — 2.7 3.6 5 2 Extended 20-DIP 269-3458-ND 3.00 2.25 1.66 8F0213PH005EC 269-3389-ND
512 16 1 UART IrDA — 2.7 3.6 5 2 Commercial 20-DIP 269-3459-ND 2.70 2.03 1.50 8F0213PH005SC 269-3389-ND
512 16 1 UART, IrDA — 2.7 3.6 5 2 Extended 20-SOIC 269-3462-ND 2.82 2.12 1.57 8F0213SH005EC 269-3389-ND
512 16 1 UART, IrDA — 2.7 3.6 5 2 Commercial 20-SOIC 269-3463-ND 2.58 1.94 1.43 8F0213SH005SC 269-3389-ND
512 24 1 UART, IrDA — 2.7 3.6 5 2 Extended 28-SSOP 269-3456-ND 2.82 2.12 1.57 8F0213HJ005EC 269-3389-ND
512 24 1 UART, IrDA — 2.7 3.6 5 2 Commercial 28-SSOP 269-3457-ND 2.58 1.94 1.43 8F0213HJ005SC 269-3389-ND
512 24 1 UART, IrDA — 2.7 3.6 5 2 Extended 28-DIP 269-3460-ND 3.75 2.82 1.78 8F0213PJ005EC 269-3389-ND
512 24 1 UART, IrDA — 2.7 3.6 5 2 Commercial 28-DIP 269-3461-ND 3.57 2.68 1.70 8F0213PJ005SC 269-3389-ND
512 24 1 UART, IrDA — 2.7 3.6 5 2 Extended 28-SOIC 269-3464-ND 2.82 2.12 1.57 8F0213SJ005EC 269-3389-ND
512 24 1 UART, IrDA — 2.7 3.6 5 2 Commercial 28-SOIC 269-3465-ND 2.58 1.94 1.43 8F0213SJ005SC 269-3389-ND
512 6 UART 4-ch. 10-it 2.7 3.6 5 2 Extended 8-DIP 269-3769-ND 2.70 2.03 1.50 8F0223PB005EG 269-3389-ND
512 6 UART 4-ch. 10-it 2.7 3.6 5 2 Commercial 8-DIP 269-3770-ND 2.46 1.85 1.36 8F0223PB005SG 269-3389-ND
512 6 UART 4-ch. 10-it 2.7 3.6 5 2 Extended 8-QFN 269-3771-ND 2.70 2.03 1.50 8F0223QB005EG 269-3389-ND
512 6 UART 4-ch. 10-it 2.7 3.6 5 2 Commercial 8-QFN 269-3772-ND 2.46 1.85 1.36 8F0223QB005SG 269-3389-ND
512 6 UART 4-ch. 10-it 2.7 3.6 5 2 Commercial 8-SOIC 269-3774-ND 2.46 1.85 1.36 8F0223SB005SG 269-3389-ND
512 16 1 UART, IrDA 7-ch. 10-it 2.7 3.6 5 2 Extended 20-DIP 269-3470-ND 3.12 2.34 1.73 8F0223PH005EC 269-3389-ND
512 16 1 UART, IrDA 7-ch. 10-it 2.7 3.6 5 2 Commercial 20-DIP 269-3471-ND 2.82 2.12 1.57 8F0223PH005SC 269-3389-ND
512 16 1 UART, IrDA 7-ch. 10-it 2.7 3.6 5 2 Extended 20-SOIC 269-3474-ND 3.00 2.25 1.66 8F0223SH005EC 269-3389-ND
512 16 1 UART, IrDA 7-ch. 10-it 2.7 3.6 5 2 Commercial 20-SOIC 269-3475-ND 2.70 2.03 1.50 8F0223SH005SC 269-3389-ND
512 22 1 UART, IrDA 8-ch. 10-it 2.7 3.6 5 2 Extended 28-SSOP 269-3468-ND 3.00 2.25 1.66 8F0223HJ005EC 269-3389-ND
512 22 1 UART, IrDA 8-ch. 10-it 2.7 3.6 5 2 Commercial 28-SSOP 269-3469-ND 2.70 2.03 1.50 8F0223HJ005SC 269-3389-ND
512 22 1 UART, IrDA 8-ch. 10-it 2.7 3.6 5 2 Extended 28-DIP 269-3472-ND 3.27 2.46 1.81 8F0223PJ005EC 269-3389-ND
512 22 1 UART, IrDA 8-ch. 10-it 2.7 3.6 5 2 Commercial 28-DIP 269-3473-ND 2.94 2.21 1.64 8F0223PJ005SC 269-3389-ND
512 22 1 UART, IrDA 8-ch. 10-it 2.7 3.6 5 2 Extended 28-SOIC 269-3476-ND 3.00 2.25 1.66 8F0223SJ005EC 269-3389-ND
512 22 1 UART, IrDA 8-ch. 10-it 2.7 3.6 5 2 Commercial 28-SOIC 269-3477-ND 2.70 2.03 1.50 8F0223SJ005SC 269-3389-ND
1K 11
— 2.7 3.6 20 2 Extended 20-DIP 269-3208-ND 3.39 2.55 1.89 8F0411PH020EC 269-4630-ND
UART, I 2 C,
1K 11 — 2.7 3.6 20 2 Commercial 20-DIP 269-3209-ND 3.09 2.32 1.71 8F0411PH020SC 269-4630-ND
IrDA
1K 11 — 2.7 3.6 20 2 Extended 20-SSOP 269-3206-ND 3.39 2.55 1.89 8F0411HH020EC 269-4630-ND
1K 11
— 2.7 3.6 20 2 Commercial 20-SSOP 269-3207-ND 3.09 2.32 1.71 8F0411HH020SC 269-4630-ND
UART, I 2 C,
1K 11 — 2.7 3.6 20 2 Commercial 20-SSOP 269-4101-ND 3.09 2.32 1.71 8F0411HH020SG 269-4630-ND
SPI, IrDA
1K 19 — 2.7 3.6 20 2 Extended 28-DIP 269-3210-ND 4.11 3.09 2.29 8F0412PJ020EC 269-4630-ND
1K 19 UART, I 2 C, — 2.7 3.6 20 2 Extended 28-SOIC 269-3212-ND 3.60 2.70 2.00 8F0412SJ020EC 269-4630-ND
1K 19 SPI, IrDA — 2.7 3.6 20 2 Commercial 28-SOIC 269-3213-ND 3.27 2.46 1.81 8F0412SJ020SC 269-4630-ND
1K 6 UART — 2.7 3.6 5 2 Extended 8-DIP 269-3777-ND 2.70 2.03 1.50 8F0413PB005EG 269-3389-ND
1K 6 UART — 2.7 3.6 5 2 Commercial 8-DIP 269-3778-ND 2.46 1.85 1.36 8F0413PB005SG 269-3389-ND
1K 6 UART — 2.7 3.6 5 2 Extended 8-QFN 269-3779-ND 2.70 2.03 1.50 8F0413QB005EG 269-3389-ND
1K 6 UART — 2.7 3.6 5 2 Commercial 8-QFN 269-3780-ND 2.46 1.85 1.36 8F0413QB005SG 269-3389-ND
1K 6 UART — 2.7 3.6 5 2 Extended 8-SOIC 269-3781-ND 2.70 2.03 1.50 8F0413SB005EG 269-3389-ND
1K 6 UART — 2.7 3.6 5 2 Commercial 8-SOIC 269-3782-ND 2.46 1.85 1.36 8F0413SB005SG 269-3389-ND
1K 16 1 UART IrDA — 2.7 3.6 5 2 Extended 20-SSOP 269-4108-ND 3.00 2.25 1.66 8F0413HH005EG 269-3389-ND
1K 16 1 UART IrDA — 2.7 3.6 5 2 Commercial 20-SSOP 269-4109-ND 2.70 2.03 1.50 8F0413HH005SG 269-3389-ND
1K 16 1 UART IrDA — 2.7 3.6 5 2 Extended 20-DIP 269-3482-ND 3.12 2.34 1.73 8F0413PH005EC 269-3389-ND
1K 16 1 UART IrDA — 2.7 3.6 5 2 Commercial 20-DIP 269-3483-ND 2.82 2.12 1.57 8F0413PH005SC 269-3389-ND
1K 16 1 UART IrDA — 2.7 3.6 5 2 Extended 20-SOIC 269-3486-ND 3.00 2.25 1.66 8F0413SH005EC 269-3389-ND
1K 16 1 UART IrDA — 2.7 3.6 5 2 Commercial 20-SOIC 269-3487-ND 2.70 2.03 1.50 8F0413SH005SC 269-3389-ND
1K 24 1 UART IrDA — 2.7 3.6 5 2 Extended 28-SSOP 269-3480-ND 3.00 2.25 1.66 8F0413HJ005EC 269-3389-ND
1K 24 1 UART IrDA — 2.7 3.6 5 2 Commercial 28-SSOP 269-3481-ND 2.70 2.03 1.50 8F0413HJ005SC 269-3389-ND
1K 24 1 UART IrDA — 2.7 3.6 5 2 Extended 28-SOIC 269-3488-ND 3.00 2.25 1.66 8F0413SJ005EC 269-3389-ND
1K 24 1 UART IrDA — 2.7 3.6 5 2 Commercial 28-SOIC 269-3489-ND 2.70 2.03 1.50 8F0413SJ005SC 269-3389-ND
1K 11 UART, I 2 C, 2-ch. 10-it 2.7 3.6 20 2 Extended 20-DIP 269-3216-ND 3.84 2.88 2.13 8F0421PH020EC 269-4630-ND
1K 11 IrDA 2-ch. 10-it 2.7 3.6 20 2 Extended 20-SSOP 269-3214-ND 3.84 2.88 2.13 8F0421HH020EC 269-4630-ND
1K 11
2-ch. 10-it 2.7 3.6 20 2 Commercial 20-SSOP 269-3215-ND 3.48 2.61 1.93 8F0421HH020SC 269-4630-ND
1K 19 UART, I 2 C, 5-ch. 10-it 2.7 3.6 20 2 Commercial 28-DIP 269-3219-ND 3.90 2.93 2.16 8F0422PJ020SC 269-4630-ND
1K 19 SPI, IrDA 5-ch. 10-it 2.7 3.6 20 2 Extended 28-SOIC 269-3220-ND 3.96 2.97 2.20 8F0422SJ020EC 269-4630-ND
1K 19 5-ch. 10-it 2.7 3.6 20 2 Commercial 28-SOIC 269-4143-ND 3.60 2.70 2.00 8F0422SJ020SG 269-4630-ND
1K 6 UART 4-ch. 10-it 2.7 3.6 5 2 Extended 8-DIP 269-3785-ND 2.82 2.12 1.57 8F0423PB005EG 269-3389-ND
1K 6 UART 4-ch. 10-it 2.7 3.6 5 2 Commercial 8-DIP 269-3731-ND 2.58 1.94 1.43 8F0423PB005SG 269-3389-ND
1K 6 UART 4-ch. 10-it 2.7 3.6 5 2 Extended 8-QFN 269-3786-ND 2.82 2.12 1.57 8F0423QB005EG 269-3389-ND
1K 6 UART 4-ch. 10-it 2.7 3.6 5 2 Commercial 8-QFN 269-3787-ND 2.58 1.94 1.43 8F0423QB005SG 269-3389-ND
1K 6 UART 4-ch. 10-it 2.7 3.6 5 2 Extended 8-SOIC 269-3788-ND 2.82 2.12 1.57 8F0423SB005EG 269-3389-ND
1K 6 UART 4-ch. 10-it 2.7 3.6 5 2 Commercial 8-SOIC 269-3732-ND 2.58 1.94 1.43 8F0423SB005SG 269-3389-ND
1K 16 1 UART, IrDA 7-ch. 10-it 2.7 3.6 5 2 Extended 20-SSOP 269-4144-ND 3.12 2.34 1.73 8F0423HH005EG 269-3389-ND
1K 16 1 UART, IrDA 7-ch. 10-it 2.7 3.6 5 2 Commercial 20-SSOP 269-3491-ND 2.82 2.12 1.57 8F0423HH005SC 269-3389-ND
1K 16 1 UART, IrDA 7-ch. 10-it 2.7 3.6 5 2 Commercial 20-SSOP 269-4145-ND 2.82 2.12 1.57 8F0423HH005SG 269-3389-ND
1K 16 1 UART, IrDA 7-ch. 10-it 2.7 3.6 5 2 Commercial 20-DIP 269-3495-ND 2.94 2.21 1.64 8F0423PH005SC 269-3389-ND
1K 16 1 UART, IrDA 7-ch. 10-it 2.7 3.6 5 2 Extended 20-SOIC 269-3498-ND 3.12 2.34 1.73 8F0423SH005EC 269-3389-ND
1K 16 1 UART, IrDA 7-ch. 10-it 2.7 3.6 5 2 Commercial 20-SOIC 269-3499-ND 2.82 2.12 1.57 8F0423SH005SC 269-3389-ND
1K 16 1 UART, IrDA 7-ch. 10-it 2.7 3.6 5 2 Commercial 20-SOIC 269-4153-ND 2.82 2.12 1.57 8F0423SH005SG 269-3389-ND
1K 22 1 UART, IrDA 8-ch. 10-it 2.7 3.6 5 2 Extended 28-SSOP 269-3492-ND 3.12 2.34 1.73 8F0423HJ005EC 269-3389-ND
1K 22 1 UART, IrDA 8-ch. 10-it 2.7 3.6 5 2 Commercial 28-SSOP 269-3493-ND 2.82 2.12 1.57 8F0423HJ005SC 269-3389-ND
◆ RoHS Compliant † Tube Note: emperature Rane: • Commercial: -C ~ C Extended -4C ~ 15C
(Continued)
C
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141

Z8 Encore! ® Flash Microcontrollers (Cont.)
C
Memory Size
Program
(Bytes)
RAM
(Bytes)
I/O
Pins
Serial
Communication
ADC
◆ RoHS Compliant † Tube Note: emperature Rane: • Commercial: -C ~ C Extended -4C ~ 15C
VCC
(V)
Clock
Speed
(MHz)
Timer/
Counters
(16-bit)
Operating
Temp.
Package
Digi-Key
Part No.
Price Each
1 25 100
Zilog
Part No.
Development
Tools
1K 22 1 UART, IrDA 8-ch. 10-it 2.7 3.6 5 2 Commercial 28-SSOP 269-4147-ND 2.82 2.12 1.57 8F0423HJ005SG 269-3389-ND
1K 22 1 UART, IrDA 8-ch. 10-it 2.7 3.6 5 2 Extended 28-DIP 269-3496-ND 3.39 2.55 1.89 8F0423PJ005EC 269-3389-ND
4K
1K 22 1 UART, IrDA 8-ch. 10-it 2.7 3.6 5 2 Extended 28-DIP 269-4150-ND 3.39 2.55 1.89 8F0423PJ005EG 269-3389-ND
1K 22 1 UART, IrDA 8-ch. 10-it 2.7 3.6 5 2 Commercial 28-DIP 269-3497-ND 3.09 2.32 1.71 8F0423PJ005SC 269-3389-ND
1K 22 1 UART, IrDA 8-ch. 10-it 2.7 3.6 5 2 Extended 28-SOIC 269-3500-ND 3.12 2.34 1.73 8F0423SJ005EC 269-3389-ND
1K 22 1 UART, IrDA 8-ch. 10-it 2.7 3.6 5 2 Commercial 28-SOIC 269-3501-ND 2.82 2.12 1.57 8F0423SJ005SC 269-3389-ND
1K 11 UART, I 2 C — 2.7 3.6 20 2 Extended 20-DIP 269-3224-ND 3.54 2.66 1.97 8F0811PH020EC 269-4630-ND
1K 11 UART, I 2 C — 2.7 3.6 20 2 Commercial 20-DIP 269-3225-ND 3.21 2.41 1.79 8F0811PH020SC 269-4630-ND
1K 11 UART, I 2 C — 2.7 3.6 20 2 Commercial 20-SSOP 269-4173-ND 3.21 2.41 1.79 8F0811HH020SG 269-4630-ND
1K 19 UART, I 2 C, — 2.7 3.6 20 2 Extended 28-DIP 269-3226-ND 4.14 3.11 2.30 8F0812PJ020EC 269-4630-ND
1K 19 SPI, IrDA — 2.7 3.6 20 2 Commercial 28-SOIC 269-4179-ND 3.48 2.61 1.93 8F0812SJ020SG 269-4630-ND
1K 6 UART — 2.7 3.6 5 2 Extended 8-DIP 269-3791-ND 3.00 2.25 1.66 8F0813PB005EG 269-4643-ND
1K 6 UART — 2.7 3.6 5 2 Commercial 8-DIP 269-3792-ND 2.70 2.03 1.50 8F0813PB005SG 269-4643-ND
1K 6 UART — 2.7 3.6 5 2 Extended 8-QFN 269-3793-ND 3.00 2.25 1.66 8F0813QB005EG 269-4643-ND
1K 6 UART — 2.7 3.6 5 2 Extended 8-SOIC 269-3795-ND 3.00 2.25 1.66 8F0813SB005EG 269-4643-ND
1K 16 UART — 2.7 3.6 5 2 Extended 20-DIP 269-3717-ND 3.39 2.55 1.89 8F0813PH005EC 269-4643-ND
1K 16 UART — 2.7 3.6 5 2 Commercial 20-DIP 269-3718-ND 3.09 2.32 1.71 8F0813PH005SC 269-4643-ND
1K 16 UART — 2.7 3.6 5 2 Extended 20-SOIC 269-3721-ND 3.27 2.46 1.81 8F0813SH005EC 269-4643-ND
1K 16 UART — 2.7 3.6 5 2 Commercial 20-SOIC 269-3722-ND 2.94 2.21 1.64 8F0813SH005SC 269-4643-ND
1K 24 UART — 2.7 3.6 5 2 Extended 28-SSOP 269-3715-ND 3.27 2.46 1.81 8F0813HJ005EC 269-4643-ND
1K 24 UART — 2.7 3.6 5 2 Commercial 28-SSOP 269-3716-ND 2.94 2.21 1.64 8F0813HJ005SC 269-4643-ND
1K 24 UART — 2.7 3.6 5 2 Extended 28-DIP 269-3719-ND 3.66 2.75 2.04 8F0813PJ005EC 269-4643-ND
1K 24 UART — 2.7 3.6 5 2 Extended 28-SOIC 269-3723-ND 3.27 2.46 1.81 8F0813SJ005EC 269-4643-ND
1K 11
2-ch. 10-it 2.7 3.6 20 2 Extended 20-DIP 269-3232-ND 3.96 2.97 2.20 8F0821PH020EC 269-4630-ND
1K 11 2-ch. 10-it 2.7 3.6 20 2 Extended 20-SSOP 269-3230-ND 3.96 2.97 2.20 8F0821HH020EC 269-4630-ND
1K 11 2-ch. 10-it 2.7 3.6 20 2 Commercial 20-SSOP 269-3231-ND 3.60 2.70 2.00 8F0821HH020SC 269-4630-ND
8K
UART, I 2 C,
1K 11 2-ch. 10-it 2.7 3.6 20 2 Commercial 20-SSOP 269-4204-ND 3.60 2.70 2.00 8F0821HH020SG 269-4630-ND
IrDA
1K 19 5-ch. 10-it 2.7 3.6 20 2 Extended 28-DIP 269-4207-ND 4.44 3.33 2.46 8F0822PJ020EG 269-4630-ND
1K 19 5-ch. 10-it 2.7 3.6 20 2 Extended 28-SOIC 269-4209-ND 4.11 3.09 2.29 8F0822SJ020EG 269-4630-ND
1K 19 5-ch. 10-it 2.7 3.6 20 2 Commercial 28-SOIC 269-4210-ND 3.72 2.79 2.07 8F0822SJ020SG 269-4630-ND
1K 6 UART 4-ch. 10-it 2.7 3.6 5 2 Extended 8-DIP 269-3803-ND 3.12 2.34 1.73 8F0823PB005EG 269-4643-ND
1K 6 UART 4-ch. 10-it 2.7 3.6 5 2 Commercial 8-DIP 269-3733-ND 2.82 2.12 1.57 8F0823PB005SG 269-4643-ND
1K 6 UART 4-ch. 10-it 2.7 3.6 5 2 Extended 8-QFN 269-3804-ND 3.12 2.34 1.73 8F0823QB005EG 269-4643-ND
1K 6 UART 4-ch. 10-it 2.7 3.6 5 2 Commercial 8-QFN 269-3805-ND 2.82 2.12 1.57 8F0823QB005SG 269-4643-ND
1K 6 UART 4-ch. 10-it 2.7 3.6 5 2 Extended 8-SOIC 269-3806-ND 3.12 2.34 1.73 8F0823SB005EG 269-4643-ND
1K 6 UART 4-ch. 10-it 2.7 3.6 5 2 Commercial 8-SOIC 269-3734-ND 2.82 2.12 1.57 8F0823SB005SG 269-4643-ND
1K 16 UART 7-ch. 10-it 2.7 3.6 5 2 Extended 20-DIP 269-3727-ND 3.54 2.66 1.97 8F0823PH005EC 269-4643-ND
1K 16 UART 7-ch. 10-it 2.7 3.6 5 2 Commercial 20-DIP 269-3689-ND 3.21 2.41 1.79 8F0823PH005SC 269-4643-ND
1K 16 UART 7-ch. 10-it 2.7 3.6 5 2 Extended 20-SOIC 269-3729-ND 3.39 2.55 1.89 8F0823SH005EC 269-4643-ND
1K 16 UART 7-ch. 10-it 2.7 3.6 5 2 Commercial 20-SOIC 269-3691-ND 3.09 2.32 1.71 8F0823SH005SC 269-4643-ND
1K 22 UART 8-ch. 10-it 2.7 3.6 5 2 Commercial 28-SSOP 269-4214-ND 3.09 2.32 1.71 8F0823HJ005SG 269-4643-ND
1K 22 UART 8-ch. 10-it 2.7 3.6 5 2 Extended 28-DIP 269-3728-ND 3.84 2.88 2.13 8F0823PJ005EC 269-4643-ND
1K 22 UART 8-ch. 10-it 2.7 3.6 5 2 Extended 28-DIP 269-4217-ND 3.84 2.88 2.13 8F0823PJ005EG 269-4643-ND
1K 22 UART 8-ch. 10-it 2.7 3.6 5 2 Commercial 28-DIP 269-3690-ND 3.48 2.61 1.93 8F0823PJ005SC 269-4643-ND
256 17 UART 8-ch. 10-it 2.7 3.6 20 2 Extended 28-SOIC 269-4558-5-ND† 2.40 1.80 1.33 8F083ASJ020EG 269-4643-ND
256 17 UART 8-ch. 10-it 2.7 3.6 20 2 Extended 28-SOIC 269-4705-5-ND† 2.37 1.78 1.31 8F0830SJ020EG 269-4643-ND
12K 256 25 UART, I 2 C — 2.7 3.6 20 2 Extended 28-SOIC 269-4706-5-ND† 2.40 1.80 1.33 8F1233SJ020EG 269-4664-ND
2K 17
8-ch. 10-it 1.8 3.6 20 2 Extended 28-SOIC 269-4709-5-ND† 4.44 3.33 2.46 8F1680SJ020EG 269-4540-ND
2K 31 8-ch. 10-it 3.0 3.6 20 3 Extended 44-PLCC 269-3195-ND 12.69 9.52 7.05 8F1601VN020EC —
2K 31 8-ch. 10-it 3.0 3.6 20 3 Extended 44-LQFP 269-4234-ND 5.97 4.48 3.31 8F1621AN020EG 269-4540-ND
2K 31 8-ch. 10-it 3.0 3.6 20 3 Commercial 44-LQFP 269-4235-ND◆ 5.37 4.03 2.99 8F1621AN020SG 269-4540-ND
2K 31 8-ch. 10-it 3.0 3.6 20 3 Commerical 40-DIP 269-4237-ND 5.64 4.23 3.13 8F1621PM020SG 269-4540-ND
16K
2K 31 2 UARTS, I 2 C, 8-ch. 10-it 3.0 3.6 20 3 Commercial 44-PLCC 269-4239-ND 5.37 4.03 2.99 8F1621VN020SG 269-4540-ND
2K 46 SPI, IrDA 12-ch. 10-it 3.0 3.6 20 4 Extended 64-LQFP 269-3259-ND 6.24 4.68 3.46 8F1622AR020EC 269-4540-ND
2K 46 12-ch. 10-it 3.0 3.6 20 4 Extended 64-LQFP 269-4240-ND 6.24 4.68 3.46 8F1622AR020EG 269-4540-ND
2K 46 12-ch. 10-it 3.0 3.6 20 4 Commercial 64-LQFP 269-3260-ND 5.64 4.23 3.13 8F1622AR020SC 269-4540-ND
2K 46 12-ch. 10-it 3.0 3.6 20 4 Commercial 64-LQFP 269-4241-ND 5.64 4.23 3.13 8F1622AR020SG 269-4540-ND
2K 46 12-ch. 10-it 3.0 3.6 20 4 Commercial 64-LQFP 269-3640-ND 6.87 5.16 3.44 8F1622AR020SC2104 269-4540-ND
512 17 8-ch. 10-it 2.7 3.6 20 2 Extended 32-LQFP 269-3831-ND 6.81 5.11 3.79 8FMC16100AKEG 269-4540-ND
2K 31
8-ch. 10-it 3.0 3.6 20 3 Extended 44-LQFP 269-4244-ND 6.24 4.68 3.46 8F2421AN020EG 269-4540-ND
2 UARTS, I 2 C,
2K 31 8-ch. 10-it 3.0 3.6 20 3 Commercial 44-LQFP 269-4245-ND 5.64 4.23 3.13 8F2421AN020SG 269-4540-ND
SPI, IrDA
24K 2K 31 8-ch. 10-it 3.0 3.6 20 3 Commercial 44-PLCC 269-4249-ND 5.64 4.23 3.13 8F2421VN020SG 269-4540-ND
2K 17
2 UARTS, I 2 C,
SPI
8-ch. 10-it 1.8 3.6 20 2 Extended 28-SOIC 269-4708-5-ND† 4.68 3.51 2.60 8F2480SJ020EG 269-4540-ND
2K 46
2 UARTS, I 2 C,
SPI, IrDA
12-ch. 10-it 3.0 3.6 20 4 Commercial 64-LQFP 269-3140-ND 14.64 10.98 8.14 8F3202AR020SC —
2K 31
8-ch. 10-it 3.0 3.6 20 3 Extended 44-LQFP 269-4254-ND 6.48 4.86 3.60 8F3221AN020EG 269-4540-ND
32K
2 UARTS, I 2 C,
2K 31 8-ch. 10-it 3.0 3.6 20 3 Commercial 44-LQFP 269-4255-ND 5.88 4.41 3.27 8F3221AN020SG 269-4540-ND
SPI
2K 31 8-ch. 10-it 3.0 3.6 20 3 Commercial 40-DIP 269-4257-ND 6.15 4.62 3.41 8F3221PM020SG 269-4540-ND
2K 46
12-ch 10-it 3.0 3.6 20 4 Extended 64-LQFP 269-3279-ND 6.72 5.04 3.74 8F3222AR020EC 269-4540-ND
2 UARTS, I 2 C,
2K 46 12-ch 10-it 3.0 3.6 20 4 Commercial 64-LQFP 269-3280-ND 6.15 4.62 3.41 8F3222AR020SC 269-4540-ND
SPI, IrDA
2K 46 12-ch 10-it 3.0 3.6 20 4 Commercial 64-LQFP 269-4261-ND 6.15 4.62 3.41 8F3222AR020SG 269-4540-ND
4K 46
12-ch. 10-it 3.0 3.6 20 4 Commercial 64-LQFP 269-3145-ND 16.44 12.33 9.13 8F4802AR020SC —
48K
4K 31 2 UARTS, I 2 C, 8-ch. 10-it 3.0 3.6 20 3 Commercial 44-LQFP 269-4265-ND 6.72 5.04 3.73 8F4821AN020SG 269-4540-ND
4K 31 SPI, IrDA 8-ch. 10-it 3.0 3.6 20 3 Commercial 40-DIP 269-4267-ND 6.96 5.22 3.87 8F4821PM020SG 269-4540-ND
4K 46 12-ch. 10-it 3.0 3.6 20 4 Commercial 64-LQFP 269-3290-ND 6.96 5.22 3.87 8F4822AR020SC 269-4540-ND
4K 31
8-ch. 10-it 3.0 3.6 20 3 Extended 44-LQFP 269-3181-ND 19.44 14.58 10.80 8F6401AN020EC —
4K 46 12-ch. 10-it 3.0 3.6 20 4 Extended 64-LQFP 269-3203-ND 20.01 15.01 11.12 8F6402AR020EC —
4K 31 8-ch. 10-it 3.0 3.6 20 3 Extended 44-LQFP 269-4276-ND 7.95 5.97 4.41 8F6421AN020EG 269-4540-ND
4K 31 8-ch. 10-it 3.0 3.6 20 3 Commercial 44-LQFP 269-4277-ND 7.23 5.43 4.01 8F6421AN020SG 269-4540-ND
4K 31 8-ch. 10-it 3.0 3.6 20 3 Commercial 40-DIP 269-4279-ND 7.50 5.63 4.16 8F6421PM020SG 269-4540-ND
4K 31 8-ch. 10-it 3.0 3.6 20 3 Extended 44-PLCC 269-4280-ND 7.95 5.97 4.41 8F6421VN020EG 269-4540-ND
64K
2 UARTS, I 2 C,
4K 31 8-ch. 10-it 3.0 3.6 20 3 Commercial 44-PLCC 269-4281-ND 7.23 5.43 4.01 8F6421VN020SG 269-4540-ND
SPI, IrDA
4K 46 12-ch. 10-it 3.0 3.6 20 4 Extended 64-LQFP 269-3301-ND 12.36 9.27 6.18 8F6422AR020EC 269-4540-ND
4K 46 12-ch. 10-it 3.0 3.6 20 4 Extended 64-LQFP 269-4282-ND 8.22 6.17 4.57 8F6422AR020EG 269-4540-ND
4K 46 12-ch. 10-it 3.0 3.6 20 4 Commercial 64-LQFP 269-4283-ND 7.50 5.63 4.16 8F6422AR020SG 269-4540-ND
4K 46 12-ch. 10-it 3.0 3.6 20 4 Commercial 68-PLCC 269-4285-ND 7.50 5.63 4.16 8F6422VS020SG 269-4540-ND
4K 60 12-ch. 10-it 3.0 3.6 20 4 Extended 80-QFP 269-4286-ND 8.22 6.17 4.57 8F6423FT020EG 269-4540-ND
4K 60 12-ch. 10-it 3.0 3.6 20 4 Commercial 80-QFP 269-4287-ND 7.50 5.63 4.16 8F6423FT020SG 269-4540-ND
142 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Z8 Encore! XP ® Flash Microcontrollers 4K Series
The 8 Encore MCU amily o products are the irst in a line o ilo microcontroller products ased upon the 8-it
e8 CPU. The 8 Encore XP 4K Series products expand upon ilos extensive line o 8-it microcontrollers. The Flash
in-circuit programming capability allows for faster development time and program changes in the field. The new eZ8 CPU
is upward compatile with existin 8 instructions. The rich peripheral set o the 8 Encore amily maes it suitale or
a variety of applications including motor control, security systems, home appliances, personal electronic devices and
sensors. Features: Proram Memory Type Flash On-Chip Special Features POR, VBO, Temperature Sensor, Analo
Comparator, Current Sense Ampliier, up to 18 vectored interrupts WDT COMM Interaces UART, OCD Operatin
Temperature Extended -40C 105 C, Commercial 0C 70C
Memory Size
Program
(Bytes)
1K
RAM
(Bytes)
Timer/
Counters
(16-bit)
I/O NVDS Serial
Clock
Operating
Digi-Key
Price Each
Zilog
Pins (Bytes) Communication ADC VCC Speed
Temp. Package Part No.
1 25 100 Part No.
256 6 16 UART — 2.7 3.6 20MHz 2 Extended 8-DIP 269-3642-ND 2.64 1.98 1.46 8F011APB020EC
256 6 16 UART — 2.7 3.6 20MHz 2 Commercial 8-DIP 269-3643-ND 2.40 1.80 1.33 8F011APB020SC
256 6 16 UART — 2.7 3.6 20MHz 2 Extended 8-QFN 269-3751-ND 2.64 1.98 1.46 8F011AQB020EG
256 6 16 UART — 2.7 3.6 20MHz 2 Commercial 8-QFN 269-3752-ND 2.40 1.80 1.33 8F011AQB020SG
256 6 16 UART — 2.7 3.6 20MHz 2 Extended 8-SOIC 269-3646-ND 2.64 1.98 1.46 8F011ASB020EC
256 6 16 UART — 2.7 3.6 20MHz 2 Extended 8-SOIC 269-4010-ND 2.64 1.98 1.46 8F011ASB020EG
256 6 16 UART — 2.7 3.6 20MHz 2 Commercial 8-SOIC 269-3647-ND 2.40 1.80 1.33 8F011ASB020SC
256 17 16 UART — 2.7 3.6 20MHz 2 Extended 20-SSOP 269-3308-ND 3.00 2.25 1.66 8F011AHH020EC
256 17 16 UART — 2.7 3.6 20MHz 2 Commercial 20-SSOP 269-3309-ND 2.70 2.03 1.50 8F011AHH020SC
256 17 16 UART — 2.7 3.6 20MHz 2 Extended 20-DIP 269-3312-ND 3.00 2.25 1.66 8F011APH020EC
256 17 16 UART — 2.7 3.6 20MHz 2 Commercial 20-DIP 269-3313-ND 2.70 2.03 1.50 8F011APH020SC
256 17 16 UART — 2.7 3.6 20MHz 2 Extended 20-SOIC 269-3316-ND 3.00 2.25 1.66 8F011ASH020EC
256 17 16 UART — 2.7 3.6 20MHz 2 Commercial 20-SOIC 269-3317-ND 2.70 2.03 1.50 8F011ASH020SC
256 25 16 UART — 2.7 3.6 20MHz 2 Extended 28-SSOP 269-3310-ND 3.00 2.25 1.66 8F011AHJ020EC
256 25 16 UART — 2.7 3.6 20MHz 2 Commercial 28-SSOP 269-3311-ND 2.70 2.03 1.50 8F011AHJ020SC
256 25 16 UART — 2.7 3.6 20MHz 2 Extended 28-DIP 269-3314-ND 3.27 2.46 1.81 8F011APJ020EC
256 25 16 UART — 2.7 3.6 20MHz 2 Commercial 28-DIP 269-3315-ND 2.94 2.21 1.64 8F011APJ020SC
256 25 16 UART — 2.7 3.6 20MHz 2 Extended 28-SOIC 269-3318-ND 3.00 2.25 1.66 8F011ASJ020EC
256 25 16 UART — 2.7 3.6 20MHz 2 Commercial 28-SOIC 269-3319-ND 2.70 2.03 1.50 8F011ASJ020SC
256 6 16 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Extended 8-DIP 269-3648-ND 2.82 2.12 1.57 8F012APB020EC
256 6 16 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 8-DIP 269-3649-ND 2.58 1.94 1.43 8F012APB020SC
256 6 16 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Extended 8-QFN 269-3759-ND 2.82 2.12 1.57 8F012AQB020EG
256 6 16 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 8-QFN 269-3760-ND 2.58 1.94 1.43 8F012AQB020SG
256 6 16 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Extended 8-SOIC 269-3652-ND 2.82 2.12 1.57 8F012ASB020EC
256 6 16 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 8-SOIC 269-3653-ND 2.58 1.94 1.43 8F012ASB020SC
256 17 16 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Extended 20-SSOP 269-3320-ND 3.12 2.34 1.73 8F012AHH020EC
256 17 16 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-SSOP 269-3321-ND 2.82 2.12 1.57 8F012AHH020SC
256 17 16 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Extended 20-DIP 269-3324-ND 3.12 2.34 1.73 8F012APH020EC
256 17 16 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-DIP 269-3325-ND 2.82 2.12 1.57 8F012APH020SC
256 17 16 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-DIP 269-4035-ND 2.82 2.12 1.57 8F012APH020SG
256 17 16 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Extended 20-SOIC 269-3328-ND 3.12 2.34 1.73 8F012ASH020EC
256 17 16 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-SOIC 269-3329-ND 2.82 2.12 1.57 8F012ASH020SC
256 23 16 UART 8-ch. 10-it 2.7 3.6 20MHz 2 Extended 28-SSOP 269-3322-ND 3.12 2.34 1.73 8F012AHJ020EC
256 23 16 UART 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-SSOP 269-3323-ND 2.82 2.12 1.57 8F012AHJ020SC
256 23 16 UART 8-ch. 10-it 2.7 3.6 20MHz 2 Extended 28-DIP 269-3326-ND 3.39 2.55 1.89 8F012APJ020EC
256 23 16 UART 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-DIP 269-3327-ND 3.09 2.32 1.71 8F012APJ020SC
256 23 16 UART 8-ch. 10-it 2.7 3.6 20MHz 2 Extended 28-SOIC 269-3330-ND 3.12 2.34 1.73 8F012ASJ020EC
256 23 16 UART 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-SOIC 269-3331-ND 2.82 2.12 1.57 8F012ASJ020SC
Development
Tools
269-3307-ND,
269-3638-ND
512 6 64 UART — 2.7 3.6 20MHz 2 Extended 8-DIP 269-3654-ND 2.76 2.07 1.54 8F021APB020EC
512 6 64 UART — 2.7 3.6 20MHz 2 Commercial 8-DIP 269-3655-ND 2.52 1.89 1.40 8F021APB020SC
512 6 64 UART — 2.7 3.6 20MHz 2 Extended 8-QFN 269-3767-ND 2.76 2.07 1.54 8F021AQB020EG
512 6 64 UART — 2.7 3.6 20MHz 2 Commercial 8-QFN 269-3768-ND 2.52 1.89 1.40 8F021AQB020SG
512 6 64 UART — 2.7 3.6 20MHz 2 Extended 8-SOIC 269-3658-ND 2.76 2.07 1.54 8F021ASB020EC
512 6 64 UART — 2.7 3.6 20MHz 2 Commercial 8-SOIC 269-3659-ND 2.52 1.89 1.40 8F021ASB020SC
512 17 64 UART — 2.7 3.6 20MHz 2 Extended 20-SSOP 269-3332-ND 3.12 2.34 1.73 8F021AHH020EC
512 17 64 UART — 2.7 3.6 20MHz 2 Commercial 20-SSOP 269-3333-ND 2.82 2.12 1.57 8F021AHH020SC
512 17 64 UART — 2.7 3.6 20MHz 2 Extended 20-DIP 269-3336-ND 3.12 2.34 1.73 8F021APH020EC
512 17 64 UART — 2.7 3.6 20MHz 2 Commercial 20-DIP 269-3337-ND 2.82 2.12 1.57 8F021APH020SC
512 25 64 UART — 2.7 3.6 20MHz 2 Extended 20-SOIC 269-3340-ND 3.12 2.34 1.73 8F021ASH020EC
512 25 64 UART — 2.7 3.6 20MHz 2 Commercial 20-SOIC 269-3341-ND 2.82 2.12 1.57 8F021ASH020SC
512 25 64 UART — 2.7 3.6 20MHz 2 Commercial 20-SOIC 269-4069-ND 2.82 2.12 1.57 8F021ASH020SG
512 25 64 UART — 2.7 3.6 20MHz 2 Extended 28-SSOP 269-3334-ND 3.12 2.34 1.73 8F021AHJ020EC
512 25 64 UART — 2.7 3.6 20MHz 2 Commercial 28-SSOP 269-3335-ND 2.82 2.12 1.57 8F021AHJ020SC
512 25 64 UART — 2.7 3.6 20MHz 2 Extended 28-DIP 269-3338-ND 3.39 2.55 1.89 8F021APJ020EC
512 25 64 UART — 2.7 3.6 20MHz 2 Commercial 28-DIP 269-3339-ND 3.09 2.32 1.71 8F021APJ020SC
512 25 64 UART — 2.7 3.6 20MHz 2 Extended 28-SOIC 269-3342-ND 3.12 2.34 1.73 8F021ASJ020EC
2K
512 25 64 UART — 2.7 3.6 20MHz 2 Commercial 28-SOIC 269-3343-ND 2.82 2.12 1.57 8F021ASJ020SC 269-3307-ND,
512 6 64 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Extended 8-DIP 269-4088-ND 3.00 2.25 1.66 8F022APB020EG 269-3638-ND
512 6 64 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 8-DIP 269-4089-ND 2.70 2.03 1.50 8F022APB020SG
512 6 64 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Extended 8-QFN 269-3775-ND 3.00 2.25 1.66 8F022AQB020EG
512 6 64 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 8-QFN 269-3776-ND 2.70 2.03 1.50 8F022AQB020SG
512 6 64 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Extended 8-SOIC 269-3664-ND 3.00 2.25 1.66 8F022ASB020EC
512 6 64 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 8-SOIC 269-3665-ND 2.70 2.03 1.50 8F022ASB020SC
512 17 64 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Extended 20-SSOP 269-3344-ND 3.27 2.46 1.81 8F022AHH020EC
512 17 64 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-SSOP 269-3345-ND 2.94 2.21 1.64 8F022AHH020SC
512 17 64 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Extended 20-DIP 269-3348-ND 3.27 2.46 1.81 8F022APH020EC
512 17 64 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-DIP 269-3349-ND 2.94 2.21 1.64 8F022APH020SC
512 17 64 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Extended 20-SOIC 269-3352-ND 3.27 2.46 1.81 8F022ASH020EC
512 17 64 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Extended 20-SOIC 269-4096-ND 3.27 2.46 1.81 8F022ASH020EG
512 17 64 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-SOIC 269-3353-ND 2.94 2.21 1.64 8F022ASH020SC
512 23 64 UART 8-ch. 10-it 2.7 3.6 20MHz 2 Extended 28-SSOP 269-3346-ND 3.27 2.46 1.81 8F022AHJ020EC
512 23 64 UART 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-SSOP 269-3347-ND 2.94 2.21 1.64 8F022AHJ020SC
512 23 64 UART 8-ch. 10-it 2.7 3.6 20MHz 2 Extended 28-DIP 269-3350-ND 3.54 2.66 1.97 8F022APJ020EC
512 23 64 UART 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-DIP 269-3351-ND 3.21 2.41 1.79 8F022APJ020SC
512 23 64 UART 8-ch. 10-it 2.7 3.6 20MHz 2 Extended 28-SOIC 269-3354-ND 3.27 2.46 1.81 8F022ASJ020EC
512 23 64 UART 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-SOIC 269-3355-ND 2.94 2.21 1.64 8F022ASJ020SC
4K
1K 6 128 UART — 2.7 3.6 20MHz 2 Extended 8-DIP 269-3666-ND 2.91 2.19 1.61 8F041APB020EC 269-3307-ND,
1K 6 128 UART — 2.7 3.6 20MHz 2 Commercial 8-DIP 269-3667-ND 2.64 1.98 1.47 8F041APB020SC 269-3638-ND
◆ RoHS Compliant ote: emperature Rane: • Commercial: -C ~ C Extended -4C ~ 15C (Continued)
C
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
143
143

Z8 Encore! XP ® Flash Microcontrollers 4K Series (Cont.)
C
Memory Size
Program
(Bytes)
4K
RAM
(Bytes)
Timer/
Counters
(16-bit)
I/O
Pins
NVDS
(Bytes)
Serial
Communication ADC VCC
Clock
Speed
Operating
Temp. Package
Digi-Key
Part No.
1
Price Each
25 100
Zilog
Part No.
Development
Tools
1K 6 128 UART — 2.7 3.6 20MHz 2 Extended 8-QFN 269-3783-ND 2.91 2.19 1.61 8F041AQB020EG
1K 6 128 UART — 2.7 3.6 20MHz 2 Commercial 8-QFN 269-3784-ND 2.64 1.98 1.47 8F041AQB020SG
1K 6 128 UART — 2.7 3.6 20MHz 2 Extended 8-SOIC 269-3670-ND 2.91 2.19 1.61 8F041ASB020EC
1K 6 128 UART — 2.7 3.6 20MHz 2 Commercial 8-SOIC 269-3671-ND 2.64 1.98 1.47 8F041ASB020SC
1K 6 128 UART — 2.7 3.6 20MHz 2 Commercial 8-SOIC 269-4131-ND 2.64 1.98 1.47 8F041ASB020SG
1K 17 128 UART — 2.7 3.6 20MHz 2 Extended 20-DIP 269-3360-ND 3.27 2.46 1.81 8F041APH020EC
1K 17 128 UART — 2.7 3.6 20MHz 2 Commercial 20-DIP 269-3361-ND 2.94 2.21 1.64 8F041APH020SC
1K 17 128 UART — 2.7 3.6 20MHz 2 Extended 20-SOIC 269-3364-ND 3.27 2.46 1.81 8F041ASH020EC
1K 17 128 UART — 2.7 3.6 20MHz 2 Commercial 20-SOIC 269-3365-ND 2.94 2.21 1.64 8F041ASH020SC
1K 25 128 UART — 2.7 3.6 20MHz 2 Extended 28-SSOP 269-3358-ND 3.27 2.46 1.81 8F041AHJ020EC 269-3307-ND,
1K 25 128 UART — 2.7 3.6 20MHz 2 Commercial 28-SSOP 269-3359-ND 2.94 2.21 1.64 8F041AHJ020SC 269-3638-ND
1K 25 128 UART — 2.7 3.6 20MHz 2 Extended 28-DIP 269-3362-ND 3.54 2.66 1.97 8F041APJ020EC
1K 25 128 UART — 2.7 3.6 20MHz 2 Commercial 28-DIP 269-3363-ND 3.21 2.41 1.79 8F041APJ020SC
1K 6 128 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Extended 8-DIP 269-4160-ND 3.12 2.34 1.73 8F042APB020EG
1K 6 128 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 8-DIP 269-4161-ND 2.82 2.12 1.57 8F042APB020SG
1K 6 128 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 8-QFN 269-3790-ND 2.82 2.12 1.57 8F042AQB020SG
1K 6 128 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Extended 8-SOIC 269-3676-ND 3.12 2.34 1.73 8F042ASB020EC
1K 6 128 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Extended 8-SOIC 269-4166-ND 3.12 2.34 1.73 8F042ASB020EG
1K 6 128 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 8-SOIC 269-3677-ND 2.82 2.12 1.57 8F042ASB020SC
1K 17 128 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Extended 20-SSOP 269-4156-ND 3.39 2.55 1.89 8F042AHH020EG
256 17 64 — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-SSOP 269-4580-5-ND 1.95 1.47 1.09 8F0130HH020SG 269-4643-ND
256 17 64 — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-DIP 269-4582-5-ND 1.95 1.47 1.09 8F0130PH020SG 269-4643-ND
256 17 64 — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-QFN 269-4584-ND 1.95 1.47 1.09 8F0130QH020SG 269-4643-ND
256 17 64 — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-SOIC 269-4586-ND 1.95 1.47 1.09 8F0130SH020SG 269-4643-ND
256 25 64 — 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-SSOP 269-4581-5-ND 1.95 1.47 1.09 8F0130HJ020SG 269-4643-ND
256 25 64 — 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-DIP 269-4583-5-ND 2.22 1.67 1.23 8F0130PJ020SG 269-4643-ND
256 25 64 — 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-QFN 269-4585-ND 1.95 1.47 1.09 8F0130QJ020SG 269-4643-ND
1K
256 25 64 — 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-SOIC 269-4587-5-ND 1.95 1.47 1.09 8F0130SJ020SG 269-4643-ND
256 17 64 — — 2.7 3.6 20MHz 2 Commercial 20-SSOP 269-4588-5-ND 1.77 1.33 .99 8F0131HH020SG 269-4643-ND
256 17 64 — — 2.7 3.6 20MHz 2 Commercial 20-DIP 269-4590-5-ND 1.77 1.33 .99 8F0131PH020SG 269-4643-ND
256 17 64 — — 2.7 3.6 20MHz 2 Commercial 20-QFN 269-4592-ND 1.77 1.33 .99 8F0131QH020SG 269-4643-ND
256 17 64 — — 2.7 3.6 20MHz 2 Commercial 20-SOIC 269-4594-5-ND 1.77 1.33 .99 8F0131SH020SG 269-4643-ND
256 25 64 — — 2.7 3.6 20MHz 2 Commercial 28-SSOP 269-4589-5-ND 1.77 1.33 .99 8F0131HJ020SG 269-4643-ND
256 25 64 — — 2.7 3.6 20MHz 2 Commercial 28-DIP 269-4591-5-ND 2.22 1.67 1.23 8F0131PJ020SG 269-4643-ND
256 25 64 — — 2.7 3.6 20MHz 2 Commercial 28-QFN 269-4593-ND 1.77 1.33 .99 8F0131QJ020SG 269-4643-ND
256 25 64 — — 2.7 3.6 20MHz 2 Commercial 28-SOIC 269-4595-5-ND 1.77 1.33 .99 8F0131SJ020SG 269-4643-ND
256 17 64 — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-SSOP 269-4596-5-ND 2.01 1.51 1.11 8F0230HH020SG 269-4643-ND
256 17 64 — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-DIP 269-4598-5-ND 2.01 1.51 1.11 8F0230PH020SG 269-4643-ND
256 17 64 — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-QFN 269-4600-ND 2.01 1.51 1.11 8F0230QH020SG 269-4643-ND
256 17 64 — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-SOIC 269-4602-5-ND 2.01 1.51 1.11 8F0230SH020SG 269-4643-ND
256 25 64 — 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-SSOP 269-4597-5-ND 2.01 1.51 1.11 8F0230HJ020SG 269-4643-ND
256 25 64 — 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-DIP 269-4599-5-ND 2.28 1.71 1.26 8F0230PJ020SG 269-4643-ND
256 25 64 — 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-QFN 269-4601-ND 2.01 1.51 1.11 8F0230QJ020SG 269-4643-ND
2K
256 25 64 — 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-SOIC 269-4603-5-ND 2.01 1.51 1.11 8F0230SJ020SG 269-4643-ND
256 17 64 — — 2.7 3.6 20MHz 2 Commercial 20-SSOP 269-4604-5-ND 1.86 1.40 1.03 8F0231HH020SG 269-4643-ND
256 17 64 — — 2.7 3.6 20MHz 2 Commercial 20-DIP 269-4606-5-ND 1.86 1.40 1.03 8F0231PH020SG 269-4643-ND
256 17 64 — — 2.7 3.6 20MHz 2 Commercial 20-QFN 269-4608-ND 1.86 1.40 1.03 8F0231QH020SG 269-4643-ND
256 17 64 — — 2.7 3.6 20MHz 2 Commercial 20-SOIC 269-4610-5-ND 1.86 1.40 1.03 8F0231SH020SG 269-4643-ND
256 25 64 — — 2.7 3.6 20MHz 2 Commercial 28-SSOP 269-4605-5-ND 1.86 1.40 1.03 8F0231HJ020SG 269-4643-ND
256 25 64 — — 2.7 3.6 20MHz 2 Commercial 28-DIP 269-4607-5-ND 2.31 1.74 1.29 8F0231PJ020SG 269-4643-ND
256 25 64 — — 2.7 3.6 20MHz 2 Commercial 28-QFN 269-4609-ND 1.86 1.40 1.03 8F0231QJ020SG 269-4643-ND
256 25 64 — — 2.7 3.6 20MHz 2 Commercial 28-SOIC 269-4611-5-ND 1.86 1.40 1.03 8F0231SJ020SG 269-4643-ND
256 17 64 — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-SSOP 269-4612-5-ND 2.10 1.58 1.17 8F0430HH020SG 269-4643-ND
256 17 64 — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-DIP 269-4614-5-ND 2.10 1.58 1.17 8F0430PH020SG 269-4643-ND
256 17 64 — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-QFN 269-4616-ND 2.10 1.58 1.17 8F0430QH020SG 269-4643-ND
256 17 64 — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-SOIC 269-4618-5-ND 2.10 1.58 1.17 8F0430SH020SG 269-4643-ND
256 25 64 — 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-SSOP 269-4613-5-ND 2.10 1.58 1.17 8F0430HJ020SG 269-4643-ND
256 25 64 — 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-DIP 269-4615-5-ND 2.37 1.78 1.31 8F0430PJ020SG 269-4643-ND
256 25 64 — 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-QFN 269-4617-ND 2.10 1.58 1.17 8F0430QJ020SG 269-4643-ND
256 25 64 — 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-SOIC 269-4619-5-ND 2.10 1.58 1.17 8F0430SJ020SG 269-4643-ND
256 17 64 — — 2.7 3.6 20MHz 2 Commercial 20-SSOP 269-4620-5-ND 1.92 1.44 1.07 8F0431HH020SG 269-4643-ND
256 17 64 — — 2.7 3.6 20MHz 2 Commercial 20-DIP 269-4622-5-ND 1.92 1.44 1.07 8F0431PH020SG 269-4643-ND
256 17 64 — — 2.7 3.6 20MHz 2 Commercial 20-QFN 269-4624-ND 1.92 1.44 1.07 8F0431QH020SG 269-4643-ND
4K
256 17 64 — — 2.7 3.6 20MHz 2 Commercial 20-SOIC 269-4626-5-ND 1.92 1.44 1.07 8F0431SH020SG 269-4643-ND
256 25 64 — — 2.7 3.6 20MHz 2 Commercial 28-SSOP 269-4621-5-ND 1.92 1.44 1.07 8F0431HJ020SG 269-4643-ND
256 25 64 — — 2.7 3.6 20MHz 2 Commercial 28-DIP 269-4623-5-ND 2.40 1.80 1.33 8F0431PJ020SG 269-4643-ND
256 25 64 — — 2.7 3.6 20MHz 2 Commercial 28-QFN 269-4625-ND 1.92 1.44 1.07 8F0431QJ020SG 269-4643-ND
256 25 64 — — 2.7 3.6 20MHz 2 Commercial 28-SOIC 269-4627-5-ND 1.92 1.44 1.07 8F0431SJ020SG 269-4643-ND
1K 17 128 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-SSOP 269-3369-ND 3.09 2.32 1.71 8F042AHH020SC
1K 17 128 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-SSOP 269-4157-ND 3.09 2.32 1.71 8F042AHH020SG 269-3307-ND,
1K 17 128 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-DIP 269-3373-ND 3.09 2.32 1.71 8F042APH020SC 269-3638-ND
1K 17 128 UART 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-SOIC 269-3377-ND 3.09 2.32 1.71 8F042ASH020SC
1K 23 128 UART 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-SSOP 269-3371-ND 3.09 2.32 1.71 8F042AHJ020SC 269-3307-ND
1K 23 128 UART 8-ch. 10-it 2.7 3.6 20MHz 2 Extended 28-DIP 269-3374-ND 3.66 2.75 2.04 8F042APJ020EC 269-3307-ND
1K 23 128 UART 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-SOIC 269-3379-ND 3.09 2.32 1.71 8F042ASJ020SC 269-3307-ND
1K 23 128 UART 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-SOIC 269-4171-ND 3.09 2.32 1.71 8F042ASJ020SG 269-3307-ND
256 17 64 — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-SSOP 269-4631-5-ND 2.37 1.78 1.31 8F0830HH020SG 269-4643-ND
8K
256 17 64 — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-DIP 269-4530-ND 2.37 1.78 1.31 8F0830PH020SG 269-4643-ND
256 17 64 — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-QFN 269-4633-ND 2.37 1.78 1.31 8F0830QH020SG 269-4643-ND
256 17 64 — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-SOIC 269-4529-ND 2.37 1.78 1.31 8F0830SH020SG 269-4643-ND
◆ RoHS Compliant ote: emperature Rane: • Commercial: -C ~ C Extended -4C ~ 15C
(Continued)
144 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Z8 Encore! XP ® Flash Microcontrollers 4K Series (Cont.)
Memory Size
Program
(Bytes)
Timer/
Counters
(16-bit)
RAM
(Bytes)
I/O
Pins
NVDS
(Bytes)
Serial
Communication ADC VCC
Clock
Speed
Operating
Temp. Package
Digi-Key
Part No.
1
Price Each
25 100
Zilog
Part No.
Development
Tools
256 23 64 — 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-DIP 269-4532-ND 2.64 1.98 1.46 8F0830PJ020SG 269-4643-ND
256 23 64 — 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-SOIC 269-4531-ND 2.37 1.78 1.31 8F0830SJ020SG 269-4643-ND
256 25 64 — 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-SSOP 269-4632-5-ND 2.37 1.78 1.31 8F0830HJ020SG 269-4643-ND
256 17 64 — — 2.7 3.6 20MHz 2 Commercial 20-SSOP 269-4635-5-ND 2.10 1.58 1.17 8F0831HH020SG 269-4643-ND
256 17 64 — — 2.7 3.6 20MHz 2 Commercial 20-DIP 269-4637-5-ND 2.10 1.58 1.17 8F0831PH020SG 269-4643-ND
256 17 64 — — 2.7 3.6 20MHz 2 Commercial 20-QFN 269-4639-ND 2.10 1.58 1.17 8F0831QH020SG 269-4643-ND
256 17 64 — — 2.7 3.6 20MHz 2 Commercial 20-SOIC 269-4641-5-ND 2.10 1.58 1.17 8F0831SH020SG 269-4643-ND
256 25 64 — — 2.7 3.6 20MHz 2 Commercial 28-SSOP 269-4636-5-ND 2.10 1.58 1.17 8F0831HJ020SG 269-4643-ND
256 25 64 — — 2.7 3.6 20MHz 2 Commercial 28-DIP 269-4638-5-ND 2.49 1.87 1.39 8F0831PJ020SG 269-4643-ND
256 25 64 — — 2.7 3.6 20MHz 2 Commercial 28-QFN 269-4640-ND 2.10 1.58 1.17 8F0831QJ020SG 269-4643-ND
256 17 100 — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-SOIC 269-4557-5-ND 2.40 1.80 1.33 8F083ASH020SG 269-4672-ND
256 17 100 — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-PDIP 269-4549-5-ND 2.40 1.80 1.33 8F083APH020SG 269-4672-ND
256 23 100 — 8-ch. 10-it 2.7 3.6 20MH 2 Commercial 28-SOIC 269-4559-5-ND 2.40 1.80 1.33 8F083ASJ020SG 269-4672-ND
256 6 — 1-UART, IrDA — 2.7 3.6 20MHz 2 Extended 8-DIP 269-3797-ND 3.27 2.46 1.81 8F081APB020EG 269-3686-ND
256 6 — 1-UART, IrDA — 2.7 3.6 20MHz 2 Commercial 8-DIP 269-3798-ND 2.94 2.21 1.64 8F081APB020SG 269-3686-ND
1K 6 — 1-UART, IrDA — 2.7 3.6 20MHz 2 Extended 8-QFN 269-3799-ND 3.27 2.46 1.81 8F081AQB020EG 269-3686-ND
1K 6 — 1-UART, IrDA — 2.7 3.6 20MHz 2 Commercial 8-QFN 269-3800-ND 2.94 2.21 1.64 8F081AQB020SG 269-3686-ND
1K 6 — 1-UART, IrDA — 2.7 3.6 20MHz 2 Extended 8-SOIC 269-3801-ND 3.27 2.46 1.81 8F081ASB020EG 269-3686-ND
8K 1K 17 — UART — 2.7 3.6 20MHz 2 Commercial 20-SSOP 269-3696-ND 3.21 2.41 1.79 8F081AHH020SC 269-3686-ND
1K 17 — UART — 2.7 3.6 20MHz 2 Extended 20-DIP 269-3699-ND 3.54 2.66 1.97 8F081APH020EC 269-3686-ND
1K 17 — UART — 2.7 3.6 20MHz 2 Commercial 20-DIP 269-3700-ND 3.21 2.41 1.79 8F081APH020SC 269-3686-ND
1K 17 — UART — 2.7 3.6 20MHz 2 Extended 20-SOIC 269-3703-ND 3.54 2.66 1.97 8F081ASH020EC 269-3686-ND
1K 17 — UART — 2.7 3.6 20MHz 2 Commercial 20-SOIC 269-3704-ND 3.21 2.41 1.79 8F081ASH020SC 269-3686-ND
1K 25 — UART — 2.7 3.6 20MHz 2 Commercial 28-SSOP 269-3698-ND 3.21 2.41 1.79 8F081AHJ020SC 269-3686-ND
1K 25 — UART — 2.7 3.6 20MHz 2 Extended 28-DIP 269-3701-ND 3.84 2.88 2.13 8F081APJ020EC 269-3686-ND
1K 25 — UART — 2.7 3.6 20MHz 2 Commercial 28-DIP 269-3702-ND 3.48 2.61 1.93 8F081APJ020SC 269-3686-ND
1K 25 — UART — 2.7 3.6 20MHz 2 Extended 28-SOIC 269-3705-ND 3.54 2.66 1.97 8F081ASJ020EC 269-3686-ND
1K 25 — UART — 2.7 3.6 20MHz 2 Commercial 28-SOIC 269-3706-ND 3.21 2.41 1.79 8F081ASJ020SC 269-3686-ND
1K 17 — UART 7-ch. 10-it 2.7 3.6 20MHz 2 Extended 20-SOIC 269-3711-ND 3.66 2.75 2.04 8F082ASH020EC 269-3686-ND
1K 6 — UART 4-ch. 10-it 2.7 3.6 20MHz 2 Extended 8-DIP 269-3807-ND 3.39 2.55 1.89 8F082APB020EG 269-3686-ND
1K 6 — UART 4-ch. 10-it 2.7 3.6 20MHz 2 Commercial 8-DIP 269-3735-ND 3.66 3.36 2.04 8F082APB020SG 269-3686-ND
1K 6 — UART 4-ch. 10-it 2.7 3.6 20MHz 2 Extended 8-QFN 269-3808-ND 3.39 2.55 1.89 8F082AQB020EG 269-3686-ND
1K 6 — UART 4-ch. 10-it 2.7 3.6 20MHz 2 Commercial 8-QFN 269-3809-ND 3.09 2.32 1.71 8F082AQB020SG 269-3686-ND
1K 6 — UART 4-ch. 10-it 2.7 3.6 20MHz 2 Extended 8-SOIC 269-3810-ND 3.39 2.55 1.89 8F082ASB020EG 269-3686-ND
1K 6 — UART 4-ch. 10-it 2.7 3.6 20MHz 2 Commercial 8-SOIC 269-3736-ND 3.09 2.32 1.71 8F082ASB020SG 269-3686-ND
1K 23 — UART 8-ch. 10-it 2.7 3.6 20MHz 2 Extended 28-DIP 269-3710-ND 3.96 2.97 2.20 8F082APJ020EC 269-3686-ND
1K 23 — UART 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-DIP 269-3683-ND 3.60 2.70 2.00 8F082APJ020SC 269-3686-ND
256 17 — — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-SSOP 269-4644-5-ND 2.64 1.98 1.46 8F1232HH020SG 269-4643-ND
256 17 — — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-DIP 269-4646-5-ND 2.64 1.98 1.46 8F1232PH020SG 269-4643-ND
256 17 — — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-QFN 269-4648-ND 2.64 1.98 1.46 8F1232QH020SG 269-4643-ND
256 17 — — 7-ch. 10-it 2.7 3.6 20MHz 2 Commercial 20-SOIC 269-4650-5-ND 2.64 1.98 1.46 8F1232SH020SG 269-4643-ND
256 25 — — 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-SSOP 269-4645-5-ND 2.64 1.98 1.46 8F1232HJ020SG 269-4643-ND
256 25 — — 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-DIP 269-4647-5-ND 2.88 2.16 1.60 8F1232PJ020SG 269-4643-ND
256 25 — — 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-QFN 269-4649-ND 2.64 1.98 1.46 8F1232QJ020SG 269-4643-ND
12K
256 25 — — 8-ch. 10-it 2.7 3.6 20MHz 2 Commercial 28-SOIC 269-4651-5-ND 2.64 1.98 1.46 8F1232SJ020SG 269-4643-ND
256 17 — — — 2.7 3.6 20MHz 2 Commercial 20-SSOP 269-4652-5-ND 2.40 1.80 1.33 8F1233HH020SG 269-4643-ND
256 17 — — — 2.7 3.6 20MHz 2 Commercial 20-DIP 269-4654-5-ND 2.40 1.80 1.33 8F1233PH020SG 269-4643-ND
256 17 — — — 2.7 3.6 20MHz 2 Commercial 20-QFN 269-4656-ND 2.40 1.80 1.33 8F1233QH020SG 269-4643-ND
256 17 — — — 2.7 3.6 20MHz 2 Commercial 20-SOIC 269-4658-5-ND 2.40 1.80 1.33 8F1233SH020SG 269-4643-ND
256 25 — — — 2.7 3.6 20MHz 2 Commercial 28-SSOP 269-4653-5-ND 2.40 1.80 1.33 8F1233HJ020SG 269-4643-ND
256 25 — — — 2.7 3.6 20MHz 2 Commercial 28-DIP 269-4655-5-ND 2.58 1.94 1.44 8F1233PJ020SG 269-4643-ND
256 25 — — — 2.7 3.6 20MHz 2 Commercial 28-QFN 269-4657-ND 2.40 1.80 1.33 8F1233QJ020SG 269-4643-ND
256 25 — — — 2.7 3.6 20MHz 2 Commercial 28-SOIC 269-4659-5-ND 2.40 1.80 1.33 8F1233SJ020SG 269-4643-ND
16K
1K 23 256 1-UART, IrDA 8-ch. 10-it 1.8 3.6 20MHz 3 Commercial 28-SOIC 269-4673-ND 4.44 3.33 2.46 8F1680SJ020SG 269-4664-ND
1K 37 256 2-UART, IrDA 8-ch. 10-it 1.8 3.6 20MHz 3 Commercial 44-LQFP 269-4674-ND 4.44 3.33 2.46 8F1680AN020SG 269-4664-ND
24K
1K 23 — 1-UART, IrDA 8-ch. 10-it 1.8 3.6 20MHz 3 Commercial 28-SOIC 269-4675-ND 4.68 3.51 2.60 8F2480SJ020SG 269-4664-ND
1K 37 — 2-UART, IrDA 8-ch. 10-it 1.8 3.6 20MHz 3 Commercial 44-LQFP 269-4676-ND 4.68 3.51 2.60 8F2480AN020SG 269-4664-ND
◆ RoHS Compliant ote: emperature Rane: • Commercial: -C ~ C Extended -4C ~ 15C
C
Z8 Encore! ® MC (Motor Control) Flash Microcontrollers
The Z8FMCxx100 Series Flash MCU is based on ZiLOG’s advanced eZ8 8-bit CPU core and is optimized for motor control applications. It supports control of single and multiphase variable speed motors. Target applications
are consumer appliances, HVAC, factory automation, refrigeration, and automotive applications.
Memory Size
Program
(Bytes)
4K
4K
8K
RAM I/O Serial
Clock Timer/Counters, Operating
Digi-Key
Price Each
Zilog
Development
(Bytes) Pins Communication ADC VCC Speed PWM’s
Temp. Package Part No.
1 25 100 Part No.
Tools
512 17
UART,with IrDA,
8-ch. 10-it 2.7 3.6V 20MHz
1 16-it
Extended 32-LQFP 269-3811-ND 6.42 4.82 3.56 8FMC04100AKEG 269-3639-ND
512 17
I2C, SPI
8-ch. 10-it 2.7 3.6V 20MHz
6-ch. 12-it
Extended 32-QFN 269-3813-ND 6.42 4.82 3.56 8FMC04100QKEG 269-3639-ND
512 17
UART,with IrDA,
8-ch. 10-it 2.7 3.6V 20MHz
1 16-it
Commercial 32-LQFP 269-3812-ND 5.82 4.37 3.23 8FMC04100AKSG 269-3830-ND
512 17
I2C, SPI
8-ch. 10-it 2.7 3.6V 20MHz
6-ch. 12-it
Commercial 32-QFN 269-3814-ND 5.82 4.37 3.23 8FMC04100QKSG 269-3830-ND
512 17
UART,with IrDA,
8-ch. 10-it 2.7 3.6V 20MHz
1 16-it
Extended 32-LQFP 269-3815-ND 6.54 4.91 3.63 8FMC08100AKEG 269-3639-ND
512 17
I2C, SPI
8-ch. 10-it 2.7 3.6V 20MHz
6-ch. 12-it
Extended 32-QFN 269-3817-ND 6.54 4.91 3.63 8FMC08100QKEG 269-3639-ND
8K 512 17
16K
UART,with IrDA,
I2C, SPI
8-ch. 10-it 2.7 3.6V 20MHz
Note: Temperature Range: • Commercial: -C ~ C Extended -4C ~ 15C
1 16-it
6-ch. 12-it
Commercial 32-LQFP 269-3816-ND 5.94 4.46 3.30 8FMC08100AKSG 269-3830-ND
512 17
UART,with IrDA,
8-ch. 10-it 2.7 3.6V 20MHz
1 16-it
Commercial 32-LQFP 269-3819-ND 5.70 4.28 3.16 8FMC16100AKSG 269-3830-ND
512 17
I2C, SPI
8-ch. 10-it 2.7 3.6V 20MHz
6-ch. 12-it
Commercial 32-QFN 269-3832-ND 6.81 5.11 3.79 8FMC16100QKEG 269-3830-ND
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
145
145

eZ80AcclaimPlus! Flash Microcontrollers
Flash SRAM I/O DMA Speed 16-bit
Other
Operating Temperature
Digi-Key
Price Each
Zilog
(KB) (KB) Lines Controller (MHz) Timers EMAC
Features
IrDA Voltage Range Package Part No.
1 25 100 Part No.
256K 16K 32 50 4 2 UARTS, SPI, I 2 C, PLL, RTC 3.0 3.6 -40C 105C 144-LQFP 269-3867-ND 12.60 9.45 7.00 E80F91A050EG
256K 16K 32 50 4 2 UARTS, SPI, I 2 C, PLL, RTC 3.0 3.6 -40C 105C 144-LQFP 269-3868-ND 11.46 8.60 6.37 E80F91A050SG
256K 16K 32 50 4 2 UARTS, SPI, I 2 C, PLL, RTC 3.0 3.6 -40C 105C 144-BGA 269-3250-ND 30.87 23.16 13.72 E80F91NA050EC
256K 16K 32 50 4 2 UARTS, SPI, I 2 C, PLL, RTC 3.0 3.6 -40C 105C 144-BGA 269-3869-ND 14.01 10.51 7.79 E80F91NA050EG
256K 16K 32 50 4 2 UARTS, SPI, I 2 C, PLL, RTC 3.0 3.6 -40C 105C 144-BGA 269-3870-ND 12.75 9.57 7.09 E80F91NA050SG
256K 8K 32 50 4 2 UARTS, SPI, I 2 C, PLL, RTC 3.0 3.6 -40C 105C 144-LQFP 269-4563-ND 12.60 9.45 7.00 E80F91AA50EG
256K 8K 32 50 4 2 UARTS, SPI, I 2 C, PLL, RTC 3.0 3.6 -40C 105C 144-LQFP 269-4564-ND 11.46 8.60 6.37 E80F91AA50SG
C
256K 8K 32 50 4 2 UARTS, SPI, I 2 C, PLL, RTC 3.0 3.6 -40C 105C 144-BGA 269-4565-ND 14.01 10.51 7.79 E80F91NAA50EG
256K 8K 32 50 4 2 UARTS, SPI, I 2 C, PLL, RTC 3.0 3.6 -40C 105C 144-BGA 269-4566-ND 12.75 9.57 7.09 E80F91NAA50SG
128K 8K 24 — 20 6 — 2 UARTS, SPI, I 2 C, PLL, RTC 3.0 3.6 -40C 105C 100-LQFP 269-3871-ND 8.67 6.51 4.81 E80F92A020EG
128K 8K 24 — 20 6 — 2 UARTS, SPI, I 2 C, PLL, RTC 3.0 3.6 -40C 105C 100-LQFP 269-3872-ND 7.86 5.90 4.37 E80F92A020SG
64K 4K 24 — 20 6 — 2 UARTS, SPI, I 2 C, PLL, RTC 3.0 3.6 -40C 105C 100-LQFP 269-3201-ND 7.14 5.36 3.96 E80F93A020EC
64K 4K 24 — 20 6 — 2 UARTS, SPI, I 2 C, PLL, RTC 3.0 3.6 -40C 105C 100-LQFP 269-3873-ND 7.14 5.36 3.96 E80F93A020EG
64K 4K 24 — 20 6 — 2 UARTS, SPI, I 2 C, PLL, RTC 3.0 3.6 -40C 105C 100-LQFP 269-3164-ND 6.33 4.75 3.51 E80F93A020SC
64K 4K 24 — 20 6 — 2 UARTS, SPI, I 2 C, PLL, RTC 3.0 3.6 -40C 105C 100-LQFP 269-3874-ND 6.33 4.75 3.51 E80F93A020SG
— — 24 — 20 6 — 2 UARTS, SPI, I 2 C 3.0 3.6 -40C 105C 100-LQFP 269-3875-ND 14.22 10.67 7.90 E80L92A020EG
— — 24 — 20 6 — 2 UARTS, SPI, I 2 C 3.0 3.6 -40C 105C 100-LQFP 269-3168-ND 12.36 9.27 6.87 E80L92A020SC
— — 24 — 20 6 — 2 UARTS, SPI, I 2 C 3.0 3.6 -40C 105C 100-LQFP 269-3876-ND 12.36 9.27 6.87 E80L92A020SG
— — 24 — 50 6 — 2 UARTS, SPI, I 2 C 3.0 3.6 -40C 105C 100-LQFP 269-3169-ND 15.63 11.73 8.69 E80L92A050EC
— — 24 — 50 6 — 2 UARTS, SPI, I 2 C 3.0 3.6 -40C 105C 100-LQFP 269-3878-ND 13.62 10.22 7.56 E80L92A050SG
◆ RoHS Compliant
Emulators
Description
Digi-Key
Part No.
Z8 Encore!®
Price
Each
Zilog
Part No.
8 Encore 64K Series 64-pin LQFP Emulator Kit 269-3395-ND 2995.00 8F6422AR00EM
8 Encore 64K Series 68-pin PLCC Emulator Kit 269-3396-ND 2995.00 8F6422VS00EM
Z8 Encore!® MC
8 Encore MC 8FMC16100 Emulator 269-3830-ND 2000.00 8FMC161000EM
Development Kits
Description
Digi-Key
Part No.
eZ80Acclaim! — RoHS Compliant
Price
Each
Zilog
Part No.
Development Kit or e80F91 269-4560-ND 112.00 E80F910200KITG
Development Kit or e80F91 269-4561-ND 290.16 E80F910300COG
Dots SBC or 80Acclaim 269-4671-ND 90.00 E80F917050SBCG
eZ80AcclaimPlus!
e80AcclaimPlus Wireless ZDots® SBC Development Kit 269-4715-ND 134.34 E80F91WF01COG
Z8 Encore!®
8 Encore Development Kit 8K/4K 269-4630-ND 47.94 8F08200100KITG
8 Encore 8F642 MCU Development Kit 269-4540-ND 47.94 8F64200100KITG
8 Encore 8F642 MCU Development Kit 28-Pin Series 269-4677-ND 89.94 8F16800128COG
8 Encore Motor Control Development Kit 269-3639-ND 208.00 8FMC160100KIT
8 Encore Motor Control Development Kit 269-4660-ND 208.00 8FMC160100KITG
Z8 Encore! XP®
8 Encore XP 4K Series, 8-pin Development Kit 269-3638-ND 56.25 8F04A08100KIT
8 Encore XP 4K Series, 8-pin Development Kit 269-4628-ND 56.25 8F04A08100KITG
8 Encore XP 4K Series, 28-pin Development Kit 269-4629-ND 47.94 8F04A28100KITG
8 Encore XP F08xA Series, 28-pin Development Kit 269-4643-ND 47.94 8F08A28100KITG
◆ RoHS Compliant
Adapters
Description
Modules
Digi-Key
Part No.
Z8 Encore!®
Price
Each
Zilog
Part No.
8 Encore 64K Series 44-pin LQFP ICE Adapter 269-3400-ND 299.00 8F64210100DA
8 Encore 64K Series 40-pin PDIP ICE Adapter 269-3401-ND 299.00 8F64210100DP
8 Encore 64K Series 44-pin PLCC ICE Adapter 269-3402-ND 299.00 8F64210100DV
8 Encore 64K Series 64-pin LQFP ICE Adapter 269-3403-ND 299.00 8F64220100DA
8 Encore 64K Series 68-pin PLCC ICE Adapter 269-3404-ND 299.00 8F64220100DV
8 Encore 64K Series 80-pin QFP ICE Adapter 269-3405-ND 299.00 8F64230100DF
Description
Digi-Key
Part No.
eZ80Acclaim!
Price
Each
Zilog
Part No.
Multipurpose MCU Module 269-3861-ND 90.00 E80F915050MODG
Flash Module or e80F92 269-3156-ND 63.08 E80F920020MOD
Ethernet Module or e80F92 269-3157-ND 81.00 E80F920120MOD
eZ80® — RoHS Compliant
Webserver-i Ethernet Module 269-4670-ND 68.85 E80L925048MODG
Mini Ethernet Module 269-3860-ND 52.50 E80F915005MODG
Mini Ethernet Module 269-4666-ND 75.00 E80F916005MODG
ePIR Motion Detection Zdots®
Sinle Board Computer Development Kit 269-4711-ND 119.94 EPIR000101COG
◆ RoHS Compliant
Accessory Kits
Description
Digi-Key
Part No.
eZ80Acclaim!
Price
Each
Zilog
Part No.
USB Smart Cale Accessory Kit 269-4539-ND 35.94 USBSC00100ACG
Ethernet Smart Cale Accessory Kit 269-4661-ND 83.99 ENETSC0100ACG
Z8 Encore!® MC
Opto-isolated USB Smart Cale Accessory Kit 269-4664-ND 90.00 USBOPTSC01ACG
Crimzon
20-Pin Accessory Kit 269-4684-ND 195.00 CRMNICE01ACG
40/48-Pin Accessory 269-4686-ND 572.00 CRMNICE02ACG
146 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Z8 ® Series Microcontrollers
Z8 MCU Family
OVERVIEW: Zilog MCU products are targeted for cost-sensitive, high-volume applications including
consumer, automotive, security, and HVAC. One-time programmable (OTPs) for prototyping as well as
volume production where time to market or code flexibility is critical. A variety of pack ag ing options are
available. The same on-chip peripherals are used across the MCU product line with the primary differences
being the amount of ROM/RAM, number of I/O lines present, and packaging/temp erature ranges available.
This allows code written for one MCU device to be easily ported to another family member.
FRS: • eneralurpose Reister R File rcitecture: Every RAM register acts like an
accumulator, speeding instruction execution and maximizing coding efficiency. Working register groups allow
fast con text switching. Flexible I/O: I/O byte, nibble, and/or bit pro gram mable as inputs or outputs. Outputs
are software programmable as open-drain or push-pull on a port basis. Inputs are Schmitt-triggered with
auto latches to hold unused inputs at a nown voltage state. Analog Inputs: Three input pins are software
programmable as digital or analog inputs. When in the analog mode, two comparator inputs are provided with
a common reference input. Timer/Counter (T/C): The T/C consists of a programmable 6-bit prescaler and
8-bit downcounter, with masable interrupt upon end-of-count. Interrupts: There are six vectored interrupt
sources with software-programmable enable and priority for each of the six sources. Watch-Dog Timer
(WDT): An internal WDT circuit is included as a fail-safe mechanism so that if software strays outside the
bounds of normal operation, the T will timeout and reset the MC. Auto Reset: All family devices have
internal ower-On Reset. Low-EMI Operation: Mode is programmable via software or as a mask option.
This new option provides for reduced radiated emission via cloc and output drive circuit changes. Low-
Power: CMOS with two standby modes STO and HT. Full Z8 Instruction Set: Forty-eight basic
instructions, supported by six addressing modes with the ability to operate on bits, nibbles, bytes, and words.
Accessory Kit:
The Z86CCP00ZAC is the accessory kit for the Z86CCP01ZEM. The kit contains all accessories to fully
populate and operate all functions of the Z86CCP01ZEM.
KIT CONTENTS: 28-in I I Socet 28-in Target Connector Cable 4-in I I Socet 4-in
Target Connector Cable RS-22 Cable ower Cable
Memory
Size I/O
Oscillator
Type
Frequency
Range
Supply
Voltage
Operating
Digi-Key
Price Each
Zilog
EPROM RAM Lines External Min./Max. Range Temperature (°C) Package Part No.
1 25 100 Part No.
61 14 XTAL/RC DC-8MHz .5 ~ 5.5 ~ 18-DIP 269-3948-ND◆ 1.74 1.31 .96 Z86E0208PSG1925
61 14 XTAL/RC DC-8MHz .5 ~ 5.5 ~ 18-SOIC 269-1014-ND 1.74 1.31 .96 Z86E0208SSC1925
0.5K
61 14 XTAL DC-8MHz .5 ~ 5.5 ~ 20-SSOP 269-3069-ND 2.13 1.60 1.19 Z86E0208HSC1925
61 14 XTAL/RC DC-8MHz 4.5 ~ 5.5 -4 ~ 15 18-DIP 269-3947-ND◆ 2.40 1.80 1.33 Z86E0208PEG1925
61 14 XTAL/RC DC-8MHz 4.5 ~ 5.5 -4 ~ 15 18-SOIC 269-3949-ND◆ 2.40 1.80 1.33 Z86E0208SEG1925
61 14 XTAL DC-8MHz 4.5 ~ 5.5 -4 ~ 15 20-SSOP 269-3068-ND 2.34 1.76 1.30 Z86E0208HEC1925
125 14 XTAL/RC DC-12MHz 4.5 ~ 5.5 ~ 18-DIP 269-1096-ND 2.58 1.94 1.44 Z86E0412PSC1903
125 14 XTAL DC-12MHz 4.5 ~ 5.5 ~ 20-SSOP 269-3076-ND 3.21 2.41 1.79 Z86E0412HSC1866
125 14 XTAL DC-12MHz 4.5 ~ 5.5 ~ 20-SSOP 269-3952-ND◆ 3.60 2.70 2.00 Z86E0412HSG1866
125 14 XTAL/RC DC-12MHz 4.5 ~ 5.5 ~ 20-SSOP 269-3077-ND 3.21 2.41 1.79 Z86E0412HSC1903
1K 125 14 XTAL DC-12MHz 4.5 ~ 5.5 -4 ~ 15 18-DIP 269-1093-ND 3.36 2.52 1.86 Z86E0412PEC
125 14 XTAL DC-12MHz 4.5 ~ 5.5 -4 ~ 15 18-DIP 269-3954-ND◆ 3.75 2.82 2.08 Z86E0412PEG
125 14 XTAL DC-12MHz 4.5 ~ 5.5 -4 ~ 15 18-SOIC 269-1097-ND 3.36 2.52 1.86 Z86E0412SEC
125 14 XTAL DC-12MHz 4.5 ~ 5.5 -4 ~ 15 20-SSOP 269-3074-ND 3.54 2.66 1.97 Z86E0412HEC1866
125 14 XTAL/RC DC-12MHz 4.5 ~ 5.5 -4 ~ 15 20-SSOP 269-3075-ND 3.54 2.66 1.97 Z86E0412HEC1903
125 14 XTAL DC-12MHz 4.5 ~ 5.5 ~ 18-DIP 269-3961-ND◆ 3.03 2.28 1.68 Z86E0812PSG1866
125 14 XTAL/RC DC-12MHz 4.5 ~ 5.5 ~ 18-DIP 269-3962-ND◆ 3.03 2.28 1.68 Z86E0812PSG1903
125 14 XTAL/RC DC-12MHz 4.5 ~ 5.5 ~ 20-SSOP 269-3089-ND 3.90 2.93 2.16 Z86E0812HSC1903
125 14 XTAL/RC DC-16MHz .5 ~ 5.5 ~ 28-SOIC 269-1055-ND 5.46 4.10 3.04 Z86E3116SSC
125 14 XTAL DC-12MHz 4.5 ~ 5.5 -4 ~ 15 18-DIP 269-3960-ND◆ 4.56 3.42 2.54 Z86E0812PEG
2K 125 14 XTAL DC-12MHz 4.5 ~ 5.5 -4 ~ 15 18-SOIC 269-3963-ND◆ 3.30 2.48 1.84 Z86E0812SEG
125 14 XTAL DC-12MHz 4.5 ~ 5.5 -4 ~ 15 20-SSOP 269-3086-ND 4.29 3.22 2.39 Z86E0812HEC1866
125 14 XTAL/RC DC-12MHz 4.5 ~ 5.5 -4 ~ 15 20-SSOP 269-3087-ND 4.29 3.22 2.39 Z86E0812HEC1903
125 14 XTAL/RC DC-12MHz 4.5 ~ 5.5 -4 ~ 15 18-SOIC 269-4699-5-ND†◆ 3.30 2.48 1.84 Z86E0812SEG1903
125 14 XTAL/RC DC-16MHz 4.5 ~ 5.5 -4 ~ 15 28-DIP 269-3966-ND◆ 6.78 5.09 3.76 Z86E3116PEG
125 14 XTAL/RC DC-16MHz 4.5 ~ 5.5 -4 ~ 15 28-SOIC 269-1054-ND 6.06 4.55 3.36 Z86E3116SEC
237 24 XTAL/RC DC-16MHz .5 ~ 5.5 ~ 28-DIP 269-3965-ND◆ 7.41 5.56 4.11 Z86E3016PSG
237 24 XTAL/RC DC-16MHz .5 ~ 5.5 ~ 28-SOIC 269-4539-5-ND†◆ 7.41 5.56 4.11 Z86E3016SSG
237 24 XTAL/RC DC-16MHz .5 ~ 5.5 ~ 28-PLCC 269-1045-ND 7.41 5.56 4.11 Z86E3016VSC
237 24 XTAL/RC DC-12MHz .5 ~ 5.5 ~ 28-DIP 269-3969-ND◆ 7.68 5.76 4.26 Z86E3312PSG
237 24 XTAL/RC DC-12MHz .5 ~ 5.5 ~ 28-SOIC 269-1103-ND 6.84 5.13 3.80 Z86E3312SSC
237 24 XTAL/RC DC-12MHz .5 ~ 5.5 ~ 28-PLCC 269-1104-ND 6.84 5.13 3.80 Z86E3312VSC
236 32 XTAL/RC DC-16MHz .5 ~ 5.5 ~ 40-DIP 269-3975-ND◆ 8.79 6.60 4.89 Z86E4016PSG
4K 236 32 XTAL/RC DC-16MHz .5 ~ 5.5 ~ 44-PLCC 269-3976-ND◆ 8.79 6.60 4.89 Z86E4016VSG
236 32 XTAL/RC DC-12MHz .5 ~ 5.5 ~ 40-DIP 269-3977-ND◆ 9.36 7.02 5.20 Z86E4312PSG
236 32 XTAL/RC DC-12MHz .5 ~ 5.5 ~ 44-PQFP 269-1108-ND 10.17 7.63 4.95 Z86E4312FSC
237 21 XTAL/RC DC-16MHz .5 ~ 5.5 -4 ~ 15 28-SOIC 269-4704-5-ND†◆ 10.08 7.56 5.60 Z86E8316SEG
237 24 XTAL/RC DC-16MHz 4.5 ~ 5.5 -4 ~ 15 28-DIP 269-3964-ND◆ 8.13 6.10 4.52 Z86E3016PEG
237 24 XTAL/RC DC-16MHz 4.5 ~ 5.5 -4 ~ 15 28-SOIC 269-4700-5-ND†◆ 8.13 6.10 4.52 Z86E3016SEG
236 32 XTAL/RC DC-16MHz 4.5 ~ 5.5 -4 ~ 15 40-DIP 269-3974-ND◆ 9.69 7.27 5.38 Z86E4016PEG
236 32 XTAL/RC DC-16MHz 4.5 ~ 5.5 -4 ~ 15 44-PLCC 269-4702-5-ND†◆ 9.69 7.27 5.38 Z86E4016VEG
8K 236 32 XTAL/RC DC-12MHz .5 ~ 5.5 ~ 40-DIP 269-3941-ND◆ 10.83 8.13 6.01 Z8674312PSG
237 24 XTAL/RC DC-12MHz .5 ~ 5.5 ~ 28-DIP 269-3972-ND◆ 12.30 9.23 6.84 Z86E3412PSG
237 24 XTAL/RC DC-12MHz .5 ~ 5.5 ~ 28-SOIC 269-4701-5-ND†◆ 12.30 9.23 6.84 Z86E3412SSG
16K
236 32 XTAL/RC DC-12MHz .5 ~ 5.5 ~ 40-DIP 269-3980-ND◆ 13.83 10.38 7.69 Z86E4412PSG
236 32 XTAL/RC DC-12MHz .5 ~ 5.5 ~ 44-PQFP 269-1109-ND 14.82 11.12 6.59 Z86E4412FSC
236 32 XTAL/RC DC-12MHz .5 ~ 5.5 ~ 44-LQFP 269-4577-ND◆ 14.25 10.69 7.91 Z86E4412ASG
236 32 XTAL DC-16MHz 4.5 ~ 5.5 ~ 44-LQFP 269-4578-ND◆ 22.11 16.59 12.28 Z86E6116ASG
236 32 XTAL DC-16MHz 4.5 ~ 5.5 ~ 44-PQFP 269-1111-ND 29.22 21.92 12.99 Z86E6316FSC
32K 236 32 XTAL DC-16MHz 4.5 ~ 5.5 ~ 44-LQFP 269-4579-ND◆ 28.05 21.04 15.58 Z86E6316ASG
236 32 XTAL DC-16MHz 4.5 ~ 5.5 ~ 44-PLCC 269-4703-5-ND†◆ 28.05 21.04 15.58 Z86E6316VSG
† Tube ◆ RoHS Compliant
OTP Programming Adapters
Description
Digi-Key
Part No.
Price
Each
Zilog
Part No.
Z8 Accessory Kit (28-DIP, 40-DIP) for Z86CCP01ZEM 269-2001-ND 48.75 Z86CCP00ZAC
44 Pin PLCC Adapter 269-2008-ND 74.83 Z86E4001ZDV
28 Pin SOIC Adapter 269-2010-ND 50.63 Z86E3400ZDS
44 Pin PQFP to 40 Dip Adapter 269-2021-ND 198.00 Z86E2101ZDF
44 Pin PQFP to 40 Dip Adapter 269-2022-ND 118.83 Z86E4001ZDF
(Continued)
C
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
147
147

Z8 ® Series Microcontrollers (Cont.)
eZ80 - The Next Generation
EZ80190AZ050EC AND EZ80190AZ050SC
Just as the Z80 revolutionized the semiconductor industry, the next generation eZ80 is revolutionizing the way that communi cations are
happening today. This elegant system-on-a-chip can serve web pages over a TCP/IP network, allowing easy system monitoring and
control, effortless processor code up dates, and system compat ibility. This solution enables any browser with access to your network the
ability to control and monitor a net work appli cation. The eZ80 executes Z80 code four times faster than tradi tional Z80s at the same clock
speed, and can operate at speeds up to 50MHz. Unlike most 8-bit micro processors, which can only address 64KB, the eZ80 can address
16MB without a Memory Management unit. The eZ80 Webserver also features an Embedded Internet Software Suite that enables the
transmission and reception of HTML form data and the dyna mic generation of web pages.
FEATURES: 5MHz rocessor Multiply and c cumulate Engine 16M inear ddressing . Operation 2 M Channels
niversal ilog Interface selectable RT, IIC, SI 6 RTs with rescalers 8K SRM 2-it IO with Inter rupt Support
On-Chip Oscillator Optimized ipeline rchi tec ture ilog ebug Interface
RESET
RUN COM POW
ZDI
C
Digi-Key
Price Each
Zilog
Description
Package Part No.
1 25 100 Part No.
Webserver IC, Extended Temperature 100-LQFP 269-3123-ND 21.18 15.89 11.76 EZ80190AZ050EC
Webserver IC 100-LQFP 269-3124-ND 18.42 13.82 10.23 EZ80190AZ050SC
Webserver IC 100-LQFP 269-3866-ND◆ 18.42 13.82 10.23 EZ80190AZ050SG
◆ RoHS Compliant
Z8Plus Microcontrollers
Employing the experience gained from the industry-standard Z80 and Z8 cores, the Z8Plus offers increased
functionality, significantly higher performance, lower power requirements, and greater cost savings over other
8-bit microcontrollers. The Z8Plus is designed to be easy to use, even for designers who have never used a
microcontroller before.
With single-cycle execution, powerful I/O capabilities and register-to-register architecture, the Z8Plus offers
state-of-the-art flexibility and freedom for any designer in search of a low-cost solution for a variety of
microcontroller applications.
The Z8Plus core offers several significant advantages compared to the current Z8 core. Foremost is
performance improvement due to a reduced system clock division and a fixed instruction cycle time. The
improvement is nearly 50%, depending upon instruction mix. For example, a Z8Plus-based part at 10MHz
has performance comparable to a 16MHz part in production today. This, along with significant design
improvements, leads to lower power and lower noise operation.
The Z8PE002 and Z8PE003 microcontrollers are the newest members of the popular Z8E001 Z8 Plus 8-bit
microcontroller family. New features include voltage brown-out protection and power-on reset. Additionally,
the “RESET” pin has been replaced with a general purpose I/O pin and oscillator circuitry to support RC
configurations. These new parts are targeted at customers who require a powerful, yet small OTP microcontroller
for use in general purpose applications.
EMULATOR/PROGRAMMER
FEATURES: In-Circuit rogram ebug Emulation Real-Time Emulation S Emulator Software
indow-ased ser Interface On-ine Help One-Time rogrammable OT Support Selectable
aud Rates ,6 to 5.6 Kbps i-sync Error-Correcting Communi cations rotocol
SPECIFICATIONS: Operating Temperature: 20°C ±10°C Power Requirements: 9.0VDC @ 0.5A Minimum
(Typical) Dimensions: idth 6.5 inches 1.15 cm ength .5 inches 1.5 cm Height . inch
(2.30 cm) Serial Interface: RS-232C @ 9,600, 19,200 (default), 28,800 or 57,600 Baud
HOST COMPUTER: Minimum Requirements: IM C or 1 Compatible 86-ased Machine MHz
4M RM ideo dapter Hard is rive 2.5M ree Space .5 inch, High-ensity H
loppy is rive RS-22C Com ort Mouse or ointing evice Microsoft indows .1
KIT CONTENTS ne o ah: 8M1 Emulator oard Cable/Pods: 18-Pin Emulation Pod Cable;
9-Pin M-F Serial Cable (6 feet) Host Software: Z8 Graphical User Interface (GUI); Zilog Macro Cross
ssembler MSM/ilog eveloper Studio S Docu mentation: Zilog 1999 Technical Library CD
ROM, which contains Z8 device data sheets, user manuals, application notes; Z8M001 Emulator User’s
Manual
Memory
Size I/O
Oscillator
Type
Frequency
Range
Supply
Voltage
Operating
Temperature
Required
Emulator
Required OTP
Programming Digi-Key
Price Each Zilog
Eprom Ram Lines External Min/Max Range (°C) Package Tools Tools Part No.
1 25 100 Part No.
Z8E00010 Series
512 32 13 XTAL/LC C ~ 1MHz .5 ~ 5.5 ~ 18-DIP D D 269-1117-ND 1.80 1.35 1.00 Z8E00010PSC
Z8E00110 Series
1K 64 13 XTAL/LC C ~ 1MHz .5 ~ 5.5 ~ 18-DIP D D 269-1121-ND 2.28 1.71 1.26 Z8E00110PSC
1K 64 13 XTAL/LC C ~ 1MHz .5 ~ 5.5 ~ 18-SOIC ▲ D, 2 269-1123-ND 2.28 1.71 1.26 Z8E00110SSC
1K 64 13 XTAL/LC C ~ 1MHz .5 ~ 5.5 ~ 18-SOIC ▲ D, 2 269-3987-ND◆ 2.55 1.92 1.41 Z8E00110SSG
Z8PE002 Series
512 64 14 XTAL/LC C ~ 1MHz . ~ 5.5 ~ 20-SSOP ▲ D, 17 269-1132-ND 2.10 1.58 1.16 Z8PE002HZ010SC
512 64 14 XTAL/LC C ~ 1MHz 4.5 ~ 5.5 -4 ~ 15 20-SSOP ▲ D, 17 269-1135-ND 2.28 1.71 1.27 Z8PE002HZ010EC
Z8PE003 Series
1K 64 14 XTAL/LC C ~ 1MHz . ~ 5.5 ~ 18-DIP D D 269-1136-ND 2.67 2.01 1.49 Z8PE003PZ010SC
1K 64 14 XTAL/LC C ~ 1MHz . ~ 5.5 ~ 18-SOIC ▲ D, 2 269-1137-ND 2.67 2.01 1.49 Z8PE003SZ010SC
1K 64 14 XTAL/LC C ~ 1MHz . ~ 5.5 ~ 18-SOIC ▲ D, 2 269-4295-ND◆ 3.00 2.25 1.67 Z8PE003SZ010SG
1K 64 14 XTAL/LC C ~ 1MHz . ~ 5.5 ~ 20-SSOP ▲ D, 17 269-1138-ND 2.82 2.12 1.57 Z8PE003HZ010SC
1K 64 14 XTAL/LC C ~ 1MHz 4.5 ~ 5.5 -4 ~ 15 18-SOIC ▲ D, 2 269-1140-ND 2.94 2.21 1.63 Z8PE003SZ010EC
Digi-Key
Part No.
Price
Each
Zilog
Part No.
Key Description
Emulator/Programmer †
D Z8 Plus Emulator/Programmer 269-2033-ND 161.33 Z8ICE001ZEM
◆ RoHS Compliant ▲ Zilog’s emulators support this part, but the in-circuit target cable is configured for DIP only. For designs that require a surface mount package, accommodations will have to be made to use the
emulator for in-circuit DIP emulation. † For OTP programming adapters, please refer to Z8 Series.
Turnkey Universal Remote Control Kit
The Crimzon RC Bullet Reference Design Kits are ideally suited for Universal Remote Control
applications.
These kits feature both learning and non-learning models with both three-in-one (Cable/Satellite,
DVD/VCR and TV) and six-in-one feature sets (Cable, Satellite, Audio, TV, DVD and VCR) for the
North American and European marketplaces.
Built on the Z8-based ZLx16300 and ZLx32300 IR MCU, and competitively priced, the kits give you
everything needed to start manufacturing branded universal remote controls today.
269-3380-ND USA, 3-Function, Non-Learning ..................................................................$129.00
269-3381-ND European, 3-Function, Non-Learning ............................................................$129.00
269-3382-ND USA, 6-Function, Non-Learning ..................................................................$129.00
269-3383-ND European, 6-Function, Non-Learning ............................................................$129.00
269-3384-ND USA, 6-Function, Learning .......................................................................$159.00
269-4665-ND◆ USA, 6-Function, Learning .......................................................................$166.40
269-3385-ND European, 6-Function, Learning .................................................................$159.00
◆ RoHS Compliant
Thermostat Application
Module Kit
Thermostat Application Module provides a flexible platform for training and exper imentation on a number of
microcontroller and microprocessor devices.
The module contains no processor. It is designed to attach to the eZ80 development platforms, which
contain both the processors and the control programs that make the development function.
Features:
Simple bit-I/O Es, switches, lamp, and fan lphanumeric C display via the IO interface
Temperature sensor via the I 2 C interface EEROM data storage via the I 2 C interface lash program
storage for eZ80 family devices
269-3198-ND ............................................................................................. $102.00
Z86L99 with IR Solutions
In-circuit emulators are interactive, Windows-oriented development tools, providing a real-time environment
for emulation and debugging. Provides essential timing and I/O circuitry to simplify user emulation of
prototype hardware and software products.
Features:
• Supports up to 2K of ROM aries the operating voltage from . ~ 4. Sup ports in-cir cuit emulation
on target systems that operate at . ~ 4. owers the In-Circuit Emulator ICE chip from either the
emulator or target board Supports IR devices that operate at up to 8MHz Emu lates 28-pin I and
4-pin I ro vides OT programming for 28-pin I and SOIC pacages, 4-pin I, 48-pin SSO
Multi-tass with other indows applications while ilog eveloper Studio S is running
269-3241-ND Z86L99 In-Circuit Emulator ........................................................$877.50
148 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Microprocessors
Speed
(MHz) Features Timers
Operating
Voltage
(V)
Operating
Temperature
Range
Package
Digi-Key
Part No.
Price Each
1 25 100
6 2-UARTs, 2DMAs 2 5 C ~ C 80-QFP 269-3004-ND 9.33 7.00 5.19 Z8018006FSC
6 2-UARTs, 2DMAs 2 5 C ~ C 80-QFP 269-3879-ND◆ 10.47 7.86 5.81 Z8018006FSG
6 2-UARTs, 2DMAs 2 5 C ~ C 64-Dip 269-3881-ND◆ 9.90 7.43 5.50 Z8018006PSG
8 2-UARTs, 2DMAs 2 5 C ~ C 64-Dip 269-3884-ND◆ 10.29 7.72 5.72 Z8018008PSG
8 2-UARTs, 2DMAs 2 5 -4C ~ 15C 68-PLCC 269-3012-ND 12.72 9.54 7.07 Z8018008VEC
8 2-UARTs, 2DMAs 2 5 -4C ~ 15C 68-PLCC 269-3885-ND◆ 14.25 10.69 7.92 Z8018008VEG
8 2-UARTs, 2DMAs 2 5 C ~ C 68-PLCC 269-3886-ND◆ 10.29 7.72 5.72 Z8018008VSG
10 2-UARTs, 2DMAs 2 5 C ~ C 80-QFP 269-3887-ND◆ 12.63 9.48 7.02 Z8018010FSG
10 2-UARTs, 2DMAs 2 5 -4C ~ 15C 64-Dip 269-3888-ND◆ 14.64 10.98 8.13 Z8018010PEG
10 2-UARTs, 2DMAs 2 5 C ~ C 64-Dip 269-3889-ND◆ 12.63 9.48 7.02 Z8018010PSG
10 2-UARTs, 2DMAs 2 5 -4C ~ 15C 68-PLCC 269-3890-ND◆ 14.64 10.98 8.13 Z8018010VEG
6 2-UARTs, 2DMAs 2 5 -4C ~ 15C 44-LQFP 269-4572-ND◆ 5.52 4.14 3.06 Z84C0006AEG
6 2-UARTs, 2DMAs 2 5 -4C ~ 15C 40-Dip 269-3892-ND◆ 5.52 4.14 3.06 Z84C0006PEG
6 2-UARTs, 2DMAs 2 5 -4C ~ 15C 44-PLCC 269-3893-ND◆ 5.52 4.14 3.06 Z84C0006VEG
8 2-UARTs, 2DMAs 2 5 -4C ~ 15C 44-LQFP 269-4573-ND◆ 5.52 4.14 3.06 Z84C0008AEG
8 2-UARTs, 2DMAs 2 5 -4C ~ 15C 40-Dip 269-3895-ND◆ 5.52 4.14 3.06 Z84C0008PEG
8 2-UARTs, 2DMAs 2 5 -4C ~ 15C 44-PLCC 269-3896-ND◆ 5.52 4.14 3.06 Z84C0008VEG
10 2-UARTs, 2DMAs 2 5 -4C ~ 15C 44-LQFP 269-4574-ND◆ 5.52 4.14 3.06 Z84C0010AEG
10 2-UARTs, 2DMAs 2 5 -4C ~ 15C 40-Dip 269-3898-ND◆ 5.52 4.14 3.06 Z84C0010PEG
10 2-UARTs, 2DMAs 2 5 -4C ~ 15C 44-PLCC 269-3899-ND◆ 5.52 4.14 3.06 Z84C0010VEG
20 2-UARTs, 2DMAs 2 5 -4C ~ 15C 44-LQFP 269-4575-ND◆ 13.02 9.77 7.24 Z84C0020AEG
20 2-UARTs, 2DMAs 2 5 -4C ~ 15C 44-PLCC 269-3902-ND◆ 13.02 9.77 7.24 Z84C0020VEG
8 2-UARTs, 2DMAs 2 5 -4C ~ 15C 40-Dip 269-3903-ND◆ 12.09 9.07 6.72 Z84C1008PEG
10 2-UARTs, 2DMAs 2 5 C ~ C 80-QFP 269-3098-ND 9.33 7.00 5.19 Z8S18010FSC
10 2-UARTs, 2DMAs 2 5 C ~ C 80-QFP 269-4296-ND◆ 10.47 7.86 5.81 Z8S18010FSG
10 2-UARTs, 2DMAs 2 5 C ~ C 64-Dip 269-4297-ND◆ 9.90 7.43 5.50 Z8S18010PSG
10 2-UARTs, 2DMAs 2 5 C ~ C 68-PLCC 269-4298-ND◆ 9.90 7.43 5.50 Z8S18010VSG
20 2-UARTs, 2DMAs 2 5 -4C ~ 15C 80-QFP 269-4299-ND◆ 16.65 12.49 9.25 Z8S18020FEG
20 2-UARTs, 2DMAs 2 5 -4C ~ 15C 80-QFP 269-3104-ND 14.88 11.16 8.26 Z8S18020FEC1960
20 2-UARTs, 2DMAs 2 5 C ~ C 80-QFP 269-4541-5-ND†◆ 13.74 10.31 7.63 Z8S18020FSG
20 2-UARTs, 2DMAs 2 5 C ~ C 64-Dip 269-4301-ND◆ 13.74 10.31 7.63 Z8S18020PSG
20 2-UARTs, 2DMAs 2 5 -4C ~ 15C 68-PLCC 269-4303-ND◆ 16.65 12.49 9.25 Z8S18020VEG
20 2-UARTs, 2DMAs 2 5 -4C ~ 15C 68-PLCC 269-4304-ND◆ 16.65 12.49 9.25 Z8S18020VEG1960
20 2-UARTs, 2DMAs 2 5 C ~ C 68-PLCC 269-4305-ND◆ 13.74 10.31 7.63 Z8S18020VSG1960
20 2-UARTs, 2DMAs 2 5 C ~ C 68-PLCC 269-3863-ND◆ 13.74 10.31 7.63 Z8S18020VSG
33 2-UARTs, 2DMAs 2 5 -4C ~ 15C 68-PLCC 269-3115-ND 16.32 12.24 9.06 Z8S18033VEC
33 2-UARTs, 2DMAs 2 5 -4C ~ 15C 68-PLCC 269-4306-5-ND†◆ 18.27 13.71 10.15 Z8S18033VEG
33 2-UARTs, 2DMAs 2 5 C ~ C 68-PLCC 269-4307-ND◆ 15.18 11.39 8.43 Z8S18033VSG
† Tube ◆ RoHS Compliant
Zilog
Part No.
C
NEW! PSoC ® 1/3/5 Evaluation Kits
PSoC is a true programmable embedded system-on-chip integrating configurable analog and digital peripheral functions, memory and a microcontroller on a single chip. And now our breakthrough new PSoC 3 and PSoC 5
architectures extend the world’s only programmable embedded system design platform, shattering your design limitations.
Description
The CY8CKIT-001A PSoC Development Kit provides you a common development platform where you can prototype and evaluate different
solutions using any one of the PSoC, PSoC3, or PSoC5 architectures.
Kit includes: PSoC development board, PSoC3 CY8C38 Family processor module, PSoC CY8C29 Family processor module, MiniProg3
Programmer and Debug tool, USB cable, 12V power supply adapter, Wire pack, Printed documention (Quick Start, Schematic PSoC
development board design), and a kit CD
The PSoC MiniProg3 Program and Debug Kit is an all-in-one programmer for PSoC 1, PSoC 3, and PSoC 5 architectures as well as a debug tool
for PSoC 3 and PSoC 5 architectures.
Kit Includes: MiniProg3, Program/Debug Ribbing Cable, and USB Cable
The PSoC FirstTouch Starter Kit is designed to introduce you to the PSoC programmable system-on-chip design methodology and Cypress’ new
PSoC 3 architecture.
Kit Includes: Evaluation Board, Quick Start Guide, Kit CD, Retractable USB A to Mini B cable, Proximity wire (for use as proximity detection
antenna), and 9V battery
The CY8CKIT-006 PSoC 3 LCD Segment Drive Evaluation Kit is aimed at showcasing PSoC’s LCD segment drive system.
Kit Includes: PSoC 3 LCD Segment Drive Evaluation Board, 9V Battery, 12V Wall Wart Power Supply, MiniProg3, USB Cable, Kit Stand, Quick
Start Guide, and Resource CD
The CY8CKIT-007 PSoC 3 Analog Voltmeter Demo Kit showcases PSoC’s 20-Bit Delta Sigma Analog to Digital Converter.
Kit Includes: Voltmeter board (with Thermocouple), Resource CD, Mini-hook leads for Voltmeter measurement, Pack for powering the Voltmeter
(includes two AA batteries and USB mini-B connector) and Quick Start Guide
The PSoC CY8C29 Family Processor Module is designed to evaluate and experiment with Cypress’ PSoC 1 programmable system-on-chip
design methodology and architecture.
Kit Includes: PSoC CY8C29 Family Processor Module and Kit CD which includes the PSoC Designer, PSoC Programmer, and
Documentation
The PSoC CY8C38 Family Processor Module is designed to evaluate and experiment with Cypress’ PSoC 3 programmable design methodology
and architecture.
Kit Includes: PSoC CY8C38 Family Processor Module and Kit CD which includes the PSoC Creator, PSoC Programmer, and Documentation
CY8CKIT-010 PSoC CY855 Family Processor Module Kit is designed to evaluate and experiment with PSoC 5 programmable system-on-chip
design methodology and architecture
Kit Includes: PSoC CY8C55 Family Processor Module and Kit CD which includes the PSoC Creator, PSoC programmer, and Documentation
CY8CKIT PSoC 5 FirstTouch Starter Kit is designed to introduce you to the PSoC programmable system-on-chip design methodology and new
PSoC 5 architecture.
Kit Includes: Evaluation Board, Quick Start Guide, Kit CD, USB A to Mini B cable, Proximity Wire, and 9V battery
The CY8C28 Family Processor Module gives you a practical understanding of PSoC technology
Kit Includes: PSoC CY8C28 Family Processor Module, Quick Start, Schematic PSoC Development Board Design, and Software CD for PSoC 1
Digi-Key
Part No.
Price
Each
Cypress
Part No.
428-3037-ND◆ 248.38 CY8CKIT-001A
428-2975-ND◆ 88.80 CY8CKIT-002
428-2977-ND 48.89 CY8CKIT-003
428-2994-ND◆ 148.96 CY8CKIT-006
428-2995-ND 105.07 CY8CKIT-007
428-2978-ND 65.17 CY8CKIT-008
428-2979-ND 65.17 CY8CKIT-009
428-3038-ND◆ 64.84 CY8CKIT-010
428-3039-ND◆ 48.88 CY8CKIT-014
428-3036-ND◆ 65.17 CY8CKIT-020
The CY8KIT-029 PSoC LCD Segment Drive Expansion Board Kit (EBK) is based on the PSoC family of devices
Kit Includes: PSoC LCD Segment Drive Expansion Board, Quick Start Guide, and Kit CD
428-2993-ND◆ 59.85 CY8CKIT-029
◆ RoHS Compliant
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
149
149

PSoC ® (Programmable System on Chip) Microcontrollers
®
The Prorammale System-on-Chip PSoC microcontrollers interate a microcontroller and the analo and diital
components that typically surround it in an embedded system. Easy-to-use development tools enable designers to select
the precise peripheral functionality they desire, including analog functions such as amplifiers, ADCs, DACs, filters and
comparators and diital unctions such as timers, counters, PWMs, SPI and UARTs. The PSoC amilys analo eatures
include rail-to-rail inputs, programmable gain amplifiers and up to 14-bit ADCs with exceptionally low noise, input
leaae and voltae oset. PSoC devices include up to 32KB o lash memory, 2KB o SRAM, an 8x8 multiplier with 32-it
accumulator, power and sleep monitorin circuits, and hardware I 2 C USB and CapSense Technology communications.
Specifications: Operatin Voltae Rane 2.4V 5.25V Temper ature Rane -40C 85C
C
Analog Digital
HW
Digi-Key
Price Each
Cypress
Blocks Blocks Flash SRAM
Comm Bus I/O Vcc Package Part No.
1 25 100 Part No.
Shared Shared 8K 512 I 2 C, SPI 27 2.4 5.25 32-UQFN 428-2944-5-ND§ NEW! 4.26 3.42 3.12 C8C20424-12LQXI
Shared Shared 8K 512 I 2 C, SPI 27 2.4 5.25 32-UQFN 428-2945-ND NEW! 3.95 3.18 2.90 C8C20434-12LQXI
4 4 4K 256 I 2 C 6 2.4 5.25 8-SOIC 428-1682-ND 2.20 1.78 1.60 C8C21123-24SXI
8 8 4K 256 IC, SPI, UART/USART 12 2.4 5.25 16-UQFN 428-2948-5-ND§ NEW! 2.64 2.13 1.92 C8C21223-24LGXI
4 4 4K 256 I 2 C 16 2.4 5.25 24-QFN 428-1685-ND 2.95 2.38 2.14 C8C21323-24LFXI
4 4 8K 512 I 2 C 12 2.4 5.25 16-SOIC 428-1611-ND 3.95 3.18 2.90 C8C21234-24SXI
4 4 8K 512 I 2 C 16 2.4 5.25 20-SSOP 428-1612-ND 4.26 3.42 3.12 C8C21334-24PVXI
4 4 8K 512 I 2 C 28 2.4 5.25 32-VQFN 428-2061-ND 4.56 3.67 3.35 C8C21434-24LTXI
4 4 8K 512 I 2 C 24 2.4 5.25 28-SSOP 428-1614-ND 4.59 3.69 3.37 C8C21534-24PVXI
4 4 8K 512 I 2 C 26 2.4 5.25 32-VQFN 428-2884-ND NEW! 4.96 3.99 3.63 C8C21634-24LTXI
6 4 4K 256 I 2 C 6 2.4 5.25 8-DIP 428-1602-ND 3.30 2.66 2.42 C8C24123A-24PXI
6 4 4K 256 I 2 C 16 2.4 5.25 20-SSOP 428-1605-ND 3.75 3.02 2.75 C8C24223A-24PVXI
6 4 4K 256 I 2 C 24 2.4 5.25 28-SSOP 428-1608-ND 4.31 3.47 3.16 C8C24423A-24PVXI
6 4 4K 256 I 2 C 24 2.4 5.25 28-SOIC 428-1609-ND 4.31 3.47 3.16 C8C24423A-24SXI
4 4 8K 256 UART/USART — — 28-TSSOP 428-2949-5-ND§ NEW! 3.92 3.15 2.87 C8C24533-24PVXI
4 4 8K 256 UART/USART 26 3 5.25 28-SSOP 428-2950-5-ND§ NEW! 4.23 3.40 3.10 C8C24633-24PVXI
6 4 16K 1K I 2 C 50 3 5.25 56-VQFN 428-2937-ND NEW! 6.88 5.64 5.09 C8C24794-24LTXI
6 4 16K 1K I 2 C 50 3 5.25 56-VQFN 428-2938-ND NEW! 6.88 5.64 5.09 C8C24894-24LTXI
6 4 16K 1K I 2 C 56 3 5.25 68-VQFN 428-2965-ND NEW! 8.88 7.28 6.57 C8C24994-24LTXI
12 8 8K 256 — 16 3 5.25 20-SSOP 428-1640-ND 5.75 4.63 4.22 C8C26233-24PVXI
12 8 16K 256 I 2 C 6 3 5.25 8-DIP 428-1593-ND 6.16 4.95 4.51 C8C27143-24PXI
12 8 16K 256 I 2 C 16 3 5.25 20-SSOP 428-1594-ND 6.66 5.36 4.88 C8C27243-24PVXI
12 8 16K 256 I 2 C 16 3 5.25 20-SOIC 428-1595-ND 6.66 5.36 4.88 C8C27243-24SXI
12 8 16K 256 I 2 C 24 3 5.25 28-DIP 428-1596-ND 6.50 5.33 4.81 C8C27443-24PXI
12 8 16K 256 I 2 C 24 3 5.25 28-SSOP 428-1597-ND 6.25 5.13 4.63 C8C27443-24PVXI
12 8 16K 256 I 2 C 24 3 5.25 28-SOIC 428-1598-ND 6.25 5.13 4.63 C8C27443-24SXI
12 8 16K 256 I 2 C 44 3 5.25 48-SSOP 428-1600-ND 6.63 5.44 4.91 C8C27643-24PVXI
12 8 16K 256 I 2 C 44 3 5.25 48-VQFN 428-1601-ND 7.68 6.30 5.68 C8C27643-24LFXI
12 8 16K 256 I 2 C 44 3 5.25 48-VQFN 428-2981-ND NEW! 7.68 6.30 5.68 C8C27643-24LTXI
12 16 32K 2K I 2 C 24 3 5.25 28-DIP 428-1586-ND 9.65 7.92 7.15 C8C29466-24PXI
12 16 32K 2K I 2 C 24 3 5.25 28-SSOP 428-1587-ND 8.43 6.91 6.24 C8C29466-24PVXI
12 16 32K 2K I 2 C 24 3 5.25 28-SOIC 428-1588-ND 8.43 6.91 6.24 C8C29466-24SXI
12 16 32K 2K I 2 C 40 3 5.25 44-LQFP 428-1589-ND 9.38 7.69 6.94 C8C29566-24AXI
12 16 32K 2K I 2 C 44 3 5.25 28-SSOP 428-1590-ND 8.83 7.24 6.54 C8C29666-24PVXI
12 16 32K 2K I 2 C 64 3 5.25 48-VQFN 428-2982-ND NEW! 10.08 8.27 7.46 C8C29666-24LTXI
12 16 32K 2K I 2 C 64 3 5.25 100-LQFP 428-1592-ND 10.75 8.82 7.96 C8C29866-24AXI
— — 32K — — — — 16-COL 428-2952-ND NEW! 9.00 7.38 6.66 C8CTMG200-16LGXI
— — 32K — — — — 24-UQFN 428-2953-ND NEW! 9.25 7.59 6.85 C8CTMG200-24LQXI
— — 32K — — — — 32-UQFN 428-2954-ND NEW! 9.50 7.79 7.03 C8CTMG200-32LQXI
— — 32K — — — — 48-QFN 428-2955-ND NEW! 9.75 8.00 7.22 C8CTMG200-48LTXI
— — 16K — — — — 32-UQFN 428-2971-ND NEW! 9.63 7.90 7.13 C8CTMG201-32LQXI
— — 16K — — — — 48-QFN 428-2972-ND NEW! 9.75 8.00 7.22 C8CTMG201-48LTXI
— — 32K — — — — 16-QFN 428-2973-ND NEW! 4.62 3.72 3.39 C8CTST200-16LGXI
— — 32K — — — — 24-UQFN 428-2956-ND NEW! 4.90 3.94 3.59 C8CTST200-24LQXI
— — 32K — — — — 32-UQFN 428-2957-ND NEW! 5.18 4.17 3.80 C8CTST200-32LQXI
— — 32K — — — — 48-QFN 428-2958-ND NEW! 6.16 4.95 4.51 C8CTST200-48LTXI
— — 32K — — — — 48-SSOP 428-2974-5-ND§ NEW! 6.16 4.95 4.51 C8CTST200-48PVXI
§ Tube
PowerPSoC ® Lighting Microcontrollers and Evaluation Kits
The PowerPSoC family incorporates programmable system-on-chip technology with the best in class power electronics
controllers and switching devices to create easy to use power-system-on-chip solutions for lighting applications.
PowerPSoC is the first device to combine the power of an embedded controller with integrated high-power peripheral
unctionality. This includes our internal 32V, 1A rated low-side N-channel MOSFETs, our 32V, 6MHz rated
current sense ampliiers with adustale ain settins, our 2MHz hysteretic controllers that can e coniured
as either buck, boost, or buck-boost, and a 32V input voltage regulator.
Analog Digital
HW
Max. Output
Digi-Key
Price Each
Cypress
Blocks Blocks Channels Flash SRAM
Comm Bus
I/O Current (A) Vcc Package Part No.
1 25 100 Part No.
Lighting Microcontrollers
4 4 2 4K 256 IC, IrDA, SPI, UART/USART 12 1 3.0 5.25 16-SOIC 428-2951-5-ND NEW! 3.92 3.15 2.87 C8CLED02-16SXI
6 4 4 16K 1K IC, SPI, UART/USART, USB 56 1 3.0 5.25 68-VQFN 428-2970-ND NEW! 9.25 7.59 6.85 C8CLED04-68LTXI
6 8 3 16K 1K DALI, DMX512, IC, IrDA, SPI, UART/USART 14 1 4.75 5.25 56-VQFN 428-2924-ND 11.33 9.53 8.76 C8CLED03D01-56LTXI
6 8 4 16K 1K DALI, DMX512, IC, IrDA, SPI, UART/USART 14 1 4.75 5.25 56-VQFN 428-2279-ND 14.41 12.12 11.14 C8CLED04D01-56LTXI
6 8 4 16K 1K DALI, DMX512, IC, IrDA, SPI, UART/USART 14 0.5 4.75 5.25 56-VQFN 428-2280-ND 13.31 11.20 10.29 C8CLED04D02-56LTXI
6 8 4 16K 1K DALI, DMX512, IC, IrDA, SPI, UART/USART 14 1 4.75 5.25 56-VQFN 428-2923-ND 24.00 20.40 18.90 C8CLED04DOCD1-56LTXI
— — 3 16K 1K DALI, DMX512, IC, IrDA, SPI, UART/USART 14 1 4.75 5.25 56-VQFN 428-2968-ND NEW! 12.13 9.95 8.98 C8CLED03G01-56LTXI
— — 4 16K 1K DALI, DMX512, IC, IrDA, SPI, UART/USART 14 1 4.75 5.25 56-VQFN 428-2969-ND NEW! 13.53 11.38 10.46 C8CLED04G01-56LTXI
Evaluation Kits
PowerPSoC Lihtin Evaluation Kit
Kit Includes: C3267 PowerPSoC Main Board, LED Dauhter Board, Wall-wart Power Supply, Optical Diuser, Retractale USB Cale, and Sotware.
428-2281-ND 199.50/1 C3267
PowerPSoC Lihtin Starter Kit
Kit Includes: C3268 PowerPSoC Board, 12V 1A Power Supply, Two Jumper Shunts, and Sotware
428-2882-ND 66.50/1 C3268
EZ-Color High-Brightness LED Controllers and Development Kit
Cypress E-Color amily o devices oers the ideal control solution or Hih Brihtness LED applications reuirin
intelligent dimming control. EZ-Color devices combine the power and flexibility of PSoC ® with Cypress PrISM Precise
Illumination Sinal Modulation drive technoloy providin lihtin desiners a ully customizale and interated lihtin
solution platorm. E-Color devices support up to 16 independent LED channels with up to 32 its o resolution
per channel, enalin lihtin desiners the lexiility to choose the LED array size and color uality. E-Colors
virtually limitless analo and diital customization allow or simple interation o eatures.
LED
Analog
Digi-Key
Price Each
Cypress
Channels
Blocks Flash SRAM Package Part No.
1 25 100 Part No.
Development Kit
High-Brightness LED Controllers
8 12 16K 256 28-SSOP 428-2892-5-ND NEW! 10.00 8.20 7.40 C8CLED08-28PVXI 428-2270-ND
8 12 16K 256 48-VQFN 428-1948-ND 11.25 9.23 8.33 C8CLED08-48LFXI 428-2270-ND
16 12 32K 2K 28-SSOP 428-1950-5-ND 11.75 9.64 8.70 C8CLED16-28PVXI 428-2270-ND
16 12 32K 2K 48-VQFN 428-2983-ND NEW! 11.88 9.99 9.18 C8CLED16-48LTXI —
16 12 32K 2K 48-SSOP 428-1952-5-ND 12.25 10.05 9.07 C8CLED16-48PVXI 428-2270-ND
Development Kit
Lihtin Starter Demonstration Kit
Kit Includes: C3269N Lihtin Starter Demonstration Board and 9V Battery
428-2270-ND 33.25/1 C3269N —
®
For Digi-Reel ® information, please see page 71.
150 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

PSoC ® Evaluation Kits
PSoC is a true prorammale emedded system-on-chip interatin conurale analo and diital peripheral unctions, memory and a microcontroller on a sinle chip. And now our reathrouh new PSoC 3 and PSoC 5 architectures extend the worlds
only programmable embedded system design platform, shattering your design limitations.
Description
C3270 PSoC FirstTouch Starter Kit
Starter Kit Includes: USB FTPC Bridge, FTMF Expansion Card and Software
PIR Motion Detection Evaluation Kit
Kit Includes: PIR Motion Sensor Board, Power Supply, Sotware, and Desin Files.
PSoC I2C to USB Bride Evaluation Kit
Kit Includes: I2C USB Bride, I2C Slave Demonstration Board, USB Mini B Cale, and Sotware CD
PSoC Express II Evaluation Kit
Kit Includes: Two PSoC Evaluation boards, MiniProg USB Programmer, Cables, and Software
PSoC with USB Evaluation Kit
Kit Includes: PSoCEvalUSB Board, LCD Module, MiniProg1 programmer, USB mini cable, Documentation and Soft ware
The ISSP In-System Serial Prorammin Prorammer
Kit Includes: SSP Prorammer, ISSP Sotware CD-ROM, 6-Foot USB Cale, 2-Foot Prorammin Cale, and 9V Power Supply
Kit Extension or C3215-DK
Kit Includes: enCoRe III Application Board Includes enCoRe III On-Chip Deuer and solderless readoard, Jumper wire it, MiniPro USB
Prorammer, Standard-A to Mini-B USB cale, 110 240V Switch Mode Power Supply and Universal power adapter, Three C7C64215-28PVXC
samples, Three C7C64215-56LFXC samples, Sotware, and Printed Documents
Evaluation Kit or PSoC with MiniPro1
Kit Includes: Evaluation oard with LCD module, MiniPro1 Prorammin unit, Sotware, C8C29466-24PXI Samples, and USB 2.0 Cale
MiniProg1 Demo Board
Kit Includes: MiniProg Programming Unit, MiniEval Socket Programming and Evaluation Board, Device Samples, Cable, and Software
MiniProg Demo Board
Kit Includes: MiniProg Programming Unit, USB Cable, and Software
PSoC I2C Port Expander Evaluation Kit
Kit Includes: I2C Port Expander Demo Board usin C8C9520 Port Expander, USB Cale, and Documentation
In-Circuit Emulation ICE Pod Kit or deuin 44TQFP C8C22545 PSoC Devices
Kit Includes: One C8C22545 Emulation Pod, Two 44-pin TQFP Feet, One C3250-Flex Cale, and Two C8C22545-24AXI Chip Samples
Replacement In-Circuit Emulation ICE Pod Kit or deuin 44TQFP C8C22545 PSoC Devices
Kit Includes: C8C22545 Emulation Pod
Replacement In-Circuit Emulation ICE Pod Kit or deuin 28 SOIC C8C22345/21345 PSoC Devices
Kit Includes: One C8C22345 Emulation Pod, Two 28-pin SOIC Feet, One C3250-FlexCale, and Two C8C22345-24SXI Chip Samples
In-Circuit Emulation ICE Pod Kit or deuin C8C20536/546/566A CapSense PSoC Devices
Kit Includes: One C8C20536/546/566A ICE Pod, One Flex Cale, and Two 48-pin SSOP Pod Feet
In-Circuit Emulation ICE Pod Kit or deuin QFN C8C23x33 PSoC Devices
Kit Includes: One QFN C8C23533 ICE Pod, One Flex Cale, and Two 32-pin QFN Pod Feet
In-Circuit Emulation ICE Pod Kit
Kit Includes: C3253-BLDC Control Main Board, Two Lithium-II Dauhter Boards, LCD Module, DC Power Supply, 3-phase BLDC motor, C3253-BLDC
Kit CD-ROM, and Quic Start
Replacement In-Circuit Emulation ICE Pod Kit
Kit Includes: C3253-BLDC Control Main Board, Two Lithium-II Dauhter Boards, LCD Module, DC Power Supply, 3-phase BLDC motor, C3253-BLDC
Kit CD-ROM, and Quic Start
In-Circuit Emulation ICE Pod Kit or deuin QFN C8C28XXX PSoC Devices
Kit Includes: One QFN C8C286xx ICE Pod, One Flex Cale, and Two 48-pin QFN Pod Feet
Replacement In-Circuit Emulation ICE Pods Kit or deuin QFN C8C28XXX PSoC Devices
Kit Includes: Two QFN C8C286XX ICE Pods
In-Circuit Emulation ICE Pod Kit or deuin Non-QFN C8C28XXX PSoC Devices
Kit Includes: One Non-QFN C8C28XXX ICE Pod, One Flex Cale, Two 28-pin PDIP Pod Feet, and One 28-pin Mas
Replacement In-Circuit Emulation ICE Pods or deuin Non-QFN C8C28XXX PSoC Devices
Kit Includes: Two Non-QFN C8C28XXX ICE Pods
In-Circuit Emulation ICE Pod Kit or deuin 48-pin QFN enCoRe V Low Voltae C7C60455/56 Devices
Kit Includes: One 60455Q Pod, One Flex Cale, and Two 48QFN Feet
In-Circuit Emulation ICE Pod Kit or deuin 16-pin QFN enCoRe V C7C64315/16 Devices
Kit Includes: One 64315Q Pod, One Flex Cale, and Two 16QFN Feet
In-Circuit Emulation ICE Pod Kit or deuin 48-pin QFN enCoRe V C7C64355/56 Devices
Kit Includes: One 64355Q Pod, One Flex Cale, and Two 48QFN Feet
Replacement In-Circuit Emulation ICE Pods or deuin 48-pin QFN enCoRe V C7C64355/56 Device
Kit Includes: Two 64355Q Pods
In-Circuit Emulation ICE Pod Kit or deuin Non-QFN C8CLED08 E-Color HB LED Controllers
Kit Includes: One C8CLED08 ICE Pod, One Flex Cale, Two 28-SSOP Pod Feet, Two C8CLED08-28PVXI, and One 28-pin Mas
Replacement In-Circuit Emulation ICE Pods
Kit Includes: Two 28-SSOP Pod Feet
Digi-Key
Part No.
Price
Each
Cypress
Part No.
428-2018-ND 38.90 C3270
428-2022-ND 198.84 C3236A-PIRMOTION
428-1910-ND 88.78 C3240-I2USB
428-2025-ND 230.81 C3209-EXPRESSEVK
428-1650-ND 178.35 C3214-PSOCEVALUSB
428-1495-ND 505.24 C3207ISSP
428-3033-ND NEW! 548.44 C3664-EXT
428-1584-ND 138.65 C3210-PSOCEVAL1
428-1585-ND 68.83 C3210-MINIPROG1
428-2021-ND 28.93 C3217
428-2023-ND 174.23 C3242-IOXLITE
428-2927-ND NEW! 386.05 C3250-22545
428-2926-ND NEW! 318.88 C3250-22545-POD
428-2928-ND NEW! 386.05 C3250-22345
428-3015-ND◆ NEW! 161.18 C3250-20566
428-3016-ND◆ NEW! 210.94 C3250-23X33QFN
428-3017-ND◆ NEW! 365.75 C3250-24X33
428-3018-ND◆ NEW! 199.50 C3250-24X33-POD
428-3019-ND◆ NEW! 335.16 C3250-286XXQFN
428-3020-ND◆ NEW! 226.10 C3250-286XXQFN-POD
428-3021-ND◆ NEW! 335.16 C3250-28XXX
428-3022-ND◆ NEW! 226.10 C3250-28XXX-POD
428-3023-ND◆ NEW! 335.83 C3250-60455QFN
428-3024-ND◆ NEW! 339.15 C3250-64315QFN
428-3025-ND◆ NEW! 344.98 C3250-64355QFN
428-3026-ND◆ NEW! 256.61 C3250-64355QFN-POD
428-3027-ND◆ NEW! 365.75 C3250-LED08
428-3028-ND◆ NEW! 199.50 C3250-LED08-POD
C
Replacement Flex Cale or C3250 Pod Kits 428-1866-ND 165.93 C3250-FLEXCABLE
◆ RoHS Compliant
CY3215-DK Development Kits and Accessories
Description
PSoC Development Kit
Kit Includes: ICE-Cue Unit, Emulation Pod or C8C29466-24PXI, C8C29466-24PXI Samples, ISSP Cale, MiniEval Socet Prorammin and Evaluation oard, Power Supply
European Plu Adapter, and USB 2.0 Cale
Emulation Kits
For Use With C8C24x94 QFN Pacae
Kit Includes: 1 Flex Cable, 1 Pod, and 2 Pod Feet
For Use With C8C27xxx
Kit Includes: 1 Flex Cable, 1 Pod, and 2 Pod Feet
For Use With C8C29xxx
Kit Includes: 1 Flex Cable, 1 Pod, and 2 Pod Feet
Evaluation Pods — RoHS Compliant
Family C48C20x34
Allows evaluation o a device amily usin 28-DIP connector
Family C8C24x23
Allows evaluation o a device amily usin 28-DIP connector
Replacement Foot Kits
28-SSOP
Kit Includes: 4 Pod Feet
24-QFN
Kit Includes: 4 Pod Feet
Digi-Key
Part No.
Price
Each
Cypress
Part No.
428-1583-ND 447.88 C3215-DK
428-1867-ND 341.86 C3250-24X94QFN
428-1884-ND 365.75 C3250-27XXX
428-1885-ND 365.75 C3250-29XXX
428-1994-ND 182.98 C3210-20X34
428-1997-ND 133.00 C3210-24X23
428-1896-ND 99.75 C3250-28SSOP-FK
428-1873-ND 262.01 C3250-24QFN-FK
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
151
151

CapSense Express
The CapSense Express Family, supported by PSOC Express Visual Embedded System Design Tool and
the CapSense Express Configuration Tool, is the quickest and easiest to use for touch sensing functionality.
The CapSense Express family supports up to 36 general purpose I/Os for buttons, multi-segment sliders,
LEDs and other general purpose functions, all configured via I 2 C registers.
C
Analog
Blocks
1 CapSense
Digital
HW
Digi-Key
Price Each
Cypress
Blocks Flash SRAM Comm Bus I/O Vcc Package Part No.
1 25 100 Part No.
0 2K 512 I 2 C 10 2.4 ~ 5.25 16-UQFN 428-2046-ND 2.70 2.18 1.96 CY8C20110-LDX2I
0 2K 512 I 2 C 10 2.4 ~ 5.25 16-SOIC 428-2047-5-ND 2.76 2.23 2.01 CY8C20110-SX2I
0 2K 512 I 2 C 4 2.4 ~ 5.25 8-SOIC 428-2050-5-ND 2.29 1.85 1.67 CY8C20142-SX1I
0 2K 512 I 2 C 6 2.4 ~ 5.25 16-SOIC 428-2052-5-ND 2.48 2.00 1.80 CY8C20160-SX2I
0 2K 512 I 2 C 8 2.4 ~ 5.25 16-SOIC 428-2054-5-ND 2.60 2.10 1.89 CY8C20180-SX2I
0 2K 512 I 2 C 10 2.4 ~ 5.25 16-SOIC 428-2056-5-ND 2.91 2.35 2.12 CY8C201A0-SX2I
0 8K 1K I2C, SPI 13 1. ~ 5.5 16-UQFN 428-2941-ND NEW! 3.72 3.00 2.73 CY8C20236-24LKXI
0 8K 512 I 2 C, SPI 20 2.4 ~ 5.25 24-UQFN 428-2919-ND NEW! 3.81 3.06 2.79 CY8C20334-12LQXI
0 8K 1K I2C, SPI 20 1. ~ 5.5 24-UQFN 428-2942-ND NEW! 3.86 3.11 2.83 CY8C20336-24LQXI
0 16K 2K I2C, SPI 19 1. ~ 5.5 24-UQFN 428-2943-ND NEW! 5.71 4.59 4.19 CY8C20396-24LQXI
0 8K 1K I2C, SPI 28 1. ~ 5.5 32-UQFN 428-2946-ND NEW! 4.00 3.22 2.94 CY8C20436-24LQXI
0 32K 2K I2C, SPI 34 1. ~ 5.5 48-SSOP 428-2947-ND NEW! 6.47 5.20 4.74 CY8C20566-24PVXI
0 32K 2K I2C, SPI 36 1. ~ 5.5 48-VQFN 428-2980-ND NEW! 6.83 5.49 5.01 CY8C20666-24LTXI
CapSense Development Kits
The CapSense Family is Cypress’s market leading Capacitive Sensing solution that has replaced more than 3 Billion sensors with a Capacitive touch interface over the last many years. The CapSense Family is based on
Cypress’ Programmable System on Chip (PSoC) platform that provides customers with the flexibility needed to make last minute changes and get to market before the competition.
Description
CapSense Proximity Detection Demonstration Kit
Kit Includes: Proximity Detection Demo Board with Antenna, I2C to USB Debugging/Communication Bridge, USB Cable, Software, and Quick Start Guide
PSoC CapSense Demo Kit
Kit Includes: Demonstration Board, User Guide, Documentation and Software CD, and Power Supply
CapSense Evaluation Board Kit
Kit Includes: CapSense Evaluation Board with CY8C20110-LDX2I, CY3240-I2USB Bridge Board, USB Cable, and Battery
CapSense Evaluation Board Kit
Kit Includes: CapSense Evaluation Board with CY8C20142-SX2I, CY3240-I2USB Bridge Board, USB Cable, and Battery
Evaluation Kit for CapSense CSA
Kit Includes: Training Board (CY8C20x34), PSoC Designer and Example Project CD, CSA User Module, Mini Programmer Unit, LCD Module, and USB
Cable
Universal CapSense Controller Kit Quick Start
Kit Includes: CY3280-20x66 Universal CapSense Controller Board, CY3240-I2USB I2C Bridge Board, CY3210 PSoC MiniProg1 Programmer, CY3280-
20x66 Quick Start, CY3280-20x66 Universal CapSense Controller Kit CD, and Retractable USB Cable (A to mini-B)
Universal CapSense Radial Slider Module Kit Quick Start
Kit Includes: CY3280-SRM Universal CapSense Module Board, CY3280-SRM Universal CapSense Module Board CD/DVD, and CY3280-SRM Quick Start
Universal CapSense Linear Slider Module Kit Quick Start
Kit Includes: CY3280-SLM Universal CapSense Module Board, CY3280-SLM Universal CapSense Module Board CD/DVD and CY3280-SLM Quick Start
Universal CapSense Simple Button Module Kit Quick Start
Kit Includes: CY3280-BSM Universal CapSense Module Board, CY3280-BSM Universal CapSense Module Board CD/DVD and CY3280-BSM Quick Start
Universal CapSense Matrix Button Module Kit Quick Start
Kit Includes: CY3280-BMM Universal CapSense Module Board, CY3280-BMM Universal CapSense Module Board CD/DVD and CY3280-BMM Quick Start
Universal CapSense Prototyping Module Kit Quick Start
Kit Includes: CY3280-BBM Universal CapSense Prototyping Module, CY3280-BBM Universal CapSense Prototyping Module Kit CD and CY3280-BBM
Quick Start Booklet
Universal CapSense Controller Development Kit Quick Start
Kit Includes: CY3280-22X45 Universal CapSense Controller Board, CY3280-22X45 Universal CapSense Controller Board CD, CY3240-I2CUSB Board,
CY3210-MiniProg1 Programmer, DC power supply, and printed documents
Universal CapSense Controller Board
Kit Includes: CY3280-24x94 Universal CapSense Controller Board, CY3240-I2USB Bridge Board, CY3210 PSoC MiniProg1 Programmer, CY3280-24x94
Quick Start, CY3280-24X94 Universal CapSense Controller CD, PSoC Designer 4.0 and PSoC Programmer CD, PSoC Express 3.0 Installation CD, and
Retractable USB Cable (A to mini-B)
CapSensePlus Module Development Kit Quick Start
Kit Includes: CY3280-CPM1 Demo Board, Kit CD, and Kit Quick Start
◆ RoHS Compliant
Digi-Key
Part No.
Price
Each
Cypress
Part No.
428-1909-ND 131.67 CY3235-PROXDET
428-1652-ND 87.78 CY3220-FPD
428-2043-ND 98.42 CY3218-CAPEXP1
428-2045-ND 120.10 CY3218-CAPEXP3
428-1924-ND 97.52 CY3203A-CAPSENSE
428-2987-ND◆ NEW! 253.37 CY3280-20X66
428-2988-ND◆ NEW! 98.78 CY3280-SRM
428-2989-ND◆ NEW! 98.78 CY3280-SLM
428-2990-ND◆ NEW! 98.78 CY3280-BSM
428-2991-ND◆ NEW! 98.78 CY3280-BMM
428-2992-ND◆ NEW! 48.88 CY3280-BBM
428-3029-ND◆ NEW! 197.11 CY3280-22X45
428-3030-ND◆ NEW! 278.13 CY3280-24X94
428-3031-ND◆ NEW! 97.76 CY3280-CPM1
NEW! Wireless Microcontrollers
and Network Processor
Cypress offers a line of low-power, 8-bit microcontrollers that are ideal for wireless
HID applications. The devices eature the industrys smallest 8-it RISC core with
flash memory and a variety of internal peripheral functions.
RAM Memory Memory
Number
Digi-Key
Price Each Cypress
Size Size Architecture Core of I/O Voltage Package Part No. 1 25 100 Part No.
512B 8K Flash Pipeline 28 2.4 3.6 32-VQFN 428-2939-ND 3.64 2.93 2.67 C7C60323-LTXC
512B 8K Flash Pipeline 26 2.4 3.6 32-VQFN 428-2940-ND 3.64 2.93 2.67 C7C60333-LTXC
1K 8K Flash Pipeline 13 1.71 3.6 16-UQFN 428-2963-ND 3.08 2.48 2.26 C7C60413-16LKXC
512B 2K Flash Pipeline 19 4.5 5.5 64-LQFP 428-2912-ND 6.73 5.52 4.98 C7C53150-20AXI
Microcontrollers
Toshiba Microcontrollers feature low-power consumption and low voltage operation. The on-chip peripherals
options include LCD, VFT and LED display drivers, A/D, PWM and UARTS.
Toshiba’s ARM9 core meets various needs of customers such as high-speed processing and integrated
development environment. It is capable of operating up to 200MHz and incorporating a 16-Kbyte instruction
cache, 16-Kbyte data cache, LCD controller and high-speed USB device controller.
Cortex-M3 is a high-performance, low-power general-purpose microcontroller with a large Flash memory,
real time clock, 10-bit A/D converter, 3-channel SIO/UART. These features make the Cortex-M3 well suited for
use in consumer, industrial, security system and low power applications.
Memory Size
Supply
Digi-Key
Price Each
Toshiba
Core EPROM RAM I/O Voltage
Package Part No.
1 10 25 100 Part No.
TX19A 2MB 64KB 209 2. ~ .6 281-FBGA TMP19A64F20AXBG-ND◆ 46.25 — 40.00 37.50 TMP19A64F20AXBG
870/C 32K 2K 39 1.8 ~ .6 64-QFP TMP86FM29FG-ND◆ 6.97 — 5.60 5.11 TMP86FM29FG
870/C 32K 2K 56 1.8 ~ .6 64-QFP TMP86FM48FG-ND◆ 10.00 — 8.20 7.40 TMP86FM48FG
870/C 32K 2K 56 1.8 ~ .6 64-LQFP TMP86FM48UG-ND◆ 9.88 — 8.10 7.31 TMP86FM48UG
870/C 8K 256 24 2. ~ 5.5 30-SSOP TMP86F808DMGEY-ND◆ 5.40 — 4.32 3.36 TMP86F808DMG(EY)
870/C 16K 512 26 4.5 ~ 5.5 32-SDIP TMP86FH09NGZM-ND◆ 3.16 — 2.55 2.32 TMP86FH09NG(ZM)
870/C 60K 1K 55 2. ~ 5.5 80-LQFP TMP86FS27FG-ND◆ 11.85 — 9.72 8.77 TMP86FS27FG
870/C 60K 2K 62 2. ~ 5.5 80-QFP TMP86FS28FGTZ-ND◆ 6.33 — 5.19 4.69 TMP86FS28FG(TZ)
870/C 60K 2KB 56 2. ~ 5.5 60-LQFP TMP86FS49AUGJZ-ND◆ 6.50 — 5.33 4.81 TMP86FS49AUG(JZ)
870/C 60K 2KB 91 2. ~ 5.5 100-QFP TMP86FS64FGTZ-ND◆ 6.90 — 5.55 5.05 TMP86FS64FG(TZ)
TLCS-870/C 16K 512 32 1.8 ~ 5.5 44-LQFP TMP86PH22UGJZ-ND◆ 5.46 — 4.39 4.00 TMP86PH22UG(JZ)
900/L1 256K 16KB 81 2.4 ~ .6 100-LQFP TMP91FY42FGJZ-ND◆ 13.49 — 11.35 10.43 TMP91FY42FG(JZ)
900/L1 128K 8KB 83 2.4 ~ .6 100-LQFP TMP91FW60FGBJZ-ND◆ 9.33 — 7.65 6.91 TMP91FW60FG(B,JZ)
ARM9 16KB 56KB 108 1.8 ~ .6 361-FBGA TMPA910CRAXBG-ND◆ 15.40 14.00 — 11.90 TMPA910CRAXBG
Cortex M3 512K 32K 79 2. ~ .6 100-LQFP TMPM330FDFG-ND◆ NEW! 5.20 — 4.16 3.51 TMPM330FDFG
900/H1 8K 288KB 136 2.4 ~ .6 228-FBGA TMP92CZ26AXBG-ND◆ 13.20 — 11.10 10.20 TMP92CZ26AXBG
86FM29 Starter Kit for TMP86FM29FG BMSKTOPASFMA-ND 110.40 — — — BMSKTOPASFM29(AND)
86FH47 Starter Kit BMSKTOPASFM47AND-ND 110.40 — — — BMSKTOPASFM47(AND)
86FM48 Starter Kit for TMP86FM48UG BMSKTOPASFM48AND-ND 110.40 — — — BMSKTOPASFM48(AND)
Starter Kit for TMPA900CMXBG BMSKTOPASA900(DCE)-ND◆ NEW! 544.50 — — — BMSKTOPASA900(DCE)
◆ RoHS Compliant
152 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Microcontrollers 8-Bit 8051 Compatible
The 8051 microcontroller amily remain one o the most popular processors in the world. Its ease o use and relatively hih
performance make it ideal for many ap plications, including portable and handheld products. The introduction of a line of
hih-perormance derivatives has many positive implications or improvin the power eiciency o 8051-ased desins.
First, the use o a hih-speed 8051 microcontroller can siniicantly improve power eiciency. A hih perormance CPU
allows the processor clock to be slowed, resulting in the same level of performance at less power. Alternatively, the
performance of an existing system can be increased without increasing power consumption. Second, a device which
incorporates all needed peripherals should e selected i possile. I extra data memory is reuired, a device such as the
DS87C520 should e used, which incorporates 1 iloyte o internal MOVX SRAM. One o the strenths o the 8051 product
family is the wide variety of on-chip peripherals. Features such as watchdog timers, additional UARTs, and precision reset
circuits are available on high-speed microcontrollers.
Internal
Program
Memory
128kB Flash
Internal
MOVX
SRAM
Power Fail
Reset and
Interrupt
Power
Management
Mode
Supply
Voltage
(V)
Serial 16-Bit Watchdog
Speed
Digi-Key
Price Each
Ports Timers Timer
Features
(MHz) Package Part No.
1 25
64B 1 2 es es es 4.75 5.25 8051 Compatile 16 80-QFP DS5000FP-16-ND NEW! 13.75 13.07
64B 1 2 es es es 4.5 5.5 8051 Compatile 16 80-TQFP DS5001FP-16-ND NEW! 17.50 16.63
64B 1 2 es es es 4.5 5.5 8051 Compatile 16 80-TQFP DS5001FP-16N-ND NEW! 20.13 19.13
128kB 1 2 es es es 4.5 5.5 8051 Compatile 16 80-TQFP DS5002FMN-16-ND NEW! 23.00 21.85
— 1 3 No No No 4.5 5.5 80C32 Compatile 25 40-DIP DS80C310-MCG-ND 15.96 10.64
— 1 3 No No No 4.5 5.5 80C32 Compatile 25 44-PLCC DS80C310-QCG-ND 14.40 9.60
ROM-less — 2 3 es es No 4.5 5.5 80C32 Compatile 25 44-TQFP DS80C320-ECG-ND 25.08 16.72
— 2 3 es es No 4.5 5.5 80C32 Compatile 25 40-DIP DS80C320-MCG-ND 16.80 11.20
— 2 3 es es No 4.5 5.6 80C32 Compatile 33 40-DIP DS80C320-MCL-ND 22.80 15.20
— 1kB 2 3 es es No 4.5 5.5 80C32 Compatile 33 40-DIP DS80C320-MNG-ND 22.80 15.20
— 2 3 es es No 4.5 5.6 80C32 Compatile 25 44-PLCC DS80C320-QCG-ND 21.66 14.44
ROM-less — 2 3 es es No 4.5 5.6 80C32 Compatile 33 44-PLCC DS80C320-QCL-ND 25.08 16.72
— 2 3 es es No 4.5 5.5 80C32 Compatile 33 44-PLCC DS80C320-QNG-ND 25.08 16.72
— 2 3 es es No 4.5 5.5 80C32 Compatile 33 44-PLCC DS80C320-QNL-ND 29.07 19.38
—
— 2 3 es es No 2.7 5.5 80C32 Compatile 18 44-TQFP DS80C323-ECD-ND 8.13 5.42
— 2 3 es es No 2.7 5.5 80C32 Compatile 18 40-DIP DS80C323-MCD-ND 8.13 5.42
4kB 2 3 es es es 4.5 5.5 Dual CAN 100 64-LQFP DS80C390-FNR-ND 17.00 16.15
64B 1 3 No es No 4.5 5.5 80C32 Compatile 25 44-TQFP DS80C310-ECG-ND NEW! 17.76 11.84
64B 1 3 No es No 4.5 5.5 80C32 Compatile 25 44-PLCC DS80C310-QNG-ND NEW! 19.95 13.30
64B 2 3 es es es 4.25 5.5 80C32 Compatile 33 44-TQFP DS80C320-ECL-ND NEW! 29.07 19.38
64B 2 3 es es es 4.25 5.5 80C32 Compatile 25 44-TQFP DS80C320-ENG-ND NEW! 29.07 19.38
64B
64B 2 3 es es es 4.25 5.5 80C32 Compatile 33 44-TQFP DS80C320-ENL-ND NEW! 14.75 14.02
64B 2 3 es es es 4.25 5.5 80C32 Compatile 33 40-DIP DS80C320-MNL-ND NEW! 26.22 17.48
64B 2 3 es es es 4.25 5.5 80C32 Compatile 18 44-TQFP DS80C323-END-ND NEW! 8.13 5.42
64B 2 3 es es es 4.25 5.5 80C32 Compatile 18 44-PLCC DS80C323-QCD-ND NEW! 8.13 5.42
64B 2 3 es es es 4.25 5.5 80C32 Compatile 18 44-PLCC DS80C323-QND-ND NEW! 8.13 5.42
1kB 2 3 es es es 3.85 5.5 80C52 Compatile 40 64-LQFP DS80C390-FCR-ND NEW! 14.88 14.14
4kB
1kB 2 3 es es es 3.85 5.5 80C52 Compatile 40 68-PLCC DS80C390-QCR-ND NEW! 15.13 14.38
1kB 2 3 es es es 3.85 5.5 80C52 Compatile 40 68-PLCC DS80C390-QNR-ND NEW! 17.50 16.63
1kB 3 4 es es es 1.8 3.3 80C32 Compatile 75 100-LQFP DS80C400-FN-ND 26.52 17.68
64B ROM 1kB 3 4 es es es 1.62 3.6 8051 Compatile 75 100-LQFP DS80C410-FN-ND NEW! 26.67 17.78
73.5B 3 4 es es es 1.8 3.3 Ethernet, CAN 75 100-LQFP DS80C411-FN-ND 24.00 16.00
16B Flash
1kB 2 3 es es es 4.5 5.5 80C52 Compatile 33 44-TQFP DS87C520-ENL-ND NEW! 25.25 23.99
1kB 2 3 es es es 4.5 5.5 80C52 Compatile 33 44-PLCC DS89C430-QNL-ND 21.00 14.00
1kB 2 3 es es es 4.5 5.5 80C52 Compatile 33 44-TQFP DS87C520-ECL-ND 22.00 20.90
1kB 2 3 es es es 4.5 5.5 80C52 Compatile 33 40-DIP DS87C520-MCL-ND 44.20 33.36
1kB 2 3 es es es 4.5 5.5 80C52 Compatile 33 40-DIP DS87C520-MNL-ND 23.75 22.57
16B EPROM 1kB 2 3 es es es 4.5 5.5 80C52 Compatile 33 44-PLCC DS87C520-QCL-ND NEW! 21.00 19.95
1kB 2 3 es es es 4.5 5.5 80C52 Compatile 33 44-PLCC DS87C520-QNL-ND 24.25 23.04
1kB 2 3 es es es 4.5 5.5 80C52 Compatile 33 52-PLCC DS87C530-QCL-ND 23.50 22.33
1kB 2 3 es es es 4.5 5.5 80C52 Compatile 33 52-PLCC DS87C530-QNL-ND 27.00 25.65
1kB 2 3 es es es 4.5 5.5 80C52 Compatile 33 44-TQFP DS89C450-ENL-ND 25.59 17.06
64B Flash 1kB 2 3 es es es 4.5 5.5 80C52 Compatile 33 40-DIP DS89C450-MNL-ND 25.53 17.02
1kB 2 3 es es es 4.5 5.5 80C52 Compatile 33 44-PLCC DS89C450-QNL-ND 25.35 16.90
C
DS80C400 Evaluation Kit
The DS80C400 Evaluation Kit is a proven platorm to conveniently evaluate the capailities o the DS80C400 networed
microcontroller. This it contains the DSTINIm400 evaluation module, a ully unctional and tested reerence desin ased
on the DS80C400 networed microcontroller. In addition, the it contains the DSTINIs400 socets oard, which unctions
as the motheroard desined to host the DSTINIm400 evaluation module.
Kit Includes:
DSTINIm400 Reerence Board DSTINIs400 Socet Board DS80C400 Sotware CD-ROM Quic Start Guide Cales
DS80C400-KIT#-ND Evaluation Kit or DS80C400 ..................................................................$120.00
Soft Microcontroller Modules
DS5000(T) Sot Microcontroller Module is a ully 8051-compatile 8-it CMOS microcontroller that oers sotness in all aspects o its application. This is accomplished throuh the comprehensive use o nonvolatile technoloy to preserve all
inormation in the asence o system Vcc. The internal proram/data memory space is implemented usin either 8 or 32 iloytes o nonvolatile CMOS SRAM. DS2250(T) and DS2252(T) have the same eatures as the DS5000 ut with an added
eature. The proram/data memory space is implemented usin 8, 32, or 64 iloytes o nonvolatile CMOS SRAM. DS2251(T) has the same eatures as the DS5000 ut with an added eature. The proram/data memory space is implemented usin 32,
64 or 128 iloytes o nonvolatile CMOS SRAM.
Module with
Real-Time Memory Real-Time
Speed Digi-Key
Price Each
Internal Battery
NV RAM
Encryption Key
Clock
Package
(MHz) Part No.
1 25
es 32K x 8 Internal 40-Bit es 40-SIMM 16 DS2250-32-16-ND NEW! 47.50 45.13
es 64K x 8 Internal 40-Bit es 40-SIMM 16 DS2250-64-16-ND NEW! 62.50 59.38
es 32K x 8 Internal 40-Bit es 40-SIMM 16 DS2250T-32-16-ND NEW! 52.50 49.88
es 64K x 8 Internal 40-Bit es 40-SIMM 16 DS2250T-64-16-ND NEW! 67.50 64.13
es 128K x 8 Internal — es 72-SIMM 16 DS2251T-128-16-ND NEW! 92.50 87.88
es 64K x 8 Internal 64-Bit es 40-SIMM 16 DS2252T-64-16-ND NEW! 77.50 73.63
es 128K x 8 Internal 64-Bit es 40-SIMM 16 DS2252T-128-16-ND NEW! 100.00 95.00
es 32K x 8 Internal 40-Bit No 40-EDIP 16 DS5000-32-16-ND 62.50 59.38
es 32K x 8 Internal 40-Bit No 40-EDIP 16 DS5000T-32-16-ND 68.75 65.32
No 128K x 8 External 64-Bit No 80-MQFP 16 DS5002FPM-16-ND 20.00 19.00
MAXQ 16-Bit RISC
Microcontrollers
Internal
Program
Memory
Internal
MOVX
SRAM
MAXQ3120 Evaluation Kit
The MAXQ amily o 16-it reduced instruction set computin RISC microcontrollers is tareted toward low-cost, low-power, emedded-application desins. The lexile,
modular architecture design used in these microcontrollers allows development of targeted designs for specific applications with minimal effort. Microcontrollers in the
MAXQ amily provide many dierent cominations o proram memory, data memory, and peripherals while supportin a common eature set. This shared unctionality
provides maximum reusability for hardware and software systems developed using these microcontrollers.
Power
Management
Serial 1-Wire
Data
LCD Supply
Digi-Key
Price Each Maxim
Ports Master Timers PWM Pointers Watchdog Mode Ring Osc. LCD Segments Voltage Package Part No.
1 25 Part No.
64B Flash 2kB 2 es 3 x 16-Bit 3 3 es es es es 132 1.8 2.75 68-QFN MAXQ2000-RAX-ND 9.18 6.12 MAXQ2000-RAX
32kB Flash 2kB 2 es 3 x 16-Bit 3 3 es es es es 132 1.8 2.75 100-LQFP MAXQ2000-RFX-ND 9.18 6.12 MAXQ2000-RFX
The MAXQ3120 Evaluation Kit EV it is a proven platorm to conveniently evaluate the capailities o the MAXQ3120 dual analo-to-diital converter ADC microcontroller. The it contains the MAXQ3120 with the ADC inputs and spare GPIO pins
rouht out to headers, a JTAG prorammin interace, an on-oard 3.3V power supply, and a 3.5 diit LCD. Kit Includes: MAXQ3120 Evaluation Board Serial-to-JTAG MAXQJTAG Interace Board Serial Cale JTAG Cale MAXQ3120
Evaluation Kit CD Third Party Compiler Tools Evaluation CD
MAXQ3120-KIT-ND Evaluation Kit or MAXQ3120 .................................................................................................................................................................................................... $174.90
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
153
153

Cortex-M3/ARM7/ARM9/8051 Microcontrollers
NEW! Cortex-M3 Microcontrollers
The LPC13xx devices are ARM Cortex-M3-based microcontrollers for embedded applications featuring a high level of
integration and low power consumption. The ARM Cortex-M3 is a next generation core that offers system enhancements
such as enhanced debug features and a higher level of support block integration.
The LPC13xx devices operate at CPU reuencies o up to 72MHz. The ARM Cortex-M3 CPU incorporates a 3-stae pipeline
and uses a Harvard architecture with separate local instruction and data uses as well as a third us or peripherals. The
ARM Cortex-M3 CPU also includes an internal prefetch unit that supports speculative branching.
The LPC1700 series o low power cost-eective Cortex-M3 microcontrollers eature est-in-class peripheral support such
as Ethernet, USB 2.0 Host/OTG/Device, and CAN 2.0B. Operatin at speeds up to 100MHz, they have up to 512KB o FLASH,
up to 64KB o SRAM, 12-it A/D and 10-it D/A converters as well as an internal RC oscillator.
Features: 10/100 Ethernet MAC Four reduced power modes Sleep, Deep Sleep, Power-down and Deep Power-down
Four UARTs with ractional aud rate eneration, RS-485. modem control I/O, and IrDA Operatin Temperature -40°C
85°C
C
Memory
No. of
Max. Freq. I/O CPU
Digi-Key
Price Each
NXP
RAM Flash PWM Timers ADC DAC I/O Ehernet USB UART I 2 C CAN SPI (MHz) Voltage Voltage Package Part No.
1 25 100 Part No.
8KB 16KB 4 8-Ch., 10-Bit — 42 — — 2 50 3.3 3.3 48-LQFP 568-5097-ND 4.70 3.78 3.45 LPC11C12FBD48/301
8KB 32KB 4 8-Ch., 10-Bit — 42 — — 2 50 3.3 3.3 48-LQFP 568-5098-ND 5.54 4.46 4.06 LPC11C14FBD48/301
2KB 8KB 4 8-Ch., 10-Bit — 28 — — — 50 3.3 3.3 33-HVQFN 568-4957-ND 2.02 1.63 1.47 LPC1111FHN33/101,5
4KB 8KB 4 8-Ch., 10-Bit — 28 — — — 50 3.3 3.3 33-HVQFN 568-4956-ND 2.17 1.75 1.58 LPC1111FHN33/201,5
2KB 16KB 4 8-Ch., 10-Bit — 28 — — — 50 3.3 3.3 33-HVQFN 568-4955-ND 2.33 1.88 1.69 LPC1112FHN33/101,5
4KB 16KB 4 8-Ch., 10-Bit — 28 — — — 50 3.3 3.3 33-HVQFN 568-4954-ND 2.48 2.00 1.80 LPC1112FHN33/201,5
8KB 24KB 4 8-Ch., 10-Bit — 28 — — — 2 50 3.3 3.3 48-LQFP 568-4953-ND 2.80 2.25 2.05 LPC1113FBD48/301,1
4KB 24KB 4 8-Ch., 10-Bit — 28 — — — 50 3.3 3.3 33-HVQFN 568-4952-ND 2.64 2.13 1.92 LPC1113FHN33/201,5
8KB 24KB 4 8-Ch., 10-Bit — 28 — — — 50 3.3 3.3 33-HVQFN 568-4951-ND 2.79 2.25 2.03 LPC1113FHN33/301,5
8KB 32KB 4 8-Ch., 10-Bit — 28 — — — 2 50 3.3 3.3 48-LQFP 568-4950-ND 3.08 2.48 2.26 LPC1114FBD48/301,1
4KB 32KB 4 8-Ch., 10-Bit — 28 — — — 50 3.3 3.3 33-HVQFN 568-4949-ND 2.95 2.38 2.14 LPC1114FHN33/201,5
8KB 32KB 4 8-Ch., 10-Bit — 28 — — — 50 3.3 3.3 33-HVQFN 568-4948-ND 2.80 2.25 2.05 LPC1114FHN33/301,5
4KB 8KB 4 8-Ch., 10-Bit — 25 — — — — 72 3.3 3.3 33-HVQFN 568-4915-ND 2.48 2.00 1.80 LPC1311FHN33,551
8KB 32KB 4 8-Ch., 10-Bit — 25 — — — — 72 3.3 3.3 33-HVQFN 568-4913-ND 3.22 2.59 2.36 LPC1313FHN33,551
8KB 32KB 4 8-Ch., 10-Bit — 42 — — — — 72 3.3 3.3 48-LQFP 568-4914-ND 3.50 2.82 2.57 LPC1313FBD48,151
4KB 16KB 4 8-Ch., 10-Bit — 25 — — — 72 3.3 3.3 33-HVQFN 568-4946-ND 4.17 3.36 3.06 LPC1342FHN33,551
8KB 32KB 4 8-Ch., 10-Bit — 40 — — — 72 3.3 3.3 48-LQFP 568-4945-ND 6.30 5.07 4.62 LPC1343FBD48,151
8KB 32KB 4 8-Ch., 10-Bit — 25 — — — 72 3.3 3.3 33-HVQFN 568-4944-ND 5.18 4.17 3.80 LPC1343FHN33,551
8KB 32KB 4 6-Ch., 12-Bit — 52 — 4 3 100 3.3 3.3 80-LQFP 568-4788-ND 6.64 5.34 4.86 LPC1751FBD80,551
16KB 64KB 4 6-Ch., 12-Bit — 52 — 4 3 100 3.3 3.3 80-LQFP 568-4789-ND 7.10 5.83 5.26 LPC1752FBD80,551
32KB 128KB 4 6-Ch., 12-Bit 1-Ch., 10-Bit 52 — 4 3 100 3.3 3.3 80-LQFP 568-4790-ND 8.30 6.81 6.15 LPC1754FBD80,551
32KB 256KB 4 6-Ch., 12-Bit 1-Ch., 10-Bit 52 — 4 3 2 100 3.3 3.3 80-LQFP 568-4791-ND 9.75 8.00 7.22 LPC1756FBD80,551
64KB 512KB 4 6-Ch., 12-Bit 1-Ch., 10-Bit 52 4 3 2 100 3.3 3.3 80-LQFP 568-4792-ND 12.23 10.03 9.05 LPC1758FBD80,551
32KB 128KB 4 8-Ch., 12-Bit — 70 4 3 2 100 3.3 3.3 100-LQFP 568-4793-ND 9.48 7.77 7.02 LPC1764FBD100,551
64KB 256KB 4 8-Ch., 12-Bit 1-Ch., 10-Bit 70 — 4 3 2 100 3.3 3.3 100-LQFP 568-4794-ND 10.70 8.78 7.92 LPC1765FBD100,551
64KB 256KB 4 8-Ch., 12-Bit 1-Ch., 10-Bit 70 4 3 2 100 3.3 3.3 100-LQFP 568-4795-ND 11.28 9.25 8.35 LPC1766FBD100,551
64KB 512KB 4 8-Ch., 12-Bit 1-Ch., 10-Bit 70 4 3 2 100 3.3 3.3 100-LQFP 568-4796-ND 11.48 9.66 8.88 LPC1768FBD100,551
64KB 512KB 4 6-Ch., 12-Bit 1-Ch., 10-Bit 52 — 4 2 2 120 3.3 3.3 80-LQFP 568-4968-ND 11.22 9.44 8.67 LPC1759FBD80,551
64KB 512KB 4 8-Ch., 12-Bit 1-Ch., 10-Bit 70 4 3 — 100 3.3 3.3 100-LQFP 568-4967-ND 11.88 9.74 8.79 LPC1767FBD100,551
64KB 512KB 4 8-Ch., 12-Bit 1-Ch., 10-Bit 70 4 3 2 120 3.3 3.3 100-LQFP 568-4966-ND 12.08 10.16 9.34 LPC1769FBD100,551
ARM7 Microcontrollers
The LPC2000 architecture is ased on a 16/32-it ARM7TDMI-S CPU with real-time emulation and emedded trace
support. A 128-bit wide memory interface and a unique accelerator architecture enable 32-bit code execution at maximum
cloc rate. For critical code size applications, the alternative 16-it Thum mode reduces code y more than 30 with
minimal perormance penalty. Due to their tiny size and low power consumption, these microcontrollers are ideal or
applications where miniaturization is a ey reuirement. Features: 16/32-it ARM7TDMI-S processor Up to 512B
on-chip Static RAM In-System Prorammin ISP and In-Application Prorammin IAP via on-chip oot loader
sotware Vectored Interrupt Controller with coniurale priorities and vector addresses Emedded ICE-RT interace
enales reapoints and watch points. Interrupt service routines can continue to execute whilst the oreround tas is
deued with the on-chip RealMonitor sotware Emedded Trace Macrocell enales non-intrusive hih speed realtime
tracin o instruction execution Multiple serial interaces
Memory No. of
Max. Freq. Temp. (°C) I/O CPU
Digi-Key
Price Each NXP
RAM Flash PWM Timers ADC DAC I/O USB UART I 2 C CAN SPI (MHz) Range Voltage Voltage Package Part No.
1 25 100 Part No.
2K 8K 4 8-Ch., 10-Bit — 32 — 2 2 — 2 70 -40 85 3.3V 1.8V 48-LQFP 568-2092-ND 4.12 3.31 3.02 LPC2101FBD48,151
4K 16K 4 8-Ch., 10-Bit — 32 — 2 2 — 2 70 -40 85 3.3V 1.8V 48-LQFP 568-2093-ND 5.18 4.17 3.80 LPC2102FBD48,151
4K 16K 4 8-Ch., 10-Bit — 32 — 2 2 — 2 70 -40 85 3.3V 1.8V 48-HVQFN 568-4689-ND 5.18 4.17 3.80 LPC2102FHN48,551
8K 32K 4 8-Ch., 10-Bit — 32 — 2 2 — 2 70 -40 85 3.3V 1.8V 48-LQFP 568-2094-ND 6.16 4.95 4.51 LPC2103FBD48,151
8K 32K 4 8-Ch., 10-Bit — 32 — 2 2 — 2 70 -40 85 3.3V 1.8V 48-HVQFN 568-4690-ND 6.30 5.07 4.62 LPC2103FHN48,551
16K 128K 2 — — 32 — 2 — 60 0 70 3.3V 1.8V 48-LQFP 568-4365-ND 11.58 9.50 8.57 LPC2104FBD48/01,15
32K 128K 2 — — 32 — 2 — 60 0 70 3.3V 1.8V 48-LQFP 568-4366-ND 11.81 9.94 9.13 LPC2105FBD48/01,15
64K 128K 2 — — 32 — 2 — 60 -40 85 3.3V 1.8V 48-LQFP 568-4367-ND 15.40 12.95 11.90 LPC2106FBD48/01,55
64K 128K 2 — — 32 — 2 — 60 -40 85 3.3V 1.8V 48-HVQFN 568-4368-ND 15.64 13.16 12.09 LPC2106FHN48/01,55
8K 64K 2 4-Ch., 10-Bit — 46 — 2 2 60 -40 85 3.3V 1.8V 64-LQFP 568-4311-ND 9.48 7.77 7.02 LPC2109FBD64/01,55
16K 128K 2 4-Ch., 10-Bit — 46 — 2 — 2 60 -40 85 3.3V 1.8V 64-LQFP 568-4312-ND 12.28 10.07 9.09 LPC2114FBD64/01,15
16K 128K 2 4-Ch., 10-Bit — 46 — 2 2 2 60 -40 85 3.3V 1.8V 64-LQFP 568-4313-ND 12.28 10.33 9.49 LPC2119FBD64/01,15
16K 256K 2 4-Ch., 10-Bit — 46 — 2 — 2 60 -40 85 3.3V 1.8V 64-LQFP 568-4314-ND 12.28 10.33 9.49 LPC2124FBD64/01,15
16K 256K 2 4-Ch., 10-Bit — 46 — 2 2 2 60 -40 85 3.3V 1.8V 64-LQFP 568-4315-ND 14.10 11.86 10.90 LPC2129FBD64/01,15
8K 32K 2 8-Ch., 10-Bit 1-Ch., 10-Bit 47 — 2 — 60 -40 85 3.3V 3.3V 64-LQFP 568-4005-ND 8.00 6.56 5.92 LPC2131FBD64/01,15
16K 64K 2 8-Ch., 10-Bit 1-Ch., 10-Bit 47 — 2 — 60 -40 85 3.3V 3.3V 64-LQFP 568-4006-ND 9.48 7.77 7.02 LPC2132FBD64/01,15
16K 64K 2 8-Ch., 10-Bit 1-Ch., 10-Bit 47 — 2 — 60 -40 85 3.3V 3.3V 64-HVQFN 568-4007-ND 10.13 8.31 7.50 LPC2132FHN64/01,55
16K 128K 2 8-Ch., 10-Bit 1-Ch., 10-Bit 47 — 2 — 60 -40 85 3.3V 3.3V 64-LQFP 568-4008-ND 11.75 9.64 8.70 LPC2134FBD64/01,15
32K 256K 2 8-Ch., 10-Bit 1-Ch., 10-Bit 47 — 2 — 60 -40 85 3.3V 3.3V 64-LQFP 568-4009-ND 12.39 10.42 9.58 LPC2136FBD64/01,15
32K 512K 2 8-Ch., 10-Bit 1-Ch., 10-Bit 47 — 2 — 60 -40 85 3.3V 3.3V 64-LQFP 568-4010-ND 13.79 11.60 10.66 LPC2138FBD64/01,15
32K 512K 2 8-Ch., 10-Bit 1-Ch., 10-Bit 47 — 2 — 60 -40 85 3.3V 3.3V 64-HVQFN 568-4011-ND 14.10 11.86 10.90 LPC2138FHN64/01,55
8K 32K 4 6-Ch., 10-Bit — 45 2 2 — — 60 -40 85 3.3V 3.3V 64-LQFP 568-1761-ND 8.88 7.28 6.57 LPC2141FBD64,151
16K 64K 4 6-Ch., 10-Bit 1-Ch., 10-Bit 45 2 2 — — 60 -40 85 3.3V 3.3V 64-LQFP 568-1762-ND 10.30 8.45 7.63 LPC2142FBD64,151
16K 128K 4 6-Ch., 10-Bit 1-Ch., 10-Bit 45 2 2 — 2 60 -40 85 3.3V 3.3V 64-LQFP 568-1763-ND 11.11 9.35 8.59 LPC2144FBD64,151
40K 256K 4 86-Ch., 10-Bit 1-Ch., 10-Bit 45 2 2 — 2 60 -40 85 3.3V 3.3V 64-LQFP 568-1764-ND 13.27 11.16 10.26 LPC2146FBD64,151
40K 512K 4 86-Ch., 10-Bit 1-Ch., 10-Bit 45 2 2 — 2 60 -40 85 3.3V 3.3V 64-LQFP 568-1765-ND 14.78 12.44 11.43 LPC2148FBD64,151
32K 512K 5 86-Ch., 10-Bit 1-Ch., 10-Bit 32 — 2 — 60 -40 85 3.3V 3.3V 100-LQFP 568-4524-ND 15.38 12.94 11.89 LPC2157FBD100,551
40K 512K 5 4-Ch., 10-Bit 1-Ch., 10-Bit 46 2 2 — 60 -40 85 3.3V 3.3V 100-LQFP 568-4691-ND 16.57 13.94 12.81 LPC2158FBD100,551
16K 256K 2 4-Ch., 10-Bit — 46 — 2 4 2 60 -40 125 3.3V 1.8V 64-LQFP 568-4316-ND 16.10 13.55 12.45 LPC2194HBD64/01,15
16K — 2 8-Ch., 10-Bit — 76 — 2 — 2 60 -40 85 3.3V 1.8V 144-LQFP 568-4012-ND 8.13 6.67 6.02 LPC2210FBD144/01,5
16K 128K 2 8-Ch., 10-Bit — 112 — 2 — 2 60 -40 85 3.3V 1.8V 144-LQFP 568-4317-ND 13.79 11.60 10.66 LPC2212FBD144/01,5
16K 256K 2 8-Ch., 10-Bit — 112 — 2 — 2 60 -40 85 3.3V 1.8V 144-LQFP 568-4318-ND 15.25 12.83 11.79 LPC2214FBD144/01,5
64K — 4 8-Ch., 10-Bit — 76 — 2 — 2 75 -40 85 3.3V 1.8V 144-LQFP 568-1896-ND 8.75 7.18 6.48 LPC2220FBD144,551
64K — 4 8-Ch., 10-Bit — 76 — 2 — — 2 75 -40 85 3.3V 1.8V 144-TFBGA 568-2020-ND 9.85 8.08 7.29 LPC2220FET144/G,55
16K 256K 2 8-Ch., 10-Bit — 112 — 2 2 2 60 -40 85 3.3V 1.8V 144-LQFP 568-4319-ND 16.72 14.06 12.92 LPC2292FBD144/01,5
16K 256K 2 8-Ch., 10-Bit — 112 — 2 2 2 60 -40 85 3.3V 1.8V 144-TFBGA 568-4320-ND 17.05 14.34 13.18 LPC2292FET144/01,5
16K 256K 2 8-Ch., 10-Bit — 112 — 2 4 2 60 -40 125 3.3V 1.8V 144-LQFP 568-4321-ND 18.72 15.75 14.47 LPC2294HBD144/01,5
34K 64K 6 6-Ch., 10-Bit 1-Ch., 10-Bit 70 4 3 2 72 -40 85 3.3V 3.3V 100-LQFP 568-4525-ND 8.50 6.97 6.29 LPC2361FBD100,551
58K 128K 6 6-Ch., 10-Bit 1-Ch., 10-Bit 70 4 3 2 72 -40 85 3.3V 3.3V 100-LQFP 568-4526-ND 11.03 9.05 8.16 LPC2362FBD100,551
34K 128K 6 6-Ch., 10-Bit 1-Ch., 10-Bit 70 3 2 72 -40 85 3.3V 3.3V 100-LQFP 568-3995-ND 9.98 8.18 7.39 LPC2364FBD100,551
58K 256K 4 6-Ch., 10-Bit 1-Ch., 10-Bit 70 — 4 3 — 72 -40 85 3.3V 3.3V 100-LQFP 568-4409-ND 11.05 9.07 8.18 LPC2365FBD100,551
58K 256K 6 6-Ch., 10-Bit 1-Ch., 10-Bit 70 3 2 72 -40 85 3.3V 3.3V 100-LQFP 568-3996-ND 11.88 9.74 8.79 LPC2366FBD100,551
58 512K 4 6-Ch., 10-Bit 1-Ch., 10-Bit 70 — 4 3 — 72 -40 85 3.3V 3.3V 100-LQFP 568-4410-ND 11.35 9.55 8.78 LPC2367FBD100,551
58K 512K 6 6-Ch., 10-Bit 1-Ch., 10-Bit 70 3 2 72 -40 85 3.3V 3.3V 100-LQFP 568-3997-ND 12.10 10.18 9.35 LPC2368FBD100,551
58K 512K 4 8-Ch., 10-Bit 1-Ch., 10-Bit 104 — 4 3 — 72 -40 85 3.3V 3.3V 144-LQFP 568-4411-ND 12.98 10.92 10.03 LPC2377FBD144,551
58K 512K 6 6-Ch., 10-Bit 1-Ch., 10-Bit 104 3 2 72 -40 85 3.3V 3.3V 144-LQFP 568-3998-ND 13.86 11.66 10.71 LPC2378FBD144,551
64K 512K 4 6-Ch., 10-Bit 1-Ch., 10-Bit 70 4 3 2 72 -40 85 3.3V 3.3V 100-LQFP 568-4322-ND 13.44 11.31 10.39 LPC2387FBD100,551
64K 512K 4 8-Ch., 10-Bit 1-Ch., 10-Bit 104 4 3 2 72 -40 85 3.3V 3.3V 144-LQFP 568-4323-ND 15.38 12.94 11.89 LPC2388FBD144,551
98K 512K 2 8-Ch., 10-Bit 1-Ch., 10-Bit 136 4 3 2 72 -40 85 3.3V 3.3V 180-TFBGA 568-4258-ND 16.52 13.90 12.77 LPC2458FET180,551
®
For Digi-Reel ® information, please see page 71.
(Continued)
154 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Cortex-M3/ARM7/ARM9/8051 Microcontrollers
ARM7 Microcontrollers (Cont.)
Memory No. of
PWM Timers ADC DAC I/O USB UART I 2 Max. Freq. Temp. (°C) I/O CPU
Digi-Key
Price Each
RAM Flash C CAN SPI (MHz) Range Voltage Voltage Package Part No.
1 25 100
98K — 2 8-Ch., 10-Bit 1-Ch., 10-Bit 136 4 3 2 72 -40 85 3.3V 3.3V 208-LQFP 568-4259-ND 10.23 8.39 7.57 LPC2460FBD208,551
98K 512K 2 8-Ch., 10-Bit 1-Ch., 10-Bit 160 4 3 2 72 -40 85 3.3V 3.3V 208-LQFP 568-4261-ND 18.70 15.73 14.45 LPC2468FBD208,551
98K 512K 2 8-Ch., 10-Bit 1-Ch., 10-Bit 160 4 3 2 72 -40 85 3.3V 3.3V 208-TFBGA 568-4262-ND 18.70 15.73 14.45 LPC2468FET208,551
98K — 2 4 8-Ch., 10-Bit 1-Ch., 10-Bit 160 4 3 2 72 -40 85 3.3V 3.3V 208-LQFP 568-4361-5-ND 12.03 10.12 9.30 LPC2470FBD208,551
98K — 2 4 8-Ch., 10-Bit 1-Ch., 10-Bit 160 4 3 2 72 -40 85 3.3V 3.3V 208-TFBGA 568-4362-ND 12.03 10.12 9.30 LPC2470FET208,551
98K 512K 2 4 8-Ch., 10-Bit 1-Ch., 10-Bit 160 4 3 2 72 -40 85 3.3V 3.3V 208-LQFP 568-4363-ND 19.69 16.56 15.22 LPC2478FBD208,551
98K 512K 2 4 8-Ch., 10-Bit 1-Ch., 10-Bit 160 4 3 2 72 -40 85 3.3V 3.3V 208-TFBGA 568-4364-ND 19.69 16.56 15.22 LPC2478FET208,551
64K 1M — 4 5-Ch., 10-Bit — 85 — — 60 -40 85 3.3V 1.8V 180-TFBGA 568-4528-ND 17.58 14.79 13.59 LPC2888FET180/01,5
32K — 3 8-Ch., 10-Bit — 76 — 3 — 84 -40 85 3.3V 1.8V 144-LQFP 568-4269-ND 12.38 10.15 9.16 LH75401N0Q100C0,55
32K — 3 8-Ch., 10-Bit — 76 — 3 — 84 -40 85 5V 3.3V 144-LQFP 568-4330-ND 11.58 9.50 8.57 LH75411N0Q100C055
32K — 2 2 — — 64 — 3 — — 77 -40 85 3.3V 1.8V 176-LQFP 568-4331-ND 12.38 10.15 9.16 LH79520N0Q000B155
16K — 3 10-Ch., 10-Bit — 108 3 — 77 -40 85 3.3V 1.8V 208-LFBGA 568-4332-ND 14.12 11.88 10.92 LH79524N0F100A155
16K — 3 10-Ch., 10-Bit — 86 3 — 77 -40 85 3.3V 1.8V 176-LQFP 568-4333-ND 12.50 10.51 9.66 LH79525N0Q100A155
ARM9 Microcontrollers
The LPC3180 is ased on the ARM926EJ-S core and oers a hardware vector l0oating-point unit for speed and efficiency.
An integrated USB OTG interface with full host capability lets this high performance microcontroller connect directly to PDAs,
NXP
Part No.
smart-card readers and printers. The lare array o peripherals availale on chip also include UARTs, SPI, I 2 C, a real-time
clock with a separated power domain and NAND Flash and DDR memory controllers.
C
Memory
RAM
PWM
No. of
Timers ADC I/O USB UART I 2 C SPI
Max. Freq.
(MHz)
Temperature
Range (°C)
I/O
Voltage
CPU
Voltage
Package
Digi-Key
Part No.
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Price Each
1 25 100
56K 4 7 16-Ch., 10-Bit 108 — 4 2 3 125 -40 85 3.3V 1.8V 144-LQFP 568-4692-ND 12.10 9.93 8.96 LPC2917FBD144/01/,
56K 4 7 16-Ch., 10-Bit 108 — 4 2 3 125 -40 85 3.3V 1.8V 144-LQFP 568-4693-ND 11.77 9.90 9.10 LPC2919FBD144/01/,
56K 7 24-Ch., 10-Bit 104 4 2 3 125 -40 85 3.3V 1.8V 144-LQFP 568-4694-ND 11.25 9.23 8.33 LPC2927FBD144,551
56K 7 24-Ch., 10-Bit 104 4 2 3 125 -40 85 3.3V 1.8V 144-LQFP 568-4695-ND 11.25 9.23 8.33 LPC2929FBD144,551
96K 4 4-Ch., 10-Bit 97 2 180 -40 85 1.8/2.8V 1.2V 180-TFBGA 568-4696-ND 7.00 5.74 5.18 LPC3130FET180,551
192K 4 4-Ch., 10-Bit 97 2 180 -40 85 1.8/2.8V 1.2V 180-TFBGA 568-4697-ND 9.38 7.69 6.94 LPC3131FET180,551
64K 2 4 3-Ch., 10-Bit 55 7 2 2 208 -40 85 3/1.8V 1.2V 320-LFBGA 568-4529-ND 14.19 11.94 10.97 LPC3180FEL320/01,5
128K 2 6 3-Ch., 10-Bit 87 7 2 2 266 -40 85 1.8/2.8/3V 1.2V 296-TFBGA 568-4965-ND NEW! 10.00 8.20 7.40 LPC3220FET296/01,5
128K 2 6 3-Ch., 10-Bit 87 7 2 2 266 -40 85 1.8/2.8V 1.2V 296-TFBGA 568-4530-ND 8.20 6.73 6.07 LPC3220FET296,551
256K 2 6 3-Ch., 10-Bit 87 7 2 2 266 -40 85 1.8/2.8/3V 1.2V 296-TFBGA 568-4964-ND NEW! 11.25 9.23 8.33 LPC3230FET296/01,5
256K 2 6 3-Ch., 10-Bit 87 7 2 2 266 -40 85 1.8/2.8V 1.2V 296-TFBGA 568-4531-ND 9.23 7.57 6.83 LPC3230FET296,551
256K 2 6 3-Ch., 10-Bit 87 7 2 2 266 -40 85 1.8/2.8/3V 1.2V 296-TFBGA 568-4963-ND NEW! 11.25 9.23 8.33 LPC3240FET296/01,5
256K 2 6 3-Ch., 10-Bit 87 7 2 2 266 -40 85 1.8/2.8/3V 1.2V 296-TFBGA 568-4962-ND NEW! 11.00 9.25 8.50 LPC3250FET296/01,5
80K — 3 — 60 3 — 200 -40 85 3.3V 1.8V 256-LFBGA 568-4274-ND 16.28 13.69 12.58 LH7A400N0F000B5,55
80K — 3 — 60 3 — 200 -40 85 3.3V 1.8V 256-BGA 568-4334-ND 20.50 17.25 15.85 LH7A400N0G000B555
80K 4 3 9-Ch., 10-Bit 64 3 — 200 -40 85 3.3V 1.8V 324-LFBGA 568-4335-ND 18.52 15.58 14.32 LH7A404N0F000B355
80K 4 3 9-Ch., 10-Bit 64 3 — 266 -40 85 3.3V 1.8V 324-LFBGA 568-4336-ND 19.69 16.56 15.22 LH7A404N0F092B355
8051 Microcontrollers
Memory
No. of
ADC DAC Analog Max. Freq. Temperature
Digi-Key
Price Each NXP
RAM EEPROM OTP Flash Timers PWM UART I 2 C CAN SPI Ch./Bits Ch./Bits Compar. I/O MHz @ 5V Range (°C) Package Part No.
1 25 100 Part No.
128B — — — 3 — — — — — — — 32 16 0 70 44-PLCC 568-1232-5-ND 2.64 2.13 1.92 P80C31SBAA,512
128B — — — 3 — — — — — — — 32 33 0 70 40-DIP 568-1004-5-ND 2.88 2.33 2.10 P80C31SBPN,112
256B — — — 3 — — — — — — — 32 16 0 70 44-PLCC 568-1233-5-ND 2.73 2.20 1.98 P80C32SBAA,512
256B — — — 3 — — — — — — — 32 33 0 70 40-DIP 568-1005-5-ND 2.88 2.33 2.10 P80C32SBPN,112
256B — — — 3 — — — — — — — 32 33 0 70 44-PLCC 568-1234-5-ND 2.73 2.20 1.98 P80C32UBAA,512
256B — — — 3 — — — — — — — 32 33 -40 85 44-PLCC 568-3195-5-ND 2.86 2.30 2.10 P80C32UFAA,512
256B — — — 3 — — 8/10 — — 48 24 0 70 68-PLCC 568-1235-5-ND 13.07 10.99 10.10 P80C552EBA/08,512
256B — — — 3 — — 8/10 — — 48 24 0 70 80-QFP 568-1236-ND 13.07 10.99 10.10 P80C552EBB/08,557
256B — — — 3 — — 8/10 — — 48 24 0 70 68-PLCC 568-1238-5-ND 13.60 11.44 10.51 P80C552IBA/08,512
256B — — — 3 — — 8/10 — — 48 24 -40 85 68-PLCC 568-1239-5-ND 14.92 12.55 11.53 P80C552IFA/08,512
512B — — — 3 — — 7/10 — — 48 16 -40 85 64-LQFP 568-2086-ND 13.60 11.44 10.51 P80C554SFBD,157
512B — — — 2 2 — 8/10 — — 40 16 -40 85 68-PLCC 568-1241-5-ND 21.49 18.08 16.61 P80C592FFAA/00,512
256B — — — 2 — — — — — — 32 24 -40 85 44-PLCC 568-3196-5-ND 9.10 7.47 6.74 P80C652EBA/04,512
256B — 8K — 3 — — — — — — — 32 16 -40 85 44-PLCC 568-1242-5-ND 7.65 6.28 5.67 P87C51FA-4A,512
256B — 8K — 3 — — — — — — — 32 16 0 70 40-DIP 568-3198-5-ND 7.85 6.44 5.81 P87C51FA-4N,112
256B — 16K — 3 — — — — — — — 32 16 0 70 44-PLCC 568-3199-5-ND 9.65 7.92 7.15 P87C51FB-4A,512
256B — 16K — 4 — — — — — — — 32 33 0 70 40-DIP 568-1010-5-ND 9.75 8.00 7.22 P87C51FB-4N,112
2K — 64K — 4 — 2 — — — — — 34 24 0 70 44-PLCC 568-1243-5-ND 11.13 9.13 8.24 P87C51MB2BA/02,529
3K — 96K — 4 — 2 — — — — — 34 24 0 70 44-PLCC 568-1244-5-ND 12.28 10.07 9.09 P87C51MC2BA/02,529
512B — 16K — 4 — — — — — — 32 33 0 70 40-DIP 568-3200-5-ND 5.35 4.30 3.92 P87C51RB2BN,112
512B — 16K — 3 — — — — — — — 32 16 0 70 44-PLCC 568-1245-5-ND 6.25 5.13 4.63 P87C51RB4A,512
512B — 32K — 3 — — — — — — 32 16 -40 85 44-PLCC 568-4514-5-ND 6.98 5.72 5.17 P87C51RC2FA,512
128B — 4K — 3 — — — — — — — 32 16 0 70 44-PLCC 568-1246-5-ND 3.42 2.75 2.51 P87C51SBAA,512
128B — 4K — 3 — — — — — — — 32 33 0 70 40-DIP 568-1011-5-ND 3.64 2.93 2.67 P87C51SBPN,112
256B — 8K — 3 — — — — — — — 32 16 0 70 44-PLCC 568-1247-5-ND 4.09 3.29 3.00 P87C52SBAA,512
256B — 8K — 3 — — — — — — — 32 16 0 70 44-PQFP 568-1248-ND 4.00 3.22 2.94 P87C52SBBB,557
256B — 8K — 3 — — — — — — — 32 33 0 70 40-DIP 568-1012-5-ND 4.23 3.40 3.10 P87C52SBPN,112
256B — 8K — 3 — — — — — — — 32 16 -40 85 44-PLCC 568-1249-5-ND 4.48 3.60 3.28 P87C52SFAA,512
256B — 8K — 3 — — — — — — — 32 33 0 70 44-PLCC 568-1250-5-ND 3.34 2.69 2.45 P87C52UBAA,512
256B — 8K — 3 — — — — — — — 32 33 0 70 44-PLCC 568-1251-5-ND 3.07 2.48 2.23 P87C52X2BA,512
256B — 8K — 3 — — — — — — — 32 33 0 70 40-DIP 568-1013-5-ND 2.97 2.39 2.18 P87C52X2BN,112
256B — 8K — 3 — — — — — — — 32 33 -40 85 44-PLCC 568-3201-5-ND 3.53 2.84 2.59 P87C52X2FA,512
256B — 16K — 3 — — — — — — — 32 33 0 70 44-PLCC 568-1252-5-ND 5.20 4.18 3.81 P87C54SBAA,512
256B — 16K — 3 — — — — — — — 32 33 0 70 40-DIP 568-1014-5-ND 6.66 5.36 4.88 P87C54SBPN,112
256B — 8K — 2 2 — — 8/10 — — 40 16 0 70 68-PLCC 568-1253-5-ND 15.03 12.64 11.62 P87C552SBAA,512
512B — 16K — 2 2 — — 8/10 — — 40 16 0 70 68-PLCC 568-1254-5-ND 17.01 14.31 13.15 P87C554SBAA,512
512B — 16K — 2 2 — — 8/10 — — 40 16 -40 85 68-PLCC 568-1255-5-ND 19.60 16.49 15.15 P87C554SFAA,512
512B — 16K — 3 2 — 6/10 — — 32 12 -40 85 44-PLCC 568-1256-5-ND 9.89 8.32 7.65 P87C591VFA/00,512
256B — 16K — 2 — — — — — — 32 33 0 70 44-LQFP 568-3202-ND 6.03 4.95 4.46 P87C654X2BBD,157
512B — 16K — 4 — — — — — 32 33 -40 85 44-PLCC 568-3205-5-ND 11.28 9.25 8.35 P87C660X2FA,529
128B — 1K — 2 — — — — — 2 12 20 0 70 14-DIP 568-3208-5-ND 2.71 2.19 1.97 P87LPC760BN,112
‡ CCU Capture Compare Unit † Cut Tape ◊ Tape and Reel
(Continued)
®
For Digi-Reel ® information, please see page 71.
NXP
Part No.
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
155
®
155

Cortex-M3/ARM7/ARM9/8051 Microcontrollers
8051 Microcontrollers (Cont.)
®
C
Memory
No. of
Timers PWM UART I 2 ADC DAC Analog Max. Freq. Temperature
Digi-Key
Price Each
RAM EEPROM OTP Flash C CAN SPI Ch./Bits Ch./Bits Compar. I/O MHz @ 5V Range (°C) Package Part No.
1 25 100
128B — 2K — 2 — — — — — 2 14 20 0 70 16-TSSOP 568-3209-5-ND 2.77 2.24 2.02 P87LPC761BDH,112
128B — 2K — 2 — — — — — 2 14 20 0 70 16-DIP 568-3210-5-ND 2.10 1.70 1.53 P87LPC761BN,112
128B — 2K — 2 — — — — — — 18 20 0 70 20-SOIC 568-1257-5-ND 2.86 2.30 2.10 P87LPC762BD,512
128B — 2K — 2 — — — — — 2 18 20 -40 85 20-SOIC 568-3212-5-ND 3.57 2.87 2.62 P87LPC762FD,512
128B — 2K — 2 — — — — — 2 18 20 -40 85 20-DIP 568-3213-5-ND 3.77 3.04 2.77 P87LPC762FN,112
128B — 4K — 2 — — — — — — 18 20 0 70 20-SOIC 568-1258-5-ND 3.12 2.52 2.29 P87LPC764BD,512
128B — 4K — 2 — — — — 2 — 18 20 0 70 20-TSSOP 568-1259-5-ND 3.08 2.48 2.26 P87LPC764BDH,512
128B — 4K — 2 — — — — — 2 18 20 0 70 20-DIP 568-1017-5-ND 3.27 2.63 2.40 P87LPC764BN,112
128B — 4K — 2 — — — — — 2 18 20 -40 85 20-SOIC 568-3214-5-ND 3.68 2.97 2.70 P87LPC764FD,512
128B — 4K — 2 — — — — — 2 18 20 -40 85 20-DIP 568-3215-5-ND 3.92 3.15 2.87 P87LPC764FN,112
128B — 4K — 2 — — — 8/4 8/4 — 18 20 0 70 20-SOIC 568-1260-5-ND 3.74 3.01 2.75 P87LPC767BD,512
128B — 4K — 2 — — — — 4/8 — 2 18 20 0 70 20-DIP 568-1018-5-ND 3.98 3.20 2.92 P87LPC767BN,112
128B — 4K — 2 — — — 4/8 — 2 18 20 -40 85 20-SOIC 568-3216-5-ND 4.36 3.51 3.20 P87LPC767FD,512
128B — 4K — 2 — — 4/8 — 2 18 20 0 70 20-SOIC 568-3218-5-ND 4.10 3.30 3.00 P87LPC768BD,512
128B — 4K — 2 — — 4/8 — 2 18 20 -40 85 20-SOIC 568-3219-5-ND 5.19 4.17 3.80 P87LPC768FD,512
128B — 4K — 2 — — 4/8 — 2 18 20 -40 85 20-DIP 568-3220-5-ND 4.33 3.49 3.18 P87LPC768FN,112
128B — 4K — 2 — — — 8/4 2/8 — 18 20 -40 125 20-SOIC 568-1261-5-ND 6.66 5.46 4.93 P87LPC769HD,512
1K — — 16K 3 — — — — — 4 40 -40 85 44-PLCC 568-4252-5-ND 8.76 7.19 6.49 P89CV51RB2FA,512
1K — — 32K 3 — — — — — 4 40 -40 85 44-PLCC 568-4254-5-ND 9.15 7.51 6.78 P89CV51RC2FA,512
1K — — 64K 3 — — — — — 4 40 -40 85 44-PLCC 568-4256-5-ND 10.20 8.37 7.55 P89CV51RD2FA,512
1K — — 64K 3 — — — — — 4 40 -40 85 44-TQFP 568-4257-ND 9.90 8.12 7.33 P89CV51RD2FBC,557
128B — — 1K 4 — — — — — — 6 18 -40 85 8-DIP 568-2245-5-ND 1.61 1.29 1.13 P89LPC901FN,129
128B — — 1K 4 — — — — — — 6 18 -40 85 8-SOIC 568-1994-ND 1.47 1.18 1.03 P89LPC901FD,112
128B — — 1K 4 — — — — — — — 2 6 18 -40 85 8-DIP 568-2246-5-ND 1.32 1.07 .96 P89LPC902FN,129
128B — — 1K 4 — — — — — — 2 6 18 -40 85 8-SOIC 568-1996-ND 1.55 1.25 1.13 P89LPC903FD,112
128B — — 2K 4 — — — 4/8 1/8 2 12 18 -40 85 14-TSSOP 568-2006-5-ND 1.92 1.55 1.40 P89LPC915FDH,129
256B — — 2K 2 — — — — 4/8 1/8 2 14 18 -40 85 16-TSSOP 568-4337-1-ND† 2.42 1.87 1.70 P89LPC916FDH,118
256B — — 2K 2 — — — — 4/8 1/8 2 14 18 -40 85 16-TSSOP 568-4337-2-ND◊ 2330.00/2,500 P89LPC916FDH,118
256B — — 2K 4 2 — — 4/8 1/8 2 14 18 -40 85 16-TSSOP 568-2247-ND 2.14 1.73 1.56 P89LPC917FDH,129
256B — — 4K 4 2 — — — — 2 18 18 -40 85 20-DIP 568-2248-5-ND 2.45 1.98 1.78 P89LPC921FN,112
256B — — 8K 4 2 — — — — 2 18 18 -40 85 20-TSSOP 568-3223-5-ND 2.05 1.66 1.49 P89LPC9221FDH,512
256B — — 8K 4 2 — — — — 2 18 18 -40 85 20-DIP 568-1282-5-ND 2.82 2.28 2.05 P89LPC922FN,112
256B — — 8K 4 2 — — — — 2 18 18 -40 85 20-TSSOP 568-2452-ND 2.51 2.03 1.83 P89LPC922FDH,512
256B — — 4K 2 2 — — 4/8 1/8 2 18 18 -40 85 20-TSSOP 568-4338-1-ND† 3.01 2.33 2.11 P89LPC924FDH,518
256B — — 4K 2 2 — — 4/8 1/8 2 18 18 -40 85 20-TSSOP 568-4338-2-ND◊ 2902.50/2,500 P89LPC924FDH,518
256B — — 8K 4 2 — — 4/8 1/8 2 18 18 -40 85 20-TSSOP 568-2009-5-ND 2.98 2.40 2.16 P89LPC925FDH,529
256B — — 4K 4 2 — — 1/8 2 26 18 -40 85 28-TSSOP 568-1283-5-ND 2.64 2.13 1.92 P89LPC930FDH,129
256B — — 8K 4 2 — — 1/8 2 26 18 -40 85 28-TSSOP 568-1284-5-ND 2.88 2.33 2.10 P89LPC931FDH,112
768B 512B — 8K 5 CCU‡ — — 1/8 2 26 18 -40 85 28-PLCC 568-4279-5-ND 3.36 2.70 2.46 P89LPC932A1FA,112
768B 512B — 8K 5 CCU‡ — — 1/8 2 26 12 -40 85 28-TSSOP 568-4515-5-ND 3.22 2.59 2.36 P89LPC932A1FDH,512
768B 512B — 8K 5 CCU — — — 2 26 18 -40 85 28-PLCC 568-4698-5-ND 3.22 2.59 2.36 P89LPC9321FA,112
768B 512B — 8K 5 CCU — — — 2 26 18 -40 85 28-TSSOP 568-4699-1-ND† 3.30 2.70 2.42 P89LPC9321FDH,518
768B 512B — 8K 5 CCU — — — 2 26 18 -40 85 28-TSSOP 568-4699-2-ND◊ 3657.50/2,500 P89LPC9321FDH,518
768B 512B — 8K 5 CCU — — — 2 26 18 -40 85 28-DIP 568-4700-5-ND 3.22 2.59 2.36 P89LPC9321FN,112
256B — — 4K 4 2 — 4/8 4/8 2 26 18 -40 85 28-TSSOP 568-2010-5-ND 2.88 2.33 2.10 P89LPC933FDH,529
768B 512B — 8K 5 CCU‡ — 4/8 x2 1/8 x2 2 26 18 -40 85 28-PLCC 568-1287-5-ND 3.78 3.04 2.77 P89LPC935FA,129
768B 512B — 8K 5 CCU‡ — 4/8 x2 1/8 x2 2 26 18 -40 85 28-TSSOP 568-1288-5-ND 3.64 2.93 2.67 P89LPC935FDH,529
768B 512B — 8K 5 CCU‡ — 4/8 x2 2/8 2 26 18 -40 85 28-HVQFN 568-2251-5-ND 3.78 3.04 2.77 P89LPC935FHN-S
768B 512B — 8K 5 CCU — 4/8 x2 2/8 2 26 18 -40 85 28-PLCC 568-4701-5-ND 3.78 3.04 2.77 P89LPC9351FA,112
768B 512B — 8K 5 CCU — 4/8 x2 2/8 2 26 18 -40 85 28-TSSOP 568-4702-1-ND† 3.90 3.19 2.86 P89LPC9351FDH,518
768B 512B — 8K 5 CCU — 4/8 x2 2/8 2 26 18 -40 85 28-TSSOP 568-4702-2-ND◊ 4322.50/2,500 P89LPC9351FDH,518
256B 512B — 16K 2 CCU‡ — 4/8 x2 2x8 2 26 18 -40 85 28-TSSOP 568-4339-1-ND† 4.80 3.92 3.52 P89LPC936FDH,518
256B 512B — 16K 2 CCU‡ — 4/8 x2 2x8 2 26 18 -40 85 28-TSSOP 568-4339-2-ND◊ 5320.00/2,500 P89LPC936FDH.518
768B 512B — 8K 5 CCU‡ — 8/10 1/8 2 26 18 -40 85 28-TSSOP 568-2013-5-ND 3.19 2.57 2.34 P89LPC938FDH,529
768B 512B — 8K 5 CCU‡ — 8/10 — 2 26 18 -40 85 28-HVQFN 568-3226-ND 2.75 2.21 2.02 P89LPC938FHN,151
256B — — 8K 4 2 — — — 2 23 18 -40 85 64-LQFP 568-3227-ND 3.09 2.49 2.27 P89LPC9401FBD,551
512B — — 8K 4 2 2 — 8/10 — 2 42 18 -40 85 44-PLCC 568-2253-5-ND 4.37 3.51 3.20 P89LPC952FA,512
512B — — 8K 4 2 2 — 8/10 1/8 2 40 18 -40 85 44-LQFP 568-2014-5-ND 4.20 3.38 3.08 P89LPC952FBD,157
128B — — 1K 4 2 — — — 4/8 1/8 10 18 -40 85 14-TSSOP 568-2002-5-ND 1.67 1.35 1.22 P89LPC9107FDH,129
1K — — 64K 3 — — — — — 32 40 0 70 44-TQFP 568-1289-ND 7.90 6.48 5.85 P89LV51RD2BBC,557
1K — — 16K 4 — — — — — 32 40 -40 85 44-PLCC 568-2427-5-ND 6.70 5.50 4.96 P89V51RB2FA,529
1K — — 16K 4 — — — — — 32 40 -40 85 40-DIP 568-3229-5-ND 6.95 5.70 5.15 P89V51RB2FN,112
1K — — 32K 4 — — — — — 32 40 -40 85 44-PLCC 568-2428-5-ND 7.05 5.79 5.22 P89V51RC2FA,512
1K — — 32K 4 — — — — — 32 40 -40 85 44-TQFP 568-2429-ND 6.83 5.60 5.06 P89V51RC2FBC,557
1K — — 32K 4 — — — — — 32 40 -40 85 40-DIP 568-2430-5-ND 7.40 6.07 5.48 P89V51RC2FN,112
1K — — 64K 3 — — — — — — 32 40 0 70 44-PLCC 568-1290-5-ND 8.15 6.69 6.04 P89V51RD2FA,512
1K — — 64K 3 — — — — — — 32 40 0 70 44-TQFP 568-1291-ND 7.90 6.48 5.85 P89V51RD2FBC,557
1K — — 64K 4 — — — — — 32 40 -40 85 40-DIP 568-2431-5-ND 8.78 7.20 6.50 P89V51RD2FN,112
256B 192B — 8K 3 — — — — — — 32 33 -40 85 44-PLCC 568-4249-5-ND 2.94 2.37 2.16 P89V52X2FA,512
512B — — 16K 4 — — — — 32 40 -40 85 44-PLCC 568-2432-5-ND 11.25 9.23 8.33 P89V660FA,512
512B — — 16K 4 — — — — 32 40 -40 85 44-TQFP 568-2433-ND 11.25 9.23 8.33 P89V660FBC,557
1K — — 32K 4 — — — — 32 40 -40 85 44-PLCC 568-2434-5-ND 12.15 9.97 9.00 P89V662FA,512
2K — — 64K 4 — — — — 32 40 -40 85 44-PLCC 568-2436-5-ND 11.48 9.66 8.88 P89V664FA,512
2K — — 64K 4 — — — — 32 40 -40 85 44-TQFP 568-2437-ND 11.48 9.66 8.88 P89V664FBC,557
512B — — — 3 — 2 — — — — — — 32 30 0 70 44-PLCC 568-4340-5-ND 11.98 9.82 8.87 PXAG30KBA,512
512B — — — 3 — 2 — — — — — — 32 30 0 70 44-LQFP 568-1300-ND 11.83 9.70 8.76 PXAG30KBBD,157
1K — 32K — 3 2 — — 8/8 — — 50 30 0 70 68-PLCC 568-1099-5-ND 15.42 12.97 11.92 PXAS30KBA,512
1K — — — 3 2 — — 8/8 — — 50 30 0 70 80-LQFP 568-1303-ND 13.89 11.69 10.74 PXAS30KBBE,557
1K — — — 2 — 2 — — 8/8 — — 50 30 0 70 68-PLCC 568-3536-5-ND 22.61 19.22 17.81 PXAS37KBA,512
1K — — — 2 — 2 — — 8/8 — — 50 30 0 70 80-LQFP 568-3537-ND 21.05 17.90 16.58 PXAS37KBBE,88
‡ CCU Capture Compare Unit † Cut Tape ◊ Tape and Reel
NXP
Part No.
®
For Digi-Reel ® information, please see page 71.
156 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

LPC2106 Evaluation Board
LPC23xx Evaluation Board
Development Tools
for ARM Microcontrollers
NEW! LPCXpresso
Evaluation Boards
The LPCXpresso taret oard includes an interated JTAG deuer, so
theres no need or a separate JTAG deu proe. The taret portion o the
board can connect to expansion boards to provide a variety of interfaces
and I/O devices. The on-oard JTAG deuer provides a hih-speed USB to
JTAG/SWD interace to the IDE, and it can e connected to other deu tarets
such as a customer prototype.
568-4859-ND LPC1114 Evaluation Board ...........................$29.95
568-4947-ND LPC1343 Evaluation Board ...........................$29.95
568-5101-ND LPC1768 Evaluation Board ...........................$29.95
NEW! LPC1300 Evaluation Kit
by Hitex
The LPC1313-Stic is a small modular Evaluation Kit with optional extension
boards. The LPC-Stick package provides target hardware with the relative
microcontroller from NXP, user pins and LEDs for applications use. Combined
with the proven USB deuer device connection and the non-limited HiTOP
development tools the LPC-Stick allows full access to all chip features,
debugging and programming.
Kit Contents: LPC1313-Stic Development Stic CD containin toolchain
and datasheets
568-4918-ND LPC1313 Evaluation Kit ............................. $105.60
NEW! LPC1300 Evaluation Board
by Keil
The Keil MCB1000 Evaluation Board introduces the LPC1300 amily o ARM
Cortex-M3 processor-based devices, allowing you to create and test working
prorams or this advanced architecture. The MCB1000 has a wide rane o
interfaces making it a great starting point for your next Cortex-M3 project.
Kit Contents:
MCB1000 Evaluation Board MDK-ARM Evaluation Tools USB Cale
Quic Start Guide
568-4919-ND LPC1300 Evaluation Board ......................... $105.60
NEW! LPC1700 Evaluation Board
by Keil
The Keil MCB1700 Evaluation Board introduces the new NXP LPC1700 amily
of ARM Cortex-M3 processor-based devices, allowing you to create and test
worin prorams or this advanced architecture. The MCB1700 has a wide
range of interfaces making it a great starting point for your next Cortex-M3
project.
Kit Contents: MCB1700 Evaluation Board MDK-ARM Evaluation Tools
Quic Start Guide
568-4816-ND LPC1768 Evaluation Board ......................... $345.60
NEW! LPC1768 Development Kit
The LPC1768 Development Kit contains all o the hardware and sotware
reuired or evaluatin and developin with NXPs LPC1700 series
microcontrollers. The LPC1768 Development oard contains an NXP LPC1768
microcontroller and eatures 10/100 Mps Ethernet, Host/Device USB, 16-it
stereo audio, serial port, color LCD and pads or all IO pins includin GPIO and
CAN, main it ideal or evaluatin all o the eatures o the LPC1700 series
microcontrollers.
Kit Contents:
LPC1768 Development oard Evaluation sotware Example prorams
568-4815-ND LPC1768 Development Kit .......................... $345.10
NEW! LPC1768/LPC2368
Prototype Modules by mbed
The mbed NXP board allows for the creation of prototypes without having
to work with low-level microcontroller details. Therefore, a designer can
experiment and iterate aster than ever. Usin a rowser-ased IDE, sotware
can be composed and compiled, then downloaded quickly and easily to the
board’s NXP microcontroller using a simple drag-and-drop function.
Engineers new to embedded applications can use the board to prototype real
products incorporating microcontrollers, while experienced engineers can use
it to be more productive in early stages of development. The mbed tools are
designed so that new ideas can be tested quickly.
568-4916-ND med Board or LPC1768 .............................$59.00
568-4917-ND med Board or LPC2368 .............................$59.00
IAR KickStart Kit for LPC2103
The IAR KicStart Kit or LPC2103 contains hardware and sotware and allows
you to design, develop, integrate and test your applications.
LPC2103 Development Board Contains:
Serial Port Reset Button ISP utton 16 ully coniurale LEDs
Breaout Headers JTAG Interace Connector
Includes: Development Board IAR Emedded Worench with 32B
version o IAR C/CComplier Development Kit includes on-oard JLin
568-4301-ND LPC2103 Development Board ...................... $132.13
568-4302-ND LPC2103 Development Kit .......................... $100.48
The evaluation oard is populated with an LPC2106 device and eatures 2 serial
ports, 2 user-deined uttons, 16 ully coniured LEDs, 20-pin JTAG interace
connector as well as breakout headers for all pins. The kit also comes with a
32K code-limited version o IARs Emedded Worench, includin IARs ARM
compiler and C-SP deuer as well as a ree license o the IAR MaeApp
code enerator or the LPC210x.
Applications: LPC2106 amily
Includes:
Development oard with LPC2106
Development Software
568-1756-ND Evaluation Board or LPC210x ARM MCU .......... $158.05
ARM7 Evaluation Boards
by Keil
The Keil Evaluation Board introduces you to the NXP LPC ARM amily and
allows you to create and test working programs for this advanced architecture.
The Keil Evaluation Board connects to your PC usin the serial port or the
JTAG interace or proram deu usin the Keil ULINK USB-JTAG Adapter
and the uVision IDE and Deuer.
Includes:
LPC Evaluation Board
Sotware
568-4300-ND Evaluation Board or LPC210x ...................... $112.00
568-4297-ND Evaluation Board for LPC212x ...................... $158.05
IAR Development Board
for LPC2138
The IAR KicStart Kit or LPC2138 contains hardware and sotware and allows
you to design and develop your applications.
LPC2138 Development Board Contains:
2 UARTS with drivers and DB9 connectors ETM Routin Potentiometer
connected to the ADC 2 x 16 LCD JTAG Interace
Includes:
Development Board
IAR Emedded Worench with 32B version o IAR C/CComplier
568-4298-ND LPC2138 Development Board ...................... $132.13
568-4299-ND LPC2148 Development Board ...................... $158.05
LPC213x
Evaluation Board
The Keil MCB2130 Evaluation Board introduces you to the NXP LPC2130 ARM
family and allows you to create and test working programs for this advanced
architecture. Two serial interaces, a speaer, analo input via potentiometer,
and eiht LEDs are availale. Deuin is supported via the JTAG interace
and the Keil ULin USB-JTAG adapter. An evaluation copy o the Keil ARM
development tools is included.
Applications: LPC213x family
Includes:
Development Board with LPC2138
Development Software
568-2095-ND Evaluation Board for LPC213x ...................... $132.13
LPC214x
Evaluation Board
The Keil MCB2140 Evaluation Board introduces you to the NXP LPC2140 ARM
family and allows you to create and test working programs for this advanced
architecture. An on-chip USB interface, two serial interfaces, a speaker,
analo input via potentiometer, and eiht LEDs are availale. Deuin is
supported via the JTAG interace and the Keil ULin USB-JTAG adapter. An
evaluation copy o the Keil ARM development tools is included
Applications: LPC214x family
Includes:
Development Board with LPC2148
Development Software
568-2097-ND Evaluation Board for LPC214x ...................... $158.05
LPC2158 LCD Demo Kit
The LCDDemo-LPC2158 is a reerence desin or a low cost microcontroller
and LCD solution usin the NXP LPC2158 alon with a ew discrete external
components. The board is controlled by a simple two-button user interface
mode and select.
The LCDDemo-LCP2158 can unction as a sinle oard computer since
the powerul LPC2158 contains an ARM7TDMI-S microcontroller with
512B o prorammale lash memory and 40B o RAM. Additionally, the
20-pin expansion header allows or the connection o external devices to the
microcontroller directly throuh GPIO or throuh the SPI and I2C interfaces.
Includes:
LCDDemo-LPC2158 Board
QuicStart Guide
Software
568-4310-ND LPC2158 LCD Demo Kit ..............................$72.60
The Keil MCB23XX Evaluation Board introduces you to the NXP LPC2300
ARM7-ased amily and allows you to create and test worin prorams or
this advanced architecture. Two serial interfaces, a speaker, analog input, two
CAN interfaces, LCD, USB, Ethernet, and eight LEDs make this board a great
starting point for your next ARM project.
Applications: LPC23xx family
Includes: Evaluation Board Software
568-3999-ND Evaluation Board LPC237x.......................... $180.62
568-4014-ND Evaluation Board LPC236x.......................... $216.05
LPC2387 Evaluation Board
The Keil MCB2387 Evaluation Board introduces you to the NXP LPC2387
microcontroller. It allows you to create and test worin prorams or this
advanced architecture. The MCB2387 includes RealView MDK-ARM Evaluation
Tools. These tools help you get started writing programs and testing the
microcontroller and its capabilities. Sample applications which run on the
MCB2387 are included.
Includes:
MCB2300 Evaluation oard populated with LPC2387 RealView MDK-ARM
Sotware Quic Start Guide
568-4359-ND LPC2387 Evaluation Board ......................... $261.00
LPC2468 Evaluation Board
by Embedded Artists
Emedded Artists LPC2468 OEM Board mounted on the OEM ase oard
asic lets you et up-and-runnin uicly with NXPs ARM7TDMI LPC24xx
microcontroller series in eneral and with LPC2468 in particular. The oard is
only 66 x 80mm and is perect or runnin uClinux with lare on-oard RAM
and Flash. All processor sinals are availale on two 100-postion connectors
for easy expansion.
Includes: LPC2468 OEM Board OEM Base Board Bundle
568-4303-ND LPC2468 Evaluation Board ......................... $288.55
568-4358-ND QVGA TFT Display .................................. $108.11
LPC2468 Evaluation Kit by Hitex
The LPC-Stick is a small modular evaluation kit with optional extension
oards. The LPC-Stic pacae provides taret hardware with the LPC2468
microcontroller from NXP, external SRAM, user pins and LEDs for application
use. Combined with the proven USB debugger device connection and the nonlimited
HiTOP development tools, the LPC-Stic allows ull access to all chip
features, debugging and programming. To provide access to the most external
capailities o the LPC2468 chip, the stic allows to connect diverse extension
oards over an 80-pin extension connector. The toolset does not reuire any
power supply or cales, ust install the tools and run the demo application
Deuin and user communication via USB at the same time The extension
connector allows the connection to accessory extension boards.
Availale accessory its are COM oard extension provides a set o
communication eatures and pinouts Ethernet and Phy, USB Host and Device,
UART, SDCard, CAN Phy, external power.
568-4308-ND LPC-Stic with LPC2468 ..............................$88.00
568-4309-ND Extension Board for LPC-Stick ...................... $100.48
LPC2478 Evaluation Board
by Embedded Artists
Emedded Artists LPC2478 OEM Board mounted on the QVGA OEM Base
Board with touch panel lets you et up-and-runnin uicly with NXPs
ARM7TDMI LPC24xx microcontroller series in eneral and with LPC2478 in
particular. The OEM oard has SODIMM ormat and is only 66 x 48mm and is
perect or runnin uClinux with lare on-oard RAM and FLASH. All processor
sinals are availale on the 200 position connector or easy expansion.
Includes: LPC2478 OEM Board QVGA Base Board with touch panel
568-4369-ND LPC2478 Evaluation Board ......................... $430.65
LPC2478/LPC3250
Kits and Modules
The ARM-57TS is optimized to save development time in typical emedded
control applications. The modular format uses a base Carrier Board, a core
CPU DIMM Module and an LCD Carrier Board. The base Carrier Board includes
expansion connectors for added flexibility and a range of configurations. The
ARM7DIMM/ARM9DIMM Modules provide a quick and easy solution for
implementing an ARM design by providing the basic functions necessary for a
product on an easy to use DIMM module.
568-4741-ND OM11076 ........................................... $413.00
568-4742-ND OM11077 .............................................$82.53
568-4743-ND OM11078 ........................................... $466.10
568-4744-ND OM11079 ........................................... $106.84
LPC2900 Evaluation Board
The Keil MCB2900 Evaluation Board introduces you to the NXP LPC2900 ARM
family and allows you to create and test working programs for this advanced
architecture. Two Serial and two CAN interfaces make this board a great starting
point for your next ARM project.
Includes: MCB2900 Evaluation Board RealView MDK-ARM Sotware
568-4360-ND LPC2900 Evaluation Board ......................... $218.20
(Continued)
C
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
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157
157

Development Tools for ARM Microcontrollers (Cont.)
NEW! LPC2939 Evaluation Board
and Controller
ARM968E-S ased microcontroller up to 125MHz with 2 x 32 TCM memory,
32 16 internal SRAM, 8B ETM SRAM, 768B internal FLASH, 16B
EEPROM, 8 channel DMA, external static memory controller, USB full speed
device and host, 2 channel CAN, 2 LIN2 UART, 3 SPI, three 10it ADC one
up to 5V, 4 timers, 4 PWMS uadrature encoder interace, watchdo and
more. The oard has an external 512 x 16 static RAM and 16MBit FLASH.
Connectors or 2 UART, 2 CAN and USB device and host are availale. In
addition there are 3 uttons, two 7-sement LEDs and a connector or a motor
control add on board. The board can be powered over USB or an optional
power supply.
568-4787-ND Evaluation Board LPC2939 ......................... $158.05
568-4786-ND External Motor Control Add On Board .............. $391.37
NEW! LPC3131 Evaluation Kit
Emedded Artists LPC3131 Evaluation Kit lets you et
up-and-running quickly with the LPC3131 OEM Board. The LPC3131 OEM
Board is euipped with NXPs ARM926EJ-S ased LPC3131 microcontroller
suitable for a wide range of applications requiring low power consumption,
high performance and flexible USB connectivity.
Kit Contents:
LPC3131 OEM Board
LPC31xx Base Board v2.0
USB Cale
Headset with microphone
568-4850-ND Evaluation Kit or LPC3131 ......................... $308.85
Bluestreak Evaluation Kits by LPD
The OOM Starter Development Kit SDK is a hih-perormance application
development kit for evaluating the functionality of the System On Module Card
Engine and associated processor.
Application development is performed right on the product-ready card engine
and software Board Support Packages included in the kit, which enables you to
seamlessly transfer your application code and hardware into production.
The card engine is ideal for applications in the medical, point-of-sale, industrial,
and security markets.
568-4304-ND OOM SDK or LH7A404 ........................... $500.32
568-4305-ND OOM SDK or LH79524............................ $500.32
568-4306-ND OOM SDK or LH75401............................ $299.72
C
Development Tools for LPC900
MCB900 Evaluation Board
The Keil MCB900 Evaluation Board is a versatile and flexible prototype board for the NXP P89LPC93x
microcontroller family. The MCB900 includes the Keil µVision2 LPC Development Studio which allows you to
create and debug programs that you can program into the on-chip Flash ROM using FlashMagic
Applications: P89LPC93x family
Includes: MC Evaluation oard with 8C2 µVision2 LPC Development Studio
568-1758-ND Eval Board for LPC93x MCU Family .....................................................$80.00
Debuggers
U-LINK2 Debugger
The Keil ULINK2 USB-JTAG Adapter connects your PC’s USB port to the target hardware (via JTAG, SWD,
or OCDS) and allows you to debug embedded programs running on target hardware.
ULINK2 offers all the features of the original ULINK USB-JTAG Adapter and adds serial wire debug (SWD)
support, return clock support, and a real-time agent. ULINK2 works with standard Windows USB drivers.
568-4061-ND U-LINK2 Debugger ...................................................................... $373.95
EPM900 In-Circuit Debugger/Parallel Programmer
The Keil EPM900 Emulator supports in-circuit debugging and parallel Flash ROM programming for the
NXP P89LPC9xx device family. The EPM900 connects directly to the µVision2 Debugger which provides
full control over the user program execution. The Keil EPM900 Emulator includes the µVision2 LPC
Development Studio which contains all the tools you need to generate small LPC applications.
Applications: P89LPC9xx family Includes: EM Emulator oard ision2 C evelopment
Studio S Cable
568-1759-ND Emulator Debugger/Programmer LPC9x ............................................... $216.05
J-Link Debugger
The IAR J-Link is a JTAG debugger that connects via USB to the PC host running Windows. IAR J-Link
integrates seamlessly into IAR Embedded Workbench for ARM and is fully plug-and-play compatible
Features: Support for all RM/RM cores, including Thumb mode CC speed up to 8/sec
utomatic core recognition uto speed recognition
Includes: S 2-pin flat cable
568-4062-ND J-Link Debugger ........................................................................ $303.05
I 2 C Development Tools
I 2 C/SPI-to-UART Demo Board
The NXP I2C/SPI-to-UART demo board demonstrates the SC16IS752
series of bridge ICs which provide high-speed serial data communications
between an SPI or an I2C-host and a UART device via
RS-232/RS-485 while providing IrDA and GPIO interfaces.
The demo board features the SC16IS752 I 2 C/SPI slave-to-UART/
IrDA/GPIO bridge, an NXP P89LPC935 microcontroller, which controls
the bridge IC, an IrDA module for wireless communication and LEDs
connected to the GPIO.
Includes: emo oard Cable ser Manual
568-4000-ND I 2 C/SPI-to-Dual UART Demo Board.......... $104.00
PCA9564 Demo Board
The PCA9564 Evaluation Board demonstrates the I 2 C bus controllers
ability to interface between a master (connected to its parallel bus
and its control signals) and any master and slave devices connected
to its I 2 C bus.
The evaluation board is populated with the following devices and
functions: An external 9V DC power supply is used to provide power
to the 3.3V on-board voltage regulator. The P89LPC932 and P89LV51
are both limited to a 3.3V supply voltage.
Includes: emo oard ower Supply
568-4001-ND PCA9564 Demo Board ........................ $42.55
I 2 C Master Demo Board
The I 2 C 2002-1A Evaluation Board is a low-cost I 2 C-based system
that allows designers to use their PC to easily test and demonstrate
new I 2 C devices in a platform that allows multiple operations to be
performed in a setting similar to a real system environment.
Includes:
I 2 C 2002-1A Evaluation Board
I2C PORT v2 Adapter Card
S dapter Card
ower Supply
Software
568-4002-ND I2C Master Demo Board .......................$232.00
NXP Programmers
USB-ICP supports In-Circuit Prora m min or ICP mode on NXPs mi cro controller
amilies such as the LPC9xx, 80C51, and ARM7. In-Circuit Prorammin uses
a two-wire serial interace to proram and erase ICP enaled microcontroller
devices with out removing them from the system. A small connector is all that is
needed to interace your application to the USB-ICP prorammer.
Features USB port power; no external power supply required Supports
USB 2.0
Includes USB-ICP donle 18 cale or direct connection to oard ICP
design guide
The NXP LPC2468 ARM7 microcontroller ased industrial reerence desin
IRD is optimized to save development time in typical industrial control
applications. Its modular ormat uses a ase, core and application oard or
added flexibility and a range of configurations. The kit is preconfigured with the
IAR EWARM development environment, Micrium uC/OSII operatin system, and
protocol stacs or Ethernet, USB Host/Device, CAN, and I2C.
Kit Includes LPC2468 Core Board IRD Base Board
PCA9633 Demo Board
The PCA9633 Demo Board demonstrates the NXP PCA9633 Fast Mode Plus
4-it I2C LED Driver IC. Four LEDs are connected to the PCA9633 and, throuh
individual pulse width modulation PWM o each LED, show dierent levels
of intensity. The board supports six different modes of operation including
color wash and random color. The on-board Flash microcontroller is also user
reprorammale or endless variations o unctionality. It also includes hihcurrent
FET drivers for off board LED circuitry. Power can be supplied by either
the onoard 9VDC attery or throuh the external power connector.
622-1004-ND PCA9633DEMO ......................................$69.00
LPC1768
Development Kit
The NXP LPC1768 Cortex-M3 microcontroller ased industrial reerence
desin IRD is optimized to save development time in typical industrial control
applications. Its modular ormat uses a ase, core, and application oard
coniuration or added lexiility. The it is pre-coniured to wor with Keil
uVision3 development environment and example code for converting your
ARM7 application to NXP Cortex-M3 LPC176x microcontroller series devices.
622-1032-ND IRD-LPC1768-DEV................................. $395.00
622-1001-ND USB-ICP-80C51ISP ....................................... $69.00
622-1002-ND USB-ICP-LPC9XX ......................................... $69.00
622-1005-ND USB-ICP-LPC2K ........................................... $79.00
622-1006-ND USB-ICP-SAB9
Socket adapter for USB-ICP-LPC9XX ................... $154.70
622-1022-ND Socet adapter or 100-TFBGA ......................... $198.17
PCF2123 Demo Board
The NXP RTC Demo PCF2123 is a reference design for a low power Real Time
Clock and LCD solution with an availale I2C temperature sensor. The Demo
Board is controlled y a simple two-utton user interace MODE and SELECT.
Example code or several sample applications a prorammale time and date
display, a programmable countdown timer, and a repeating pattern of text
lines. The user can edit this code and download to the reprogrammable Flash
microcontroller via a 10-pin header included on the oard usin any external
ICP style prorammer.
622-1027-ND RTC-DEMO-PCF2123 ..................................$69.00
USB-MPC Kit
This USB to Multi-Protocol Converter MPC provides USB V1.1 or V2.0
communications with I2C and MDIO devices. The provided Windows sotware
drivers 2000 and XP allow a user to uicly connect to a device, read/write
individual registers and execute sequences of instructions. Device Descriptor
Files DDF allows the user to add support or new I2C and MDIO devices with
easy to read text files.
622-1026-ND USB-MPC-KIT ....................................... $299.00
USB Programming
Dongle
The USB-Dongle provides a Virtual COM Port interface to the PC and allows
hex files to be downloaded and programmed using Flash Magic or other
common utilities. The USB-Dongle provides all power needed by the various
Derivative Boards so no external power supply is required. The USB-Dongle
plugs directly into any standard USB port on a PC and supports both USB
1.0/1.1 and USB 2.0.
622-1007-ND USB-Donle USB Prorammin Donle
Derivative Boards not included ........................$20.00
622-1013-ND DB-LQFP48-LPC2103 Board for
LPC2103 48-LQFP ....................................... $9.50
622-1017-ND DB-PLCC44SKT Board or 44-IF PLCC Socet .......$49.00
LPC2478/LPC3250
Kits and Modules
The ARM-57TS is optimized to save development time in typical emedded
control applications.
The modular ormat uses a ase Carrier Board, a core CPU DIMM Module and
an LCD Carrier Board.
The base Carrier Board includes expansion connectors for added flexibility and
a range of configurations.
The ARM7DIMM/ARM9DIMM Module provides a uic and easy solution or
implementing an ARM design by providing the basic functions necessary for a
product on an easy to use DIMM module.
622-1034-ND NEW! DK-35TS-LPC2478 ........................ $368.95
622-1028-ND DK-57TS-LPC2478 ................................. $425.00
622-1033-ND NEW! DK-57VTS-LPC2478 ....................... $460.00
622-1029-ND SOMDIMM-LPC2478 .................................$74.50
622-1030-ND DK-57TS-LPC3250 ................................. $480.00
622-1035-ND NEW! DK-57VTS-LPC3250 ....................... $531.25
622-1031-ND SOMDIMM-LPC3250 ............................... $119.00
158 (US2011)
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Flash Emulation Tools
A powerful tool that includes the hardware and software
required to complete much of your application development
work. The flash memory can be erased and programmed
in seconds with only a few keystrokes, and since the
MSP430 Flash is extremely low power, no external power
supply is required. The tool has an integrated software
environment and connects directly to the PC which greatly
simplifies the set-up and use of the tool.
MSP-FET430P120: Applications: MSP430F11x1,
MSP430F12x, MSP430F11x2 and MSP430F12x2 product
families Includes: MSP430F12x FET development oard
with 28 SOIC IF socet, LED indicator, FET to PC cale
and header pinouts or prototypin Two F1232 flash
devices Two MSP430F123 lash devices Interated IAR
Kicstart user interace which includes assemler, liner,
simulator, source-level debugger and limited C-compiler
Full documentation on CD-ROM
MSP-FET430UIF: This is a USB interace pod does not
include taret oard that is used to proram and deu
MSP430 FET tools and test oards throuh the JTAG
interface. Similar to the Parallel Port interface pod included
in our previous FET tools, the USB pod uses a USB PC port
to communicate to the Deuer Sotware IAR Kicstart
sotware included runnin on the PC. The USB interace
pod uses the standard 14 pin header to communicate to
the MSP430 device either usin the standard JTAG or pin
savin Spy Bi-Wire 2-wire JTAG protocol inormation
aout which protocol is supported y the MSP430 derivative
can e ound in the device speciic data sheet. The tool has
an integrated software environment and connects directly to
the PC. The flash development tool supports development
with all MSP430 lash parts.
MSP-FET430UXX: This includes the hardware and software
required to complete much of your application development
296-16696-ND MSP-FET430P120 .............................................................................$101.00
296-22900-ND MSP-FET430UIF ................................................................................ $99.00
296-22908-ND MSP-FET430U14 14 pin TSSOP .............................................................. $76.00
296-23115-ND MSP-FET430U23X0 40-pin RHA .............................................................$152.00
296-22910-ND MSP-FET430U28 20 and 28 pin SOWB ......................................................$152.00
296-22904-ND MSP-FET430U38 38 pin TSSOP .............................................................$152.00
work. The tool has an integrated software environment
and connects directly to the USB port of a PC which
greatly simplifies the set-up and use of the tool. Includes:
FET development board LED indicator USB to JTAG
adapter Cales and header pinouts or prototypin
Two MSP430F2274IDA lash devices Interated IAR
Kicstart user interace which includes an assemler, liner,
simulator, source-level debugger and limited C-compiler
Full documentation on CD-ROM
MSP-FET430U5X100: This lash emulation tool FET
includes the hardware and software required to quickly
ein application development on the MSP430 MCU. It
includes a IF socet taret oard MSP-TS430P5X100
and a USB deuin interace MSP-FET430UIF used to
proram and deu the MSP430 in-system throuh the
JTAG interace or the Spy Bi-Wire 2-wire JTAG protocol.
MSP-GANG430: This in-system gang programmer tool
can e used to proram up to 8 MSP430 FLASH devices
simultaneously. These devices can be programmed
in-circuit or in stand-alone sockets and software is included
to facilitate device programming. The programming can
be done with a PC or standalone. Since the graphical
user interace GUI is DLL-ased the DLL can e used
independently rom the GUI. Several examples show how
the DLL could be applied at various high level languages
C, C, VisualBasic, LaView Includes: In circuit an
programmer One Cale Su-D 9 Pin and one Cale Su-D
25 Pin Target expansion board Eight 14-pin cables for
connectivity of up to 8 targets Read Me First CD-ROM
with MSP-GANG430 SW and MSP-GANG430 Users Guide.
External power supply is required and not included with
MSP-GANG430. The voltage of the power supply must be
between 9Vdc and 15Vdc and must be capable of providing
a minimum current of 300mA.
296-22902-ND MSP-FET430U64 64 pin QFP.................................................................$152.00
296-23448-ND MSP-TS430P5X100 ........................................................................... $76.50
296-24191-ND MSP-TS430PM64 ............................................................................... $76.50
296-23449-ND MSP-FET430U5X100 ..........................................................................$152.00
296-22901-ND MSP-GANG430 ................................................................................$203.00
C
MSP430 USB Development Stick
Complete Development Tool includin all the hardware and sotware to evaluate the MSP430F2013 and develop a
complete project in a convenient USB stick form factor. The USB port provides enough power to operate the ultra-lowpower
MSP430 so no external power supply is reuired.
Features: Development Tool includin a USB deuin interace and detachale taret oard LED indicator
Removale USB stic enclosure Deuin interace supports development with all MSP430F20xx devices
Interated IAR Kicstart user interace which includes an assemler, liner, simulator, source-level deuer and limited
C-compiler Full documentation on CD-ROM
296-20630-ND E430-F2013 ................................................................................... $20.40
MSP-EVK430S320 Evaluation Kit
The MSP-EVK430S320 evaluation it supports the MSP430x32x amily o devices and comes with the PMS430E325F
UV EPROM assemled in a socet.
Kit Includes: MSP430 EVK oard with UV erasale EPROM, LCD, PC connector MSP-PRGS430 serial pro rammin
adapter IAR Kicstart IDE, assemler, liner and limited C-compiler CD-ROM with sotware tools and complete
documentation
296-13849-ND MSP-EVK430S320 ............................................................................ $407.00
MSP-PRGS430 Serial Programmer
This serial prorammin adapter is a second-eneration prorammin tool that can e used to proram any MSP430
Flash, OTP or UV-EPROM device. These devices can be programmed in-circuit or in stand-alone sockets and software
is included to acilitate device prorammin. Power supply not included. Recommend T992-P5P-ND Applications:
MSP430 Flash OTP or UV-EPROM device
Includes: MSP-PRGS430 prorammer Serial cale Taret cale CD-ROM Doc umentation
296-16698-ND MSP-PRGS430................................................................................ $246.46
MSP-FET430PIF Interface Debug for MSP430 FET
Kit Includes: One READ ME FIRST document One MSP430 CD-ROM One MSP-FET430PIF interace module One
25-conductor cale One 14-conductor cable.
296-23000-ND MSP-FET430PIF................................................................................ $50.00
MSP-FET430U80 Programmer/Debug Kit
This powerful flash emulation tool includes the hardware and software required to begin application development on the
MSP430 MCU. It includes a IF socet taret oard and a USB deuin interace MSP-FET430UIF used to proram
and deu the MSP430 in-system throuh the JTAG interace or Spy Bi-Wire 2-wire JTAG protocol. The deuin tool
interaces the MSP430 to the included interated sotware environment and includes code to start your desin. The MSP-
FET430U80 supports all MSP430 lash parts in an 80-pin LQFP pacae.
296-23005-ND MSP-FET430U80 .............................................................................. $152.00
NEW! MSP-TS430PW14 Target Board
A standalone IF socet taret oard used to proram and deu the MSP430 in-system throuh the JTAG interace or
the Spy Bi-Wire 2-wire JTAG protocol. The development oard supports some MSP430 Flash parts in a 14-pin TSSOP
pacae TI pacae code PW. Please chec your tarets device documentation to ind the correct taret oard.
Features A separate deuin and prorammin interace is reuired to wor with the oard. A lash emulation tool
FET may e purchased independently or undled.
296-25885-ND MSP-TS430PW14 .............................................................................. $76.50
NEW! MSP430 LaunchPad Value Line
Development Kit
The MSP-EXP430G2 LaunchPad is an easy-to-use ash prorammer and deuin tool that provides everythin you
need to start developin on MSP430 Value Line devices. It includes a 14-/20-pin DIP soceted taret oard with interated
emulation to uicly proram and deu MSP430 Value Line devices in-system throuh the Spy Bi-Wire 2-wire JTAG
protocol.
296-27570-ND MSP-EXP430G2 LaunchPad Development Kit .................................................$4.35
C2000 Piccolo controlSTICK, controlCARD
USB Piccolo controlSTICK Evaluation Tool: The innovative Piccolo controlSTICK allows uic and easy evaluation with
all o the advanced capailities o Texas Instruments new Piccolo microcontroller. Features: On-oard JTAG emulation
Access to all control peripherals
Piccolo controlCARD: The C2000 controlCARDs rom Texas Instruments are complete oard-level modules that utilize
an industry-standard DIMM orm actor to provide a low-prole sinle-oard controller solution. Features: Standard
100-pin DIMM intererence F28x analo I/O, diital I/O and JTAG sinals at DIMM interace Isolated RS-232 interace
5V power supply reuired
Piccolo Experimenter Kit: The Piccolo Experimenter Kit has a docin station that eatures on oard USB JTAG emulation,
access to all controlCARD sinals, readoard areas and RS-232 and JTAG connectors. Each it contains a 28027
controlCARD. The controlCARD is a complete oard-level module that utilizes an industry-standard DIMM orm actor to
provide a low-prole sinle-oard controller solution. Includes: Code Composer Studio IDEv3.3 C28x Free 32K
Byte Version and USB Cable.
296-24041-ND TMDX28027USB USB Piccolo controlSTICK Evaluation Tool ................................ $40.50
296-24042-ND TMDXCNCD28027 Piccolo controlCARD ...................................................... $50.88
296-24043-ND TMDXDOCK28027 Piccolo Experimenter Kit or TMDS320F28X .............................. $82.03
Experimenter Board for MSP430
The MSP430FG4618 and MSP430F5438 experimenter oards are ased on the ultra-low power MSP430 microcontroller amily.
296-23006-ND MSP-EXP430FG4618 ......................................................................... $101.00
296-24190-ND MSP-EXP430F5438 ........................................................................... $152.00
Target Board for EZ430-F2013 Development Tool
Features: Three e430-T2012 taret oards with a 4-pin connector to it the e430-F2013 USB Development Tool
MSP430F2012-ased taret oard Fully accessible pins LED indicator
296-23007-ND E430-T2012 .................................................................................. $10.20
Development Wireless Tool for
MSP430 / CC2500
Features: USB deuin and prorammin interace eaturin a driverless installation and application acchannel
21 available development pins Hihly interated, ultra-low power MSP430 MCU with 16MHz perormance Two
eneral-purpose diital I/O pins connected to reen and red LEDs or visual eedac Interruptile push utton or
user feedback.
296-23031-ND E430-RF2500 ................................................................................. $50.00
NEW! EZ430-RF2560 Bluetooth
Evaluation Tool
The e430-RF2560 is a complete TI Bluetooth ® evaluation and sotware development tool or the MSP430 and CC2560
that includes all the necessary hardware and software in a convenient USB stick. The tool includes a USB-powered emulator
to proram and deu your application and two cc2560-ased Bluetooth taret oards eaturin the hihly interated
MSP430BT5190 ultra-low-power MCU
296-27527-ND E430-RF2560 Development Wireless Tool or MSP430/CC2560 ........................ $101.00
Adapter mini-B USB Interface EVM
This EVM serves as an interace adapter or a ride etween a host PC IBM compatile and one or multiple slave
devices via a standard type-A to mini-B USB cable. The communication between the USB interface adapter and the host
PC is via USB, communication etween the USB interace adapter and the slave device s is via an inter-interated circuit
I2C, SMBus, PMBus and/or eneral-purpose inputs/outputs GPIOs.
296-23114-ND USB-TO-GPIO .................................................................................. $50.00
Wireless Solar Energy Harvesting
for MSP430
The e430-RF2500-SEH is a complete Solar Enery Harvestin development it to help create a perpetually powered wireless
sensor networ ased on the ultra-low-power MSP430 microcontroller. The Solar Enery Harvester module includes
a hih-eciency solar panel optimized or operatin indoors under low-intensity uorescent lihts, which provides enouh
power to run a wireless sensor application with no additional atteries. Inputs are also availale or external enery harvesters
such as thermal, piezoelectric, or another solar panel.
Includes Cymbet EnerChip Module 859-1000-5-ND.
296-24121-ND E430-RF2500-SEH Development Wireless Tool or MSP430 ............................. $152.00
More Product Available Online: www.digikey.com
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(TZM112.US)
159
159

TMS370C756A 8-Bit Microcontroller
The TMS370Cx5x amily o sinle-chip 8-it micro controllers provides cost-eective real-time system control throuh interation o advanced peripheral unction modules and various on-chip memory coniurations. This device is implemented
using high-performance silicon-gate CMOS, EPROM and EEPROM technologies. The low-operating power, wide-operating temp erature range, and noise immunity of CMOS technology, coupled with the high performance and extensive on-chip
peripheral unctions, mae the TMS370Cx5x devices attractive in system desins or automotive elec tronics, industrial motor control, computer peripheral control, telecom munications and consumer application. Maximum Clock Frequency: 20MHz
Operating Temperature: -40C 85C
Memory Size
Price Each
Program Data
Timer
Digi-Key
Texas Instruments
EPROM RAM/EEPROM I/O (16-Bit) ADC Vcc Package Part No.
1 25 100 Part No.
TMS370 Family
16K 512/512 46 2 8-Ch., 8-Bit 5V 10 68-PLCC 296-10770-5-ND 21.90 18.62 17.25 TMS370C756AFNT
C
MSP430 Ultra-Low Power Microcontrollers
The MSP430 amily o ultra-low power 16-it RISC mixed-sinal pro ces s o rs provides the ultimate solution or atterypowered
measurement applications. Features: Ultra-low power architecture extends attery lie 0.1uA RAM retention,
0.8uA real-time cloc mode, 250uA/MIPS active Hih-perormance analo ideal or precise measurements Modern
16-it RISC CPU enales new applications at a raction o the code size In-system prorammale Flash permits code
Memory Size
Flash (Program)
1K
2K
SRAM
(Byte)
Timer
(16-Bit)
ADC
Ch/Res
UART/
SPI
Freq. Range
Min./Max. Vcc (V) Package
chanes, ield uprades and data loin 16-Bit MSP430 Architecture, a 16-it RISC CPU, peripherals and lexile
cloc system are comined y usin a von-Neumann common memory address us MAB and memory data us MDB
Memory Options: Flash, ROM, OTP versions rom 1KB to 60KB DMA controller Modern 16-Bit RISC CPU: Optimized
or C and assemler prorammin Up to 8 MIPS o perormance availale Operating Temperature: - 40C 85C
Digi-Key
Part No.
Price Each Tape and Reel† Texas Instruments
1 25 100 Qty. Pricing Part No.
I/O
Flash Based F1xx Family
128 14 3 Slope — DC-8MHz 1.8 3.6 20-TVSOP 296-15781-5-ND 2.95 2.38 2.14 — — MSP430F1101AIDGV
128 14 3 Slope — DC-8MHz 1.8 3.6 20-SOIC 296-13768-5-ND 2.95 2.38 2.14 — — MSP430F1101AIDW
128 14 3 Slope — DC-8MHz 1.8 3.6 20-TSSOP 296-13720-5-ND 2.95 2.38 2.14 — — MSP430F1101AIPW
128 14 3 Slope — DC-8MHz 1.8 3.6 24-QFN 296-16765-1-ND‡ 3.00 2.45 2.20 250 462.50 MSP430F1101AIRGET
128 14 1 Slope — DC-8MHz 1.8 3.6 20-SOIC 296-6505-5-ND 2.95 2.38 2.14 — — MSP430F1101IDW
128 14 1 Slope — DC-8MHz 1.8 3.6 20-TSSOP 296-9608-5-ND 2.95 2.38 2.14 — — MSP430F1101IPW
128 14 3 Slope — DC-8MHz 1.8 3.6 20-TVSOP 296-15782-5-ND 3.08 2.48 2.26 — — MSP430F1111AIDGV
128 14 3 Slope — DC-8MHz 1.8 3.6 20-SOIC 296-12633-5-ND 3.08 2.48 2.26 — — MSP430F1111AIDW
128 14 3 Slope — DC-8MHz 1.8 3.6 20-TSSOP 296-12634-5-ND 3.08 2.48 2.26 — — MSP430F1111AIPW
128 14 3 Slope — DC-8MHz 1.8 3.6 24-QFN 296-16762-1-ND‡◆ 3.45 2.82 2.53 250 531.88 MSP430F1111AIRGET
256 14 3 Slope — DC-8MHz 1.8 3.6 20-TVSOP 296-12703-5-ND 3.92 3.15 2.87 — — MSP430F1121AIDGV
256 14 3 Slope — DC-8MHz 1.8 3.6 20-SOIC 296-13457-5-ND 3.92 3.15 2.87 — — MSP430F1121AIDW
256 14 3 Slope — DC-8MHz 1.8 3.6 20-TSSOP 296-13458-5-ND 3.92 3.15 2.87 — — MSP430F1121AIPW
256 14 1 Slope — DC-8MHz 1.8 3.6 20-TSSOP 296-26173-1-ND‡◆ NEW! 4.20 3.43 3.08 2,000 1862.00/M MSP430F1121AIPWR
256 14 3 Slope — DC-8MHz 1.8 3.6 24-QFN 296-15891-1-ND‡ 4.20 3.43 3.08 3,000 1862.00/M MSP430F1121AIRGER
256 14 1 Slope — DC-8MHz 1.8 3.6 20-SOIC 296-6507-5-ND 3.92 3.15 2.87 — — MSP430F1121IDW
256 14 1 Slope — DC-8MHz 1.8 3.6 20-TSSOP 296-6508-5-ND 3.92 3.15 2.87 — — MSP430F1121IPW
256 14 1 Slope — DC-8MHz 1.8 3.6 20-TSSOP 296-9610-5-ND 4.20 3.38 3.08 — — MSP430F112IPW
4K 256 14 1 Slope — DC-5.35MHz 2.5 5.5 20-SOIC 296-6510-5-ND 6.72 5.40 4.92 — — MSP430P112IDW
256 14 3 5-Ch., 10-Bit — DC-8MHz 1.8 3.6 20-SOIC 296-13776-5-ND 4.62 3.72 3.39 — — MSP430F1122IDW
256 14 3 5-Ch., 10-Bit — DC-8MHz 1.8 3.6 20-TSSOP 296-13777-5-ND 4.62 3.72 3.39 — — MSP430F1122IPW
256 14 3 5-Ch., 10-Bit — DC-8MHz 1.8 3.6 32-VQFN 296-17137-1-ND‡ 5.10 4.17 3.74 250 786.25 MSP430F1122IRHBT
256 22 3 Slope 1 DC-8MHz 1.8 3.6 28-TSSOP 296-12082-5-ND 4.62 3.72 3.39 — — MSP430F122IPW
256 22 3 Slope 1 DC-8MHz 1.8 3.6 32-VQFN 296-15851-1-ND‡ 4.95 4.05 3.63 3,000 2194.50/M MSP430F122IRHBR
256 22 3 8-Ch., 10-Bit 1 DC-8MHz 1.8 3.6 28-SOIC 296-13780-5-ND 5.04 4.05 3.69 — — MSP430F1222IDW
256 22 3 8-Ch., 10-Bit 1 DC-8MHz 1.8 3.6 28-TSSOP 296-13781-5-ND 5.04 4.05 3.69 — — MSP430F1222IPW
256 22 3 8-Ch., 10-Bit 1 DC-8MHz 1.8 3.6 32-VQFN 296-16794-1-ND‡ 5.55 4.54 4.07 250 855.63 MSP430F1222IRHBT
256 14 3 5-Ch., 10-Bit — DC-8MHz 1.8 3.6 20-SOIC 296-13778-5-ND 5.60 4.50 4.10 — — MSP430F1132IDW
256 14 3 5-Ch., 10-Bit — DC-8MHz 1.8 3.6 20-TSSOP 296-13779-5-ND 5.60 4.50 4.10 — — MSP430F1132IPW
256 14 1 5-Ch., 10-Bit 1 DC-8MHz 1.8 3.6 20-TSSOP 296-26175-1-ND◆‡ NEW! 6.00 4.90 4.40 2,000 2660.00/M MSP430F1132IPWR
256 14 3 5-Ch., 10-Bit — DC-8MHz 1.8 3.6 32-VQFN 296-17133-1-ND‡ 6.15 5.03 4.51 250 948.13 MSP430F1132IRHBT
256 22 3 Slope 1 DC-8MHz 1.8 3.6 28-SOIC 296-13101-5-ND 5.04 4.05 3.69 — — MSP430F123IDW
256 22 3 Slope 1 DC-8MHz 1.8 3.6 28-TSSOP 296-12083-5-ND 5.04 4.05 3.69 — — MSP430F123IPW
8K
256 22 3 Slope 1 DC-8MHz 1.8 3.6 32-VQFN 296-15852-1-ND‡◆ 5.40 4.41 3.96 3,000 2394.00/M MSP430F123IRHBR
256 22 3 8-Ch., 10-Bit 1 DC-8MHz 1.8 3.6 28-SOIC 296-13782-5-ND 5.74 4.62 4.21 — — MSP430F1232IDW
256 22 3 8-Ch., 10-Bit 1 DC-8MHz 1.8 3.6 28-TSSOP 296-13783-5-ND 5.74 4.62 4.21 — — MSP430F1232IPWww
256 22 3 8-Ch., 10-Bit 1 DC-8MHz 1.8 3.6 32-VQFN 296-16795-1-ND‡ 6.15 5.03 4.51 3,000 2727.00/M MSP430F1232IRHBR
256 48 6 8-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 64-TQFP 296-15894-ND 7.38 6.05 5.46 — — MSP430F133IPAG
256 48 6 8-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 64-LQFP 296-9611-ND 7.38 6.05 5.46 — — MSP430F133IPM
256 48 6 8-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 64-VQFN 296-17141-1-ND‡ 7.95 6.60 6.00 250 1275.00 MSP430F133IRTDT
256 48 2 Slope — DC-8MHz 1.8 3.6 64-LQFP 296-15857-1-ND‡◆ 6.63 5.50 5.00 1,000 3375.00 MSP430FW423IPMR
256 48 2 Slope — DC-8MHz 1.8 3.6 64-LQFP 296-15858-1-ND‡◆ 7.42 6.16 5.60 1,000 3780.00 MSP430FW425IPMR
512 48 6 8-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 64-TQFP 296-15892-ND◆ 8.63 7.08 6.39 — — MSP430F135IPAG
512 48 6 8-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 64-LQFP 296-9612-ND 8.63 7.08 6.39 — — MSP430F135IPM
16K 512 48 6 8-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 64-VQFN 296-17142-1-ND‡ 9.28 7.70 7.00 250 1487.50 MSP430F135IRTDT
512 48 6 8-Ch., 12-Bit 1 with I 2 C DC-8MHz 1.8 3.6 64-LQFP 296-16837-ND 12.13 9.95 8.98 — — MSP430F155IPM
512 48 2 8-Ch., 12-Bit 1 with I 2 C DC-8MHz 1.8 3.6 64-LQFP 296-26187-1-ND◆‡ NEW! 12.85 10.67 9.70 1,000 6548.00 MSP430F155IPMR
512 48 6 8-Ch., 12-Bit 1 with I 2 C DC-8MHz 1.8 3.6 64-VQFN 296-21438-1-ND‡ 12.99 10.78 9.80 250 2082.50 MSP430F155IRTDT
24K 1024 48 6 8-Ch., 12-Bit 1 with I 2 C DC-8MHz 1.8 3.6 64-LQFP 296-16838-ND 11.11 9.35 8.59 — — MSP430F156IPM
256 48 2 Slope — DC-8MHz 1.8 3.6 64-TQFP 296-15859-1-ND‡ 8.22 6.82 6.20 1,000 4185.00 MSP430FW427IPMR
1024 48 10 8-Ch., 12-Bit 2 DC-8MHz 1.8 3.6 64-TQFP 296-15893-ND 11.13 9.13 8.24 — — MSP430F147IPAG
1024 48 10 8-Ch., 12-Bit 2 DC-8MHz 1.8 3.6 64-LQFP 296-9613-ND 11.13 9.13 8.24 — — MSP430F147IPM
1024 48 10 Slope 2 DC-8MHz 1.8 3.6 64-LQFP 296-15701-ND 10.25 8.41 7.59 — — MSP430F1471IPM
32K
1024 48 10 8-Ch., 12-Bit 2 DC-8MHz 1.8 3.6 64-VQFN 296-17143-1-ND‡ 11.00 9.13 8.30 250 1763.75 MSP430F147IRTDT
1024 48 10 Slope 2 DC-8MHz 1.8 3.6 64-VQFN 296-17144-1-ND‡ 11.93 9.90 9.00 250 1912.50 MSP430F1471IRTDT
1024 48 6 8-Ch., 12-Bit 1 with I 2 C DC-8MHz 1.8 3.6 64-LQFP 296-16839-ND 11.77 9.90 9.10 — — MSP430F157IPM
1024 48 10 8-Ch., 12-Bit 2 with I 2 C DC-8MHz 1.8 3.6 64-LQFP 296-16840-ND 13.64 11.47 10.54 — — MSP430F167IPM
5120 48 10 8-Ch., 12-Bit 2 with I 2 C DC-4.15MHz 1.8 3.6 64-LQFP 296-18501-ND 17.27 14.53 13.35 — — MSP430F1610IPM
5120 48 10 8-Ch., 12-Bit 2 with I 2 C DC-4.15MHz 1.8 3.6 64-VQFN 296-18101-1-ND‡ 18.17 15.41 14.22 250 3061.25 MSP430F1610IRTDT
2048 48 10 8-Ch., 12-Bit 2 DC-8MHz 1.8 3.6 64-TQFP 296-15856-ND 12.00 9.84 8.88 — — MSP430F148IPAG
2048 48 10 Slope 2 DC-8MHz 1.8 3.6 64-LQFP 296-15702-ND 11.50 9.43 8.51 — — MSP430F1481IPM
2048 48 10 8-Ch., 12-Bit 2 DC-8MHz 1.8 3.6 64-LQFP 296-9614-ND 12.00 9.84 8.88 — — MSP430F148IPM
2048 48 10 Slope 2 DC-8MHz 1.8 3.6 64-VQFN 296-17145-1-ND‡ 12.32 10.23 9.30 250 1976.25 MSP430F1481IRTDT
48K 2048 48 10 8-Ch., 12-Bit 2 DC-8MHz 1.8 3.6 64-VQFN 296-17146-1-ND‡ 12.85 10.67 9.70 250 2061.25 MSP430F148IRTDT
2048 48 10 8-Ch., 12-Bit 2 with I 2 C DC-8MHz 1.8 3.6 64-LQFP 296-16841-ND 15.07 12.68 11.65 — — MSP430F168IPM
2048 48 10 8-Ch., 12-Bit 2 with I 2 C DC-8MHz 1.8 3.6 64-VQFN 296-20716-1-ND‡ 15.87 13.46 12.42 250 2673.75 MSP430F168IRTDT
10240 48 10 8-Ch., 12-Bit 2 with I 2 C DC-8MHz 1.8 3.6 64-LQFP 296-17205-ND 18.15 15.27 14.03 — — MSP430F1611IPM
10240 48 10 8-Ch., 12-Bit 2 with I 2 C DC-4.15MHz 1.8 3.6 64-VQFN 296-18102-1-ND‡ 19.09 16.19 14.94 250 3216.25 MSP430F1611IRTDT
◆ RoHS Compliant † For Tape and Reel part number, change 1-ND to 2-ND. ∆ Sigma Delta ‡ Cut Tape § Operatin Temperature -40C 105C ★ Operatin Temperature -55C 125C
(Continued)
®
®
For Digi-Reel ® information, please see page 71.
160 (US2011)
(TZM112.US)
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MSP430 Ultra-Low Power Microcontrollers (Cont.)
®
Memory Size
Flash (Program)
55K
SRAM Timer ADC UART/ Freq. Range
Digi-Key
Price Each Tape and Reel† Texas Instruments
(Byte) I/O (16-Bit) Ch/Res SPI Min./Max. Vcc (V) Package Part No.
1 25 100 Qty. Pricing Part No.
5120 48 10 8-Ch., 12-Bit 2 with I 2 C DC-4.15MHz 1.8 3.6 64-LQFP 296-17885-ND 18.81 15.82 14.54 — — MSP430F1612IPM
5120 48 10 8-Ch., 12-Bit 2 with I 2 C DC-4.15MHz 1.8 3.6 64-VQFN 296-18103-1-ND‡ 19.78 16.77 15.48 250 3332.50 MSP430F1612IRTDT
2048 48 10 Slope 2 DC-8MHz 1.8 3.6 64-LQFP 296-15703-ND 12.25 10.05 9.07 — — MSP430F1491IPM
2048 48 10 8-Ch., 12-Bit 2 DC-8MHz 1.8 3.6 64-TQFP 296-13102-ND 11.55 9.72 8.93 — — MSP430F149IPAG
2048 48 10 8-Ch., 12-Bit 2 DC-8MHz 1.8 3.6 64-LQFP 296-9615-ND 11.55 9.72 8.93 — — MSP430F149IPM
60K
2048 48 10 Slope 2 DC-8MHz 1.8 3.6 64-VQFN 296-17147-1-ND‡ 13.12 10.89 9.90 250 2103.75 MSP430F1491IRTDT
2048 48 10 8-Ch., 12-Bit 2 DC-8MHz 1.8 3.6 64-VQFN 296-17556-1-ND‡ 12.19 10.34 9.54 250 2053.75 MSP430F149IRTDT
2048 48 10 8-Ch., 12-Bit 2 with I 2 C DC-8MHz 1.8 3.6 64-LQFP 296-16842-ND 16.17 13.60 12.50 — — MSP430F169IPM
2048 48 10 8-Ch., 12-Bit 2 with I 2 C DC-8MHz 1.8 3.6 64-LQFP 296-17009-1-ND‡ 16.91 14.34 13.23 1,000 9776.00 MSP430F169IPMR
2048 48 10 8-Ch., 12-Bit 2 with I 2 C DC-8MHz 1.8 3.6 64-VQFN 296-21320-1-ND‡ 17.02 14.43 13.32 250 2867.50 MSP430F169IRTDT
ROM/OTP Based X2xx Family with LCD Driver — EPROM/OTP (Program) Memory
512
128 10 1 Slope — DC-16MHz 1.8 3.6 14-PDIP 296-27481-5-ND◆ NEW! 1.72 1.38 1.21 — — MSP430G2001IN14
128 10 1 Slope — DC-16MHz 1.8 3.6 14-TSSOP 296-25828-5-ND◆ NEW! 1.20 .96 .84 — — MSP430G2001IPW14
128 10 2 Slope — DC-16MHz 1.8 3.6 14-DIP 296-19685-5-ND 1.55 1.25 1.13 — — MSP430F2001IN
128 10 2 Slope — DC-16MHz 1.8 3.6 14-TSSOP 296-19686-1-ND‡ 1.75 1.35 1.23 2,000 675.00/M MSP430F2001IPWR
128 10 2 Slope — DC-16MHz 1.8 3.6 16-VQFN 296-19687-1-ND‡ 1.93 1.49 1.35 250 275.00 MSP430F2001IRSAT
128 10 2 Slope — DC-16MHz 1.8 3.6 14-DIP 296-19688-5-ND§ 1.71 1.38 1.24 — — MSP430F2001TN
128 10 2 Slope — DC-16MHz 1.8 3.6 14-TSSOP 296-19689-1-ND‡§ 1.93 1.49 1.35 2,000 742.50/M MSP430F2001TPWR
128 10 2 Slope — DC-16MHz 1.8 3.6 16-VQFN 296-19690-1-ND‡§ 2.10 1.62 1.47 250 300.00 MSP430F2001TRSAT
128 10 2 8-Ch., 10-Bit — DC-16MHz 1.8 3.6 14-DIP 296-19724-5-ND 2.17 1.75 1.58 — — MSP430F2002IN
128 10 2 8-Ch., 10-Bit — DC-16MHz 1.8 3.6 14-TSSOP 296-26190-5-ND◆ NEW! 2.17 1.75 1.58 — — MSP430F2002IPW
128 10 2 8-Ch., 10-Bit — DC-16MHz 1.8 3.6 14-TSSOP 296-19725-1-ND‡ 2.45 1.89 1.72 2,000 945.00/M MSP430F2002IPWR
128 10 2 8-Ch., 10-Bit — DC-16MHz 1.8 3.6 16-VQFN 296-19726-1-ND‡ 2.63 2.03 1.84 250 375.00 MSP430F2002IRSAT
128 10 2 8-Ch., 10-Bit — DC-16MHz 1.8 3.6 14-DIP 296-19727-5-ND§ 2.48 2.00 1.80 — — MSP430F2002TN
128 10 2 8-Ch., 10-Bit — DC-16MHz 1.8 3.6 14-TSSOP 296-19728-1-ND‡§ 2.80 2.16 1.96 2,000 1080.00/M MSP430F2002TPWR
128 10 2 8-Ch., 10-Bit — DC-16MHz 1.8 3.6 16-VQFN 296-19729-1-ND‡§ 2.98 2.30 2.09 250 425.00 MSP430F2002TRSAT
128 10 2 4-Ch., 16-Bit — DC-16MHz 1.8 3.6 14-DIP 296-19691-5-ND 3.08 2.48 2.26 — — MSP430F2003IN
128 10 2 4-Ch., 16-Bit — DC-16MHz 1.8 3.6 16-VQFN 296-19692-1-ND‡ 3.45 2.82 2.53 250 531.88 MSP430F2003IRSAT
128 10 2 4-Ch., 16-Bit — DC-16MHz 1.8 3.6 14-DIP 296-19693-5-ND§ 3.50 2.82 2.57 — — MSP430F2003TN
1K
128 10 2 4-Ch., 16-Bit — DC-16MHz 1.8 3.6 14-TSSOP 296-19694-1-ND‡§ 3.75 3.07 2.75 2,000 1663.00/M MSP430F2003TPWR
128 10 2 4-Ch., 16-Bit — DC-16MHz 1.8 3.6 16-VQFN 296-19695-1-ND‡§ 3.90 3.19 2.86 250 601.25 MSP430F2003TRSAT
128 10 2 4-Ch., 16-Bit — DC-16MHz 1.8 3.6 14-TSSOP 296-19313-1-ND‡ 3.30 2.70 2.42 2,000 1463.00/M MSP430F2003IPWR
128 16 5 Slope — DC-6.0MHz 1.8 3.6 20-TVSOP 296-18104-ND 1.86 1.50 1.35 — — MSP430F2101IDGV
128 16 5 Slope — DC-6.0MHz 1.8 3.6 20-SOIC 296-18105-1-ND‡ 2.10 1.62 1.47 2,000 810.00/M MSP430F2101IDWR
128 16 1 Slope — DC-16MHz 1.8 3.6 20-TSSOP 296-25476-5-ND◆ NEW! 1.86 1.50 1.35 — — MSP430F2101IPW
128 16 5 Slope — DC-6.0MHz 1.8 3.6 20-TSSOP 296-18106-1-ND‡ 2.10 1.62 1.47 2,000 810.00/M MSP430F2101IPWR
128 16 5 Slope — DC-6.0MHz 1.8 3.6 24-QFN 296-18107-1-ND‡ 2.28 1.76 1.60 250 325.00 MSP430F2101IRGET
128 16 5 Slope — DC-16MHz 1.8 3.6 20-TVSOP 296-20749-1-ND‡§ 2.45 1.89 1.72 2,000 945.00/M MSP430F2101TDGVR
128 16 5 Slope — DC-16MHz 1.8 3.6 20-SOIC 296-20750-1-ND‡§ 2.45 1.89 1.72 2,000 945.00/M MSP430F2101TDWR
128 16 5 Slope — DC-16MHz 1.8 3.6 20-TSSOP 296-20751-1-ND‡§ 2.45 1.89 1.72 2,000 945.00/M MSP430F2101TPWR
128 16 5 Slope — DC-16MHz 1.8 3.6 24-QFN 296-20752-1-ND‡§ 2.63 2.03 1.84 250 375.00 MSP430F2101TRGET
128 10 1 Slope — DC-16MHz 1.8 3.6 14-DIP 296-27482-5-ND◆ NEW! 1.86 1.50 1.35 — — MSP430G2101IN14
128 10 1 Slope — DC-16MHz 1.8 3.6 14-TSSOP 296-27469-1-ND‡◆ NEW! 1.66 1.32 1.18 2,000 612.00/M MSP430G2101IPW14R
128 10 1 Slope — DC-16MHz 1.8 3.6 14-DIP 296-27483-5-ND◆ NEW! 2.02 1.63 1.47 — — MSP430G2121IN14
128 10 1 Slope — DC-16MHz 1.8 3.6 14-TSSOP 296-27470-1-ND‡◆ NEW! 1.73 1.37 1.24 2,000 638.00/M MSP430G2121IPW14R
128 10 1 Slope — DC-16MHz 1.8 3.6 14-TSSOP 296-27471-1-ND‡◆ NEW! 1.88 1.49 1.34 2,000 692.00/M MSP430G2131IPW14R
128 10 1 Slope — DC-16MHz 1.8 3.6 16-QFN 296-27472-1-ND‡◆ NEW! 1.93 1.49 1.35 3,000 743.00/M MSP430G2131IRSA16R
128 10 2 Slope — DC-16MHz 1.8 3.6 14-DIP 296-19696-5-ND 1.86 1.50 1.35 — — MSP430F2011IN
128 10 2 Slope — DC-16MHz 1.8 3.6 14-TSSOP 296-19697-1-ND‡ 2.10 1.62 1.47 2,000 810.00/M MSP430F2011IPWR
128 10 2 Slope — DC-16MHz 1.8 3.6 16-VQFN 296-19698-1-ND‡ 2.28 1.76 1.60 250 325.00 MSP430F2011IRSAT
128 10 2 Slope — DC-16MHz 1.8 3.6 14-DIP 296-19699-5-ND§ 2.17 1.75 1.58 — — MSP430F2011TN
128 10 2 Slope — DC-16MHz 1.8 3.6 14-TSSOP 296-19700-1-ND‡§ 2.45 1.89 1.72 2,000 945.00/M MSP430F2011TPWR
128 10 2 Slope — DC-16MHz 1.8 3.6 16-VQFN 296-19701-1-ND‡§ 2.63 2.03 1.84 250 375.00 MSP430F2011TRSAT
128 10 2 8-Ch., 10-Bit — DC-16MHz 1.8 3.6 14-DIP 296-19730-5-ND 2.79 2.25 2.03 — — MSP430F2012IN
128 10 2 8-Ch., 10-Bit — DC-16MHz 1.8 3.6 14-TSSOP 296-19731-1-ND‡ 3.15 2.43 2.21 2,000 1215.00/M MSP430F2012IPWR
128 10 2 8-Ch., 10-Bit — DC-16MHz 1.8 3.6 16-VQFN 296-19732-1-ND‡ 3.33 2.57 2.33 250 475.00 MSP430F2012IRSAT
128 10 2 8-Ch., 10-Bit — DC-16MHz 1.8 3.6 14-DIP 296-19733-5-ND§ 3.07 2.48 2.23 — — MSP430F2012TN
128 10 2 8-Ch., 10-Bit — DC-16MHz 1.8 3.6 14-TSSOP 296-19734-1-ND‡§ 3.47 2.68 2.43 2,000 1336.50/M MSP430F2012TPWR
128 10 2 8-Ch., 10-Bit — DC-16MHz 1.8 3.6 16-VQFN 296-19735-1-ND‡§ 3.15 2.58 2.31 250 485.63 MSP430F2012TRSAT
128 10 2 4-Ch., 16-Bit — DC-16MHz 1.8 3.6 14-DIP 296-19702-5-ND 3.36 2.70 2.46 — — MSP430F2013IN
128 10 2 4-Ch., 16-Bit — DC-16MHz 1.8 3.6 16-VQFN 296-19703-1-ND‡ 3.75 3.07 2.75 250 578.25 MSP430F2013IRSAT
128 10 2 4-Ch., 16-Bit — DC-16MHz 1.8 3.6 14-DIP 296-19704-5-ND§ 3.78 3.04 2.77 — — MSP430F2013TN
128 10 2 4-Ch., 16-Bit — DC-16MHz 1.8 3.6 14-TSSOP 296-26194-5-ND◆ NEW! 3.78 3.04 2.77 — — MSP430F2013TPW
128 10 2 4-Ch., 16-Bit — DC-16MHz 1.8 3.6 14-TSSOP 296-19705-1-ND‡§ 4.05 3.31 2.97 2,000 1795.50/M MSP430F2013TPWR
128 10 2 4-Ch., 16-Bit — DC-16MHz 1.8 3.6 16-VQFN 296-19706-1-ND‡§ 4.20 3.43 3.08 250 647.50 MSP430F2013TRSAT
128 10 2 3-Ch., 16-Bit — DC-6.0MHz 1.8 3.6 14-TSSOP 296-19262-1-ND‡ 3.60 2.94 2.64 2,000 1596.00/M MSP430F2013IPWR
2K
128 16 5 Slope — DC-6.0MHz 1.8 3.6 20-TVSOP 296-18108-ND 2.17 1.75 1.58 — — MSP430F2111IDGV
128 16 5 Slope — DC-6.0MHz 1.8 3.6 20-SOIC 296-26195-5-ND◆ NEW! 2.17 1.75 1.58 — — MSP430F2111IDW
128 16 5 Slope — DC-6.0MHz 1.8 3.6 20-SOIC 296-18109-1-ND‡ 2.45 1.89 1.72 2,000 945.00/M MSP430F2111IDWR
128 16 5 Slope — DC-6.0MHz 1.8 3.6 20-TSSOP 296-26196-5-ND◆ NEW! 2.17 1.75 1.58 — — MSP430F2111IPW
128 16 5 Slope — DC-6.0MHz 1.8 3.6 20-TSSOP 296-18110-1-ND‡ 2.45 1.89 1.72 2,000 945.00/M MSP430F2111IPWR
128 16 5 Slope — DC-6.0MHz 1.8 3.6 24-QFN 296-18111-1-ND‡ 2.63 2.03 1.84 250 375.00 MSP430F2111IRGET
128 16 5 Slope — DC-16MHz 1.8 3.6 20-TVSOP 296-20753-1-ND‡§ 2.80 2.16 1.96 2,000 1080.00/M MSP430F2111TDGVR
128 16 5 Slope — DC-16MHz 1.8 3.6 20-SOIC 296-20754-1-ND‡§ 2.80 2.16 1.96 2,000 1080.00/M MSP430F2111TDWR
128 16 5 Slope — DC-16MHz 1.8 3.6 20-TSSOP 296-20755-1-ND‡§ 2.80 2.16 1.96 2,000 1080.00/M MSP430F2111TPWR
128 16 5 Slope — DC-16MHz 1.8 3.6 24-QFN 296-20756-1-ND‡§ 2.98 2.30 2.09 250 425.00 MSP430F2111TRGET
256 24 5 8-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 28-TSSOP 296-23359-1-ND‡◆ 3.30 2.70 2.42 2,000 1463.00/M MSP430F2112IPWR
256 24 5 8-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 32-QFN 296-23360-1-ND‡◆ 3.30 2.70 2.42 3,000 1463.00/M MSP430F2112IRHBR
256 24 5 8-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 28-TSSOP 296-23361-1-ND‡§◆ 3.75 3.07 2.75 2,000 1663.00/M MSP430F2112TPWR
256 24 5 8-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 32-QFN 296-23362-1-ND‡§◆ 3.75 3.07 2.75 3,000 1662.50/M MSP430F2112TRHBR
128 10 1 Slope — DC-16MHz 1.8 3.6 14-DIP 296-27484-5-ND◆ NEW! 2.02 1.63 1.47 — — MSP430G2201IN14
128 10 1 Slope — DC-16MHz 1.8 3.6 14-TSSOP 296-27473-1-ND‡◆ NEW! 1.77 1.40 1.26 2,000 652.00/M MSP430G2201IPW14R
128 10 1 Slope — DC-16MHz 1.8 3.6 16-QFN 296-27474-1-ND‡◆ NEW! 1.88 1.49 1.34 3,000 694.00/M MSP430G2201IRSA16R
128 10 1 16-Bit — DC-16MHz 1.8 3.6 14-DIP 296-25829-5-ND◆ NEW! 2.02 1.63 1.47 — — MSP430G2211IN14
128 10 1 16-Bit — DC-16MHz 1.8 3.6 14-TSSOP 296-25830-5-ND◆ NEW! 1.70 1.36 1.19 — — MSP430G2211IPW14
128 10 1 16-Bit — DC-16MHz 1.8 3.6 16-QFN 296-25831-1-ND‡◆ NEW! 1.93 1.49 1.35 3,000 743.00/M MSP430G2211IRSA16R
128 10 1 8-Ch., 10-Bit 1 DC-16MHz 1.8 3.6 14-DIP 296-27485-5-ND◆ NEW! 2.02 1.63 1.47 — — MSP430G2221IN14
◆ RoHS Compliant † For Tape and Reel part number, change 1-ND to 2-ND. ∆ Sigma Delta ‡ Cut Tape § Operatin Temperature -40C 105C ★ Operatin Temperature -55C 125C (Continued)
C
®
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(TZM112.US)
161
161

MSP430 Ultra-Low Power Microcontrollers (Cont.)
®
C
Memory Size
Flash (Program)
2K
4K
8K
16K
32K
48K
56K
60K
92K
SRAM
(Byte)
I/O
Timer
(16-Bit)
ADC
Ch/Res
UART/
SPI
Freq. Range
Min./Max. Vcc (V) Package
◆ RoHS Compliant † For Tape and Reel part number, change 1-ND to 2-ND. ∆ Sigma Delta ‡ Cut Tape § Operatin Temperature -40C 105C ★ Operatin Temperature -55C 125C (Continued)
Digi-Key
Part No.
Price Each Tape and Reel† Texas Instruments
1 25 100 Qty. Pricing Part No.
128 10 1 8-Ch., 10-Bit 1 DC-16MHz 1.8 3.6 14-TSSOP 296-27475-1-ND‡◆ NEW! 1.84 1.46 1.31 2,000 679.00/M MSP430G2221IPW14R
128 10 1 8-Ch., 10-Bit 1 DC-16MHz 1.8 3.6 16-QFN 296-27476-1-ND‡◆ NEW! 1.93 1.49 1.35 3,000 743.00/M MSP430G2221IRSA16R
128 10 1 10-Bit 1 DC-16MHz 1.8 3.6 14-DIP 296-25832-5-ND◆ NEW! 2.17 1.75 1.58 — — MSP430G2231IN14
128 10 1 10-Bit 1 DC-16MHz 1.8 3.6 14-TSSOP 296-25833-5-ND◆ NEW! 1.71 1.38 1.24 — — MSP430G2231IPW14
128 10 1 10-Bit 1 DC-16MHz 1.8 3.6 16-QFN 296-25834-1-ND‡◆ NEW! 1.93 1.49 1.35 3,000 743.00/M MSP430G2231IRSA16R
256 16 5 Slope — DC-6.0MHz 1.8 3.6 20-TVSOP 296-18112-ND 2.79 2.25 2.03 — — MSP430F2121IDGV
256 16 5 Slope — DC-6.0MHz 1.8 3.6 20-SOIC 296-26197-5-ND◆ NEW! 2.79 2.25 2.03 — — MSP430F2121IDW
256 16 5 Slope — DC-6.0MHz 1.8 3.6 20-SOIC 296-18113-1-ND‡ 3.15 2.43 2.21 2,000 1215.00/M MSP430F2121IDWR
256 16 5 Slope — DC-6.0MHz 1.8 3.6 20-TSSOP 296-18114-1-ND‡ 3.15 2.43 2.21 2,000 1215.00/M MSP430F2121IPWR
256 16 5 Slope — DC-6.0MHz 1.8 3.6 24-QFN 296-18115-1-ND‡ 3.33 2.57 2.33 250 475.00 MSP430F2121IRGET
256 16 5 Slope — DC-16MHz 1.8 3.6 20-TVSOP 296-20757-1-ND‡§ 3.47 2.68 2.43 2,000 1336.50/M MSP430F2121TDGVR
256 16 5 Slope — DC-16MHz 1.8 3.6 20-SOIC 296-20758-1-ND‡§ 3.47 2.68 2.43 2,000 1336.50/M MSP430F2121TDWR
256 16 5 Slope — DC-16MHz 1.8 3.6 20-TSSOP 296-20759-1-ND‡§ 3.47 2.68 2.43 2,000 1336.50/M MSP430F2121TPWR
256 16 5 Slope — DC-16MHz 1.8 3.6 24-QFN 296-20760-1-ND‡§ 3.33 2.57 2.33 250 475.00 MSP430F2121TRGET
512 24 5 Slope — DC-16MHz 1.8 3.6 28-TSSOP 296-26200-5-ND◆ NEW! 3.92 3.15 2.87 — — MSP430F2122IPW
512 24 5 8-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 28-TSSOP 296-23363-1-ND‡◆ 4.20 3.43 3.08 2,000 1862.00/M MSP430F2122IPWR
512 24 5 8-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 32-QFN 296-23364-1-ND‡◆ 4.20 3.43 3.08 3,000 1862.00/M MSP430F2122IRHBR
512 24 5 8-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 28-TSSOP 296-23365-1-ND‡§◆ 4.65 3.80 3.41 2,000 2061.50/M MSP430F2122TPWR
512 24 5 8-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 32-QFN 296-23366-1-ND‡§◆ 4.65 3.80 3.41 3,000 2061.50/M MSP430F2122TRHBR
256 16 3 Slope — DC-6.0MHz 1.8 3.6 20-TVSOP 296-18116-ND 3.36 2.70 2.46 — — MSP430F2131IDGV
256 16 5 Slope — DC-6.0MHz 1.8 3.6 20-SOIC 296-18117-1-ND‡ 3.60 2.94 2.64 2,000 1596.00/M MSP430F2131IDWR
256 16 5 Slope — DC-6.0MHz 1.8 3.6 20-TSSOP 296-18118-1-ND‡ 3.60 2.94 2.64 2,000 1596.00/M MSP430F2131IPWR
256 16 5 Slope — DC-6.0MHz 1.8 3.6 24-QFN 296-18119-1-ND‡ 3.75 3.07 2.75 250 578.13 MSP430F2131IRGET
256 16 5 Slope — DC-16MHz 1.8 3.6 20-TVSOP 296-20761-1-ND‡§ 4.05 3.31 2.97 2,000 1795.50/M MSP430F2131TDGVR
256 16 5 Slope — DC-16MHz 1.8 3.6 20-SOIC 296-20762-1-ND‡§ 4.05 3.31 2.97 2,000 1796.00/M MSP430F2131TDWR
256 16 5 Slope — DC-16MHz 1.8 3.6 20-TSSOP 296-20763-1-ND‡§ 4.05 3.31 2.97 2,000 1795.50/M MSP430F2131TPWR
256 16 5 Slope — DC-16MHz 1.8 3.6 24-QFN 296-20764-1-ND‡§ 4.20 3.43 3.08 250 647.50 MSP430F2131TRGET
512 24 5 8-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 28-TSSOP 296-23367-1-ND‡◆ 4.50 3.68 3.30 2,000 1995.00/M MSP430F2132IPWR
512 24 5 8-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 32-QFN 296-23368-1-ND‡◆ 4.50 3.68 3.30 3,000 1995.00/M MSP430F2132IRHBR
512 24 5 8-Ch., 10-Bit 1 DC-16MHz 1.8 3.6 32-QFN 296-25176-1-ND‡◆ NEW! 4.65 3.80 3.41 250 716.88 MSP430F2132IRHBT
512 24 5 8-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 28-TSSOP 296-26202-5-ND◆ NEW! 4.62 3.72 3.39 — — MSP430F2132TPW
512 24 5 8-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 28-TSSOP 296-23369-1-ND‡§◆ 4.95 4.05 3.63 2,000 2194.50/M MSP430F2132TPWR
512 24 5 8-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 32-QFN 296-23370-1-ND‡§◆ 4.95 4.05 3.63 3,000 2195.00/M MSP430F2132TRHBR
512 24 5 8-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 32-QFN 296-26203-1-ND‡◆ NEW! 5.10 4.17 3.74 250 786.25 MSP430F2132TRHBT
512 32 6 12-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 38-TSSOP 296-21444-1-ND‡ 4.95 4.05 3.63 2,000 2195.00/M MSP430F2232IDAR
512 32 6 12-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 40-VQFN 296-21445-1-ND‡ 5.10 4.17 3.74 250 786.25 MSP430F2232IRHAT
512 32 6 12-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 38-TSSOP 296-21446-1-ND‡ 5.55 4.54 4.07 2,000 2460.50/M MSP430F2234IDAR
512 32 6 12-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 40-VQFN 296-21447-1-ND‡ 5.70 4.66 4.18 250 878.75 MSP430F2234IRHAT
512 32 6 12-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 38-TSSOP 296-21448-1-NDठ6.15 5.03 4.51 2,000 2726.50/M MSP430F2234TDAR
512 32 6 12-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 40-VQFN 296-21449-1-NDठ6.30 5.15 4.62 250 971.25 MSP430F2234TRHAT
1024 32 6 Slope 2 DC-16MHz 1.8 3.6 40-VQFN 296-21746-1-ND‡ 5.40 4.41 3.96 250 832.50 MSP430F2330IRHAT
1024 32 6 Slope 2 DC-16MHz 1.8 3.6 40-QFN 296-21747-1-NDठ6.00 4.90 4.40 250 925.00 MSP430F2330TRHAT
1024 48 6 8-Ch., 12-Bit 2 DC-16MHz 1.8 3.6 64-LQFP 296-23029-1-ND‡§◆ 7.20 5.88 5.28 1,000 3360.00 MSP430F233TPMR
1024 48 6 8-Ch., 12-Bit 2 DC-16MHz 1.8 3.6 64-VQFN 296-22991-1-ND‡§◆ 7.20 5.88 5.28 2,500 3192.00/M MSP430F233TRGCR
512 32 6 12-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 38-TSSOP 296-21450-1-ND‡ 5.85 4.78 4.29 2,000 2594.00/M MSP430F2252IDAR
512 32 6 12-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 40-VQFN 296-21451-1-ND‡ 6.00 4.90 4.40 250 925.00 MSP430F2252IRHAT
512 32 6 12-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 38-TSSOP 296-26207-5-ND◆ NEW! 6.02 4.84 4.41 — — MSP430F2254IDA
512 32 6 12-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 38-TSSOP 296-21452-1-ND‡ 6.45 5.27 4.73 2,000 2859.50/M MSP430F2254IDAR
512 32 6 12-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 40-VQFN 296-21453-1-ND‡ 6.60 5.39 4.84 250 1017.50 MSP430F2254IRHAT
512 32 6 12-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 38-TSSOP 296-21454-1-NDठ7.20 5.88 5.28 2,000 3192.00/M MSP430F2254TDAR
512 32 6 12-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 40-VQFN 296-21455-1-NDठ7.35 6.01 5.39 250 1133.25 MSP430F2254TRHAT
2048 32 6 Slope 2 DC-16MHz 1.8 3.6 40-QFN 296-21748-1-ND‡ 6.15 5.03 4.51 250 948.13 MSP430F2350IRHAT
2048 32 6 Slope 2 DC-16MHz 1.8 3.6 40-QFN 296-21749-1-NDठ6.75 5.52 4.95 250 1040.63 MSP430F2350TRHAT
2048 48 6 8-Ch., 12-Bit 2 DC-16MHz 1.8 3.6 64-LQFP 296-22879-1-ND‡§◆ 6.89 5.72 5.20 1,000 3510.00 MSP430F235TPMR
2048 48 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 64-VQFN 296-22928-1-ND‡§◆ NEW! 6.89 5.72 5.20 2,500 3380.00/M MSP430F235TRGCR
1024 32 6 12-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 38-TSSOP 296-21456-1-ND‡ 6.60 5.39 4.84 2,000 2926.00/M MSP430F2272IDAR
1024 32 6 12-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 40-VQFN 296-21441-1-ND‡ 6.75 5.52 4.95 250 1040.75 MSP430F2272IRHAT
1024 32 6 12-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 38-TSSOP 296-21439-1-ND‡ 7.35 6.01 5.39 2,000 3259.00/M MSP430F2274IDAR
1024 32 6 12-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 40-VQFN 296-21459-1-ND‡ 6.63 5.50 5.00 250 1062.50 MSP430F2274IRHAT
1K 32 6 12-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 38-TSSOP 296-25813-1-ND‡◆ NEW! 15.53 13.17 12.15 250 2615.75 MSP430F2274MDATEP
1024 32 6 12-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 40-QFN 296-23723-1-ND‡ 15.53 13.17 12.15 250 2615.75 MSP430F2274MRHATEP
1024 32 6 12-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 38-TSSOP 296-21460-1-NDठ7.16 5.94 5.40 2,000 3510.00/M MSP430F2274TDAR
1024 32 6 12-Ch., 10-Bit 2 DC-16MHz 1.8 3.6 40-VQFN 296-21440-1-NDठ7.29 6.05 5.50 250 1168.75 MSP430F2274TRHAT
2048 32 6 Slope 2 DC-16MHz 1.8 3.6 40-QFN 296-24340-1-ND‡ 6.45 5.27 4.73 2,500 2860.00/M MSP430F2370IRHAR
2048 32 6 Slope 2 DC-16MHz 1.8 3.6 40-QFN 296-21750-1-ND‡ 6.60 5.39 4.84 250 1017.50 MSP430F2370IRHAT
2048 32 6 Slope 2 DC-16MHz 1.8 3.6 49-DSBGA 296-24336-1-ND‡ 6.45 5.27 4.73 3,000 2859.50/M MSP430F2370IFFR
2048 32 6 Slope 2 DC-16MHz 1.8 3.6 49-DSBGA 296-24337-1-ND‡ 6.60 5.39 4.84 250 1017.50 MSP430F2370IFFT
2048 32 6 Slope 2 DC-16MHz 1.8 3.6 40-QFN 296-21751-1-NDठ7.35 6.01 5.39 250 1133.25 MSP430F2370TRHAT
4096 48 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 64-VQFN 296-23081-1-ND‡§◆ 9.01 7.48 6.80 2,500 4420.00/M MSP430F247TRGCR
4096 48 10 Slope 4 DC-16MHz 1.8 3.6 64-VQFN 296-23080-1-ND‡§◆ 8.35 6.93 6.30 2,500 4095.00/M MSP430F2471TRGCR
4096 48 10 Slope 4 DC-16MHz 1.8 3.6 64-QFN 296-26220-1-ND‡◆ NEW! 9.14 7.59 6.90 250 1466.25 MSP430F247TRGCT
4096 48 10 Slope 4 DC-16MHz 1.8 3.6 64-LQFP 296-26218-ND◆ NEW! 7.88 6.46 5.83 — — MSP430F2471TPM
4096 48 10 Slope 4 DC-16MHz 1.8 3.6 64-LQFP 296-23072-1-ND‡§◆ 8.35 6.93 6.30 1,000 4252.50 MSP430F2471TPMR
4096 48 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 64-LQFP 296-22893-1-ND‡§◆ 10.60 8.80 8.00 1,000 5400.00 MSP430F248TPMR
4096 48 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 64-VQFN 296-22894-1-ND‡§◆ 10.60 8.80 8.00 2,500 5200.00/M MSP430F248TRGCR
4096 48 10 Slope 4 DC-16MHz 1.8 3.6 64-LQFP 296-23082-1-ND‡§◆ 9.28 7.70 7.00 1,000 4725.00 MSP430F2481TPMR
4096 48 10 Slope 4 DC-16MHz 1.8 3.6 64-VQFN 296-23083-1-ND‡§◆ 9.28 7.70 7.00 2,500 4550.00/M MSP430F2481TRGCR
4096 48 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 64-LQFP 296-22929-1-NDठ12.19 10.12 9.20 1,000 6210.00 MSP430F2410TPMR
4096 48 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 64-VQFN 296-22930-1-NDठ12.19 10.12 9.20 2,500 5980.00/M MSP430F2410TRGCR
2048 48 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 64-LQFP 296-23918-ND 20.90 17.58 16.15 — — MSP430F249MPMEP
2048 48 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 64-LQFP 296-23084-1-ND‡§◆ 11.53 9.57 8.70 1,000 5873.00 MSP430F249TPMR
2048 48 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 64-VQFN 296-23085-1-ND‡§◆ 11.53 9.57 8.70 2,500 5655.00/M MSP430F249TRGCR
2048 48 10 Slope 4 DC-16MHz 1.8 3.6 64-LQFP 296-24713-1-ND‡§◆ NEW! 10.07 8.36 7.60 1,000 5130.00 MSP430F2491TPMR
2048 48 10 Slope 4 DC-16MHz 1.8 3.6 64-VQFN 296-22931-1-NDठ10.07 8.36 7.60 2,500 4940.00/M MSP430F2491TRGCR
4096 48 2 12-Bit 4 DC-16MHz 1.8 3.6 64-LQFP 296-25295-ND§◆ NEW! 11.75 9.64 8.70 — — MSP430F2416TPM
4096 48 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 64-LQFP 296-22685-1-NDठ12.46 10.34 9.40 1,000 6345.00 MSP430F2416TPMR
4096 48 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 64-LQFP 296-22693-1-NDठ13.46 11.41 10.53 1,000 7781.00 MSP430F2616TPMR
®
For Digi-Reel ® information, please see page 71.
162 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

MSP430 Ultra-Low Power Microcontrollers (Cont.)
®
Memory Size
Flash (Program)
SRAM
(Byte)
I/O
Timer
(16-Bit)
ADC
Ch/Res
UART/
SPI
Freq. Range
Min./Max. Vcc (V) Package
Digi-Key
Part No.
Price Each Tape and Reel† Texas Instruments
1 25 100 Qty. Pricing Part No.
4096 64 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 80-LQFP 296-22686-1-NDठ12.46 10.34 9.40 1,000 6345.00 MSP430F2416TPNR
4096 64 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 80-LQFP 296-22694-1-NDठ13.46 11.41 10.53 1,000 7780.50 MSP430F2616TPNR
4096 64 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 113-BGA 296-24710-1-ND‡§◆ NEW! 12.72 10.56 9.60 2,500 6240.00/M MSP430F2416TQWR
4096 64 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 113-BGA 296-24714-1-ND‡§◆ NEW! 13.69 11.61 10.71 2,500 7586.26/M MSP430F2616TQWR
92K
8192 48 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 64-LQFP 296-22687-1-NDठ12.72 10.56 9.60 1,000 6480.00 MSP430F2417TPMR
8192 48 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 64-LQFP 296-22695-1-NDठ13.92 11.80 10.89 1,000 8047.00 MSP430F2617TPMR
8192 64 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 80-LQFP 296-22688-1-NDठ12.72 10.56 9.60 1,000 6480.00 MSP430F2417TPNR
8192 64 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 113-BGA 296-24711-1-ND‡§◆ NEW! 12.99 10.78 9.80 2,500 6370.00/M MSP430F2417TQWR
8192 64 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 80-LQFP 296-22696-1-NDठ13.92 11.80 10.89 1,000 8046.50 MSP430F2617TPNR
8192 64 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 113-BGA 296-24715-1-ND‡§◆ NEW! 14.15 12.00 11.07 2,500 7841.26/M MSP430F2617TQWR
8192 48 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 64-LQFP 296-22689-1-NDठ11.50 9.75 9.00 1,000 6650.00 MSP430F2418TPMR
8192 48 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 64-LQFP 296-22697-1-NDठ14.61 12.39 11.43 1,000 8446.00 MSP430F2618TPMR
8192 64 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 80-LQFP 296-22690-1-NDठ11.50 9.75 9.00 1,000 6650.00 MSP430F2418TPNR
116K 8192 64 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 113-BGA 296-23488-1-NDठ11.73 9.95 9.18 2,500 6502.50/M MSP430F2418TQWR
8192 64 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 80-LQFP 296-22698-1-NDठ14.61 12.39 11.43 1,000 8446.00 MSP430F2618TPNR
8192 64 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 113-BGA 296-23487-1-NDठ14.84 12.58 11.61 2,500 8223.76/M MSP430F2618TQWR
8192 64 3 3-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 113-BGA 296-24136-1-NDठ39.52 34.53 32.24 250 7280.00 MSP430F2618TGQWTEP
4096 48 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 64-LQFP 296-26217-ND◆ NEW! 11.66 9.81 9.01 — — MSP430F2419TPM
4096 48 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 64-LQFP 296-22691-1-NDठ12.19 10.34 9.54 1,000 7049.00 MSP430F2419TPMR
4096 48 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 64-LQFP 296-22699-1-NDठ15.30 12.97 11.97 1,000 8845.00 MSP430F2619TPMR
120K 4096 64 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 80-LQFP 296-22692-1-NDठ12.19 10.34 9.54 1,000 7049.00 MSP430F2419TPNR
4096 64 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 113-BGA 296-24712-1-ND‡§◆ NEW! 12.42 10.53 9.72 2,500 6885.00/M MSP430F2419TQWR
4096 64 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 80-LQFP 296-22700-1-NDठ15.30 12.97 11.97 1,000 8844.50 MSP430F2619TPNR
4096 64 10 8-Ch., 12-Bit 4 DC-16MHz 1.8 3.6 113-BGA 296-24716-1-ND‡§◆ NEW! 15.53 13.17 12.15 2,500 8606.26/M MSP430F2619TQWR
512 14 — Slope — DC-3.3MHz 2.5 5.5 56-SSOP 296-2382-5-ND 11.55 9.72 8.93 — — MSP430P315IDL
512 14 — Slope — DC-3.3MHz 2.5 5.5 48-SSOP 296-6512-5-ND 11.55 9.72 8.93 — — MSP430P315SIDL
512 14 — 6-Ch., 14-Bit — DC-3.3MHz 2.5 5.5 68-PLCC 296-6513-5-ND 15.29 12.86 11.82 — — MSP430P325AIFN
16K
512 14 — 6-Ch., 14-Bit — DC-3.3MHz 2.5 5.5 64-QFP 296-6514-ND 15.07 12.68 11.65 — — MSP430P325AIPG
512 14 — 6-Ch., 14-Bit — DC-3.3MHz 2.5 5.5 64-LQFP 296-6515-ND 15.07 12.68 11.65 — — MSP430P325AIPM
512 14 — 6-Ch., 14-Bit — DC-3.3MHz 2.7 5.5 68-PLCC 296-1409-5-ND 15.29 12.86 11.82 — — MSP430P325IFN
512 14 — 6-Ch., 14-Bit — DC-3.3MHz 2.7 5.5 64-QFP 296-2383-ND 15.07 12.68 11.65 — — MSP430P325IPG
512 14 — 6-Ch., 14-Bit — DC-3.3MHz 2.7 5.5 64-LQFP 296-6516-ND 15.07 12.68 11.65 — — MSP430P325IPM
32K
1024 40 1 Slope 1 DC-3.8MHz 2.7 5.5 100-QFP 296-2384-ND 16.83 14.16 13.01 — — MSP430P337AIPJM
1024 40 1 Slope 1 DC-3.8MHz 2.7 5.5 100-QFP 296-6517-ND 16.83 14.16 13.01 — — MSP430P337IPJM
Flash Based F4xx Family with LCD Driver
4K
256 48 3 Slope — DC-8MHz 1.8 3.6 64-LQFP 296-12084-ND◆ 4.34 3.49 3.18 — — MSP430F412IPM
256 48 3 Slope — DC-8MHz 1.8 3.6 64-VQFN 296-17323-1-ND‡ 4.80 3.92 3.52 250 740.00 MSP430F412IRTDT
256 14 3 3-Ch., 16-Bit∆ 1 DC-8MHz 1.8 3.6 64-LQFP 296-24717-1-ND‡◆ NEW! 7.20 5.88 5.28 1,000 3360.00 MSP430F423AIPMR
256 14 3 3X 16-Bit∆ 1 DC-8MHz 1.8 3.6 64-LQFP 296-17108-ND 6.72 5.40 4.92 — — MSP430F423IPM
256 14 3 2X 16-Bit∆ 1 DC-8MHz 2.7 3.6 64-LQFP 296-23730-1-ND‡ 7.05 5.76 5.17 1,000 3290.00 MSP430FE4232IPMR
256 14 3 16-Bit∆ 1 DC-8.4MHz 2.7 3.6 64-LQFP 296-24723-1-ND‡◆ NEW! 7.42 6.16 5.60 1,000 3780.00 MSP430FE423AIPMR
8K
256 14 3 3X 16-Bit∆ 1 DC-8.4MHz 2.7 3.6 64-LQFP 296-16991-ND 7.00 5.74 5.18 — — MSP430FE423IPM
256 48 3 Slope — DC-8MHz 1.8 3.6 64-LQFP 296-12085-ND 4.48 3.60 3.28 — — MSP430F413IPM
256 48 3 Slope — DC-8MHz 1.8 3.6 64-VQFN 296-17324-1-ND‡ 4.95 4.05 3.63 250 763.13 MSP430F413IRTDT
256 48 3 Slope — DC-8MHz 1.8 3.6 64-VQFN 296-17412-1-ND‡ 4.80 3.92 3.52 2,500 2128.00/M MSP430F413IRTDR
512 48 8 8-Ch., 10-Bit 2 DC-8MHz 1.8 3.6 64-LQFP 296-24860-1-ND‡◆ NEW! 4.95 4.05 3.63 1,000 2310.00 MSP430F4132IPMR
512 48 8 8-Ch., 10-Bit 2 DC-8MHz 1.8 3.6 48-QFN 296-24646-1-ND‡◆ NEW! 4.95 4.05 3.63 2,500 2194.50/M MSP430F4132IRGR
12K 512 14 1 16-Bit∆ 1 DC-8MHz 2.7 3.6 64-LQFP 296-23731-1-ND‡ 7.35 6.01 5.39 1,000 3430.00 MSP430FE4242IPMR
256 32 3 5-Ch., 16-Bit∆ — DC-4.15MHz 1.8 3.6 48-SSOP 296-18068-1-ND‡ 8.08 6.71 6.10 1,000 4118.00 MSP430F4250IDLR
256 32 3 5-Ch., 16-Bit∆ — DC-4.15MHz 1.8 3.6 48-VQFN 296-19264-1-ND‡ 8.22 6.82 6.20 250 1317.50 MSP430F4250IRGT
256 32 3 5-Ch., 16-Bit∆ 1 DC-8MHz 1.8 3.6 48-SSOP 296-22056-5-ND 8.25 6.77 6.11 — — MSP430FG4250IDL
256 32 3 5-Ch., 16-Bit∆ 1 DC-8MHz 1.8 3.6 48-VQFN 296-22057-1-ND‡ 8.75 7.26 6.60 2,500 4290.00/M MSP430FG4250IRGR
512 14 3 3-Ch., 16-Bit∆ 1 DC-8MHz 1.8 3.6 64-LQFP 296-24718-1-ND‡◆ NEW! 7.16 5.94 5.40 1,000 3645.00 MSP430F425AIPMR
512 14 3 3X 16-Bit∆ 1 DC-8MHz 1.8 3.6 64-LQFP 296-17109-ND 6.75 5.54 5.00 — — MSP430F425IPM
512 14 3 16-Bit∆ 1 DC-8.4MHz 2.7 3.6 64-LQFP 296-24724-1-ND‡◆ NEW! 8.22 6.82 6.20 1,000 4185.00 MSP430FE425AIPMR
512 14 3 3X 16-Bit∆ 1 DC-8.4MHz 2.7 3.6 64-LQFP 296-16992-ND 7.75 6.36 5.74 — — MSP430FE425IPM
512 14 3 3X 16-Bit 1 DC-8.4MHz 2.7 3.6 64-LQFP 296-26235-1-ND‡◆ NEW! 8.22 6.82 6.20 1,000 4185.00 MSP430FE425IPMR
512 14 1 16-Bit∆ 1 DC-8MHz 2.7 3.6 64-LQFP 296-23732-1-ND‡ 6.89 5.72 5.20 1,000 3510.00 MSP430FE4252IPMR
16K 512 48 8 Slope — DC-8MHz 1.8 3.6 64-LQFP 296-16766-ND 5.04 4.05 3.69 — — MSP430F415IPM
512 48 8 Slope — DC-8MHz 1.8 3.6 64-LQFP 296-26226-1-ND‡◆ NEW! 5.40 4.41 3.96 1,000 2520.00 MSP430F415IPMR
512 48 8 Slope — DC-8MHz 1.8 3.6 64-VQFN 296-22753-1-ND‡ 5.55 4.54 4.07 250 855.63 MSP430F415IRTDT
512 48 8 8-Ch., 10-Bit 2 DC-8MHz 1.8 3.6 64-LQFP 296-24591-ND◆ NEW! 5.18 4.17 3.80 — — MSP430F4152IPM
512 48 8 8-Ch., 10-Bit 2 DC-8MHz 1.8 3.6 64-LQFP 296-24861-1-ND‡◆ NEW! 5.55 4.54 4.07 1,000 2590.00 MSP430F4152IPMR
512 48 8 8-Ch., 10-Bit 2 DC-8MHz 1.8 3.6 48-QFN 296-24592-5-ND◆ NEW! 5.32 4.28 3.90 — — MSP430F4152IRG
512 48 8 8-Ch., 10-Bit 2 DC-8MHz 1.8 3.6 48-QFN 296-24647-1-ND‡◆ NEW! 5.55 4.54 4.07 2,500 2460.50/M MSP430F4152IRGR
512 48 6 8-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 80-LQFP 296-13721-ND 9.38 7.69 6.94 — — MSP430F435IPN
512 48 6 8-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 100-LQFP 296-12635-ND◆ 9.63 7.90 7.13 — — MSP430F435IP
512 48 6 Slope 1 DC-8MHz 1.8 3.6 80-LQFP 296-22757-1-ND‡ 7.95 6.60 6.00 1,000 4050.00 MSP430F4351IPNR
512 48 6 Slope 1 DC-8MHz 1.8 3.6 100-LQFP 296-22758-1-ND‡ 7.95 6.60 6.00 1,000 4050.00 MSP430F4351IPR
256 32 3 5-Ch., 16-Bit∆ — DC-4.15MHz 1.8 3.6 48-SSOP 296-18069-1-ND‡ 9.01 7.48 6.80 1,000 4590.00 MSP430F4260IDLR
256 32 3 5-Ch., 16-Bit∆ 1 DC-8MHz 1.8 3.6 48-VQFN 296-20939-1-ND‡ 9.14 7.59 6.90 250 1466.25 MSP430F4260IRGT
256 32 3 5-Ch., 16-Bit∆ 1 DC-8MHz 1.8 3.6 48-SSOP 296-22058-1-ND‡ 9.54 7.92 7.20 1,000 4860.00 MSP430FG4260IDLR
256 32 3 5-Ch., 16-Bit∆ 1 DC-8MHz 1.8 3.6 48-VQFN 296-22059-1-ND‡ 9.54 7.92 7.20 2,500 4680.00/M MSP430FG4260IRGR
24K 1024 48 6 8-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 80-LQFP 296-13722-ND 10.25 8.41 7.59 — — MSP430F436IPN
1024 48 6 8-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 80-LQFP 296-26231-1-ND‡◆ NEW! 11.13 9.24 8.40 1,000 5670.00 MSP430F436IPNR
1024 48 6 8-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 100-LQFP 296-12636-ND 10.50 8.61 7.77 — — MSP430F436IP
1024 48 6 Slope 1 DC-8MHz 1.8 3.6 80-LQFP 296-22759-1-ND‡ 10.47 8.69 7.90 1,000 5332.50 MSP430F4361IPNR
1024 48 6 Slope 1 DC-8MHz 1.8 3.6 100-LQFP 296-22760-1-ND‡ 10.47 8.69 7.90 1,000 5332.50 MSP430F4361IPR
256 32 3 5-Ch., 16-Bit∆ — DC-4.15MHz 1.8 3.6 48-SSOP 296-18070-1-ND‡ 9.67 8.03 7.30 1,000 4928.00 MSP430F4270IDLR
256 32 3 5-Ch., 16-Bit∆ — DC-8MHz 1.8 3.6 48-VQFN 296-19679-1-ND‡ 9.81 8.14 7.40 250 1572.50 MSP430F4270IRGT
256 32 3 5-Ch., 16-Bit∆ — DC-8MHz 1.8 3.6 48-SSOP 296-22060-1-ND‡ 10.60 8.80 8.00 1,000 5400.00 MSP430FG4270IDLR
256 32 3 5-Ch., 16-Bit∆ — DC-8MHz 1.8 3.6 48-VQFN 296-22061-1-ND‡ 10.73 8.91 8.10 250 1721.25 MSP430FG4270IRGT
32K 1024 14 3 3-Ch., 16-Bit∆ 1 DC-8MHz 1.8 3.6 64-LQFP 296-24719-1-ND‡◆ NEW! 7.69 6.38 5.80 1,000 3915.00 MSP430F427AIPMR
1024 14 3 3X 16-Bit∆ 1 DC-8.4MHz 1.8 3.6 64-LQFP 296-17110-ND◆ 7.25 5.95 5.37 — — MSP430F427IPM
1024 14 3 16-Bit∆ 1 DC-8.4MHz 2.7 3.6 64-LQFP 296-24725-1-ND‡◆ NEW! 8.75 7.26 6.60 1,000 4455.00 MSP430FE427AIPMR
1024 14 3 3X 16-Bit∆ 1 DC-8.4MHz 2.7 3.6 64-LQFP 296-16993-ND 8.25 6.77 6.11 — — MSP430FE427IPM
1024 14 1 16-Bit∆ 1 DC-8MHz 2.7 3.6 64-LQFP 296-23733-1-ND‡ 7.29 6.05 5.50 1,000 3713.00 MSP430FE4272IPMR
◆ RoHS Compliant † For Tape and Reel part number, change 1-ND to 2-ND. ∆ Sigma Delta ‡ Cut Tape § Operatin Temperature -40C 105C ★ Operatin Temperature -55C 125C
(Continued)
C
®
For Digi-Reel ® information, please see page 71.
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163
163

MSP430 Ultra-Low Power Microcontrollers (Cont.)
®
C
Memory Size
Flash (Program)
SRAM
(Byte)
I/O
Timer
(16-Bit)
ADC
Ch/Res
UART/
SPI
Freq. Range
Min./Max. Vcc (V) Package
◆ RoHS Compliant † For Tape and Reel part number, change 1-ND to 2-ND. ∆ Sigma Delta ‡ Cut Tape § Operatin Temperature -40C 105C ★ Operatin Temperature -55C 125C
Digi-Key
Part No.
Price Each Tape and Reel† Texas Instruments
1 25 100 Qty. Pricing Part No.
1024 48 8 Slope — DC-8MHz 1.8 3.6 64-LQFP 296-16767-ND 5.88 4.73 4.31 — — MSP430F417IPM
1024 48 8 Slope — DC-8MHz 1.8 3.6 64-LQFP 296-26227-1-ND‡◆ NEW! 6.30 5.15 4.62 1,000 2940.00 MSP430F417IPMR
1024 48 8 Slope — DC-8MHz 1.8 3.6 64-VQFN 296-22755-1-ND‡ 6.45 5.27 4.73 250 994.38 MSP430F417IRTDT
1024 48 6 8-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 80-LQFP 296-13723-ND 10.75 8.82 7.96 — — MSP430F437IPN
1024 48 6 8-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 100-LQFP 296-12637-ND 11.00 9.02 8.14 — — MSP430F437IP
1024 48 6 Slope 1 DC-8MHz 1.8 3.6 80-LQFP 296-22761-1-ND‡ 10.73 8.91 8.10 1,000 5467.50 MSP430F4371IPNR
1024 48 6 Slope 1 DC-8MHz 1.8 3.6 100-LQFP 296-22762-1-ND‡ 10.73 8.91 8.10 1,000 5467.50 MSP430F4371IPR
32K
1024 48 6 12-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 80-LQFP 296-17011-ND 11.33 9.53 8.76 — — MSP430FG437IPN
1024 48 6 12-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 80-LQFP 296-18611-1-ND‡ 11.85 10.05 9.27 1,000 6850.00 MSP430FG437IPNR
1024 48 10 8-Ch., 12-Bit 2 DC-8MHz 1.8 3.6 100-LQFP 296-12638-ND 11.25 9.23 8.33 — — MSP430F447IP
2048 48 2 16-Bit∆ 2 DC-8MHz 1.8 3.6 80-LQFP 296-25380-1-ND‡◆ NEW! 12.19 10.12 9.20 1,000 6210.00 MSP430F477IPNR
2048 48 2 16-Bit∆ 2 DC-8MHz 1.8 3.6 113-BGA 296-25381-1-ND‡◆ NEW! 12.46 10.34 9.40 2,500 6110.00/M MSP430F477IQWR
2048 48 2 16-Bit∆ 2 DC-8MHz 1.8 3.6 80-LQFP 296-25384-1-ND‡◆ NEW! 12.31 10.44 9.63 1,000 7115.50 MSP430F479IPNR
2048 48 2 16-Bit∆ 2 DC-8MHz 1.8 3.6 113-BGA 296-25385-1-ND‡◆ NEW! 12.54 10.63 9.81 2,500 6948.76/M MSP430F479IQWR
2048 48 2 16-Bit∆ 2 DC-8MHz 1.8 3.6 80-LQFP 296-25386-1-ND‡◆ NEW! 12.59 10.45 9.50 1,000 6412.50 MSP430FG477IPNR
2048 48 2 16-Bit∆ 2 DC-8MHz 1.8 3.6 113-BGA 296-25387-1-ND‡◆ NEW! 12.85 10.67 9.70 2,500 6305.00/M MSP430FG477IQWR
2048 48 10 8-Ch., 12-Bit 2 DC-8MHz 1.8 3.6 100-LQFP 296-12639-ND 12.00 9.84 8.88 — — MSP430F448IP
2048 48 2 12-Bit SAR 2 DC-8MHz 1.8 3.6 100-LQFP 296-25607-1-ND‡◆ NEW! 11.93 9.90 9.00 1,000 6075.00 MSP430F4481IPR
2048 48 6 12-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 80-LQFP 296-17012-ND 13.20 11.10 10.20 — — MSP430FG438IPN
2048 72 6 3X 16-Bit∆ — DC-16MHz 1.8 3.6 100-LQFP 296-22914-1-ND‡ 11.50 9.75 9.00 1,000 6650.00 MSP430F4783IPR
48K 2048 72 6 4-Ch., 16-Bit∆ 4 DC-16MHz 1.8 3.6 100-LQFP 296-24720-1-ND‡◆ NEW! 11.50 9.75 9.00 1,000 6650.00 MSP430F4784IPR
2048 48 1 16-Bit∆ 2 DC-8MHz 1.8 3.6 80-LQFP 296-25382-1-ND‡◆ NEW! 11.50 9.75 9.00 1,000 6650.00 MSP430F478IPNR
2048 48 1 16-Bit∆ 2 DC-8MHz 1.8 3.6 113-BGA 296-25383-1-ND‡◆ NEW! 11.73 9.95 9.18 2,500 6502.50/M MSP430F478IQWR
2048 48 1 16-Bit∆ 2 DC-8MHz 1.8 3.6 80-LQFP 296-25388-1-ND‡◆ NEW! 12.77 10.83 9.99 1,000 7381.50 MSP430FG478IPNR
2048 48 1 16-Bit∆ 2 DC-8MHz 1.8 3.6 113-BGA 296-25389-1-ND‡◆ NEW! 13.00 11.02 10.17 2,500 7203.76/M MSP430FG478IQWR
56K
4K 72 2 16-Bit∆ 2 DC-16MHz 1.8 3.6 100-LQFP 296-25772-1-ND‡◆ NEW! 11.73 9.95 9.18 1,000 6783.00 MSP430F47126IPR
4K 72 2 16-Bit∆ 2 DC-16MHz 1.8 3.6 100-LQFP 296-25773-1-ND‡◆ NEW! 11.96 10.14 9.36 1,000 6916.00 MSP430F47127IPR
2048 48 10 8-Ch., 12-Bit 2 DC-8MHz 1.8 3.6 100-LQFP 296-12640-ND 11.33 9.53 8.76 — — MSP430F449IP
2048 48 6 12-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 80-LQFP 296-17013-ND 14.52 12.21 11.22 — — MSP430FG439IPN
2048 48 5 3X 16-Bit∆ 2 DC-8MHz 1.8 3.6 80-LQFP 296-24305-1-ND‡ 14.26 12.09 11.16 1,000 8246.00 MSP430FG479IPNR
60K 2048 48 5 3X 16-Bit∆ 2 DC-8MHz 1.8 3.6 113-BGA 296-24306-1-ND‡ 14.49 12.29 11.34 2,500 8033.00/M MSP430FG479IQWR
2048 48 2 12-Bit SAR 2 DC-8MHz 1.8 3.6 100-LQFP 296-25608-1-ND‡◆ NEW! 12.85 10.67 9.70 1,000 6548.00 MSP430F4491IPR
2560 72 6 3-Ch., 16-Bit∆ 4 DC-16MHz 1.8 3.6 100-LQFP 296-24721-1-ND‡◆ NEW! 12.31 10.44 9.63 1,000 7115.50 MSP430F4793IPR
2560 72 6 4-Ch., 16-Bit∆ 4 DC-16MHz 1.8 3.6 100-LQFP 296-24722-1-ND‡◆ NEW! 12.31 10.44 9.63 1,000 7115.50 MSP430F4794IPR
4K 72 2 16-Bit∆ 2 DC-16MHz 1.8 3.6 100-LQFP 296-25774-1-ND‡◆ NEW! 11.50 9.75 9.00 1,000 6650.00 MSP430F47163IPR
8K 72 2 16-Bit∆ 2 DC-16MHz 1.8 3.6 100-LQFP 296-25775-1-ND‡◆ NEW! 11.73 9.95 9.18 1,000 6783.00 MSP430F47173IPR
4K 80 5 12-Bit SAR 2 DC-8MHz 1.8 3.6 100-LQFP 296-25766-1-ND‡◆ NEW! 14.49 12.29 11.34 1,000 8379.00 MSP430F4616IPR
4K 80 5 16-Bit 2 DC-8MHz 1.8 3.6 100-LQFP 296-25765-1-ND‡◆ NEW! 12.42 10.53 9.72 1,000 7182.00 MSP430F46161IPR
4096 68 6 6-Ch., 16-Bit∆ 4 DC-16MHz 1.8 3.6 100-LQFP 296-24638-1-ND‡◆ NEW! 13.11 11.12 10.26 1,000 7581.00 MSP430F47166IPR
4096 68 6 7-Ch., 16-Bit∆ 4 DC-16MHz 1.8 3.6 100-LQFP 296-24639-1-ND‡◆ NEW! 13.46 11.41 10.53 1,000 7780.50 MSP430F47167IPR
4096 80 10 12-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 100-LQFP 296-21307-ND 16.39 13.79 12.67 — — MSP430FG4616IP
92K 4096 80 10 12-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 113-BGA 296-24726-1-ND‡◆ NEW! 17.37 14.73 13.59 2,500 9626.26/M MSP430FG4616IQWR
8K 80 5 16-Bit 1 DC-8MHz 1.8 3.6 100-LQFP 296-25768-1-ND‡◆ NEW! 15.41 13.07 12.06 1,000 8911.00 MSP430F4617IPR
8K 80 5 16-Bit 1 DC-8MHz 1.8 3.6 100-LQFP 296-25767-1-ND‡◆ NEW! 13.34 11.31 10.44 1,000 7714.00 MSP430F46171IPR
4K 68 2 16-Bit∆ 2 DC-16MHz 1.8 3.6 100-LQFP 296-27442-ND◆ NEW! 12.87 10.83 9.95 — — MSP430F47167IP
8192 68 6 6-Ch., 16-Bit∆ 4 DC-16MHz 1.8 3.6 100-LQFP 296-24640-1-ND‡◆ NEW! 13.57 11.51 10.62 1,000 7847.00 MSP430F47176IPR
8192 68 6 7-Ch., 16-Bit∆ 4 DC-16MHz 1.8 3.6 100-LQFP 296-24641-1-ND‡◆ NEW! 13.92 11.80 10.89 1,000 8046.50 MSP430F47177IPR
8192 80 10 12-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 100-LQFP 296-21308-ND 17.49 14.71 13.52 — — MSP430FG4617IP
8192 80 10 12-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 113-BGA 296-24727-1-ND‡◆ NEW! 18.52 15.70 14.49 2,500 10263.76/M MSP430FG4617IQWR
8K 72 2 16-Bit∆ 2 DC-16MHz 1.8 3.6 100-LQFP 296-25776-1-ND‡◆ NEW! 12.19 10.34 9.54 1,000 7049.00 MSP430F47183IPR
8K 80 5 16-Bit 1 DC-8MHz 1.8 3.6 100-LQFP 296-25769-1-ND‡◆ NEW! 14.26 12.09 11.16 1,000 8246.00 MSP430F46181IPR
8192 68 6 6-Ch., 16-Bit∆ 4 DC-16MHz 1.8 3.6 100-LQFP 296-24642-1-ND‡◆ NEW! 17.02 14.43 13.32 1,000 9842.00 MSP430F47186IPR
116K 8192 68 6 7-Ch., 16-Bit∆ 4 DC-16MHz 1.8 3.6 100-LQFP 296-24643-1-ND‡◆ NEW! 17.37 14.73 13.59 1,000 10041.50 MSP430F47187IPR
8192 80 10 12-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 100-LQFP 296-21309-ND 18.37 15.45 14.20 — — MSP430FG4618IP
8192 80 10 12-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 113-BGA 296-24728-1-ND‡ NEW! 19.44 16.48 15.21 2,500 10773.76/M MSP430FG4618IQWR
8192 80 2 12-Bit 1 DC-8MHz 1.8 3.6 100-LQFP 296-25481-ND◆ NEW! 15.62 13.14 12.07 — — MSP430F4618IP
4K 68 2 16-Bit∆ 2 DC-16MHz 1.8 3.6 100-LQFP 296-25777-1-ND‡◆ NEW! 12.65 10.73 9.90 1,000 7315.00 MSP430F47193IPR
4K 80 5 12-Bit 1 DC-8MHz 1.8 3.6 100-LQFP 296-25771-1-ND‡◆ NEW! 15.41 13.07 12.06 1,000 8911.00 MSP430F4619IPR
4K 80 5 12-Bit 1 DC-8MHz 1.8 3.6 100-LQFP 296-25770-1-ND‡◆ NEW! 13.34 11.31 10.44 1,000 7714.00 MSP430F46191IPR
120K 4096 68 6 6-Ch., 16-Bit∆ 4 DC-16MHz 1.8 3.6 100-LQFP 296-24644-1-ND‡◆ NEW! 17.71 15.02 13.86 1,000 10241.00 MSP430F47196IPR
4096 68 6 7-Ch., 16-Bit∆ 4 DC-16MHz 1.8 3.6 100-LQFP 296-24645-1-ND‡◆ NEW! 18.17 15.41 14.22 1,000 10507.00 MSP430F47197IPR
4096 80 10 12-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 100-LQFP 296-21294-ND 17.49 14.71 13.52 — — MSP430FG4619IP
4096 80 10 12-Ch., 12-Bit 1 DC-8MHz 1.8 3.6 113-BGA 296-23094-1-ND‡ 18.52 15.70 14.49 2,500 10263.76/M MSP430FG4619IQWR
Flash Based F5xx Family — RoHS Compliant
24K 6K 31 5 10-Bit SAR 2 DC-25MHz 1.8 3.6 48-VQFN 296-27559-1-ND‡ NEW! 5.40 4.41 3.96 2,500 2394.00/M MSP430F5506IRGR
6K 47 5 12-Bit 2 DC-25MHz 1.8 3.6 64-VQFN 296-27650-1-ND‡ NEW! 5.70 4.66 5.70 2,000 2527.00/M MSP430F5510IRGCR
6K 47 5 12-Bit 2 DC-25MHz 1.8 3.6 64-VQFN 296-27374-1-ND‡ NEW! 8.61 7.15 8.61 2,000 4225.00/M MSP430F5513IRGCR
32K 6K 47 5 12-Bit 2 DC-25MHz 1.8 3.6 80-BGA 296-27375-1-ND‡ NEW! 8.88 7.37 8.88 2,500 4355.00/M MSP430F5513IQER
6K 63 5 16-Bit 2 DC-25MHz 1.8 3.6 80-LQFP 296-27303-1-ND‡ NEW! 8.88 7.37 8.88 1,000 4523.00 MSP430F5521IPNR
10K 47 5 12-Bit SAR 4 DC-25MHz 1.8 3.6 64-VQFN 296-27529-1-ND‡ NEW! 9.01 7.48 6.80 2,000 4420.00/M MSP430F5522IRGCR
6K 47 5 12-Bit 2 DC-25MHz 1.8 3.6 80-BGA 296-27376-1-ND‡ NEW! 9.67 8.03 9.67 2,500 4745.00/M MSP430F5514IQER
64K
6K 47 5 12-Bit 2 DC-25MHz 1.8 3.6 80-BGA 296-27377-1-ND‡ NEW! 9.67 8.03 9.67 2,500 4745.00/M MSP430F5524IQER
8K 63 5 — 2 DC-25MHz 1.8 3.6 80-LQFP 296-27300-1-ND‡ NEW! 8.88 7.37 8.88 1,000 4523.00 MSP430F5515IPNR
4K 63 5 12-Bit SAR 2 DC-25MHz 1.8 3.6 80-LQFP 296-27304-1-ND‡ NEW! 9.81 8.14 9.81 1,000 4995.00 MSP430F5525IPNR
6K 63 5 — 2 DC-25MHz 1.8 3.6 80-LQFP 296-27301-1-ND‡ NEW! 9.94 8.25 9.94 1,000 5063.00 MSP430F5517IPNR
96K 6K 63 5 12-Bit SAR 2 DC-25MHz 1.8 3.6 80-LQFP 296-27305-1-ND‡ NEW! 10.34 8.58 7.80 1,000 5265.00 MSP430F5527IPNR
8K 47 5 12-Bit 2 DC-25MHz 1.8 3.6 80-BGA 296-27378-1-ND‡ NEW! 10.07 8.36 10.07 2,500 4940.00/M MSP430F5526IQER
16K 67 15 16-Ch., 12-Bit 2 DC-18MHz 2.2 3.6 80-LQFP 296-23762-1-ND‡ 8.75 7.26 6.60 1,000 4455.00 MSP430F5418IPNR
16K 87 15 16-Ch., 12-Bit 4 DC-18MHz 2.2 3.6 100-LQFP 296-23763-1-ND‡ 9.67 8.03 7.30 1,000 4928.00 MSP430F5419IPR
8K 63 5 — 2 DC-25MHz 1.8 3.6 80-LQFP 296-27302-1-ND‡ NEW! 10.34 8.58 7.80 1,000 5265.00 MSP430F5519IPNR
128K 8K 47 5 12-Bit SAR 2 DC-25MHz 1.8 3.6 64-VQFN 296-27400-1-ND‡ NEW! 10.47 8.69 7.90 250 1678.75 MSP430F5528IRGCT
10K 47 5 12-Bit 2 DC-25MHz 1.8 3.6 80-BGA 296-27379-1-ND‡ NEW! 10.73 8.91 8.10 2,500 5265.00/M MSP430F5528IQER
8K 63 4 12-Bit SAR 4 DC-25MHz 1.8 3.6 80-LQFP 296-25427-ND NEW! 10.00 8.20 7.40 — — MSP430F5529IPN
8K 63 5 12-Bit SAR 2 DC-25MHz 1.8 3.6 80-LQFP 296-27306-1-ND‡ NEW! 10.60 8.80 8.00 1,000 5400.00 MSP430F5529IPNR
192K
16K 67 15 16-Ch., 12-Bit 2 DC-18MHz 2.2 3.6 80-LQFP 296-23764-1-ND‡ 10.34 8.58 7.80 1,000 5805.00 MSP430F5435IPNR
16K 87 15 16-Ch., 12-Bit 4 DC-18MHz 2.2 3.6 100-LQFP 296-23765-1-ND‡ 11.40 9.46 8.60 1,000 5805.00 MSP430F5436IPR
16K 67 15 16-Ch., 12-Bit 2 DC-18MHz 2.2 3.6 80-LQFP 296-23766-1-ND‡ 11.66 9.68 8.80 1,000 5940.00 MSP430F5437IPNR
256K 16K 87 15 16-Ch., 12-Bit 4 DC-18MHz 2.2 3.6 100-LQFP 296-23450-ND 12.13 9.95 8.98 — — MSP430F5438IP
16K 87 15 16-Ch., 12-Bit 4 DC-18MHz 2.2 3.6 100-LQFP 296-23859-1-ND‡ 12.85 10.67 9.70 1,000 6548.00 MSP430F5438IPR
®
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TMS320C6000 Family
Digital Signal Processors
TMS320C6000 DSP Platform Cominin hih-perormance hardware with considerale development resources, TIs
C6000 DSP platorm provides cost eiciency and low power dissipation. Raisin the ar in perormance, the C6000 DSP
platorm oers the industrys astest DSPs runnin at cloc speeds up to 720 MHz and scalale to 1 GHz. The platorm,
which eatures a wide rane o ully code-compatile devices, consists o the TMS320C64x, TMS320DM64x and
TMS320C62x DSP ixed-point enerations as well as the TMS320C67x DSP floating-point generation. Optimal for
designers working on targeted broadband infrastructure, performance audio and imaging applications.
®
RAM (Bytes)
DMA
Operating Voltage Frequency Total Internal Power(W)
Digi-Key
Price Each Texas Instruments
Program Data McBSP†† (Channels) COM Timers Core I/O MIPS (MHz) (Full Device Power) Package Part No.
1 25 100 Part No.
TMS320C62x (Fixed Point)
2 16◊ HPI / 16 2 1.8 3.3 1336 167 1.0 256-BGA 296-12560-ND 53.19 46.00 43.13 TMS320C6211BGFN167
4K / 4K / 64K† 2 16◊ HPI / 16 2 1.8 3.3 1200 150 0.9 256-BGA 296-10747-ND 41.70 36.07 33.81 TMS320C6211GFN150
2 16◊ HPI / 16 2 1.8 3.3 1200 150 0.9 256-BGA 296-12559-ND 42.55 36.80 34.50 TMS320C6211BGFN150
2 4 HPI / 16 2 1.8 3.3 1600 200 1.3 352-FC/CSP 296-10744-ND 134.73 121.49 117.51 TMS320C6201GJL200
2 4 HPI / 16 2 1.8 3.3 1600 200 1.3 352-FC/CSP 296-10743-ND 134.73 121.49 117.51 TMS320C6201GJC200
2 4 Exp. Bus / 32 2 1.5 3.3 1600 200 0.8 288-BGA 296-13381-5-ND 41.35 35.76 33.53 TMS320C6204GLW200
64K 64K 2 4 Exp. Bus / 32 2 1.5 3.3 1600 200 0.8 288-BGA 296-12672-ND 21.78 18.32 16.83 TMS320C6204GHK200
2 4 Exp. Bus / 32 2 1.5 3.3 1600 200 0.8 288-BGA 296-26838-ND◆ NEW! 21.78 18.32 16.83 TMS320C6204HK200
2 4 PCI / 32 2 1.5 3.3 1600 200 0.8 288-BGA 296-12673-ND 21.40 18.19 16.86 TMS320C6205GHK200
2 4 PCI / 32 2 1.5 3.3 1600 200 0.8 288-BGA 296-19385-ND 21.40 18.19 16.86 TMS320C6205HK200
3 4 Exp. Bus / 32 2 1.5 3.3 2400 300 1.0 384-FC/CSP 296-14380-ND 114.80 102.25 96.87 TMS320C6202BGN300
3 4 Exp. Bus / 32 2 1.5 3.3 2400 300 1.0 352-FCBGA 296-14381-ND 114.80 102.25 96.87 TMS320C6202BGN300
256K 128K
3 4 Exp. Bus / 32 2 1.5 3.3 2000 250 0.9 384-FC/CSP 296-15122-5-ND 95.68 85.22 80.73 TMS320C6202BGN250
3 4 Exp. Bus / 32 2 1.5 3.3 2000 250 0.9 352-BGA 296-15123-5-ND 95.68 85.22 80.73 TMS320C6202BGN250
3 4 Exp. Bus / 32 2 1.8 3.3 2000 250 2.1 352-FC/CSP 296-10745-ND 170.38 156.28 152.75 TMS320C6202GJL250
3 4 Exp. Bus / 32 2 1.8 3.3 2000 250 2.1 384-BGA 296-10746-ND 170.38 156.28 152.75 TMS320C6202GLS250
3 4 Exp. Bus / 32 2 1.5 3.3 2400 300 1.3 384-BGA 296-13801-ND 116.21 104.78 101.35 TMS320C6203BGN300
384K 512K
3 4 Exp. Bus / 32 2 1.5 3.3 2400 300 1.3 352-FCBGA 296-14756-5-ND 116.21 104.78 101.35 TMS320C6203BGN300
3 4 Exp. Bus / 32 2 1.5 3.3 2000 250 1.1 384-BGA 296-13800-ND 103.36 92.06 87.21 TMS320C6203BGN173
3 4 Exp. Bus / 32 2 1.5 3.3 2000 250 1.1 352-BGA 296-15124-5-ND 103.36 92.06 87.21 TMS320C6203BGN173
C
RAM (Bytes)
L1 Program Cache/
L1 Data Cache/
L2 Unified RAM/Cache
16K / 16K / 1M
16K / 16K / 256K
16K / 16K / 512K
16K / 16K / 1024K
McBSP††
Enhanced
DMA
Operating Voltage
(Channels) COM Timers
Core I/O MIPS
Frequency
(MHz)
Total Internal
Power
(W)
(Full Device Power) Package
Digi-Key
Part No.
1
Price Each
25 100
TMS320C64x (Fixed Point)
RAM (Bytes)
DMA
Operating Voltage
Frequency Total Internal Power (W)
Digi-Key
Price Each Texas Instruments
Program/Data McBSP†† (Channels) COM Timers Core I/O MFLOPS (MHz) (Full Device Power) Package Part No.
1 25 100 Part No.
TMS320C67x (Floating Point)
128K 2 4 HPI / 16 2 1.8 3.3 1000 167 0.9 352-BGA 296-10771-5-ND◆ NEW! 198.80 182.35 178.23 TMSC6701GJC16719V
4K / 4K / 64K† 2 16◊ HPI / 16 2 1.4 3.3 1500 250 0.9 272-BGA 296-17464-ND 32.40 27.54 25.52 TMS320C6711DGDP250
4K / 4K / 64K 2 16◊ HPI / 16 2 1.2 3.3 1200 200 0.9 272-BGA 296-19389-ND 30.00 25.50 23.63 TMS320C6711DDP200
4K / 4K / 64K† 2 16◊ HPI / 16 2 1.2 3.3 1500 250 0.9 272-BGA 296-26843-ND◆ NEW! 32.40 27.54 25.52 TMS320C6711DDP250
4K / 4K / 64K† 2 16◊ HPI / 16 2 1.2 3.3 1000 167 0.9 272-BGA 296-26869-ND◆ NEW! 37.50 31.88 29.54 TMS32C6711DGDPA167
4K / 4K / 64K† 2 16◊ HPI / 16 2 1.2 3.3 100 167 0.9 272-BGA 296-26870-ND◆ NEW! 37.50 31.88 29.54 TMS32C6711DDPA167
4K / 4K / 64K 2 16◊ — 2 1.2 3.3 900 150 0.7 272-BGA 296-19390-ND 26.70 22.70 21.03 TMS320C6712DDP150
4K / 4K / 256K 2 16◊ HPI / 16 2 1.4 3.3 1800 300 1.6 272-BGA 296-19391-ND 51.94 45.83 43.54 TMS320C6713BDP300
4K / 4K / 256K† 2 16◊ HPI / 16 2 1.2 3.3 1800 300 — 272-BGA 296-23624-ND 100.80 89.78 85.05 SM32C6713BGDPM30EP
4K / 4K / 256K 2 16◊ HPI / 16 2 1.2 3.3 1800 225 — 272-BGA 296-26844-ND◆ NEW! 42.64 36.88 34.58 TMS320C6713BGDP225
4K / 64K / 192K† 2 16◊ HPI / 16 2 1.4 3.3 1800 300 — 272-BGA 296-17377-ND 51.94 45.83 43.54 TMS320C6713BGDP300
4K / 64K / 192K† 2 16◊ HPI / 16 2 1.2 3.3 1200 200 1.0 272-BGA 296-26871-ND NEW! 43.48 37.60 35.25 TMS32C6713BGDPA200
4K / 64K / 192K† 2 16◊ HPI / 16 2 1.2 3.3 1200 200 1.0 208-HLQFP 296-17378-ND 35.20 29.92 27.72 TMS320C6713BPP200
4K / 64K / 192K† 2 16◊ HPI / 16 2 1.2 3.3 1000 225 1.0 272-BGA 296-18277-ND 42.64 36.88 34.58 TMS320C6713BDP225
4K / 4K / 192K† 2 16◊ HPI / 16 2 1.2 3.3 1.2 200 — 272-BGA 296-26872-ND◆ NEW! 43.48 37.60 35.25 TMS32C6713BDPA200
32K / 32K / 256K — 32◊ HPI / 16 2 1.2 3.3 1800 300 — 176-HLQFP 296-23783-ND 26.10 22.19 20.56 TMX320C6745APTP3
32K / 32K / 256K — 32◊ HPI / 16 2 1.2 3.3 2100 375 — 256-BGA 296-27648-5-ND◆ NEW! 26.00 22.10 20.48 TMS320C6747BKB3
32K / 64K / 384K — DMAX — 1 1.2 3.3 1200 200 0.8 144-TQFP 296-21721-ND 14.63 12.31 11.31 TMS320C6720BRFP200
32K / 256K / 384K 2 DMAX UHPI 1 1.2 3.3 2100 225 1.0 144-TQFP 296-21424-ND 21.60 18.36 17.01 TMSDC6722BRFPA225
32K / 256K/ 384K — DMAX UHPI 1 1.2 3.3 2100 250 — 256-BGA 296-26875-5-ND◆ NEW! 42.92 37.12 34.80 TMSDC6727BDHA250
32K / 32K / 512K† 2 16◊ HPI / 16 2 1.2 3.3 1200 200 0.8 272-BGA 296-17149-ND 30.00 25.50 23.63 TMS320C6711DGDP200
32K / 256K / 384K — DMAX UHPI 1 1.2 3.3 2100 200 75 144-HTQFP 296-24957-ND◆ NEW! 19.69 16.56 15.22 TMS320C6722BRFP200
32K / 256K / 384K 3 DMAX UHPI 1 1.2 3.3 2100 266 — 144-HTQFP 296-26845-ND◆ NEW! 28.00 23.80 22.05 TMS320C6726BRFP266
32K / 256K / 384K 3 DMAX UHPI 1 1.4 3.3 2100 350 — 256-BGA 296-26846-5-ND◆ NEW! 50.23 43.44 40.73 TMS320C6727BDH350
32K / 32K / 256K 2 2-32 HPI / 16 4 1.2 3.3 1800 300 — 361-NFBGA 296-24844-5-ND NEW! 36.50 31.03 28.75 TMX320C6748CE
32K / 32K / 256K 2 2-32 HPI / 16 4 1.2 3.3 1800 300 — 361-NFBGA 296-24845-5-ND◆ NEW! 36.50 31.03 28.75 TMX320C6748WT
◆ RoHS Compliant ‡ Includes on-chip Turo TCP and Viteri VCP co-processors †† Multi-Channel Buffered Serial Port ◊ Enhanced DMA † Format represents cache memory architecture proram cache / data cache / uniied cache
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Texas Instruments
Part No.
3UTOPIA 64 PCI / HPI 32/16 3 1.4 3.3 4800 600 1.06 532-BGA 296-14385-ND 150.87 138.39 135.27 TMS32C6415DGL6E3
3 64 HPI 32/16 3 1.4 3.3 4800‡ 600 1.06 532-BGA 296-14383-ND 150.73 135.91 131.46 TMS32C6414DGL6E3
3 64 HPI 32/16 3 1.2 3.3 4000‡ 500 0.64 532-BGA 296-14382-ND 125.61 113.26 109.56 TMS32C6414DGL5E0
3 64 HPI 32/16 3 1.2 3.3 8000 1000 1.74 532-FCBGA 296-26839-ND◆ NEW! 252.59 231.69 226.46 TMS320C6414TBL1
3 64 HPI 32/16 3 1.2 3.3 5760 720 1.74 532-FCBGA 296-26840-ND◆ NEW! 136.11 122.72 118.71 TMS320C6414TBL7
3 64 HPI 32/16 3 1.2 3.3 5760 720 1.70 532-BGA 296-17757-ND 147.85 133.31 128.95 TMS320C6414TGL7
2 64 PCI / HPI 32/16 3 1.2 3.3 2400‡ 300 0.64 532-FCBGA 296-15114-ND 67.59 59.64 56.66 TMS320C6411GL
2 64 HPI 32/16 3 1.2 3.3 4000 500 1.00 288-FCBGA 296-17479-ND 43.85 37.92 35.55 TMS320C6413GTS500
2 64 PCI / HPI / EMAC 3 1.4 3.3 4800 600 1.50 548-BGA 296-18663-ND 75.82 67.78 64.33 TMS320C6412DK600
2 64 HPI 32/16 3 1.2 3.3 4000 500 1.00 288-FCBGA 296-18664-ND 43.85 37.92 35.55 TMS320C6413TS500
2 64 HPI 32/16 3 1.4 3.3 4800 600 1.50 288-FCBGA 296-17480-ND 72.85 65.13 61.81 TMS320C6418GTS600
2 64 HPI 32/16 3 1.4 3.3 4800 600 1.70 288-FCBGA 296-19388-ND 72.85 65.13 61.81 TMS320C6418TS600
3 64 HPI 32/16 3 1.2 3.3 5760 720 1.36 532-BGA 296-19386-ND 147.85 133.31 128.95 TMS320C6414TL7
3 64 HPI 32/16 3 1.2 3.3 5760 720 1.70 532-BGA 296-17487-ND 190.02 174.30 170.37 TMS32C6414EGL7E3
3 64 HPI 32/16 3 1.2 3.3 5760 720 1.70 532-BGA 296-17488-ND 200.03 183.48 179.34 TMS32C6415EGL7E3
2 64 PCI/EMAC 3 1.2 3.3 5600 700 1.70 376-BGA 296-24623-ND◆ NEW! 58.89 51.96 49.37 SM320C6424GDUQ6EP
2 64 HPI 16 2 1.05 3.3 5600 600 1.70 361-BGA 296-26841-5-ND◆ NEW! 50.88 44.00 41.25 TMS320C6424WT6
3 64 PCI / HPI 32/16 3 1.2 3.3 4000 500 — 532-FCBGA 296-23817-ND 240.21 220.33 215.36 SM32C6415EGL50SEP
3 64 HPI 32/16 3 1.2 3.3 5760 720 1.70 532-BGA 296-17489-ND 220.04 201.83 197.28 TMS32C6416EGL7E3
2 64 PCI / HPI 32/16 3 1.2 3.3 5760 720 1.36 532-BGA 296-19387-ND 147.90 135.66 132.60 TMS320C6415TL7
32K / 32K / 2096K 2 64 HPI 32/16 2 1.2 3.3 9600 1200 — 697-FCBGA 296-26842-5-ND NEW! 312.84 286.95 280.48 TMS320C6455BT2
32K / 32K / 3072K 2 64 EMAC 6 1.2 1.8 — 1000 — 561-FCBGA 296-23805-ND 326.03 299.06 292.31 TMX320C6474UN
DaVinci Video Processors
Freq. On-Chip
Video Port
Hardware
Hardware
Digi-Key
Price Each Texas Instruments
CPU RAM (MHz) L1/SRAM
(Configurable)
Accelerators Coprocessor Package Part No.
1 25 100 Part No.
1 C64x Video — 600 32KB 3 20-Bit Dual-Ch. — — 548-FCBGA 296-26848-ND◆✔ 63.24 55.80 53.01 TMS320DM642ADK6
1 C64x Video — 720 32KB 3 20-Bit Dual-Ch. — — 548-FCBGA 296-26849-ND◆✔ 83.60 74.46 70.54 TMS320DM642ADK7
1 C64x Video — 600 32KB 3 20-Bit Dual-Ch. — — 548-FCBGA 296-26850-ND◆✔ 63.24 55.80 53.01 TMS320DM642AN6
1 C64x Video — 720 32KB 3 20-Bit Dual-Ch. — — 548-FCBGA 296-26851-ND◆✔ 83.60 74.46 70.54 TMS320DM642AN7
1 C64x 1 ARM9
112KBDSP,
1 VICP -
— 513
1 Dedicated Input, 1 Dedicated Output H3A, OSD, Previewer, Resizer
DaVinci Video
32KBARM
256.5MHz
361-BGA 296-21972-ND 52.17 45.12 42.30 TMS320DM6441WT
1 C64x 1 ARM9
112KB DSP,
— 594
DaVinci Video
40KB ARM
1 Dedicated Output OSD, Resizer — 361-NFBGA 296-21260-ND 54.66 48.23 45.82 TMS320DM6443WT
✔ NEW! ◆ RoHS Compliant
(Continued)
®
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(TZM112.US)
165
165

Digital Signal Processors
®
DaVinci Video Processors (Cont.)
C
Freq. On-Chip
Video Port
Hardware
Hardware
Digi-Key
Price Each Texas Instruments
CPU RAM (MHz) L1/SRAM
(Configurable)
Accelerators Coprocessor Package Part No.
1 25 100 Part No.
1 C64x 1 ARM9
112KB DSP,
1VICP-
— 594
1 Dedicated Input, 1 Dedicated Output H3A, OSD, Previewer, Resizer
DaVinci Video
40KB ARM
297MHz
361-NFBGA 296-23577-ND◆ 60.61 53.48 50.81 TMS320DM6446AWT
1 C64x 1 ARM9
112KB DSP,
1VICP-
— 513
1 Dedicated Input, 1 Dedicated Output H3A, OSD, Previewer, Resizer
DaVinci Video
32KB ARM
256.5MHz
361-NFBGA 296-26853-5-ND◆✔ 54.82 47.41 44.45 TMS320DM6441AWT
1 C64x 1 ARM9
112KB DSP,
— 594
DaVinci Video
40KB ARM
1 Dedicated Output OSD, Resizer — 361-NFBGA 296-26854-5-ND◆✔ 51.94 45.83 43.54 TMS320DM6443AWT
1 C64x 1 ARM9
112KB DSP,
1VICP-
— 513
1 Dedicated Input, 1 Dedicated Output H3A, OSD, Previewer, Resizer
DaVinci Video
40KB ARM
256.5MHz
361-NFBGA 296-26855-5-ND◆✔ 60.61 53.48 50.81 TMS320DM6446AWTA
1 C64x DaVinci Video — 600 112KB 1 Dedicated Input, 1 Dedicated Output H3A, OSD, Previewer, Resizer — 361-NFBGA 296-26852-5-ND◆✔ 44.40 38.40 36.00 TMS320DM6437WT6
1 C64x 1 ARM9
56KB ARM, 1 or Dual SD or Sinle HD Display, 1 or Dual Anti-Alias Filtering, Chroma
— 729
DaVinci HD Video
64KB DSP SD or Sinle HD or Sinle Raw Capture, VPIF Conversion, Edge Padding, VDCE
2 HDVICPs 529-FCBGA 296-26856-5-ND✔ 124.41 112.18 108.51 TMS320DM6467UT7
1 C64x 1 ARM9
56KB ARM, 1 or Dual SD or Sinle HD Display, 1 or Dual Anti-Alias Filtering, Chroma
— 594
DaVinci HD Video
64KB DSP SD or Sinle HD or Sinle Raw Capture, VPIF Conversion, Edge Padding, VDCE
2 HDVICPs 529-FCBGA 296-26857-5-ND◆✔ 119.42 107.68 104.16 TMS320DM6467UTA
1 C64x DaVinci Video — 900 64KB 5 16-Bit Dual-Ch. VICP - 450MHz — 529-FCBGA 296-26858-5-ND◆✔ 92.72 82.58 78.24 TMS320DM648UT9
1 ARM9, DaVinci Video 32 216 — 1 Dedicated Input, 1 Dedicated Output H3A, OSD, Previewer, Resizer 1 MJCP 337-NFBGA 296-23301-ND◆ 26.00 22.10 20.48 TMS320DM355CE216
1 ARM9, DaVinci Video 32 216 — 1 Dedicated Input, 1 Dedicated Output H3A, OSD, Previewer, Resizer 1MJCP 337-NFBGA 296-23302-ND◆ 37.10 31.54 29.22 TMS320DM355CE270
1 ARM9, DaVinci Video 32 216 — 1 Dedicated Input, 1 Dedicated Output H3A, OSD, Previewer, Resizer 1 MJCP 337-NFBGA 296-26847-5-ND◆✔ 30.60 26.01 24.10 TMS320DM355CEA216
1 ARM9, DaVinci Video 32 216 — 1 Dedicated Input, 1 Dedicated Output H3A, OSD, Previewer, Resizer 1MJCP 337-NFBGA 296-24947-ND✔ 53.13 46.88 44.54 SM32DM355GCEM216EP
1 ARM9, DaVinci Video 32 — — 1 Dedicated Input, 1 Dedicated Output H3A, OSD, Previewer, Resizer
1MJCP,
1HDVICP
338-NFBGA 296-24397-ND◆ 48.83 45.57 42.32 TMX320DM365ACE
✔ NEW! ◆ RoHS Compliant
TMS320C5000 Family
TMS320C5000 DSP Platform
The C5000 DSP platorm oers a road portolio, includin the OMAP5910 processor, which interates a TMS320C55x
DSP core with a TI-enhanced ARM on a sinle chip. With the industrys most power-eicient perormance, peripheral
options and small pacain, this platorm provides desiners a lead in todays portale Internet and wireless
communication marets. Optimal or desiners o power-sensitive systems, the C5000 DSP platorm oers power
consumption as low as 0.33 mA/MHz and perormance up to 600 MIPS. 6 channel DMA Controller per core.
RAM
(Bytes)
32K
64K
128K
256K
320K
344K
ROM
Operating Voltage Frequency
Digi-Key
Price Each Texas Instruments
(Bytes) USB ADC I2C RTC McBSP†† MMC/SD Timers MIPS Core I/O (MHz) Package Part No.
1 25 100 Part No.
TMS320C55x (Fixed Point)
32K — — — 2 — 3 600 1.26 3.3 300 201-BGA 296-17379-ND 11.25 9.23 8.33 TMS320VC5501G300
32K — — — 2 — 3 600 1.26 3.3 300 176-LQFP 296-17380-ND 11.25 9.23 8.33 TMS320VC5501PGF300
32K — — — 3 — 3 400 1.26 3.3 200 201-BGA 296-17381-ND 13.86 11.66 10.71 TMS320VC5502G200
32K — — — 3 — 3 600 1.26 3.3 200 201-BGA 296-17405-ND 17.82 14.99 13.77 TMS320VC5502G300
32K — — — 3 — 4 — 1.26 3.3 200 176-LQFP 296-26864-ND◆ NEW! 13.86 11.66 10.71 TMS320VC5502PGF200
32K — — — 3 — 3 600 1.26 3.3 300 176-LQFP 296-17382-ND 17.82 14.99 13.77 TMS320VC5502PGF300
32K — — — 3 — 3 400 1.26 3.3 200 201-BGA 296-26865-ND◆ NEW! 13.86 11.66 10.71 TMS320VC5502200
64K — — 3 — 2 400 1.6 2.7 200 179-BGA 296-17383-ND 14.85 12.49 11.48 TMS320VC5503GHH
64K — — 3 — 2 400 1.6 2.7 200 144-LQFP 296-17384-ND 14.85 12.49 11.48 TMS320VC5503PGE
64K 3 2 400 1.6 2.7 200 144-LQFP 296-17287-ND 20.79 17.49 16.07 TMS320VC5507PGE
64K 3 2 400 1.6 2.7 200 179-BGA 296-17286-ND 20.79 17.49 16.07 TMS320VC5507GHH
64K — 3 — 2 400 1.2 3.3 200 144-LQFP 296-21422-ND 14.30 12.03 11.05 TMS320VC5506PGE
64K — 3 — 2 400 1.2 3.3 200 179-BGA 296-21423-ND 14.30 12.03 11.05 TMS320VC5506HH
64K — 3 — 3 216 1.2 2.7 3.6 108 179-BGA 296-21421-ND 14.30 12.03 11.05 TMS320VC5506GHH
128 3 — 4 200 1.6 3.3 200 144-LQFP 296-25195-ND◆ NEW! 37.00 32.00 30.00 SM320VC5507PGESEP
128 — — 4 — 1.30 1.8 3.3 120 196-NFBGA 296-27196-5-ND NEW! 14.19 11.94 10.97 TMS320C5504ACH12
128 — — 3 — 1.30 1.8 3.3 120 196-NFBGA 296-27198-5-ND NEW! 16.50 13.88 12.75 TMS320C5514ACH12
128 — — 4 — 1.30 1.8 3.3 120 196-NFBGA 296-27200-5-ND NEW! 16.72 14.06 12.92 TMX320C5504ACH12
128 — — Y 3 — 1.3 1.8 3.3 120 196-NFBGA 296-25758-ND◆ NEW! 19.36 16.28 14.96 TMX320C5514ACH12
64K 3 2 288 1.6 3.3 200 179-BGA 296-16701-ND 28.80 24.48 22.68 TMS320VC5509AGHH
64K 3 2 288 1.6 3.3 200 144-LQFP 296-17351-ND 28.80 24.48 22.68 TMS320VC5509APGE
64K 3 2 — 1.6 3.0 3.3 200 179-BGA 296-26866-ND◆ NEW! 28.80 24.48 22.68 TMS320VC5509AHH
128 — 5 60 1.3 3.3 100 196-NFBGA 296-24582-5-ND◆ NEW! 14.96 12.58 11.56 TMX320VC5505DCH
128 — 3 — 1.3 1.8 3.3 120 196-NFBGA 296-25759-ND◆ NEW! 20.70 17.60 16.31 TMX320C5515ACH12
128 — — 3 — 1.30 1.8 3.3 120 196-NFBGA 296-27197-5-ND NEW! 17.16 14.43 13.26 TMS320C5505ACH12
128 — 3 — 1.30 1.8 3.3 120 196-NFBGA 296-27199-5-ND NEW! 19.36 16.28 14.96 TMS320C5515ACH12
128 — — 3 — 1.30 1.8 3.3 120 196-NFBGA 296-27201-5-ND NEW! 20.13 16.93 15.56 TMX320C5505ACH12
32K — — — — 3 — 2 400 1.6 3.3 200 240-BGA 296-14199-5-ND 34.00 28.90 26.78 TMS320VC5510AGGW2
32K — — — — 3 — 2 — 1.6 3.3 200 240-BGA 296-26867-ND◆ NEW! 34.00 28.90 26.78 TMS320VC5510AGW2
32K — — — — 3 — 2 — 1.6 3.3 200 240-BGA 296-26868-ND◆ NEW! 39.80 33.83 31.35 TMS320VC5510AGWA2
RAM ROM DAT/PRO
Operating Voltage
Frequency
Digi-Key
Price Each
Texas Instruments
(Bytes) (Bytes) (ADDR) Bytes McBSP†† Core I/O COM Timers (MHz) MIPS Package Part No.
1 25 100 Part No.
TMS320C54x (Fixed Point)
6K 48K 64K/64K 2 3.3 3.3 HPI 8 1 50 50 128-LQFP 296-2014-5-ND 27.10 23.04 21.35 TMS320LC545APBK-50
8K 128K/2M 2 1.8 3.3 HPI 8 2 50 50 144-LQFP 296-12148-5-ND◆ 8.75 7.18 6.48 TMS320VC5401PGE50
16K 8K 128K/2M 2 1.8 3.3 HPI 8 2 50 50 144-BGA 296-12147-5-ND◆ 8.75 7.18 6.48 TMS320VC5401GGU50
8K 128K/2M 2 1.8 3.3 HPI 8 2 50 50 144-BGA 296-19392-ND 8.50 6.97 6.29 TMS320VC5401GU50
8K 128K/2M 2 1.8 1.8-3.6 HPI 8 2 80 80 144-BGA 296-10759-ND 12.10 10.18 9.35 TMS320UC5402GGU-80
8K 128K/2M 2 1.8 3.3 HPI 8 2 100 100 144-BGA 296-10761-ND 12.10 10.18 9.35 TMS320VC5402GGU100
8K 128K/2M 2 1.8 1.8-3.6 HPI 8 2 80 80 144-LQFP 296-10760-ND 12.10 10.18 9.35 TMS320UC5402PGE-80
8K 128K/2M 2 1.8 3.3 HPI 8 2 100 100 144-LQFP 296-10762-ND 12.10 10.18 9.35 TMS320VC5402PGE100
32K
32K 128K/16M 3 1.6 3.3 HPI 8 1 160 160 144-BGA 296-12676-ND◆ 21.80 18.53 17.17 TMS320VC5402AGGU16
32K 128K/16M 3 1.6 3.3 HPI 8 1 160 160 144-LQFP 296-12677-ND 21.80 18.53 17.17 TMS320VC5402APGE16
32K 128K/16M 3 1.6 3.3 HPI 8 1 160 160 144-BGA 296-19393-ND 21.80 18.53 17.17 TMS320VC5402AGU16
8K 128K/16M 2 1.8 3.3 HPI 8 2 100 100 144-BGA 296-26862-ND◆ NEW! 12.10 10.18 9.35 TMS320VC5402GU100
128K 128K/16M 3 1.5 3.3 HPI 8/16 2 120 120 144-BGA 296-17150-ND◆ 17.60 14.80 13.60 TMS320VC5404GGU
128K 128K/16M 3 1.5 3.3 HPI 8/16 2 120 120 144-LQFP 296-15712-ND 17.60 14.80 13.60 TMS320VC5404PGE
32K 128K/16M 3 1.5 3.3 HPI 8/16 1 120 120 144-BGA 296-12073-ND 24.60 20.91 19.38 TMS320VC5409AGGU12
32K 128K/16M 3 1.6 3.3 HPI 8/16 1 160 160 144-BGA 296-12074-ND◆ 27.30 23.21 21.50 TMS320VC5409AGGU16
32K 128K/16M 3 1.5 3.3 HPI 8/16 1 120 120 144-LQFP 296-12075-ND 24.60 20.91 19.38 TMS320VC5409APGE12
32K 128K/16M 3 1.6 3.3 HPI 8/16 1 160 160 144-LQFP 296-12076-ND 27.30 23.21 21.50 TMS320VC5409APGE16
32K 128K/16M 3 1.8 1.8-3.6 HPI 8/16 1 100 80 144-BGA 296-12112-ND 30.80 26.18 24.26 TMS320UC5409GGU-80
64K 32K 128K/16M 3 1.8 3.3 HPI 8/16 1 100 100 144-BGA 296-10763-ND 20.90 17.77 16.46 TMS320VC5409GGU100
32K 128K/16M 3 1.8 3.3 HPI 8/16 1 100 100 144-LQFP 296-10764-ND 20.90 17.77 16.46 TMS320VC5409PGE100
32K 128K/16M 3 1.8 1.8-3.6 HPI 8/16 1 100 80 144-LQFP 296-12146-5-ND 30.80 26.18 24.26 TMS320UC5409PGE-80
32K 64K/64K 3◊ 2.5 3.3 HPI 8 1 80 80 144-BGA 296-1933-5-ND 44.29 38.31 35.91 TMS320VC549GGU-80
32K 64K/64K 3◊ 2.5 3.3 HPI 8 1 100 100 144-BGA 296-2016-5-ND 48.77 42.18 39.54 TMS320VC549GGU-100
32K 64K/64K 3◊ 2.5 3.3 HPI 8 1 80 80 144-LQFP 296-1935-5-ND 44.29 38.31 35.91 TMS320VC549PGE-80
256K 64K/64K 2 1.5 3.3 HPI 8 2 118 118 144-BGA 296-15033-ND 22.08 18.77 17.39 TMS320C54V90AGGU
80K
256K 64K/64K 2 1.5 3.3 HPI 8 2 118 118 144-LQFP 296-15034-ND 22.08 18.77 17.39 TMS320C54V90APGE
256K 64K/64K 2 1.5 3.3 HPI 8 2 118 118 144-BGA 296-16933-ND 22.08 18.77 17.39 TMS320C54V90BGGU
256K 64K/64K 2 1.5 3.3 HPI 8 2 118 118 144-LQFP 296-16934-ND 22.08 18.77 17.39 TMS320C54V90BPGE
32K 128K/16M 3 1.5 3.3 HPI 8/16 1 120 120 144-BGA 296-12077-ND 29.60 25.16 23.31 TMS320VC5410AGGU12
32K 128K/16M 3 1.6 3.3 HPI 8/16 1 160 160 144-BGA 296-12078-ND◆ 32.90 27.97 25.91 TMS320VC5410AGGU16
128K 32K 128K/16M 3 1.5 3.3 HPI 8/16 1 120 120 144-LQFP 296-12079-ND 29.60 25.16 23.31 TMS320VC5410APGE12
32K 128K/16M 3 1.6 3.3 HPI 8/16 1 160 160 144-LQFP 296-12080-ND 32.90 27.97 25.91 TMS320VC5410APGE16
32K 128K/16M 3 2.5 3.3 HPI 8 1 100 100 144-LQFP 296-10766-ND◆ NEW! 54.48 47.12 44.18 TMS320VC5410PGE100
◆ RoHS Compliant †† Multi-Channel Buffered Serial Port ◊ 1TDM port
(Continued)
®
For Digi-Reel ® information, please see page 71.
166 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Digital Signal Processors
®
TMS320C5000 Family (Cont.)
RAM ROM DAT/PRO
Operating Voltage
Frequency
Digi-Key
Price Each
Texas Instruments
(Bytes) (Bytes) (ADDR) Bytes McBSP†† Core I/O COM Timers (MHz) MIPS Package Part No.
1 25 100 Part No.
32K 128K/16M 3 1.5 3.3 HPI 8/16 1 120 120 144-BGA 296-12168-ND 45.70 39.52 37.05 TMS320VC5416GGU120
32K 128K/16M 3 1.6 3.3 HPI 8/16 1 160 160 144-BGA 296-11660-ND◆ 50.69 43.84 41.10 TMS320VC5416GGU160
256K 32K 128K/16M 3 1.5 3.3 HPI 8/16 1 120 120 144-LQFP 296-12169-ND 45.70 39.52 37.05 TMS320VC5416PGE120
32K 128K/16M 3 1.6 3.3 HPI 8/16 1 160 160 144-LQFP 296-12170-ND 50.69 43.84 41.10 TMS320VC5416PGE160
32K 128K/16M 3 1.6 3.3 HPI 8/16 1 160 160 144-BGA 296-26863-ND◆ NEW! 50.69 43.84 41.10 TMS320VC5416GU160
384K
— 32K 6 1.8 3.3 HPI 16 2 100 200 144-BGA 296-10767-ND 96.72 86.15 81.61 TMS320VC5420GGU200
— 32K 6 1.8 3.3 HPI 16 2 100 200 144-LQFP 296-12191-ND 96.72 86.15 81.61 TMS320VC5420PGE200
512K
8K 32K 6 1.8 3.3 HPI 16 2 100 200 144-BGA 296-10768-ND 99.12 88.28 83.64 TMS320VC5421GGU200
8K 32K 6 1.8 3.3 HPI 16 2 100 200 144-LQFP 296-10769-ND 99.12 88.28 83.64 TMS320VC5421PGE200
1280K — 32K 12 1.6 3.3 HPI 16 4 133 532 169-BGA 296-15127-5-ND 157.54 144.51 141.25 TMS320VC5441GGU
◆ RoHS Compliant †† Multi-Channel Buffered Serial Port ◊ 1TDM port
TMS320C54x Family — ARM7 + C54x
The TMS320VC5470 interates a DSP susystem ased on the TMS320C54x architecture and a RISC microcontroller
susystem ased on the ARM7TDMI core. The DSP susystem includes 72Kx16-it SRAM, a timer, a DMA controller,
an external memory interace, and two McBSPs. The MCU susystem includes three timers, eneral purpose I/O, and an
external memory interface.
RAM
Frequency
Digi-Key
Price Each
Texas Instruments
CPU
(Bytes) Serial Ports Timers Miscellaneous Ethernet (MHz) Package Part No.
1 25 100 Part No.
DSP + RISC (Fixed Point) — 1.8V Core, 3.3V I/O
C54x
144K
2 McBSP
1 PLL, API —
100
ARM7TDMI 16K I2C, SPI, 2 UARTs 1 IRDA 2 PLL, WD —
47.5
257-BGA 296-12751-ND 25.50 21.68 20.09 TMS320VC5470GHK
C54x
144K
2 McBSP
1 PLL, API —
100
ARM7TDMI 16K I2C, SPI, 2 UARTs 1 IRDA 2 PLL, WD 10/100, MAC 47.5
257-BGA 296-12752-ND 27.80 23.63 21.90 TMS320VC5471GHK
NEW! Sitara ARM ® Cortex A8 and ARM9 Microprocessor
Sitara hih perormance, ARM-ased microprocessors are comprised o the ARM Cortex-A8 or ARM9 ased emedded microporcessors with speeds ranin rom 200MHz to eyond 1GHz in uture devices. The portolio o microprocessors includes
unique combinations of peripherals and accelerators to drive down system cost and expand connectivity options.
Operating RISC
Texas
RAM ROM
Video
Voltage Freq.
Digi-Key
Price Each Instruments
(kB) (kB) USB CAN I2C McBSP†† MMC/SD McSPI UART Timers EMAC DMA
Port
EMIF Core I/O (MHz) Package Part No.
1 25 100 Part No.
64 32 2 1 3 5 3 4 3 13
1 Dedicated Output 1 32-bit SDRC
10/100 32-Bit Ch. DMA
1 Dedicated Input 1 16-it GPMC
1.2 1.8 3.3 600 491-NFBGA 296-27443-ND 44.40 38.40 36.00 XAM3517CN
— 64K 2 — 2 — 1 — 3 2 10/100 32-Bit EDMA
1 16/8 Bit
1 32/16 Bit
1.2 3.3 375 256-BGA 296-27565-5-ND 13.09 11.01 10.12 AM1707BKB3
— 64K 2 — 2 — 1 — 3 2 10/100 2EDMA3 —
1 16/8 Bit
1 32/16 Bit
1.2 3.3 375 256-BGA 296-27566-5-ND 15.73 13.23 12.16 AM1707BKBA3
— 64K 1 — 2 — 1 — 3 2 10/100 2EDMA3 —
1 8 Bit
1 16 Bit
1.2 3.3 375 176-HLQFP 296-27568-5-ND 11.99 10.09 9.27 AM1705BPTP3
— 64K 1 — 2 — 1 — 3 2 10/100 2EDMA3 —
1 8 Bit
1 16 Bit
1.2 3.3 456 176-HLQFP 296-27569-5-ND 13.09 11.01 10.12 AM1705BPTP4
C
OMAP — ARM9 + C55x
OMAP Processors integrating the command and control functionality of ARM, coupled with low-power, real-time signal
processing capabilities of a DSP.
The OMAP59xx platorm is ideal or portale data terminal applications such as portale medical devices portale
deirillation, home medical test and analysis asset and inventory manaement, parcel tracin and location, stoc
inventory and replenishment, real-time data capture with analysis and interpretation and point o sale sales and
memership processin, merchandisin and pricin manaement veriication and authentication It enales emedded
CPU
C55x
ARM9DTMI
C55x
ARM9DTMI
C55x
ARM9DTMI
C55x
ARM9DTMI
C55x
ARM926EJ-S
C674x
ARM926EJ-S
1 64x, ARM
Cortex-A8
1 64x, ARM
Cortex-A8
600 MHz
ARM Cortex
A8
1 C674x
1 ARM9
1 C674x
1 ARM9
ARM
Cortex-A8
RAM ROM
(Bytes) (Bytes) Serial Ports Timers Miscellaneous
160K
192K†
160K
192K†
160K
192K†
160K
250K†
160K
256K†
32K
32K
32K
32K
32K
2 McBSP, 2 McSI,
1 McBSP, USB 1.1, I2C,
wire, IRDA, 3 UARTS
2 McBSP, 2 McSI,
1 McBSP, USB 1.1, I2C,
wire, IRDA, 3 UARTS
2 McBSP, 2 McSI,
1 McBSP, USB 1.1, I2C,
wire, IRDA, 3 UARTS
2 McBSP, 2 McSI,
1 McBSP, USB 1.1, I2C,
wire, IRDA, 3 UARTS
2 McBSP, 2 McSI, 3 UARTs,
USB 1.1, USB OTG, 1McBSP,
wire, 12C, HDQ, SPI, V-Lin
2 SPI, I2C,
64K
256K 1024K USB 1.1 OHCI, USB 2.0 OTG
EMAC, HPI, 3 UARTS
64K
96K
256K
16K
32K
16K
32K
3 I2C, 4 McSPI, 1 HDQ/1-Wire,
3 UART, 2 USB
3 I2C, 4 McSPI, 1 HDQ/1-Wire,
3 UART, 2 USB
64K 112K 5MCBSP, 3 I2C, 4McSPI, 1HS
64K
256K
64K
256K
32K
256K
1024K
1024K
132K
10/100 EMAC, 1 16-it HPI, 2
I2C, 2 SPI, 1 SATA, 3 UART,
1 USB
10/100 EMAC, 1 16-it HPI, 2
I2C, 2 SPI, 1 SATA, 3 UART,
1 USB
3 I2C, 4 McSPI, 1 HDQ/1-wire,
3 UART, 2 USB
3 GP, 1 WDT,
3 GP, 1 WDT, 1 OS
3 GP, 1 WDT,
3 GP, 1 WDT, 1 OS
3 GP, 1 WDT,
3 GP, 1 WDT, 1 OS
14 32-Bit GP,
2 16-Bit WD,
1 32-Hz OS, 1RTC
4 GP, 1 WDT,
3 GP, 1 WDT, 1 OS
1 64-Bit GP,
1 64-Bit GP WDT
1RTC
12 32-Bit GP,
2 32-Bit WD
12 32-Bit GP,
2 32-Bit WD
12GP, 2WDT,
US OTG
3 64-Bit, 1 64-Bit
GP/WD
3 64-Bit GP,
1 64-Bit GP/WD
12 32-Bit GP,
2 32-Bit WD
3 Video Accel., MMU
LCD, Camera,
RTC, MMU
3 Video Accel., MMU
LCD, Camera,
RTC, MMU
3 Video Accel., MMU
LCD, Camera,
RTC, MMU
3 Video Accel., MMU
LCD, Camera,
RTC, MMU
3 Video Accel., MMU
LCD, Camera,
RTC, MMU
3 Multichannel Audio
Serial Ports, MMC, SD,
SDIO, LCD
Video Port
Conurale,
3 MMC/SD
Video Port
Conurale,
Graphics Accelerator,
3 MMC/SD
Video Port
Conurale,
Graphics Accelerator,
3 MMC/SD
1 LCD, 2 MMC/SD,
2 PWM
1 LCD, 2 MMC/SD,
2 PWM
Video Port
Conurale,
MMC/SD, Pop Interace
◆ RoHS Compliant † Shared with C55x CPU ★ Shared with 128K RAM Memory * External memory interaces may use 1.8, 2.75, or 3.3V nominal
®
For Digi-Reel ® information, please see page 71.
developers to program using familiar development environments by supporting leading operating systems such as
Microsot Windows CE.NET, Linux, and TIs DSP/BIOS real-time scalale ernel. This open development environment
maes it possile or desiners to deliver innovative products to the maret aster, utilizin amiliar tools, a standard
application prorammin interace API and a seamless interace to the DSP throuh an optimized interprocessor
communication mechanism. The built-in interprocessor communication mechanism eliminates the need for developers to
proram the RISC and DSP independently resultin in reduced prorammin eorts.
Operating Voltage Frequency
Digi-Key
Price Each Texas Instruments
Core I/O (MHz) Package Part No.
1 25 100 Part No.
Fixed Point
1.8/2.75/
1.6
150 289-BGA 296-16744-ND 46.99 40.64 38.10 OMAP5910JGG2
3.3*
1.6
1.6
1.6
1.6
1.8/2.75/
3.3*
1.8/2.75/
3.3*
1.8/2.75/
3.3*
1.8/2.75/
3.3*
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
150 289-BGA 296-17462-ND 46.99 40.64 38.10 OMAP5910JGD2
150 289-BGA 296-18502-ND 46.99 40.64 38.10 OMAP5910JG2
192 289-BGA 296-20671-ND 44.59 38.56 36.15 OMAP5912G
192 289-BGA 296-20940-ND 44.59 38.56 36.15 OMAP5912D
1.2 1.8/3.3 300 256-BGA 296-23789-ND 39.20 33.32 30.87 XOMAPL137BKB3
0.8 1.35 18/3.0 430 515-FCBGA 296-24607-ND◆ NEW! 84.00 74.82 70.88 OMAP3525DCBC
0.8 1.35 1.8/3.0 430 515-FCBGA 296-24608-ND NEW! 112.11 99.85 94.60 OMAP3530DCBB
— 3.3 600 515-FCBGA 296-23175-ND 69.99 62.34 59.06 XOMAP3530BCBB
1.2/1.1/1.0 1.8/3.3 300 361-NFBGA 296-24846-ND◆ NEW! 37.20 31.62 29.30 XOMAPL138ZCE
1.2/1.1/1.0 1.8/3.3 300 361-NFBGA 296-24847-5-ND◆ NEW! 37.20 31.62 29.30 XOMAPL138ZWT
0.8 1.35 1.8/3.0 600 515-FCBGA 296-24970-ND◆ NEW! 41.72 36.08 33.83 OMAP3503DCBB
(Continued)
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
167
167

Digital Signal Processors
®
OMAP — ARM9 + C55x (Cont.)
CPU
1 C674x
1 ARM9
ARM
Cortex-A8
RAM
(Bytes)
64K
256K
64K
ROM
(Bytes) Serial Ports Timers Miscellaneous
1024K
10/100 EMAC, 1 16-it HPI, 2
3 64-Bit GP, 1 LCD, 2 MMC/SD,
I2C, 2 SPI, 1 SATA, 3 UART,
1 64-Bit GP/WD 2 PWM
1 USB
112K
3 I2C, 4 McSPI,
1 HDQ/1-wire, 3 UART
12 32-Bit GP,
2 32-Bit WD,
1 32-Bit ST
Video Port,
3 MMC/SD
Operating Voltage Frequency
Digi-Key
Price Each
Core I/O (MHz) Package Part No.
1 25 100
Texas Instruments
Part No.
1.2/1.1/1.0 1.8/3.3 300 361-NFBGA 296-25764-ND◆ NEW! 37.20 31.62 29.30 OMAPL138AZWT3
0.985
1.35
1.8/3.0 600 515-FCBGA 296-25814-ND◆ NEW! 43.48 37.60 35.25 OMAP3503DCBCS
◆ RoHS Compliant † Shared with C55x CPU ★ Shared with 128K RAM Memory * External memory interaces may use 1.8, 2.75, or 3.3V nominal (Continued)
TMS320C3x Family
C
RAM
(32-Bit Word)
512
ROM
Operating Frequency Temperature
Digi-Key
Price Each
Texas Instruments
(32-Bit Word) DMA Timers MIPS Voltage (MHz) (°C) Package Part No.
1 25 100 Part No.
TMS320C3x (Floating Point)
Supports Bootloader 2 2 20 5V 40 0 85 144-QFP 296-1928-5-ND 21.12 17.96 16.64 TMS320C32PCM40
Supports Bootloader 1 2 20 5V 40 0 85 132-BQFP 296-1926-5-ND NEW! 54.76 48.32 45.90 TMS320C31PQL40
Supports Bootloader 1 2 30 5V 60 0 85 132-BQFP 296-1927-5-ND NEW! 66.20 58.41 55.49 TMS320C31PQL60
TMS320C2000 Family
The C2000 DSP platform offers the most comprehensive line of DSP solutions driving the digital control revolution, the
C2000 DSP platorm provides the industrys hihest perormin and most code-eicient DSPs. With a uniue comination
o on-chip peripherals such as Flash memory, ultraast A/D converters as well as roust CAN modules, the C2000 DSP
platform sets the standard for performance and peripheral integration.
Flash
RAM
ROM
Operating Voltage Frequency Temperature
Digi-Key
Price Each
Texas Instruments
(16-Bit Word) (16-Bit Word) (16-Bit Word) Timers Serial Core I/O (MHz) (°C) Package Part No.
1 25 100 Part No.
TMS320C20x (Fixed Point) — RoHS Compliant
32K 4.5K — 1 2 3.3 5 40 0 70 100-LQFP 296-2007-5-ND 35.38 30.08 27.87 TMS320F206P
4.5K 32K 1 2 3.3 5 80 0 70 100-TQFP 296-2001-5-ND 23.14 19.67 18.23 TMS320C206P80
—
4.5K 32K 1 2 3.3 5 80 -40 85 100-TQFP 296-2002-5-ND 25.44 21.63 20.04 TMS320C206PA80
4.5K 32K 1 2 3.3 3.3 80 0 70 100-LQFP 296-2012-5-ND 25.44 21.63 20.04 TMS320LC206P80
4.5K 32K 1 2 3.3 3.3 80 -40 85 100-LQFP 296-2013-5-ND 27.98 23.79 22.04 TMS320LC206PA80
Flash
(16-Bit
Word)
8K
16K
32K
RAM Boot ROM
(16-Bit (16-Bit
PWM
Operating Frequency Temperature
Digi-Key
Price Each
Texas Instruments
Word) Word) EMIF Timers Chan. SPI SCI CAN Voltage (MHz) (°C) Package Part No.
1 25 100 Part No.
TMS320C24x (Fixed Point) — 1.8V Core, 3.3V I/O — RoHS Compliant
544 — — 2 8 5 20 0 70 38-PLCC 296-10750-5-ND 24.02 20.42 18.92 TMS320F241FN
544 — — 2 8 5 20 0 70 64-QFP 296-10753-ND 22.26 18.93 17.53 TMS320F241PG
544 — — 2 8 5 20 0 70 64-QFP 296-10754-ND NEW! 22.26 18.93 17.53 TMS320F241PGA
544 — — 2 8 5 20 0 70 144-LQFP 296-10755-ND 25.16 21.39 19.82 TMS320F243PGE
544 256 — 2 7 — — 3.3 40 -40 125 144-LQFP 296-10756-ND NEW! 25.16 21.39 19.82 TMS320F243PGEA
1K 256 — 2 7 — — 3.3 40 -40 125 64-PQFP 296-12545-ND 17.27 14.53 13.35 TMS320LF2402APGS
1K 256 — 2 7 — — 3.3 40 -40 85 64-LQFP 296-12544-ND 15.62 13.14 12.07 TMS320LF2402APGA
1K 256 — 2 7 — — 3.3 40 -40 85 32-LQFP 296-14411-ND 8.75 7.18 6.48 TMS320LF2401AVFA
1K 256 — 2 7 — — 3.3 40 -40 125 32-LQFP 296-19288-1-ND∆ 10.20 8.47 7.70 TMS320LF2401AVFS
1K 256 — 2 7 — — 3.3 40 -40 125 32-LQFP 296-19288-2-ND◊ 1636.25/250 TMS320LF2401AVFS
1K 256 — 2 8 3.3 40 -40 125 64-LQFP 296-12675-ND 20.02 16.84 15.47 TMS320LF2403APAGS
1K 256 — 2 8 3.3 40 -40 85 64-LQFP 296-12674-ND 18.15 15.27 14.03 TMS320LF2403APAGA
2.5K 256 4 16 3.3 40 -40 125 144-LQFP 296-12549-ND 21.45 18.04 16.58 TMS320LF2407APGES
2.5K 256 — 4 16 3.3 40 -40 85 144-LQFP 296-12548-ND 19.47 16.38 15.05 TMS320LF2407APGEA
2.5K 256 — 4 16 3.3 40 -40 125 100-LQFP 296-12547-ND 20.24 17.02 15.64 TMS320LF2406APS
2.5K 256 — 4 16 3.3 40 -40 85 100-LQFP 296-12546-ND 18.37 15.45 14.20 TMS320LF2406APA
2.5K 256 — 4 16 3.3 40 -40 85 100-LQFP 296-26861-ND NEW! 18.37 15.45 14.20 TMS320LF2406APAR
544 — — 3 12 — 5 20 0 70 132-QFP 296-2009-5-ND NEW! 29.12 24.76 22.94 TMS320F240PQ
Flash
(16-Bit
Word)
16K
32K
64K
RAM ROM Boot ROM
Operating
(16-Bit (16-Bit (16-Bit
PWM
Voltage Frequency Temperature
Digi-Key
Price Each
Texas Instruments
Word) Word) Word) McBSP EMIF Timers Chan. SPI SCI CAN Core (MHz) (°C) Package Part No.
1 25 100 Part No.
TMS320C28x Family (Fixed Point) — 3.3V I/O
2K 2K 8K x 16 — — 4 8 1 1 — 1.8 40 -40 105 38-TSSOP 296-27536-ND◆ NEW! 5.18 4.17 3.80 TMS320F280200DAT
2K 2K 8K x 16 — — 4 8 1 1 — 1.8 40 -40 105 48-LQFP 296-27537-ND◆ NEW! 5.46 4.39 4.00 TMS320F280200PTT
6K 1K 4K — — 9 8 1.8 60 -40 85 100-LQFP 296-21874-ND 8.13 6.67 6.02 TMS320F28015PA
6K 1K 4K — — 9 8 1.8 60 -40 85 100-LQFP 296-21875-ND 8.75 7.18 6.48 TMS320F28016PA
6K 1K 4K — — 9 8 1.8 60 -40 85 100-LQFP 296-21876-ND 9.75 8.00 7.22 TMS320F2801PA-60
6K 2K 4K — — 9 8 1 1.8 100 -40 85 100-BGA 296-18320-ND 12.76 10.73 9.86 TMS320F2801GGMA
6K 2K 4K — — 9 8 1 1.8 100 -40 125 100-BGA 296-18321-ND 14.08 11.84 10.88 TMS320F2801GGMS
6K 2K 4K — — 9 8 1 1.8 100 -40 85 100-LQFP 296-18322-ND 12.76 10.73 9.86 TMS320F2801PA
6K 2K 4K — — 9 8 1 1.8 100 -40 125 100-LQFP 296-18323-ND 14.08 11.84 10.88 TMS320F2801PS
6K 2K 4K — — 9 8 1 1.8 100 -40 85 100-BGA 296-18324-ND 12.76 10.73 9.86 TMS320F2801GMA
6K 2K 4K — — 9 8 1 1.8 100 -40 125 100-BGA 296-18325-ND 14.08 11.84 10.88 TMS320F2801GMS
12K 2K 8K — — 3 8 1 1 — 1.8 40 -40 85 38-TSSOP 296-24217-ND◆ 7.38 6.05 5.46 TMX320F28023DAA
3K 2K 8K x 16 — — 4 8 1 1 — 1.8 40 -40 105 38-TSSOP 296-27538-5-ND◆ NEW! 5.60 4.50 4.10 TMS320F28020DAT
3K 2K 8K x 16 — — 4 8 1 1 — 1.8 40 -40 105 48-LQFP 296-27539-ND◆ NEW! 5.88 4.73 4.31 TMS320F28020PTT
6K 1K 4K — — 9 8 2 1.8 60 -40 85 100-LQFP 296-21719-ND 12.00 9.84 8.88 TMS320F2802PA-60
6K 2K 8K x 16 — — 4 8 1 1 — 1.8 60 -40 125 48-LQFP 296-27542-ND◆ NEW! 7.38 6.05 5.46 TMS320F28026PTS
10K 2K 4K — — 15 16 2 1.8 100 -40 85 100-BGA 296-18326-ND 19.14 16.10 14.79 TMS320F2806GGMA
10K 2K 4K — — 15 16 2 1.8 100 -40 125 100-BGA 296-18327-ND 21.12 17.76 16.32 TMS320F2806GGMS
10K 2K 4K — — 15 16 2 1.8 100 -40 85 100-LQFP 296-18328-ND 19.14 16.10 14.79 TMS320F2806PA
10K 2K 4K — — 15 16 2 1.8 100 -40 125 100-LQFP 296-18329-ND 21.12 17.76 16.32 TMS320F2806PS
10K 2K 4K — — 15 16 2 1.8 100 -40 85 100-BGA 296-18330-ND 19.14 16.10 14.79 TMS320F2806GMA
10K 2K 4K — — 15 16 2 1.8 100 -40 125 100-BGA 296-18331-ND 21.12 17.76 16.32 TMS320F2806GMS
12K 64K 8K — — 9 16 2 2 1 1.8 100 -40 85 100-LQFP 296-19599-ND 15.62 13.14 12.07 TMS320F2802PA
12K 64K 8K — — 9 16 2 2 1 1.8 100 -40 125 100-LQFP 296-19600-ND 17.27 14.53 13.35 TMS320F2802PS
12K 64K 8K — — 9 16 2 2 1 1.8 100 -40 85 100-BGA 296-19601-ND 15.62 13.14 12.07 TMS320F2802GMA
12K 64K 8K — — 9 16 2 2 1 1.8 100 -40 125 100-BGA 296-19602-ND 17.27 14.53 13.35 TMS320F2802GMS
12K 2K 8K x 16 — — 4 8 1 1 — 1.8 50 -40 105 38-TSSOP 296-27540-5-ND◆ NEW! 6.30 5.07 4.62 TMS320F28022DAT
12K 2K 8K x 16 — — 4 8 1 1 — 1.8 50 -40 105 48-LQFP 296-27541-ND◆ NEW! 6.58 5.29 4.82 TMS320F28022PTT
12K 2K 8K x 16 — — 4 8 1 1 — 1.8 60 -40 125 38-TSSOP 296-27293-5-ND◆ NEW! 7.13 5.85 5.28 TMS320F28026DAS
10K 1K 4K — — 19 16 — 1.8 100 -40 85 100-LQFP 296-21877-ND 21.89 18.41 16.92 TMS320F28044PA
10K 2K 8K x 16 — — 4 8 1 1 — 1.8 40 -40 105 38-TSSOP 296-27290-5-ND◆ NEW! 6.16 4.95 4.51 TMS320F28021DAT
10K 2K 8K x 16 — — 4 8 1 1 — 1.8 40 -40 105 48-LQPF 296-27291-ND◆ NEW! 6.44 5.18 4.72 TMS320F28021PTT
12K 2K 6K x 16 — — 4 8 1 1 — 1.8 50 -40 105 38-TSSOP 296-27220-ND◆ NEW! 6.86 5.52 5.03 TMS320F28023DAT
12K 2K 6K x 16 — — 4 8 1 1 — 1.8 50 -40 125 38-TSSOP 296-27292-5-ND◆ NEW! 6.50 5.33 4.81 TMS320F28023DAS
12K 2K 8K x 16 — — 4 8 1 1 1.8 60 -40 105 38-TSSOP 296-27294-5-ND◆ NEW! 7.13 5.85 5.28 TMS320F28027DAT
12K 2K 8K x 16 — — 3 16 1 1 — 1.8 60 -40 125 38-TSSPOP 296-27211-ND◆ NEW! 7.63 6.26 5.65 TMS320F28027DAS
12K 2K 8K x 16 — — 3 16 1 1 — 1.8 60 -40 105 48-LQFP 296-27212-ND◆ NEW! 7.38 6.05 5.46 TMS320F28027PTT
18K 2K 4K — — 15 16 2 1.8 100 -40 85 100-BGA 296-18332-ND 23.20 19.72 18.27 TMS320F2808GGMA
◆ RoHS Compliant ∆ Cut Tape ◊ Tape and Reel
®
For Digi-Reel ® information, please see page 71.
168 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Digital Signal Processors
®
TMS320C2000 Family (Cont.)
Flash RAM ROM Boot ROM
Operating
(16-Bit (16-Bit (16-Bit (16-Bit
PWM
Voltage Frequency Temperature
Digi-Key
Price Each
Texas Instruments
Word) Word) Word) Word) McBSP EMIF Timers Chan. SPI SCI CAN Core (MHz) (°C) Package Part No.
1 25 100 Part No.
18K 2K 4K — — 15 16 2 1.8 100 -40 125 100-BGA 296-18333-ND 25.60 21.76 20.16 TMS320F2808GGMS
18K 2K 4K — — 15 16 2 1.8 100 -40 85 100-LQFP 296-18334-ND 23.20 19.72 18.27 TMS320F2808PA
18K 2K 4K — — 15 16 2 1.8 100 -40 125 100-LQFP 296-18335-ND 25.60 21.76 20.16 TMS320F2808PS
18K 2K 4K — — 15 16 2 1.8 100 -40 85 100-BGA 296-18336-ND 23.20 19.72 18.27 TMS320F2808GMA
64K
18K 2K 4K — — 15 16 2 1.8 100 -40 125 100-BGA 296-18337-ND 25.60 21.76 20.16 TMS320F2808GMS
18K 1K 4K — — 15 16 4 2 2 1.8 100 -40 85 128-LQFP 296-15987-5-ND 27.70 23.55 21.82 TMS320F2810PBKA
18K 1K 4K x 16 — — 15 16 4 2 2 1.8 100 -40 85 128-LQFP 296-26859-ND◆ NEW! 30.50 25.93 24.02 TMS320F2810PBKS
18K 1K 4K — — 15 16 4 2 2 1.8 100 -40 125 128-LQFP 296-17277-ND 35.20 29.92 27.72 TMS320F2810PBKQ
18K 1K 4K — — 15 16 4 2 2 1.8 100 -40 85 128-LQFP 296-15988-5-ND 29.50 25.08 23.24 TMS320F2811PBKA
18K 1K 4K — — 15 16 4 2 2 1.8 100 -40 125 128-LQFP 296-17278-ND 37.50 31.88 29.54 TMS320F2811PBKQ
18K 1K 4K — 9 16 1 2 1.8 150 -40 125 176-LQFP 296-26860-ND◆ NEW! 34.70 29.50 27.33 TMS320F2812PGFS
18K 1K 4K — — 15 16 4 2 2 1.8 100 -40 85 100-BGA 296-21878-ND 25.90 22.02 20.40 TMS320F2809GGMA
18K 1K 4K — — 15 16 4 2 2 1.8 100 -40 85 100-LQFP 296-21879-ND 25.90 22.02 20.40 TMS320F2809PA
18K 1K 4K — — 15 16 4 2 2 1.8 100 -40 85 100-BGA 296-21880-ND 25.90 22.02 20.40 TMS320F2809GMA
128K 18K 1K 4K 4 16 2 1.8 150 -40 85 179-BGA 296-15989-5-ND 31.50 26.78 24.81 TMS320F2812GHHA
18K 1K 4K 4 16 2 1.8 150 -40 125 179-BGA 296-17279-ND◆ 37.00 32.00 30.00 TMS320F2812GHHQ
18K 1K 4K 4 16 2 1.8 150 -40 125 176-LQFP 296-17280-ND 37.00 32.00 30.00 TMS320F2812PGFQ
18K 2K 4K 7 16 2 1.9 150 -40 85 179-BGA 296-18338-ND 31.50 26.78 24.81 TMS320F2812HHA
18K 2K 4K 7 16 2 1.9 150 -40 125 179-BGA 296-18339-ND 34.70 29.50 27.33 TMS320F2812HHS
32K 1K 8K — 7 1 2 1.8 150 -40 85 128-LQFP 296-18916-ND 20.13 16.93 15.56 TMS320R2811PBKA
32K 1K 8K — 7 1 2 1.8 150 -40 125 128-LQFP 296-18917-ND 23.30 19.81 18.35 TMS320R2811PBKQ
256K 32K 1K 8K — 7 1 2 1.8 150 -40 85 176-LQFP 296-18918-ND 21.30 18.11 16.78 TMS320R2812PGFA
32K 1K 8K — 7 1 2 1.8 150 -40 125 176-LQFP 296-18919-ND 27.10 23.04 21.35 TMS320R2812PGFQ
36K 2K 8K 4 16 2 1.9 150 -40 85 176-LQFP 296-15990-5-ND 31.50 26.78 24.81 TMS320F2812PGFA
68K 2K 8K 2 1 4 18 1 3 2 1.9 150 -40 85 176-LQFP 296-23871-ND 29.10 24.74 22.92 TMS320F28235PGFA
512K
68K 2K 8K 2 1 4 18 1 3 2 1.9 150 -40 85 176-LQFP 296-23660-ND 31.30 26.61 24.65 TMS320F28335PGFA
68K 2K 8K 2 1 4 18 1 3 2 1.9 150 -40 85 179-BGA 296-22069-ND 31.30 26.61 24.65 TMS320F28335HHA
68K 2K 8K x 16 2 4 18 1 — 2 1.9 150 -40 105 20-VQFN 296-25723-ND NEW! 74.25 66.38 63.00 SM320F28335GJMEP
1024K 18K 16K 64K — — 3 16 4 2 2 1.8 100 -55 125 100-LQFP 296-22218-ND◆ NEW! 40.77 35.27 33.06 SM320F2808PMEP
Delfino Microcontroller — RoHS Compliant
—
130K — 8K 2 3 6 2 3 2 1.1 200 -40 105 179-BGA 296-24215-ND 27.00 22.95 21.27 TMX320C28343HH
258K — 8K 2 3 6 2 3 2 1.2 300 -40 105 256-BGA 296-24216-ND 39.40 33.49 31.03 TMX320C28346EP
512K
34K 2K 8K x 16 2 4 18 1 — 2 1.9 150 -40 85 179-BGA 296-25243-ND NEW! 37.00 32.00 30.00 SM320F28335GHHAEP
64K 2K 8K x 16 2 4 18 1 — 2 1.9 150 -40 125 176-HLQFP 296-24955-ND NEW! 74.25 66.38 63.00 SM320F28335PTPMEP
◆ RoHS Compliant ∆ Cut Tape ◊ Tape and Reel
C
TMS470 Family
The TMS470 is derived rom the 32-it ARM7TDMI® core. This industry standard architecture includes two instruction
sets, a 32-it instructions or ast execution and 16-it instructions or hih code density. It allows unlimited switchin
◆ RoHS Compliant
between instruction sets and also provides run time decompression. Typical applications include industrial systems,
medical instrumentation, consumer electronics, data processing and many other general purpose embedded applications.
Flash RAM Timer
I/O Frequency
Digi-Key
Price Each
Texas Instruments
(KB) (KB) Channels ADC SPI SCI CAN2 3.3V (MHz) Package Part No.
1 25 100 Part No.
TMS470R1x
64 8 13 8 Ch, 10-Bit 2 2 SCC 40 48 80-LQFP 296-19270-ND 11.13 9.13 8.24 TMS470R1A64PNT
128 8 16 16 Ch, 10-Bit 2 2 SCC 50 48 100-LQFP 296-19267-ND 12.00 9.84 8.88 TMS470R1A128P-T
256 12 16 16 Ch, 10-Bit 2 2 SCC 50 48 100-LQFP 296-17754-ND 12.89 10.85 9.97 TMS470R1A256P
256 12 16 16 Ch, 10-Bit 2 2 SCC 50 48 100-LQFP 296-19268-ND 12.76 10.73 9.86 TMS470R1A256P-T
288 16 12 12 Ch, 10-Bit 2 2 SCC 57 48 144-LQFP 296-18723-ND◆ 14.96 12.58 11.56 TMS470R1A288PGEA
288 16 12 12 Ch, 10-Bit 2 2 SCC 57 48 144-LQFP 296-21881-ND 14.96 12.58 11.56 TMS470R1A288PGET
288 16 12 12 Ch, 10-Bit 2 2 SCC 57 48 100-LQFP 296-21882-ND 14.30 12.03 11.05 TMS470R1A288P-T
384 32 16 12 Ch, 10-Bit 2 2 SCC 94 48 144-LQFP 296-18724-ND 17.05 14.34 13.18 TMS470R1A384PGET
384 32 16 12 Ch, 10-Bit 2 2 SCC 94 48 100-LQFP 296-19292-ND◆ 16.39 13.79 12.67 TMS470R1A384P-T
512 32 32 16 Ch, 10-Bit 3 2 HECC 86 60 144-LQFP 296-19855-ND◆ 19.80 16.65 15.30 TMS470R1B512PGET
768 48 32 16 Ch, 10-Bit 5 2 HECC 87 60 144-LQFP 296-19271-ND 25.90 22.02 20.40 TMS470R1B768PGE
768 48 32 16 Ch, 10-Bit 5 2 HECC 87 60 144-LQFP 296-19335-ND 23.90 20.32 18.83 TMS470R1B768PGET
1000 64 16 12 Ch, 10-Bit 2 3 HECC 93 60 144-LQFP 296-18591-ND 27.70 23.55 21.82 TMS470R1B1MPGEA
NEW! TMS570LS Family
The TMS570LS Family interates the ARM® Cortex -R4F Floatin Point CPU which oers an eicient 1.6DMIPS/MHz, and has coniurations which can run up to 16MHz providin more than 250DMIPs. The TMS570LS series also provides dierent
Flash 1MB or 2MB and data SRAM 128KB or 160KB options with sinle it error correction and doule it error detection.
Flash
RAM
(KB) FlexRay ADC SPI SCI CAN I/O
Frequency
(MHz)
Package
Digi-Key
Part No.
Price Each
1 25 100
Texas Instruments
Part No.
2MB 160 2-Ch. 2 x 12-Bit 3 2 2 3.3V 140 144-LQPF 296-27256-ND 71.12 63.58 60.34 X5LS20216ASPGEQQ1
2MB 160 2-Ch. 2 x 12-Bit 3 2 2 3.3V 160 337-NFBGA 296-27257-ND 72.27 64.61 61.32 X5LS20216ASWTQQ1
DSP Starter Kits
A wide variety o DSP oards and development its are availale rom TI and TIs
third party network. Products include development boards, evaluation modules,
hardware/sotware undles and DSP Starter Kits DSKs desined to accelerate
the application design process from concept through production. DSP Starter
Kits are undled with a DSK-version o TIs Code Composer Studio Development
Tools. These provide an excellent platorm to evaluate TI DSP and development
tools, quickly develop prototypes, demos and proof-of-concept applications at a
very affordable getting started price.
Kit Contents:
Development Board Parallel PC Cale US Power Supply CD-ROM
con tainin documentation and DSK version o Code Composer Studio
TMDSED2407 EzDSP version o Code Composer Studio
Digi-Key
Part No.
Price
Each
Texas Instruments
Part No.
296-23057-ND 154.72 TMDSADP1420
296-23051-ND 101.24 TMDSADP1460
296-23054-ND 155.76 TMDSDSK33
296-23050-ND 514.01 TMDSDSK5509
296-15827-ND 410.17 TMDSDSK5510
296-15829-ND 410.17 TMDSDSK5416
296-23038-ND 514.01 TMDSDSK6416-T
296-23036-ND 617.85 TMDSDSK6455
296-15831-ND 410.17 TMDSDSK6713
296-23541-ND 61.27 TMDSCNCD2808
296-23543-ND 92.42 TMDSDOCK2808
296-23048-ND 1495.10 TMDSEMUUSB
296-23043-ND 2999.19 TMDSEMU560U
296-15828-ND 358.25 TMDSED2407
296-23002-ND 495.02 TMDSEZS2812
Digi-Key
Part No.
Price
Each
Texas Instruments
Part No.
296-23055-ND 410.17 TMDSEZD2812
296-23058-ND 1995.13 TMDSEVM642
296-23035-ND 2495.16 TMDSEVM6446
296-23039-ND 2495.16 TMDSEVM6446-0E
296-23049-ND 623.04 TMDSSUBALL
296-23122-ND 1295.06 TMDXDVP648
296-25251-ND NEW! 1001.00 TMDXEVM3517
296-23045-ND 514.01 TMDXE28044
296-23046-ND 3602.19 TMDSCCSALL-1
296-23056-ND 514.01 TMDSSUB2000
296-23542-ND 71.65 TMDSCNCD28335
296-23544-ND 102.80 TMDSDOCK28335
296-23855-ND 514.01 TMDSE28335
296-24848-ND NEW! 850.70 TMDXOSKL138BET
296-24231-ND 362.40 TMDSENRGKIT
296-24600-ND NEW! 997.00 TMDSMEVM3530-L
Digi-Key
Part No.
Price
Each
Texas Instruments
Part No.
296-24649-ND NEW! 389.40 TMDXMDKDS3254
296-24650-ND NEW! 410.17 TMDXMDKPO8328
296-24651-ND NEW! 466.24 TMDXMDKEK1258
296-27261-ND NEW! 1150.00 TMDXEVM1808L
296-24965-ND NEW! 50.88 TMDX5505EDSP
296-25752-ND NEW! 82.03 TMDX5515EDSP
296-25753-ND NEW! 410.17 TMDXEVM5515
296-25247-ND NEW! 383.17 TMDS1MTRPFCKIT
296-25248-ND NEW! 414.32 TMDS2MTRPFCKIT
296-25286-ND NEW! 514.01 TMDSCCS-MCUN01
296-27452-ND NEW! 82.03 TMDXBDKFP5515
296-27528-ND NEW! 393.55 TMDSDCDCLEDKIT
296-27530-ND◆ NEW! 846.70 TMDXEVM1707
296-27531-ND NEW! 82.03 TMDX570LS20SUSB
296-27567-ND◆ NEW! 462.09 TMDXEXP1808L
◆ RoHS Compliant
®
For Digi-Reel ® information, please see page 71.
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
169
169

eXpressDSP Code Composer Studio
CCStudio’s comprehensive, integrated development environment brings complete build and debug tooling,
world-class compilers and industry unique analysis and visualization capabilities via JTAG Real-Time
Data Exchange (RTDX) to quickly find and fix problems. The real-time foundation provided by TI’s DSP/
BIOS kernel, RTDX and TI’s simulation capabilities, offers key features such as real-time analysis
and advanced data and system visualization, which results in the highest level of host/target integration in
the DSP industry. In addition, CCStudio is engineered around an open plug-in architecture that enables
developers to integrate additional third-party plug-in tools to customize their development environment for
specific project requirements. Includes: • C/C++ compiler, assembler and linker (code generation tools)
with C++, UML, MATLAB and VAB support in compiler CCStudio Key Features: • Integrated development
environment with tightly integrated editor, debugger, visual project management system, profiler and Probe
oints dvanced watch windows, local and global variable windows and proler capabilities pdate
dvisor - live update capability for the latest tools, drivers and software releases Real-Time ata Exchange
RT between host and target Real-time analysis and data visualization tools ile I/O robe oints
and graphical algorithm scope probes In teractive proling and advanced graphical signal analysis E
function support for automation activities such as regression testing utomated testing and customization
via scripting Multi-processor debugging Minimum System Requirements: • 233MHz or higher Pentium
compatible C 6M of free hard dis space 64M of RM S 8 x 6 display Internet
Explorer 4. or later or etscape avigator 4. or later ocal C-ROM drive Supported Operating
Systems for Code Composer Studio: • Micro soft indows 8 S1 and SE Micro soft indows T S6
Micro soft indows 2 S1 and S2 Microsoft indows
C
Description
Digi-Key
Part No.
Price
Each
Texas Instruments
Part No.
C6000 Code Composer Studio Software for 320C6X 296-16633-ND 3181.58 TMDSCCS6000-1
C2000 Code Composer Studio Software for 320C2X 296-16632-ND 514.01 TMDSCCS2000-1
5-6K Interface Evaluation Module
The interface board consists of two signal conditioning sites, two serial EVM sites and a parallel EVM site. Three position screw terminals J1 and J2 and two position screw terminals J6, J8, J9 and J11 provides access to a
common power bus routed to all sites. The 5-6K Interface board is intended to provide Data Converter customers with the greatest amount of flexibility for the evaluation of Data Acquisition Products from Texas Instruments.
It maintains a compatible interface with the TMS320 Series (DSP). Features: • rovides all necessary voltages for device under test it cloc for codecs lexible interface to popular TI S’s eneral codec
requirements are addressed
296-18350-ND ............................................................................................................................................................................................................................ $50.00
Emulator Kits
Starter Kit for TMS320C6416 DSP
Hardware Features: Texas Instruments TMS2C6416 S operating at 1Hz T2IC2 codec
2M x 64 on board SRM 512K bytes of on board lash ROM Software Features: TMS2C6416
specific Code Composer Studio from Texas Instruments Test/sample code provided to reduce coding time
Includes TMS2C6416 1Hz SK oard Code Composer Studio for C6416 SK S Cable C
ower Cords and ower Supply uic Start uide Technical Reference includes schematics Customer
Support Guide
701891-ND ................................................................................................ $579.38
Starter Kit for TMS320C6713
Hardware Features: Texas Instruments TMS2C61 S operating at 225MHz T2IC codec
2M x 2 on board SRM 512K bytes of on board lash ROM Software Features: TMS2C61 SK
specific Code Composer Studio from Texas Instruments Test/sample code provided to reduce coding time
Includes TMS2C61 SK oard Code Composer Studio for C61 SK S Cable C ower
Cords and ower Supply uic Start uide Technical Reference includes schematics Customer
Support Guide
701895-ND ................................................................................................ $466.88
Emulator XDS510 USB JTAG 14 pin
Hardware Features: Supports Texas Instruments igital Signal rocessors and Microcontrollers with T
interface Includes S51 S T Emulator S Cable C-ROM with drivers
701900-ND ............................................................................................... $989.00
Emulator C2000 Series XDS510LC JTAG
Hardware Features: Supports Texas Instruments C2 igital Signal rocessors with T interface
Includes C2 Series S51C T Emulator S cable C-ROM with drivers
701902-ND ................................................................................................ $280.13
Emulator XDS510 USB JTAG with 14 pin Target Adapter Cable
Hardware Features: S bus powered Supports Texas Instruments igital Signal rocessors and Microcontrollers
with JTAG interface: F24xx, F28xx, C54xx, C55xx, C67xx, C672x, C62xx, C641x, C642x, C645x,
DM64x, DaVinci, DM355, TMS470, TMS570, OMAP Includes S51 S lus T Emulator
14-pin Target dapter Cable S Cable C-ROM with drivers
701905-ND ............................................................................................... $1495.00
Emulator XDS510 USB Galvanic JTAG
Hardware Features: Supports Texas Instruments igital Signal rocessors and Microcontrollers with T
interface: F24xx, F28xx, C54xx, C55xx, C67xx, C672x, C62xx, C641x, C642x, C645x, DM64x, DaVinci,
M55, TMS4, TMS5, OM S us powered Includes S51 S alvanic T Emulator
S Cable C-ROM with drivers
701910-ND ............................................................................................... $1995.00
TMS320DM355 Digital Video Evaluation Module
Hardware Features: Texas Instruments TMS2M55 rocessor operating at 216MHz One ideo input
port, supports composite or S ideo One Composite ideo C output 128 Mbytes R2 RM
Two bytes lash Two S/MMC card interfaces or One S/MMC and CE-T dis drive interface
IC Stereo Codec Software Features: Compatible with Code Composer Studio Software
Included in Kit: Montaista ro emonstration Tools TI epressS inux ased SK Includes:
TMS2M55 EM 5 ower Supply with ine Cords RS-22 Cable Ethernet Cable niversal IR
Remote Control EM Setup uide Technical Reference EM etting Started uide
702065-ND ................................................................................................ $579.38
DM6437 Digital Video Development Platform
Hardware Features: Texas Instruments TMS2M64 S operating up to 6MHz One T5146M2
ideo ecoder our video C outputs 128 Mbytes of R2 RM 16 Mbytes of lash memory, 64
Mbytes lash, 2 Mbytes SRM IC stereo codec 12C interface 1/1 Ethernet Interface
Software Features: Compatible with Code Composer Studio . Software Included in Kit: oard Specic
version of Code Composer Studio Codec Engine Codec evaluation including H.264, ME-4, .11
etwor eveloper’s Kit K Evaluation Real-time TC/I stac C-based demo video application and
sample udio/ideo iles SoC nalyzer for system-level tuning and optimization ideo, Imaging, udio,
and Speech Codecs Includes TMS2M64 EM oard 5 ower Supply with ine Cords Technical
Reference manual S Cable Ethernet Cable oard Software oard Support ibrary
702075-ND ................................................................................................ $579.38
XDS560R USB JTAG Emulator with 20-pin CTI JTAG Header
Hardware Features: Supports Texas Instruments igital Signal rocessors and Microcontrollers with T
interface: F24xx, F28xx, C54xx, C55xx, C67xx, C672x, C62xx, C641x, C642x, C645x, DM64x, DaVinci,
DM355, TMS470, TMS570, OMAP Includes S56R S T Emulator with 2-pin CTI T
Header S Cable C-ROM with drivers
702560-ND ............................................................................................... $2498.99
XDS560R USB JTAG Emulator with 14-pin JTAG Header
Hardware Features: Supports Texas Instruments igital Signal rocessors and Microcontrollers with T
interface: F24xx, F28xx, C54xx, C55xx, C67xx, C672x, C62xx, C641x, C642x, C645x, DM64x, DaVinci,
DM355, TMS470, TMS570, OMAP Includes S56R S T Emulator with 14-pin T Header
S Cable C-ROM with drivers ower Supply
702562-ND ............................................................................................... $2498.99
eZdsp F2812 for TMS320F2812 DSP
Hardware Features: TMS22812 igital Signal rocessor in socet operating at 15MHz 18K on chip
RM 128K on chip lash ROM Compatible with edsp ire rap rototype Card Software Features:
Compatible with C2 Code Composer from Texas Instruments Compatible with Slash programming
utility from Spectrum Digital Includes edsp 2812 with S in socet ower Supply arallel port
cable C-ROM with edsp specific Code Composer for C2xxx C-ROM with sample code, manual and
schematics
761129-ND ................................................................................................ $527.63
eZdsp F2808 for TMS320F2808 DSP
Hardware Features: TMS2288 igital Signal Controller in socet, operating at 1MHz 64K words
on chip lash ROM 256K bits serial I2C EEROM memory Compatible with edsp ire rap rototype
Card Software Features: Compatible with C2 Code Composer from Texas Instruments Compatible
with SDFlash programming utility from Spectrum Digital Includes edsp 288 ower Supply S
Cable C-ROM with edsp specific Code Composer for C2xxx C-ROM with sample code, manual and
schematics
761132-ND ................................................................................................ $527.63
eZdsp F28335 Board
Hardware Features: TMS2285 igital Signal Controller in socet, operating at 15MHz On chip
2-bit floating point unit 68K bytes on-chip RM 512K bytes on-chip lash Memory Software Features:
edsp 285 Code Composer Studio SK Tools Compatible with Slash programming utility from
Spectrum Digital Includes edsp 285 oard edsp 285 Code Composer Studio SK tools S
Cable uic Start uide Technical Reference Manual 5 ower Supply with line cords
761135-ND ................................................................................................ $579.38
NEW! Emulator XDS100 USB JTAG
Hardware Features: Supports Texas Instruments Processors and Microcontrollers with JTAG interface:
F281x, F280x, F280xx, F2833x, C550x, C674X Software Features: Compatible with Code Compressor
Studio IDE Supports Code Compressor Studio C2 On-Chip flash rogrammer Compatible with
Windows 2000, XP, and Vista Included: S1 S T Emulator S cable uic Start uide
702300-ND ................................................................................................. $83.94
170 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

8032 Microcontroller Core
Flash Programmable System Devices
uPSD is a family of 8-bit microcontrollers built on an 8032 microcontroller core. uPSD features a flexible memory structure, programmable logic, and rich peripheral set that includes devices with USB and JTAG debug/
emulation. These, along with analog and supervisor functions, makes uPSD an ideal solution for a wide variety of embedded control applications.
Flash Size Main Flash SRAM Device Speed No. of Operating Timer/ Supply
Digi-Key
Price Each
STMicroelectronics
(Kbit) (Bytes) (Bytes) (MHz) I/O Pins Counters Voltage Package Part No.
1 10 100 Part No.
1K 128K 8K 40 37 3 5.0 52-TQFP 497-2367-ND 13.23 12.03 10.23 UPSD3233B-40T6
64K 4K 40 3 x 8 Bit 3 3 52-TQFP 497-5657-ND 7.16 6.45 5.31 UPSD3422EVB40T6
32K
128K 8K 40 3 x 8 Bit 3 3 52-TQFP 497-5661-ND 10.40 9.37 7.70 UPSD3433EVB40T6
32K 4K 40 35 3 3.3 52-TQFP 497-4904-ND 11.64 10.48 8.62 UPSD3422EV-40T6
64K
32K 4K 40 46 3 3.3 80-TQFP 497-4903-ND 10.07 9.07 7.46 UPSD3422E-40U6
32K 4K 40 46 3 3.3 80-TQFP 497-4905-ND 9.37 8.52 7.24 UPSD3422EV-40U6
32K 8K 40 46 3 3.3 80-TQFP 497-4893-ND 11.04 10.04 8.53 UPSD3333D-40U6
128K
32K 8K 40 35 3 3.3 52-TQFP 497-4908-ND 10.40 9.37 7.70 UPSD3433EV-40T6
32K 8K 40 46 3 3.3 80-TQFP 497-4896-ND 11.66 10.61 9.02 UPSD3334D-40U6
256K
32K 32K 40 37 3 3.3 52-TQFP 497-4898-ND 13.71 12.47 10.60 UPSD3354D-40T6
C
DK3400 Development Kit
To enhance the feature set of uPSD Turbo Family, the USB Microcontroller Development Kit DK3400 has been released from STMicroelectronics. The kit is a demo board for the uPSD3400 family which is a series of 8051
class microcontrollers (MCUs) that contain a fast Turbo Plus 8032 core with 16-bit code fetch path, full-speed USB port, a large Dual Bank Flash memory, a large SRAM, many peripherals, programmable logic and a JTAG
Debug/In System Programming (ISP) port.
The DK3400 kit consists of an ED3K4 module and DK3400 motherboard as well as all the items needed to explore the uPSD3400 MCU. There are also demonstration application examples along with an evaluation copy of
the tools needed to develop and compile code for the uPSD3400.
497-5218-ND (DK3400).............................................................................................................................................................................................................$259.00
Microcontrollers
For the mass market ST offers several families of microcontrollers, e.g. the ST6, ST7, STM8S20, ST9 and the
ST10 ranges, with the result that there is a ST microcontroller to suit every kind of application, from those where
minimum cost is the primary requirement to those that need powerful real-time performance and high-level
language support. ST also offers the innovative Programmable System Memory (FlashPSD, DSM) products,
ST6 8-Bit
which combine memory functions such as Flash, EEPROM and SRAM with programmable logic on a single
chip. Designed to interface with all standard microcontrollers to provide a complete system implementation,
Programmable System Memories can be quickly and easily programmed without special manufacturing
equipment, even in the field.
Program
Number
Operating Operating
Memory / Type RAM
of
Supply Temperature
Digi-Key
Price Each
STMicroelectronics
(Bytes) (Bytes) Timers I/O Pins
A/D
Voltage
Range Package Part No.
1 10 100 Part No.
1K / OTP 64 Yes 9 4-Ch., 8-Bit . ~ 6. -4C ~ 85C 16-DIP 497-2093-5-ND◆ 2.93 2.65 2.13 ST62T00CB6
1K / OTP 64 Yes 9 4-Ch., 8-Bit . ~ 6. -4C ~ 125C 16-SOP 497-8232-ND◆ 2.90 2.72 2.18 ST62T03CM3
1K / OTP 64 Yes 9 4-Ch., 8-Bit . ~ 6. -4C ~ 125C 16-SOP 497-8233-ND◆ 2.30 2.08 1.67 ST62T03CM6
2K / OTP 64 Yes 9 4-Ch., 8-Bit . ~ 6. -4C ~ 85C 16-DIP 497-2094-5-ND◆ 3.10 2.77 2.27 ST62T01CB6
2K / OTP 64 Yes 9 4-Ch., 8-Bit . ~ 6. -4C ~ 85C 16-SOIC 497-2095-5-ND 3.26 2.92 2.39 ST62T01CM6
2K / OTP 64 Yes 9 4-Ch., 8-Bit . ~ 6. -4C ~ 125C 16-SOP 497-8246-ND◆ 3.35 3.00 2.46 ST62T01CM3
2K / OTP 64 Yes 12 8-Ch., 8-Bit . ~ 6. -4C ~ 85C 20-DIP 497-2096-5-ND◆ 4.21 3.76 3.09 ST62T10CB6
3K / OTP 128 Yes 21 13-Ch., 8-Bit . ~ 6. -4C ~ 85C 28-SOIC 497-2103-5-ND◆ 6.46 5.82 4.79 ST62T65CM6
3K / OTP 128 Yes 13 7-Ch., 8-Bit . ~ 6. -4C ~ 85C 20-SOIC 497-2102-5-ND◆ 6.87 6.13 5.03 ST62T60CM6
4K / OTP 64 Yes 12 8-Ch., 8-Bit . ~ 6. -4C ~ 85C 20-DIP 497-2098-5-ND◆ 5.38 4.80 3.94 ST62T20CB6
4K / OTP 64 Yes 12 8-Ch., 8-Bit . ~ 6. -4C ~ 85C 20-SOIC 497-2099-5-ND◆ 5.38 4.80 3.94 ST62T20CM6
4K / OTP 64 Yes 20 16-Ch., 8-Bit . ~ 6. -4C ~ 85C 28-DIP 497-2100-5-ND◆ 5.85 5.23 4.29 ST62T25CB6
SOT23-5 497-8385-1-ND◆† 2.17 1.86 1.52 STM6822YWY6F
Supervisor with Watchdog Timer and Push-Button Reset
SOT23-5 497-8385-2-ND◆‡ 2511.00/3,000 STM6822YWY6F
◆ RoHS Compliant † Cut Tape ‡ Tape and Reel
®
ST7 8-Bit
Flash RAM
Number of
Operating Operating
Digi-Key
Price Each
STMicroelectronics
(Bytes) (Bytes) Timers I/O Pins
A/D Supply Voltage Temperature Range Package Part No.
1 10 100 Part No.
128 Yes 13 5-Ch., 8-Bit 2.4 ~ 5.5 -4C ~ 85C 16-DIP 497-4860-ND◆ 2.33 2.10 1.69 ST7FLITES2Y0B6
128 Yes 13 5-Ch., 8-Bit 2.4 ~ 5.5 -4C ~ 85C 16-DIP 497-4862-ND◆ 2.42 2.19 1.76 ST7FLITES5Y0B6
1K
128 Yes 13 5-Ch., 8-Bit 2.4 ~ 5.5 -4C ~ 85C 16-SOIC 497-4863-ND◆ 2.42 2.19 1.76 ST7FLITES5Y0M6
128 Yes 5 5-Ch., 10-Bit 2. ~ 5.5 -4C ~ 85C 8-DIP 497-5636-5-ND◆ 1.51 1.37 1.10 ST7FLITEUS5B6
128 Yes 5 5-Ch., 10-Bit 2. ~ 5.5 -4C ~ 85C 8-DFN 497-5638-1-ND◆† 1.57 1.35 1.10 ST7FLITEUS5U6/TR
128 Yes 5 5-Ch., 10-Bit 2. ~ 5.5 -4C ~ 85C 8-DFN 497-5638-2-ND◆‡ 2229.00/3,000 ST7FLITEUS5U6/TR
128 Yes 13 5-Ch., 8-Bit 2.4 ~ 5.5 -4C ~ 85C 16-DIP 497-4852-ND◆ 2.57 2.33 1.87 ST7FLITE02Y0B6
1.5K
128 Yes 13 5-Ch., 8-Bit 2.4 ~ 5.5 -4C ~ 85C 16-SOIC 497-9030-5-ND◆ NEW! 2.80 2.50 2.05 ST7FLITE05Y0M6
128 Yes 13 5-Ch., 8-Bit 2.4 ~ 5.5 -4C ~ 85C 16-DIP 497-5632-5-ND◆ 3.25 2.91 2.39 ST7FLITE09Y0B6
128 Yes 13 5-Ch., 8-Bit 2.4 ~ 5.5 -4C ~ 85C 16-SOIC 497-5633-5-ND◆ 3.25 2.91 2.39 ST7FLITE09Y0M6
2K
256 Yes 17 7-Ch., 10-Bit 2. ~ 5.5 -4C ~ C 20-Dip 497-5626-5-ND◆ 3.81 3.40 2.79 ST7FLIT19BF1B6
256 Yes 17 7-Ch., 10-Bit 2. ~ 5.5 -4C ~ C 20-SOIC 497-5627-5-ND◆ 3.81 3.40 2.79 ST7FLIT19BF1M6
256 Yes 22 6-Ch., 8-Bit .2 ~ 5.5 -4C ~ 85C 28-SOIC 497-8234-5-ND◆ 6.61 5.90 4.84 ST72C104G1M6
256 Yes 22 6-Ch., 10-Bit 2. ~ 5.5 -4C ~ 85C 28-SOIC 497-4840-ND◆ 5.21 4.65 3.82 ST72F260G1M6
256 Yes 22 6-Ch., 10-Bit 2. ~ 5.5 -4C ~ 85C 28-SOIC 497-5581-5-ND◆ 4.68 4.18 3.43 ST72F262G1M6
4K 256 Yes 22 6-Ch., 10-Bit 2.4 ~ 5.5 -4C ~ 85C 28-SOIC 497-2105-5-ND 6.44 5.75 4.72 ST72F264G1M6
256 Yes 17 7-Ch., 10-Bit 2. ~ 5.5 -4C ~ 85C 16-SOIC 497-8245-5-ND◆ 3.16 2.83 2.32 ST7FLIT15BY1M6
256 Yes 17 7-Ch., 10-Bit 2. ~ 5.5 -4C ~ C 16-DIP 497-5629-5-ND◆ 3.50 3.13 2.57 ST7FLIT19BY1B6
256 Yes 17 7-Ch., 10-Bit 2. ~ 5.5 -4C ~ C 16-SOIC 497-5630-5-ND◆ 2.86 2.56 2.10 ST7FLIT19BY1M6
◆ RoHS Compliant † Cut Tape ‡ Tape and Reel (Continued)
®
For Digi-Reel ® information, please see page 71.
More Product Available Online: www.digikey.com
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Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
171
®
171

Microcontrollers
ST7 8-Bit (Cont.)
®
C
Flash
(Bytes)
4K
8K
16K
32K
48K
60K
RAM
Number of
Operating Operating
Digi-Key
Price Each
STMicroelectronics
(Bytes) Timers I/O Pins
A/D Supply Voltage Temperature Range Package Part No.
1 10 100 Part No.
256 Yes 15 7-Ch., 10-Bit 2.4 ~ 5.5 -4C ~ 85C 20-SOIC 497-4855-ND◆ 4.06 3.63 2.98 ST7FLITE15F1M6
256 Yes 15 7-Ch., 10-Bit 2.4 ~ 5.5 -4C ~ 85C 20-SOIC 497-2133-5-ND 4.37 3.90 3.20 ST7FLITE19F1M6
384 Yes 32 12-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 32-SDIP 497-5609-5-ND◆ 3.81 3.40 2.79 ST72F32AK1B6
384 Yes 19 — 4. ~ 5.5 C ~ C 24-SOIC 497-5620-5-ND◆ 2.64 2.38 1.92 ST72F60E1M1
384 Yes 19 — 4. ~ 5.5 C ~ C 40-QFN 497-5622-1-ND◆† 2.68 2.31 1.88 ST72F60K1U1TR
384 Yes 19 — 4. ~ 5.5 C ~ C 40-QFN 497-5622-2-ND◆‡ 3327.00/3,000 ST72F60K1U1TR
256 Yes 22 6-Ch., 8-Bit .2 ~ 5.5 -4C ~ 125C 28-SOIC 497-8235-5-ND◆ 9.98 9.60 7.30 ST72C254G2M3
256 Yes 22 6-Ch., 10-Bit 2. ~ 5.5 -4C ~ 85C 28-SOIC 497-4841-ND 5.29 4.73 3.88 ST72F262G2M6
256 Yes 22 6-Ch., 10-Bit 2. ~ 5.5 -4C ~ 85C 32-DIP 497-5570-ND◆ 6.06 5.42 4.45 ST72F264G2B6
256 Yes 22 6-Ch., 10-Bit 2.4 ~ 5.5 -4C ~ 85C 28-SOIC 497-2106-5-ND◆ 6.06 5.42 4.45 ST72F264G2M6
384 Yes 32 12-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 32-TQFP 497-5610-ND◆ 3.81 3.40 2.79 ST72F32AK2T6
384 Yes 19 — 4. ~ 5.5 C ~ C 24-SOIC 497-5621-5-ND◆ 3.04 2.75 2.21 ST72F60E2M1
384 Yes 27 8-Bit 4. ~ 5.5 C ~ C 24-SOIC 497-5624-5-ND◆ 3.61 3.23 2.65 ST72F63BE2M1
384 Yes 32 12-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 44-LQFP 497-5588-ND◆ 4.56 4.08 3.35 ST72F324BJ2T6
384 Yes 32 12-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 32-SDIP 497-5591-5-ND◆ 4.31 3.85 3.16 ST72F324BK2B6
384 Yes 32 12-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 32-LQFP 497-8240-ND◆ 4.70 4.20 3.45 ST72F324BK2T3
384 Yes 32 12-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 32-LQFP 497-5592-ND◆ 4.06 3.63 2.98 ST72F324BK2T6
384 Yes 32 12-Ch., 10-Bit .8 ~ 5.5 -4C ~ 85C 44-TQFP 497-4847-ND◆ 5.01 4.47 3.67 ST72F324J2T6
384 Yes 32 12-Ch., 10-Bit .8 ~ 5.5 -4C ~ 85C 32-TQFP 497-4850-ND◆ 5.46 4.88 4.00 ST72F324K2T6
384 Yes 32 12-Ch., 10-Bit 2.85 ~ .6 -4C ~ 85C 44-LQFP 497-8242-ND◆ 4.42 3.95 3.24 ST72F324LJ2T5
384 Yes 32 12-Ch., 10-Bit 2.85 ~ .6 -4C ~ 85C 32-LQFP 497-5598-ND◆ 6.16 5.50 4.51 ST72F324LK2T6
384 Yes 23 8-Ch., 10-Bit 4. ~ 5.5 C ~ C 34-SOIC 497-2113-5-ND◆ 5.61 5.01 4.11 ST72F622L2M1
384 Yes 15 7-Ch., 10-Bit 2.4 ~ 5.5 -4C ~ 85C 20-SOIC 497-2131-5-ND◆ 5.46 4.88 4.00 ST7FDALIF2M6
384 Yes 15 12-Ch., 10-Bit 2.4 ~ 5.5 -4C ~ 85C 20-DIP 497-4856-ND◆ 4.31 3.85 3.16 ST7FLITE20F2B6
384 Yes 15 12-Ch., 10-Bit 2.4 ~ 5.5 -4C ~ 85C 20-DIP 497-4858-ND◆ 4.48 4.00 3.28 ST7FLITE25F2B6
384 Yes 15 12-Ch., 10-Bit 2.4 ~ 5.5 -4C ~ 85C 20-SOIC 497-4859-ND◆ 4.48 4.00 3.28 ST7FLITE25F2M6
384 Yes 15 7-Ch., 10-Bit 2.4 ~ 5.5 -4C ~ 85C 20-SOIC 497-2135-5-ND 4.82 4.30 3.53 ST7FLITE29F2M6
384 Yes 15 7-Ch., 10-Bit 2.4 ~ 5.5 -4C ~ 85C 20-DIP 497-2134-5-ND◆ 5.40 4.82 3.96 ST7FLITE29F2B6
512 Yes 32 12-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 32-SDIP 497-5593-5-ND◆ 4.79 4.28 3.51 ST72F324BK4B6
512 Yes 32 12-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 32-LQFP 497-8241-ND◆ 5.26 4.70 3.86 ST72F324BK4T3
512 Yes 32 12-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 32-LQFP 497-5594-ND◆ 4.56 4.08 3.35 ST72F324BK4T6
512 Yes 32 12-Ch., 10-Bit .8 ~ 5.5 -1C ~ 85C 42-DIP 497-4848-ND◆ 6.75 6.03 4.95 ST72F324J4B5
512 Yes 32 12-Ch., 10-Bit .8 ~ 5.5 -4C ~ 85C 44-TQFP 497-4849-ND◆ 6.61 5.90 4.84 ST72F324J4T6
512 Yes 32 12-Ch., 10-Bit .8 ~ 5.5 -4C ~ 85C 32-TQFP 497-4851-ND◆ 6.44 5.75 4.72 ST72F324K4T6
512 Yes 48 16-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 44-TQFP 497-5601-ND◆ 5.57 4.98 4.08 ST72F325J4T6
512 Yes 48 16-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 32-LQFP 497-5605-ND◆ 5.32 4.75 3.90 ST72F325K4T6
768 Yes 31 8-Ch., 10-Bit 4. ~ 5.5 C ~ C 44-TQFP 497-2111-ND◆ 9.25 8.33 6.85 ST72F621J4T1
768 Yes 31 8-Ch., 10-Bit 4. ~ 5.5 C ~ C 42-DIP 497-2110-5-ND 9.25 8.33 6.85 ST72F621J4B1
768 Yes 23 8-Ch., 10-Bit 4. ~ 5.5 C ~ C 34-SOIC 497-2112-5-ND◆ 7.53 6.78 5.57 ST72F621L4M1
768 Yes 35 — 4. ~ 5.5 C ~ C 24-SOIC 497-5639-5-ND◆ 8.15 7.34 6.04 ST7FSCR1E4M1
768 Yes 35 — 4. ~ 5.5 C ~ C 64-TQFP 497-5640-ND◆ 9.08 8.17 6.72 ST7FSCR1R4T1
768 Yes 60 16-Ch., 10-Bit 4.5 ~ 5.5 -4C ~ 85C 44-LQFP 497-4870-ND◆ NEW! 6.83 6.15 5.06 ST7FMC2S4T6
1K Yes 34 12-Ch., 10-Bit 2. ~ 5.5 -4C ~ 85C 32-LQFP 497-5611-ND◆ 4.41 3.94 3.24 ST72F344K4T6
1K Yes 32 12-Ch., 10-Bit .8 ~ 5.5 -4C ~ 85C 42-DIP 497-2107-5-ND 6.60 5.94 4.89 ST72F324J6B6
1K Yes 32 8-Ch., 10-Bit .8 ~ 5.5 -4C ~ 85C 32-LQFP 497-2109-ND◆ 6.26 5.64 4.64 ST72F324K6T6
1K Yes 48 16-Ch., 10-Bit 4.5 ~ 5.5 -4C ~ 125C 32-LQFP 497-5618-ND◆ 7.03 6.33 5.20 ST72F561K6T6
1024 Yes 27 8-Bit 4. ~ 5.5 C ~ C 40-QFN 497-5623-1-ND◆† 6.84 6.16 5.02 ST72F63BD6U1TR
1024 Yes 27 8-Bit 4. ~ 5.5 C ~ C 40-QFN 497-5623-2-ND◆‡ 9096.00/3,000 ST72F63BD6U1TR
1024 Yes 19 16/11-Ch., 10-Bit 4. ~ 5.5 C ~ C 32-SDIP 497-5873-ND◆ 6.68 6.02 4.95 ST72F63BK6B1
1024 Yes 48 16-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 32-LQFP 497-8238-ND◆ 5.32 4.75 3.90 ST72F321BK6T6
1024 Yes 48 16-Ch., 10-Bit .8 ~ 5.5 -4C ~ 85C 64-TQFP 497-4845-ND◆ 9.13 8.22 6.76 ST72F321R6T6
1024 Yes 32 12-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 42-SDIP 497-5589-5-ND◆ 5.74 5.13 4.21 ST72F324BJ6B6
1024 Yes 32 12-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 44-LQFP 497-5590-ND◆ 5.57 4.98 4.08 ST72F324BJ6T6
1024 Yes 32 12-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 32-SDIP 497-5595-5-ND◆ 5.32 4.75 3.90 ST72F324BK6B6
1024 Yes 32 12-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 32-LQFP 497-5596-ND◆ 5.07 4.53 3.72 ST72F324BK6T6
1024 Yes 32 12-Ch., 10-Bit 2.85 ~ .6 -4C ~ 85C 32-LQFP 497-5599-ND◆ 6.50 5.85 4.81 ST72F324LK6T6
1024 Yes 48 16-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 42-SDIP 497-5602-5-ND◆ 6.36 5.68 4.66 ST72F325J6B6
1024 Yes 48 16-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 32-LQFP 497-5606-ND◆ 5.57 4.98 4.08 ST72F325K6T6
1.5K Yes 48 16-Ch., 10-Bit 4.5 ~ 5.5 -4C ~ 125C 64-LQFP 497-5612-ND◆ 6.90 6.21 5.11 ST72F361AR6T6
1.5K Yes 48 16-Ch., 10-Bit 4.5 ~ 5.5 -4C ~ 125C 44-LQFP 497-5613-ND◆ 6.61 5.90 4.84 ST72F361J6T6
1.5K Yes 48 16-Ch., 10-Bit 4.5 ~ 5.5 -4C ~ 125C 32-LQFP 497-5614-ND◆ 5.99 5.35 4.39 ST72F361K6T6
1536 Yes 48 16-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 64-TQFP 497-8236-ND◆ 7.48 6.73 5.54 ST72F321AR7T6
1536 Yes 48 16-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 64-LQFP 497-8239-ND◆ 5.92 5.29 4.34 ST72F321BR7T6
1536 Yes 48 16-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 44-LQFP 497-8243-ND◆ 6.86 6.13 5.03 ST72F325J7T6
2K Yes 48 16-Ch., 10-Bit 4.5 ~ 5.5 -4C ~ 125C 32-LQFP 497-5615-ND◆ 6.35 5.72 4.70 ST72F361K9T6
2K Yes 48 16-Ch., 10-Bit 4.5 ~ 5.5 -4C ~ 125C 64-LQFP 497-5616-ND◆ 11.28 10.15 8.35 ST72F561AR9T6
2048 Yes 48 16-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 64-LQFP 497-5583-ND◆ 7.25 6.53 5.37 ST72F321BAR9T6
2048 Yes 48 16-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 44-LQFP 497-5585-ND◆ 6.76 6.09 5.01 ST72F321BJ9T6
2048 Yes 48 16-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 64-LQFP 497-5586-ND◆ 7.80 7.02 5.78 ST72F321BR9T6
2048 Yes 48 16-Ch., 10-Bit .8 ~ 5.5 -4C ~ 85C 44-TQFP 497-4844-ND◆ 9.19 8.28 6.81 ST72F321J9T6
2048 Yes 64 16-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 80-LQFP 497-5587-ND◆ 8.43 7.59 6.24 ST72F321M9T6
2048 Yes 48 16-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 64-TQFP 497-5600-ND◆ 7.48 6.73 5.54 ST72F325AR9T6
2048 Yes 48 16-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 44-TQFP 497-5604-ND◆ 6.35 5.72 4.70 ST72F325J9T6
2048 Yes 48 16-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 64-TQFP 497-5607-ND◆ 7.70 6.93 5.70 ST72F325R9T6
2048 Yes 64 16-Ch., 10-Bit .8 ~ 5.5 -4C ~ 125C 80-TQFP 497-8244-ND◆ 11.73 10.56 8.68 ST72F521M9T6
◆ RoHS Compliant † Cut Tape ‡ Tape and Reel
(Continued)
®
For Digi-Reel ® information, please see page 71.
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Microcontrollers (Cont.)
STM8 8-Bit
Internal
ROM Type
Flash
Internal Internal
Temperature Digi-Key
Price Each
STMicroelectronics
ROM Size RAM Size Connectivity I/O Ports Package Range Part No.
1 10 100 Part No.
8K 1K I 2 C, IrDA, LIN, SPI, UART/USART 28 32-LQFP -4C ~ 85C 497-8944-ND NEW! 2.26 2.05 1.65 STM8S903K3T6C
8K 1K I 2 C, IrDA, LIN, SPI, UART/USART 28 32-LQFP -4C ~ 85C 497-8945-ND NEW! 2.26 2.05 1.65 STM8S103K3T6C
8K 1.5K I 2 C, SPI, UART/USART 30 32-LQFP -4C ~ 85C 497-10036-ND NEW! 2.95 2.66 2.14 STM8L101K3T6
16K 2K I 2 C, IrDA, LIN, SPI, UART/USART 25 32-LQFP -4C ~ 85C 497-8947-ND NEW! 2.88 2.61 2.10 STM8S105K4T6C
16K 2K I 2 C, IrDA, LIN, SPI, UART/USART 34 44-LQFP -4C ~ 85C 497-8819-ND NEW! 2.83 2.53 2.08 STM8S105S4T6C
16K 2K I 2 C, IrDA, LIN, SPI, UART/USART 38 48-LQFP -4C ~ 85C 497-8818-ND NEW! 2.83 2.53 2.08 STM8S105C4T6
16K 2K I 2 C, SPI, USART 29 32-LQFP -4C ~ 85C 497-10511-ND NEW! 2.98 2.69 2.16 STM8L152K4T6
16K 2K I 2 C, SPI, USART 30 32-LQFP -4C ~ 85C 497-10515-ND NEW! 2.64 2.38 1.92 STM8L151K4T6
16K 2K I 2 C, SPI, USART 41 48-LQFP -4C ~ 85C 497-10513-ND NEW! 2.97 2.65 2.18 STM8L152C4T6
16K 2K I 2 C, SPI, USART 41 48-LQFP -4C ~ 85C 497-10517-ND NEW! 2.98 2.69 2.16 STM8L151C4T6
32K 2K I 2 C, IrDA, LIN, SPI, UART/USART 25 32-VFQFPN -4C ~ 85C 497-10123-ND NEW! 2.83 2.53 2.08 STM8S105K6U6
32K 2K I 2 C, IrDA, LIN, SPI, UART/USART 25 32-LQFP -4C ~ 85C 497-8948-ND NEW! 2.83 2.53 2.08 STM8S105K6T6C
32K 2K I 2 C, IrDA, LIN, SPI, UART/USART 38 48-LQFP -4C ~ 85C 497-8946-ND NEW! 3.14 2.80 2.30 STM8S105C6T6
32K 2K I 2 C, IrDA, LIN, SPI, UART/USART 34 44-LQFP -4C ~ 85C 497-8949-ND NEW! 3.14 2.80 2.30 STM8S105S6T6C
32K 2K CAN, I 2 C, IrDA, LIN, SPI, UART/USART 25 32-LQFP -4C ~ 85C 497-8510-ND 3.42 3.05 2.51 STM8S207K6T6C
32K 2K CAN, I 2 C, IrDA, LIN, SPI, UART/USART 25 32-LQFP -4C ~ 125C 497-8940-ND NEW! 3.92 3.50 2.87 STM8S207K6T3C
32K 2K CAN, I 2 C, IrDA, LIN, SPI, UART/USART 34 44-LQFP -4C ~ 85C 497-8955-ND NEW! 3.64 3.25 2.67 STM8S207S6T6C
32K 2K CAN, I 2 C, IrDA, LIN, SPI, UART/USART 34 44-LQFP -4C ~ 125C 497-10122-ND NEW! 4.20 3.75 3.08 STM8S207S6T3C
32K 2K CAN, I 2 C, IrDA, LIN, SPI, UART/USART 38 48-LQFP -4C ~ 85C 497-8950-ND NEW! 3.64 3.25 2.67 STM8S207C6T6
32K 2K CAN, I 2 C, IrDA, LIN, SPI, UART/USART 52 64-LQFP -4C ~ 85C 497-8953-ND NEW! 3.95 3.53 2.90 STM8S207R6T6
32K 2K I 2 C, SPI, USART 29 32-LQFP -4C ~ 85C 497-10510-ND NEW! 3.00 2.68 2.20 STM8L152K6T6
32K 2K I 2 C, SPI, USART 30 32-LQFP -4C ~ 85C 497-10514-ND NEW! 2.91 2.64 2.12 STM8L151K6T6
32K 2K I 2 C, SPI, USART 41 48-LQFP -4C ~ 85C 497-10512-ND NEW! 3.22 2.88 2.36 STM8L152C6T6
32K 2K I 2 C, SPI, USART 41 48-LQFP -4C ~ 85C 497-10516-ND NEW! 2.86 2.55 2.10 STM8L151C6T6
64K 4K CAN, I 2 C, IrDA, LIN, SPI, UART/USART 34 44-LQFP -4C ~ 85C 497-8956-ND NEW! 3.95 3.53 2.90 STM8S207S8T6C
64K 4K CAN, I 2 C, IrDA, LIN, SPI, UART/USART 38 48-LQFP -4C ~ 85C 497-8951-ND NEW! 3.95 3.53 2.90 STM8S207C8T6
64K 4K CAN, I 2 C, IrDA, LIN, SPI, UART/USART 52 64-LQFP -4C ~ 85C 497-8954-ND NEW! 4.20 3.75 3.08 STM8S207R8T6
64K 4K CAN, I 2 C, IrDA, LIN, SPI, UART/USART 52 64-LQFP -4C ~ 125C 497-8941-ND NEW! 4.84 4.33 3.55 STM8S207R8T3
128K 4K CAN, I 2 C, IrDA, LIN, SPI, UART/USART 34 44-LQFP -4C ~ 85C 497-8942-ND NEW! 4.09 3.65 3.00 STM8S207SBT6C
128K 6K CAN, I 2 C, IrDA, LIN, SPI, UART/USART 38 48-LQFP -4C ~ 85C 497-8509-ND 4.56 4.08 3.35 STM8S207CBT6
128K 6K CAN, I 2 C, IrDA, LIN, SPI, UART/USART 38 48-LQFP -4C ~ 85C 497-8943-ND NEW! 4.45 3.98 3.26 STM8S208CBT6
128K 6K CAN, I 2 C, IrDA, LIN, SPI, UART/USART 52 64-LQFP -4C ~ 85C 497-8508-ND 5.01 4.48 3.67 STM8S207RBT6
128K 6K CAN, I 2 C, IrDA, LIN, SPI, UART/USART 52 64-LQFP -4C ~ 85C 497-8957-ND NEW! 5.46 4.88 4.00 STM8S208RBT6
128K 6K CAN, I 2 C, IrDA, LIN, SPI, UART/USART 68 80-LQFP -4C ~ 85C 497-8952-ND NEW! 5.46 4.88 4.00 STM8S207MBT6B
128K 6K CAN, I 2 C, IrDA, LIN, SPI, UART/USART 68 80-LQFP -4C ~ 85C 497-8507-ND 5.91 5.28 4.33 STM8S208MBT6B
C
ST9 8-Bit
Program
Memory / Type RAM
Number
of
Operating
Supply
Operating
Temperature
Digi-Key
Price Each
STMicroelectronics
(Bytes) (Bytes) Timers I/O Pins A/D
Voltage Range Package Part No.
1 10 100 Part No.
128K 4K Yes 80 16-Ch., 10-Bit 4.5 ~ 5.5 -4C ~ 15C 100-TQFP 497-4883-ND 15.20 13.82 11.75 ST92F150CV1TB
ST10 16-Bit
Program
Memory / Type RAM
Number
of
Operating
Supply
Operating
Temperature
Digi-Key
Price Each
STMicroelectronics
(Bytes) (Bytes) Timers I/O Pins A/D
Voltage Range Package Part No.
1 10 100 Part No.
Romless 1K Yes 77 — 3.3 -4C ~ 85C 100-TQFP 497-2044-ND 9.90 8.91 7.33 ST10R172LT6
Romless 1K Yes 77 — 3.3 -4C ~ 85C 100-TQFP 497-2045-ND 9.38 8.44 6.94 ST10R272LT6
Romless 2K Yes 111 16-Ch., 10-Bit 5.0 -4C ~ 125C 144-PQFP 497-2043-ND◆ 24.21 22.40 19.07 ST10R167-Q3
256K 12K Yes 111 16-Ch., 10-Bit 5.0 -4C ~ 85C 144-PQFP 497-4833-ND◆ 35.00 32.38 27.57 ST10F269Z2Q6
256K 20K Yes 111 24-Ch., 10-Bit 5.0 -4C ~ 125C 144-PQFP 497-5579-ND◆ 19.17 17.74 15.10 ST10F272Z2Q3
832K 68K Yes 111 24-Ch., 10-Bit 5.0 -4C ~ 125C 144-PQFP 497-5580-ND◆ 37.16 34.65 30.14 ST10F276Z5Q3
◆ RoHS Compliant
32-Bit ARM Microcontrollers
The STR7 is a range of innovative 32 bit microcontrollers built on the
industry standard ARM7 RISC core. The STR7 devices include high
quality embedded Flash and feature powerful peripheral functions
including USB and CAN. They are ideal for embedded applications
requiring a compact yet powerful MCU and a versatile scalable solution.
STR7 are used in various applications like user interfaces, factory
automation systems, point of sale, appliances and many others. Built on
the leading ARM architecture, STR7 allows fast response to emerging
requirements, enabling the rapid implementation of changes at low
cost. The flexibility of the family, with its rich options for Flash, RAM, the
largest peripherals set and its versatile package options helps you reuse
it for a whole range of products, optimizing your developments. It helps
you build cost effective and powerful solutions that bring innovation in
your market. ARM core with embedded Flash and RAM.
The STR71xF series is a family of ARM powered 16/32-bit Microcontrollers
with embedded Flash and RAM. It contains the high
performance ARM7TDMI CPU with an extensive range of peripheral
Internal
ROM Type
Flash
®
Internal
ROM Size
Internal
RAM Size USB CAN I/O Ports Package
functions and enhanced I/O capabilities. All devices have on-chip
high speed single voltage FLASH memory and high speed RAM.
The STR71xF family has an embedded ARM core and is therefore
compatible with all ARM tools and software. For more information on the
ARM Realview Developer Kit for ST and third party development tools,
please refer to the www.st.com/mcu
STR730F Flash microcontrollers from STMicroelectronics combine the
industry standard ARM7TDMI RISC microprocessor with embedded
Flash and powerful peripheral functions, including up to 20 timers,
4xUARTs and 3xCANs. They are ideal for embedded applications
requiring a compact yet powerful MCU, as well as versatile, scalable
solutions such as user interfaces, factory automation systems and
appliances. Additionally, the STR730F family features a single 5V power
supply particularly suited to industrial applications.
Features: High-performance industry standard core RMTMI
RISC 2-bit C Extensive software and tools including the complete
STR library supporting all standard peripherals and the C argest
Temperature
Range
Digi-Key
Part No.
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
choice of peripherals and interfaces including 4xUARTs, up to 20
timers and up to xCs lexible power and cloc management,
five low-power modes, low-power voltage regulator, dual APB buses
architecture, multiple cloc sources Single 5 power supply High-
uality embedded lash data retention 2 years at 85C 16 x
channels M Rich pacage options including the tiny proven 1x1
144 Temperature range -4C ~ 85C and -4C ~ 15C
Benefits: uture-proof microcontrollers that easily adapt to customer
reuirements ramatically reduces development time and increases
ease-of-use Reduces system cost with all peripherals in one chip
ives you full control over your power consumption and performance/
power trade-offs ative supply of industrial applications, no .
conversion needed Suitable for long-life euipment ower C
load, optimized access to memory Optimizes your developments the
same device in different options will t all your product range Increase
domain of validity for the application to +105°C
Price Each
1 10 100
STMicroelectronics
Part No.
128K 32K Yes Yes 48 144-TQFP -4C ~ 85C 497-4510-ND 15.95 14.50 12.33 STR710FZ1T6
256K 64K Yes Yes 48 144-LFBGA -4C ~ 85C 497-5642-ND 17.71 16.10 13.69 STR710FZ2H6
256K 64K Yes Yes 48 144-TQFP -4C ~ 85C 497-4511-ND 17.71 16.10 13.69 STR710FZ2T6
64K 16K Yes No 30 64-LQFP -4C ~ 85C 497-4885-ND 11.13 10.02 8.24 STR711FR0T6
256K 64K Yes No 30 64-LFBGA -4C ~ 85C 497-5643-ND 12.80 11.64 9.90 STR711FR2H6
256K 64K Yes No 30 64-LQFP -4C ~ 85C 497-4513-ND 14.41 13.10 11.14 STR711FR2T6
256K 64K No Yes 32 64-LQFP -4C ~ 85C 497-4515-ND 12.98 11.80 10.03 STR712FR2T6
64K 16K No No 32 64-LQFP -4C ~ 85C 497-4888-ND 9.75 8.78 7.22 STR715FR0T6
256K 16K Yes Yes 112 144-LQFP -4C ~ 15C 497-5645-ND 17.38 15.80 13.43 STR730FZ2T6
(Continued)
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(TZM112.US)
173
173

32-Bit ARM Microcontrollers (Cont.)
C
Internal
ROM Type
Flash
Internal Internal
Temperature Digi-Key
Price Each
STMicroelectronics
ROM Size RAM Size USB CAN I/O Ports Package Range Part No.
1 10 100 Part No.
128K 16K Yes Yes 112 144-TQFP -4C ~ 15C 497-5139-ND 19.21 17.46 14.85 STR730FZ1T7
128K 16K Yes Yes 72 100-TQFP -4C ~ 15C 497-5141-ND 19.11 17.46 14.96 STR731FV1T7
256K 16K Yes Yes 72 100-TQFP -4C ~ 15C 497-5142-ND 20.57 18.70 15.90 STR731FV2T7
256K 16K Yes No 112 144-LQFP -4C ~ 15C 497-5647-ND 14.48 13.16 11.19 STR735FZ2T6
256K 16K Yes No 112 144-TQFP -4C ~ 15C 497-5144-ND 18.11 16.46 14.00 STR735FZ2T7
256K 16K Yes No 72 100-TQFP -4C ~ 15C 497-5648-ND 13.71 12.46 10.60 STR736FV2T6
256K 16K Yes Yes 72 100-LQFP -4C ~ 15C 497-5650-ND 12.39 11.16 9.17 STR750FV2T6
64K 16K Yes Yes 72 100-LQFP -4C ~ 85C 497-5749-ND 9.83 8.85 7.28 STR750FV0T6
128K 16K Yes Yes 72 100-LQFP -4C ~ 85C 497-5750-ND 10.65 9.59 7.88 STR750FV1T6
256K 16K No Yes 38 64-LQFP -4C ~ 15C 497-5653-ND 11.99 10.79 8.87 STR752FR2T6
256K 16K No No 38 64-LQFP -4C ~ 15C 497-5654-ND 11.34 10.21 8.39 STR755FR2T6
64K 16K No No 72 100-LQFP -4C ~ 85C 497-5757-ND 9.30 8.38 6.89 STR755FV0T6
128K 16K No No 72 100-LQFP -4C ~ 85C 497-5758-ND 10.12 9.11 7.49 STR755FV1T6
256K 16K No No 72 100-LQFP -4C ~ 85C 497-5759-ND 11.74 10.57 8.69 STR755FV2T6
256K 64K No Yes 40 80-LQFP -4C ~ 8C 497-6275-ND 11.41 10.38 8.82 STR910FAM32X6
256K 64K No Yes 80 128-LQFP -4C ~ 8C 497-6276-ND 12.13 11.03 9.38 STR910FAW32X6
256K 64K No Yes 80 144-LFBGA -4C ~ 8C 497-6277-ND 12.69 11.54 9.81 STR910FAZ32H6
256K 96K Yes Yes 40 80-LQFP -4C ~ 8C 497-6278-ND 12.27 11.16 9.49 STR911FAM42X6
512K 96K Yes Yes 40 80-LQFP -4C ~ 8C 497-6279-ND 13.70 12.46 10.59 STR911FAM44X6
256K 96K Yes Yes 80 128-LQFP -4C ~ 8C 497-6280-ND 12.70 11.55 9.82 STR911FAW42X6
512K 96K Yes Yes 80 128-LQFP -4C ~ 8C 497-6281-ND 14.41 13.11 11.14 STR911FAW44X6
256K 96K Yes Yes 80 128-LQFP -4C ~ 8C 497-6283-ND 13.41 12.20 10.37 STR912FAW42X6
1024K 96K Yes Yes 80 128-LQFP -4C ~ 85C 497-9038-ND NEW! 18.70 17.00 14.45 STR912FAW46X6
2048K 96K Yes Yes 80 128-LQFP -4C ~ 85C 497-9039-ND NEW! 20.12 18.62 15.85 STR912FAW47X6
256K 96K Yes Yes 80 144-LFBGA -4C ~ 8C 497-6285-ND 13.99 12.72 10.82 STR912FAZ42H6
STM32 Cortex Microcontrollers
The STM32 family of 32-bit Flash microcontrollers is based on the breakthrough ARM®Cortex-M3 core,
which is specifically developed for embedded applications requiring a combination of high performance, low
power and low cost. The STM32 family benefits from the Cortex-M3 architectural enhancements (including
the Thumb-2® instruction set) that deliver improved performance combined with better code density, and
a tightly coupled nested vectored interrupt controller that significantly speeds response to interrupts, all
combined with industry-leading power consumption.
Program RAM No. of I/O
Supply
Temperature Digi-Key
Price Each
STMicroelectronics
(KBytes) (KBytes) Timers Ports Voltage Package Range (°C) Part No.
1 10 100 Part No.
16
4 6 37 2 ~ .6 48-LQFP -4 ~ 85 497-10501-ND NEW! 2.73 2.38 1.98 STM32F100C4T6B
4 6 51 2 ~ .6 64-LQFP -4 ~ 85 497-10497-ND NEW! 2.80 2.50 2.05 STM32F100R4T6B
4 6 37 2 ~ .6 48-LQFP -4 ~ 85 497-10500-ND NEW! 2.86 2.55 2.10 STM32F100C6T6B
4 6 51 2 ~ .6 64-LQFP -4 ~ 85 497-10496-ND NEW! 3.22 2.88 2.36 STM32F100R6T6B
6 3 49 2 ~ .6 64-LQFP -4 ~ 85 497-6057-ND 5.63 5.04 4.13 STM32F101R6T6
10 2 49 2 ~ .6 64-LQFP -4 ~ 15 497-6064-ND 5.99 5.39 4.43 STM32F103R6T6
16 2 26 2 ~ .6 36-VFQFPN -4 ~ 85 497-8315-ND 5.96 5.33 4.37 STM32F101T4U6A
16 2 26 2 ~ .6 36-VFQFPN -4 ~ 85 497-8318-ND 6.50 5.85 4.81 STM32F103T4U6A
16 2 37 2 ~ .6 48-LQFP -4 ~ 85 497-8313-ND 5.96 5.33 4.37 STM32F101C4T6A
16 2 37 2 ~ .6 48-LQFP -4 ~ 85 497-8305-ND 6.55 5.85 4.80 STM32F102C4T6A
32
16 2 37 2 ~ .6 48-LQFP -4 ~ 85 497-8316-ND 6.50 5.85 4.81 STM32F103C4T6A
16 2 51 2 ~ .6 64-LQFP -4 ~ 85 497-8314-ND 6.30 5.63 4.62 STM32F101R4T6A
16 2 51 2 ~ .6 64-LQFP -4 ~ 85 497-8309-ND 6.92 6.18 5.07 STM32F102R4T6A
16 2 51 2 ~ .6 64-LQFP -4 ~ 85 497-8317-ND 6.90 6.21 5.11 STM32F103R4T6A
32 2 37 2 ~ .6 48-LQFP -4 ~ 85 497-8306-ND 6.30 5.67 4.67 STM32F102C6T6A
32 2 51 2 ~ .6 64-LQFP -4 ~ 85 497-8310-ND 6.78 6.10 5.02 STM32F102R6T6A
64 3 37 2 ~ .6 48-LQFP -4 ~ 85 497-8307-ND 7.28 6.55 5.39 STM32F102C8T6
64 3 51 2 ~ .6 64-LQFP -4 ~ 85 497-8311-ND 7.80 7.02 5.78 STM32F102R8T6
128 3 37 2 ~ .6 48-LQFP -4 ~ 85 497-8308-ND 8.95 8.06 6.63 STM32F102CBT6
128 3 51 2 ~ .6 64-LQFP -4 ~ 85 497-8312-ND 9.38 8.44 6.94 STM32F102RBT6
8 7 37 2 ~ .6 48-LQFP -4 ~ 85 497-10499-ND NEW! 3.84 3.43 2.81 STM32F100C8T6B
8 7 51 2 ~ .6 64-LQFP -4 ~ 85 497-10657-ND NEW! 4.20 3.75 3.38 STM32F100R8T6B
8 7 80 2 ~ .6 100-LQFP -4 ~ 85 497-10658-ND NEW! 4.68 4.18 3.76 STM32F100V8T6B
10 6 26 2 ~ .6 36-VFQFPN -4 ~ 85 497-9032-ND NEW! 6.60 5.94 4.89 STM32F101T8U6
10 3 32 2 ~ .6 48-LQFP -4 ~ 85 497-6055-ND 6.60 5.94 4.89 STM32F101C8T6
10 3 49 2 ~ .6 64-LQFP -4 ~ 85 497-6058-ND 7.10 6.39 5.26 STM32F101R8T6
64 10 3 80 2 ~ .6 100-LQFP -4 ~ 85 497-6060-ND 8.13 7.32 6.02 STM32F101V8T6
20 3 32 2 ~ .6 48-LQFP -4 ~ 15 497-6063-ND 8.13 7.32 6.02 STM32F103C8T6
20 3 49 2 ~ .6 64-LQFP -4 ~ 15 497-6065-ND 8.73 7.86 6.46 STM32F103R8T6
20 3 80 2 ~ .6 100-LFBGA -4 ~ 15 497-6067-ND 9.80 8.82 7.26 STM32F103V8H6
20 3 80 2 ~ .6 100-LQFP -4 ~ 15 497-6068-ND 9.80 8.82 7.26 STM32F103V8T6
20 3 51 2 ~ .6 64-LQFP -4 ~ 85 497-8922-ND 9.15 8.24 6.78 STM32F105R8T6
20 3 80 2 ~ .6 100-LQFP -4 ~ 85 497-8921-ND 10.30 9.27 7.63 STM32F105V8T6
8 7 37 2 ~ .6 48-LQFP -4 ~ 85 497-10498-ND NEW! 4.42 3.95 3.24 STM32F100CBT6B
8 7 51 2 ~ .6 64-TFBGA -4 ~ 85 497-10495-ND NEW! 4.79 4.28 3.51 STM32F100RBH6B
8 7 51 2 ~ .6 64-LQFP -4 ~ 85 497-10494-ND NEW! 4.79 4.28 3.51 STM32F100RBT6B
8 7 80 2 ~ .6 100-LQFP -4 ~ 85 497-10659-ND NEW! 5.15 4.60 4.14 STM32F100VBT6B
16 3 49 2 ~ .6 64-LQFP -4 ~ 85 497-6059-ND 8.53 7.68 6.31 STM32F101RBT6
16 3 80 2 ~ .6 100-LQFP -4 ~ 85 497-6061-ND 9.55 8.60 7.07 STM32F101VBT6
20 3 49 2 ~ .6 64-LQFP -4 ~ 15 497-6066-ND 10.15 9.14 7.52 STM32F103RBT6
128 20 3 80 2 ~ .6 100-LFBGA -4 ~ 15 497-6069-ND 11.33 10.20 8.39 STM32F103VBH6
20 3 80 2 ~ .6 100-LQFP -4 ~ 15 497-6070-ND 11.33 10.20 8.39 STM32F103VBT6
32 6 80 2 ~ .6 48-LQFP -4 ~ 8 497-6287-ND 8.13 7.32 6.02 STM32F101CBT6
32 7 80 2 ~ .6 48-LQFP -4 ~ 8 497-6288-ND 9.60 8.64 7.11 STM32F103CBT6
32 4 51 2 ~ .6 64-LQFP -4 ~ 85 497-8920-ND 10.65 9.59 7.89 STM32F105RBT6
32 4 80 2 ~ .6 100-LQFP -4 ~ 85 497-8919-ND 11.90 10.71 8.81 STM32F105VBT6
48 4 51 2 ~ .6 64-LQFP -4 ~ 85 497-8916-ND 11.73 10.56 8.68 STM32F107RBT6
48 4 80 2 ~ .6 100-LQFP -4 ~ 85 497-8915-ND 11.53 10.48 8.91 STM32F107VBT6
32 9 51 2 ~ .6 64-LQFP -4 ~ 85 497-9031-ND NEW! 11.00 9.90 8.14 STM32F101RCT6
48 11 51 2 ~ .6 64-LQFP -4 ~ 85 497-9033-ND NEW! 11.20 10.18 8.66 STM32F103RCT6
48 11 80 2 ~ .6 100-LQFP -4 ~ 85 497-9034-ND NEW! 12.28 11.16 9.49 STM32F103VCT6
256 64 4 51 2 ~ .6 64-LQFP -4 ~ 85 497-8918-ND 11.33 10.30 8.76 STM32F105RCT6
64 4 80 2 ~ .6 100-LQFP -4 ~ 85 497-8917-ND 12.43 11.30 9.61 STM32F105VCT6
64 4 51 2 ~ .6 64-LQFP -4 ~ 85 497-8914-ND 12.47 11.34 9.64 STM32F107RCT6
64 4 80 2 ~ .6 100-LQFP -4 ~ 85 497-8913-ND 13.68 12.44 10.58 STM32F107VCT6
384 64 11 80 2 ~ .6 100-LQFP -4 ~ 85 497-9035-ND NEW! 13.75 12.50 10.63 STM32F103VDT6
48 4 112 2 ~ .6 144-LQFP -4 ~ 85 497-6439-ND 15.31 13.92 11.84 STM32F101ZET6
48 4 80 2 ~ .6 100-LQFP -4 ~ 85 497-6440-ND 13.57 12.34 10.49 STM32F101VET6
48 4 51 2 ~ .6 64-LQFP -4 ~ 85 497-6441-ND 13.13 11.94 10.15 STM32F101RET6
512
64 11 112 2 ~ .6 144-BGA -4 ~ 85 497-9037-ND NEW! 16.92 15.38 13.08 STM32F103ZEH6
64 4 112 2 ~ .6 144-LQFP -4 ~ 85 497-6442-ND 16.92 15.38 13.08 STM32F103ZET6
64 11 80 2 ~ .6 100-BGA -4 ~ 85 497-9036-ND NEW! 15.40 14.00 11.90 STM32F103VEH6
64 4 80 2 ~ .6 100-LQFP -4 ~ 85 497-6443-ND 15.40 14.00 11.90 STM32F103VET6
64 4 51 2 ~ .6 64-LQFP -4 ~ 85 497-6444-ND 14.52 13.20 11.22 STM32F103RET6
®
For Digi-Reel ® information, please see page 71.
174 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Kits and Tools
FlashLINK JTAG Programming Cable for PSD and uPSD
The amily o Flash PSD and uPSD devices oer In-System Prorammin ISP allowin a completely lan device to
be programmed while soldered to a circuit board. This simplifies manufacturing and provides an effective way to update
products ater they are in use. Flash PSD and uPSD devices comply to the core reuirements o the IEEE 1149.1 JTAG
speciication. However, these devices do not support oundary scan unctions. Instead, they support ISP, and some
uPSD devices support emulation throuh JTAG.
497-2381-ND FL-101 ................................................................................. $66.77
STM8/128 Evaluation Board
The STM8S2xx evaluation oard STM8/128-EVAL is desined as a complete development platorm or STMicroelectronics
STM8 core-ased STM8S2xx microcontroller with CAN2.0A/B compliant interace, I 2 C, SPI, two UART channels with
smartcard, IrDA and LIN support, internal 2 Kyte data Flash and 128 Kyte code Flash, SWIM deuin support. The
ull rane o hardware eatures on the oard is ale to help you evaluate all peripherals includin motor control, CAN,
MicroSD card, smartcard, UART, LIN, IrDA and develop your own applications. Extension headers mae it possile
to easily connect a daughter board or wrapping board for your specific application. Features: Two 5V power supply
options power ac or dauhter oard Audio play and record 64 or 128 Myte MicroSD card Both AB type
smartcard support 64 Kit I 2 C EEPROM 2 channels o RS-232 communications IrDA transceiver 2 channels o
LIN communication CAN2.0A/B compliant connection Inductor motor control connector SWIM and STice deu
support 122x32 dot-matrix serial interace LCD module Joystic with 4-direction control and selector Reset,
Waeup, Tamper and User utton 4 LEDs Extension connector or dauhter oard or wrappin oard
497-8506-ND STM8/128-EVAL ...................................................................... $162.50
NEW! STM8L15x Low-Power Demo Board
Ultra-Low-power and low-cost oard or STM8L15x to demonstrate all dierent low power modes and unctionalities and
provide a means to measure current sourced by the battery while paused in each of the modes. Features: 7 dierent
modes to demonstrate STM8L15x Ultra Low Power 1 LCD glass Battery CR2032 Socet 1 header 2x1 and jumper
for supply 2 buttons on the board 1 SWIM connector or STM8L oard con 1 JTAG connector or STM32L oard
con 1 I/O access port connector 2x12
497-10594-ND STM8L15LPBOARD ............................................................................ $58.50
NEW! STM8S-DISCOVERY Evaluation Kit
The STM8S-DISCOVER is a uic start evaluation oard which helps you to discover the STM8 eatures, and to
develop and share your own application. It is ased on an STM8S105 and includes an emedded deuer, ST-LINK,
and a touch sensin utton. Numerous applications are availale rom the STM8S-DISCOVER we pae. Features:
STM8S105C6T6 microcontroller, 32KB Flash, 2KB RAM, 1KB EEPROM Powered y USB cale etween PC and
STM8S-DISCOVER Selectale power o 5V or 3.3V Touch Sensin utton, TS1 User LED, LD1 Extension header
or all I/Os Wrappin area or users own application Emedded ST-LINK or STM8S USB interace or prorammin
and debugging SWIM deu support
497-10040-ND STM8S-DISCOVER ............................................................................ $9.60
NEW! STM8S Touch Sensing Evaluation Board
The STM8S touch sensing evaluation kit STM8/128-EV/TS provides a platform that introduces users to
STMicroelectronics capacitive touch sensin irmware lirary. The it contains a STM8S touch sensin TS evaluation
dauhteroard STM8Sxxx-TS1 in addition to the STM8/128-EVAL oard. The STM8S touch sensin evaluation
dauhteroard STM8Sxxx-TS1 provides an evaluation platorm or resistor-capacitor RC touch sensin technoloy
or an implementation usin 5 eys and one slider. The STM8S TS evaluation it provides a sotware solution or
transormin any 8-it STM8 microcontroller MCU into a capacitive touchey controller.
497-10031-ND STM8/128-EV/TS .............................................................................$178.75
NEW! Evaluation Kit Motor Control STM8S
The ACIM motor sotware lirary is made o several C modules and is itted with STVD worspaces. It is used to uicly
evaluate oth the MCU and the availale tools. When it is used with the STM8/128-MCKIT motor control starter it and an
AC induction motor, a motor can e made to run in a very short time. The ACIM lirary also eliminates the need or timeconsuming
development of low-level drive and speed regulation algorithms by providing ready-to-use functions that allow
the user to concentrate on the application layer.
497-10032-ND STM8/128-MCKIT........................................................................... $1198.75
NEW! STICE-SYS001 Emulator for STM8
The STice is the advanced in-circuit emulation system rom STMicroelectronics. It oers a complete rane o proven
deuin eatures such as advanced reapoints and trace recordin. In addition, it provides new proilin and coverae
capabilities to help detect and eliminate dead code and bottlenecks in application execution. The STice delivers improved
cost-effectiveness by allowing users to order exactly what they need to meet their development requirements and to adapt
their emulator system to support existin and uture ST microcontrollers. In addition to emulation, the STice provides
in-circuit deuin and prorammin capaility or ST microcontrollers via the ST sinle wire interace module SWIM.
SWIM allows non-intrusive deuin o an application while it runs on the taret microcontroller. The STice is supported
y the ree STM8 toolset, which includes the ST Visual Develop STVD interated development environment or uildin,
deuin and ine-tunin applications, the ST Visual Prorammer STVP microcontroller prorammin interace and
STM8 Assembler.
497-10029-ND STICE-SS001 .............................................................................. $1987.50
Hitex STM32 Performance Stick
The Hitex STM32-Perormance Stic is a complete, low-cost evaluation and development pacae that provides a
fast and easy introduction to the capabilities of STMicroelectronics’ ARM®Cortex-M3 core-based STM32 family
o microcontrollers. It is speciically desined to help application desiners explore STM32 eatures and perormance
characteristics low power modes, cloc controls, wae up states, etc., ut can also e connected to extension oards with
hardware features for evaluation of device peripherals or development of an application.
497-6289-ND STM3210B-PFSTICK ......................................................................... $69.16
NEW! ST-LINK Debugger/Programmer
The ST-LINK is an in-circuit deuer and prorammer or the STM8 and STM32 microcontroller amilies. The SWIM and
JTAG/SWD interace is used to communicate with the STM8 or STM32 microcontroller located on your own application
oard. On the PC side, the USB ull speed interace is used to communicate with ST Visual Develop STVD or ST Visual
Proram STVP sotware rom STMicroelectronics or the STM8 ATOLLIC, IAR and KEIL Interated Development
Environments for the STM32
497-10484-ND ST-LINK ........................................................................................ $25.50
NEW! STM32-COMSTICK Development Kit
The ComSticks are complete, low-cost evaluation and development packages that provide a fast and easy introduction
to the networking features of Cortex-M3 STM32 and ARM966E core-based microcontroller families. The ComSticks
include several sample applications implementin device peripherals Ethernet, USB, CAN, ADC,... plus a we server
application so that users can explore networking of embedded application. The C source code for all sample applications
is provided so that users can modify them, and then rebuild and debug the application.
497-9040-ND STM32-COMSTICK ...........................................................................$100.80
STM3210B-MCKIT Motor Control Starter Kit
The STM3210B-MCKIT starter it is an interated system desined to provide a complete, ready-to-use motor control
application developed around the STM32 microcontroller. This starter kit is particularly suited to drive 3-phase brushless
motors either AC induction or permanent manet types and demonstrates how eectively the STM32 microcontrollers
can be used in real-world motor control applications.
497-8304-ND STM3210B-MCKIT .........................................................................$1477.73
STM3210B-EVAL Evaluation Board
The STM3210B-EVAL is a complete dev elopment platorm or the STM32F10x 128K series o ARM®Cortex-M3 core-
ased microcontrollers. It provides a cost eective, lexile and open desin ideal or demonstratin the capailities o the
STM32F10x devices and rapidly evaluatin device eatures and availale peripherals. It includes an STM32F10x device
with high performance ARM®Cortex-M3, ull speed USB 2.0 interace, CAN 2.0A/B compliant interace, 2 channels
I2C, 2 channels SPI, 3 channels USART with smart card support, internal 20Kyte SRAM and 128Kyte lash. The
STM3210B-EVAL oard includes a complete rane o hardware eatures or evaluatin microcontroller perormance and
startin development o a wide rane o applications. Features include MicroSD card, serial lash, USB, CAN, I2C, RS232,
IrDA, induction motor control connector, TFT color LCD and more.The oard eatures industry standard JTAG connector
allowing developers to choose from a wide variety of development tools from third party tool suppliers.
497-6048-ND STM3210B-EVAL ........................................................................... $236.25
STM3210C-EVAL Evaluation Board
The STM32F107VCT evaluation oard STM3210C-EVAL is desined as a complete development platorm or
STMicroelectronics ARM Cortex-M3 core-ased STM32F107VCT microcontroller with ull speed USB-OTG, ethernet
MAC, two channels o CAN2.0A/B compliant interace, 2 channels I2S, 2 channels I2C, 5 channels USART with smartcard
support, 3 channels SPI, internal 64KB SRAM and 256KB Flash, JTAG and SWD deuin support. The ull rane o
hardware eatures on the oard help you evaluate all peripherals USB-OTG FS, ethernet, motor control, CAN, micro SD
card, smartcard, USART, audio DAC, MEMS, EEPROM...etc. and develop your own applications. Extension headers
make it easy to connect a daughterboard or wrapping board for your specific application.
497-8924-ND STM3210C-EVAL ........................................................................... $298.75
NEW! STM3210C-SK/IAR Development Kit
The IAR KicStart its are complete, cost-eective solutions or startin application development and evaluatin
STMicroelectronics ARM core-ased microconrtollers. The KicStart its come with all the hardware and sotware you
need to start developin applications includin the KicStart development oard with taret microcontroller, the IAR
J-Lin in-circuit deuer/prorammer USB/JTAG and IAR Emedded Worench or ARM EWARM interated
development environment with the KicStart edition o the IAR C/C compiler output code up to 32Kytes, uilt-in
Flash loader and sample proects or all device peripherals. IAR KicStart its provide evaluation and development support
for a full range of ST ARM core-based microcontrollers.
497-9041-ND STM3210C-SK/IAR ...........................................................................$286.25
NEW! STM3210C-SK/KEIL Development Kit
The Keil starter its are complete solutions or startin application development and evaluatin STMicroelectronics ARM
core-based microcontrollers. They come with all the hardware and software you need to start developing applications
or the STM32, STR9 and STR7 ARM core-ased amilies o microcontrollers. The its come complete with Keils
uVision3 interated development environment or ARM and the 16Kyte code-size limited version o the ARM RealView
Compilation Tools, a ull-eatures evaluation oard includin USB, USART, SPI, ADC and taret microcontroller, with the
ULINK USB/JTAG in-circuit deuer/prorammer. Keil starter its are availale or a ull rane o ST ARM core-ased
microcontrollers.
497-9042-ND STM3210C-SK/KEIL ..........................................................................$312.50
C
NEW! Raisonance’s complete, low-cost
Starter Kits for STM8 and ST7
The REva starter kits are Raisonance’s complete, cost-effective solutions for starting application development and
evaluatin STM8x, ST7LITEx, ST7Fox, ST7232x, ST7234x, ST7236x and ST7263B microcontrollers. Kits contain all
the hardware and software required to develop applications for microcontrollers, including the REva evaluation board,
taret STM8 and ST7 microcontrollers, emedded RLin or in-circuit deuin and in-circuit prorammin and the
Raisonance interated development environment Ride7 with application uilder.
497-10592-ND STM8/128-D/RAIS ............................................................................. $79.80
497-10593-ND STM8/128-SK/RAIS ........................................................................... $228.75
NEW! STM3210C-SK/RAIS Development Kit
The Raisonance REva starter kits are complete, low-cost solutions for starting application development and evaluating the
features of STMicroelectronics’ ARM® Cortex-M3, ARM966E and ARM7TDMI core-based microcontrollers. The
kit comes with all the hardware and software that developers need to start developing applications, including the REva
evaluation oard, microcontrollers, emedded RLin JTAG in-circuit deuer/prorammer and Raisonance Interated
Development Environment RIDE. The REva starter its are availale or a ull rane o 32-it and 8-it microcontrollers
includin the STM8, ST7 and uPSD amilies.
497-9043-ND STM3210C-SK/RAIS ..........................................................................$248.75
(Continued)
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
175
175

C
Kits and Tools (Cont.)
NEW! STM3210E-SK/HIT Starter Kit for STM32
The Hitex starter it is a complete, ull-eatured solution or startin application development and evaluatin the eatures o
STMicroelectronics’ ARM core-based microcontrollers. The kit comes with all the hardware and software that developers
need to start developin applications or STM32, STR9 and STR7 devices, includin ull-eatured evaluation oard, taret
microcontroller, in-circuit deuer/prorammer USB/JATG and the HiTOP development sotware with C/C toolset.
497-10030-ND STM3210E-SK/HIT ............................................................................$161.25
STM3210E-SK/IAR Starter Kit
The IAR KicStart its are complete, cost-eective solutions or startin application development and evaluatin
STMicroelectronics ARM core-ased microcontrollers. The KicStart its come with all the hardware and sotware you
need to start developin applications includin the KicStart development oard with taret microcontroller, the IAR
J-Lin in-circuit deuer/prorammer USB/JTAG and IAR Emedded Worench or ARM EWARM interated
development environment with the KicStart edition o the IAR C/C compiler output code up to 32 Kytes, uilt-in
Flash loader and sample proects or all device peripherals. IAR KicStart its provide evaluation and development support
for a full range of ST ARM core-based microcontrollers.
497-8505-ND STM3210E-SK/IAR ................................................................... $311.75
NEW! STM32-MICRIUM Evaluation Board
The STM32-MICRIUM evaluation oard is a complete development platorm or STMicroelectronics ARM Cortex-M3
core-ased microcontroller with ull-speed USB-OTG, Ethernet MAC, two channels o CAN2.0A/B compliant interace, two
I2S channels, two I2C channels, ive USARTs with smartcard support, three SPIs, 64KB internal SRAM and 256KB Flash,
JTAG and SWD deuin support.
497-10064-ND STM32CMICOS-EVAL ...................................................................... $211.47
STM3210E-SK/KEIL Starter Kit
The Keil starter its are complete solutions or startin application development and evaluatin STMicroelectronics ARM
core-based microcontrollers. They come with all the hardware and software you need to start developing applications for
the STM32 core-ased amilies o microcontrollers. The its come complete with Keils uVision3 interated development
environment or ARM and the 16 Kyte code-size limited version o the ARM RealView Compilation Tools, a ull-eatured
evaluation oard includin USB, USART, SPI, ADC and taret microcontroller, with the ULINK USB/JTAG in-circuit
deuer/prorammer. Keil starter its are availale or a ull rane o ST ARM core-ased microcontrollers.
497-8512-ND STM3210E-SK/KEIL .................................................................. $332.05
STM3210E-EVAL Evaluation Board
The STM32 evaluation oards provide complete dev elopment platorms or the STM32F10xB 128K and STM32F10xE
512K series o ARM®Cortex-M3 core-based microcontrollers. They include an STM32 microcontroller with high
performance ARM®Cortex-M3, ull speed USB 2.0 interace, CAN 2.0A/B compliant interace, I2C, SPI, USART with
smart card support and internal SRAM and Flash memory. Features include MicroSD card, serial Flash, USB, CAN, I2C,
RS232, IrDA, induction motor control connector, TFT color LCD, audio play/record circuit. For the STM32F10xE, the oard
also includes a wide range of external memory. The oards eature industry standard JTAG connector allowin developers
to choose rom a wide choice o development tools rom third-party tool suppliers. In addition, the STM32F10xE oard
includes a hih density 20-pin connector so that users can tae advantae o tools oerin runtime trace.
497-6438-ND STM3210E-EVAL ........................................................................... $248.75
STM3210B and STM3210E Starter Kits
STM3210B and STM3210E Starter kits are complete sets of hardware and software designed to help users discover
device features and start application development easily. STM3210B-PRIMER is a complete, ultra low cost kit for
evaluation and application development. STM3210E-PRIMER is a complete, ultra low cost kit for evaluation and
application development or 512K STM3210B-SK/HIT Hitex Kit STM32 starter it with HiTOP5 development
sotware, GNU C/C compiler, deuer and USB stic with STM32 device, evaluation eatures and interated in-circuit
deuin/prorammin capailities. Extension oards allow evaluation o additional device eatures. STM3210B-SK/
KEIL Keil Starter Kit or STM32 with RealView Microcontroller Development Kit or ARM 16K code-size limited version
with ARM C/C compiler, ULINK USB/JTAG in-circuit deuer/prorammer and evaluation oard or STM32.
STM3210B-SK/Raisonance REva Starter Kit or STM32 with RIDE 32K code-size limited version or Cortex core,
GNU C/C compiler, deuer, RLin USB/JTAG in-circuit deuer/prorammer, demonstration motheroard and
daughterboard with STM32 target device. STM32103B-D/RAIS is a dauhter card that converts the STM3210B-SK/RAIS
to the Performance line.
497-6049-ND STM3210B-PRIMER ......................................................................... $48.00
497-8511-ND STM3210E-PRIMER ......................................................................... $67.50
497-6050-ND STM3210B-SK/HIT ......................................................................... $131.67
497-6052-ND STM3210B-SK/KEIL ........................................................................ $195.00
497-6053-ND STM3210B-SK/RAIS ........................................................................ $208.75
497-6047-ND ST32103B-D/RAIS ........................................................................... $94.43
NEW! STM32 Value Line Discovery Board
Features: On-oard ST-LINK with selection mode switch to use the it as stand-alone ST-LINK with SWD connector
Desined to e powered y USB or y external power 5V or 3.3V supply Can supply taret application with 5V or 3V
Two User LEDs Green and Blue One user Push Button Extension header or all QFP64 I/Os or uic connection to
prototyping board or easy probing
497-10633-ND STM32VLDISCOVER .......................................................................... $11.85
NEW! Raisonance REva Starter Kit for
ST ARM Core-Based Microcontrollers
The Raisonance REva Starter Kit is complete, low-cost solutions or startin application development and evaluatin the
features of STMicroelectronics’ ARM®Cortex-M3, ARM966E, and ARM7TDMI core-based microcontrollers. The
kit comes with all the hardware and software that developers need to start developing applications, including the REva
evaluation oard, microcontrollers, emedded RLin JTAG in-circuit deuer/prorammer and Raisonance Interated
Development Environment RIDE. The REva starter it is availale or a ull rane o 32-it and 8-it microcontrollers
includin the STM8, ST7 and uPSD amilies.
497-10591-ND STM32107C-D/RAIS .......................................................................... $125.00
STR7 KickStart Kits from IAR
IAR KicStart Kits are cost effective and complete evaluation and development systems in a single package that are
designed to help you to a flying start with all the necessary hardware and software you need to design, implement and
test your application. Kit Includes: STR7 Development Board J-Lin-KS IAR Systems USB-to-JTAG Deuer
CD containin Emedded Worench® or ARM IARs easy-to-use, powerul interated development environment
that seamlessly interates a complete rane sotware tools in a comprehensive toolit, reconized or its eicient code
eneration and uniue deuin properties. It includes the 32KB KicStart version o the C/C compiler, uilt in Flash
loader and many useul sample proects coverin the ull rane o STR7 peripherals
497-4550-ND STR711-SK/IAR RoHS Compliant ................................................ $299.00
497-5047-ND STR730-SK/IAR ....................................................................... $298.75
497-4886-ND STR712-SK/IAR RoHS Compliant ................................................ $299.00
STR7 REva Starter Kit from Raisonance
The REva starter kits from Raisonance are cost effective and complete solutions for evaluating and starting application
development with ST microcontrollers. Kit Package Includes: REva Mother Board Universal evaluation oard desined
to easily and quickly evaluate a range of ST microcontrollers. The mother board provides a host of evaluation features
includin LEDs, push uttons, switches, temperature sensor, potentiometer and interaces or I 2 C, SPI and UART. REva
Dauhter Boards Dedicated oards that contain all the speciic components or a iven microcontroller, includin the MCU
itsel, a cloc selector and other device dependant eatures. RLin In-circuit deuer/prorammer, eaturin USB host
interface. The RLink is attached to the REva mother board so that no additional connection cables are required for in-circuit
prorammin and deuin with the REva. In addition, the user can power the MCU, REva evaluation oard and the RLin
all rom the USB connection. Raisonances RIDE The ull-eatured Interated Development Environment, which provides
seamless integration of C and Assembler tools and a full-featured debug interface.
497-5049-ND ST7FLITE-SK/RAIS ................................................................... $148.75
Hitex Starter Kit for STR7
The Hitex Starter Kits or ST ARM® are complete, full-featured solutions for starting application development and evaluating
the features of STMicroelectronics’ ARM® core-based microcontrollers. They come with all the hardware and software
developers need to start developin applications or STR7 and STR9 devices, includin ull-eatured evaluation oard,
taret microcontroller, Tantino JTAG interace and the HiTOP5 Interated Development Environment with GNU C/C
toolset. Starter Kit Architecture: Tantino: In-circuit deuin and prorammin tool or ARM7TDMI and ARM966E
core-ased microcontrollers eatures USB host interace and industry standard JTAG application oard interace Hitex
Evaluation Board: Full-featured evaluation board with target microcontroller is designed for quick and easy evaluation of a
complete rane o microcontroller eatures such as Ethernet, USB, CAN, UART, I2C and SPI as well as the ADC peripheral.
Power supply is included. HiTOP5 Software: Hitexs interated development environment that drives the hardware and
offers a full range of project management, source code editing and debugging features from an intuitive graphical interface.
Includes the GNU C/C toolset or compilin application source iles. The starter it comes with 16K code-size limited
version o the HiTOP5 IDE. HiTOP5 also supports the Tanto in-circuit deuin tool and Tanto Port Trace or STR9
microcontrollers with Embedded Trace Macrocell Starter Kit Key Features: Tantino: USB interace to host PC JTAG
standard interace Supports ARM7TDMI and ARM966E core-based microcontrollers HiTOP5: GNU C/C Toolset
HiSIM instruction simulator or ARM® Proected manaement Interated editor Hih-level lanuae deuin
Trace support Drives oth Tantino and Tanto JTAG interaces
497-5751-ND STR750-SK/HIT ...................................................................... $198.75
Keil Starter Kit for STR7 and STR91xF
The Keil starter its are complete solutions or startin application development and evaluatin STMicroelectronics’
families of ARM® core-based microcontrollers. They come with all the hardware and software you need to start developing
applications or the STR7 ARM7TDMI and STR9 ARM966E core-based microcontrollers. The kits come complete
with evaluation board and target microcontroller, the ULink USB-to-JTAG in-circuit deuer/prorammer Keil’s
uVision3 interated development environment or ARM and the 16KB code-size limited version o the ARM RealView
Compilation Tools. Starter Kit Architecture: ULink: USB-to-JTAG in-circuit deuer/prorammer interates ully with
uVision3, allowing users to download the application to the target and debug it while it runs on the ST ARM core-based
microcontroller on the evaluation board Evaluation Board: An application oard that provides a ull rane o eatures I/
Os, ADC, UART, SPI, USB...etc. to help users evaluate and start developin applications or the included microcontroller
Keil Development Software: A suite o sotware tools or developin and deuin applications or STR7 and STR9
includin uVision3 interated development environment interatin the ARM RealView Compilation Tools and Keils
debugging software so that users can quickly and easily develop and debug their applications while they run on a target
microcontroller. ARM RealView Compilation Tools RVCT 16K code-size limited version o the optimizin C/C compiler
for ARM core-based microcontrollers Starter Kit Key Features: ULink: USB interface to the host PC 20-pin JTAG
application interface Supports ARM7TDMI and ARM966E core-ased microcontrollers.
497-5753-ND STR750-SK/KEIL ...........................................................................$198.75
497-5066-ND STR91X-SK/KEI .............................................................................$248.75
KickStart Starter Kit for STR7 and STR9
The KicStart Kits STR711-SK/IAR, STR712-SK/IAR, STR730-SK/IAR, STR731-SK/IAR and STR91x-SK/IAR are IARs
complete, cost-effective solutions for starting application development and evaluating STMicroelectronics’ ARM® corebased
microcontrollers. They come with all the hardware and software you need to start developing applications for a full
range of STMicroelectronics’ ARM7TDMI and ARM966E core-ased micro controllers. The its include the KicStart
Development Board with taret microcontroller, the IAR JLin USB-to-JTAG deuer and IAR Emedded Worench® for
ARM EWARM interated development environment with the 32KB KicStart version o the C/C compiler, uilt in Flash
loader and sample projects for all device peripherals. Starter Kit Architecture: JLink: USB-to-JTAG in-circuit deuer/
programmer integrates fully with EWARM, allowing you to download the application to your target and debug it while it
runs on your ST ARM core-based microcontroller KickStart Development Board: Evaluation board that provides a full
rane o eatures I/Os, ADC, UART, SPI, I 2 C, USB, etc. to help you evaluate and start developin applications or the
included microcontroller The oard is powered rom the JLins USB connection with the host PC IAR Development
Software: A suite o sotware tools or all phases o application development that includes IAR Emedded Worench or
ARM interated development environment with the KicStart 32KB C/C compiler to uild the application and the C-SP
debugger for debugging the application while it runs on your microcontroller VisualSTATE® 20-state version o IARs
raphical desin environment with C/C code enerator or developin application code ased on machine states. Starter
Kit Key Features: • JLink: Supplies power rom USB connection via pin 19 o the JTAG connector no additional power
supply reuired. Download speed up to 50KB/sec Maximum JTAG speed 8MHz Auto speed reconition 20-pin
standard JTAG connector USB and 20-pin lat cale included Level shiter or 3.3V to 5V conversion STR73X-SK/IAR,
STR91X-SK/IAR Supported platforms: Microsoft® Windows® 2000 and XP
497-5752-ND STR750-SK/IAR ................................................................................ $298.75
497-5065-ND STR91X-SK/IAR................................................................................ $328.75
I Love ST Mini Development Board
The I Love ST Mini Development Board contains an STR750 microcontroller, 16 LEDs, 2 sin-conductance pads which
can e used as uttons, and an STR711 controllin the USB port and the JTAG unctions. The board will run for several
hours on the lithium attery mounted on the ottom o the oard. No external JTAG deuer proe is necessary. Simply
connect a mini-USB cale to the oard and load the KicStart edition o IAR Emedded Worench or ARM to Flash and
deu your STR750 application.
497-5988-ND STR750-LOVE ............................................................................... $37.50
(Continued)
176 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Kits and Tools (Cont.)
REva Starter Kits for STR7 and STR9
The REva Starter Kits STR71X-SK/RAIS, STR730-SK/RAIS, STR91X-SK/RAI are Raisonances complete, low-cost
solutions for starting application development and evaluating the features of STMicroelectronics’ ARM7TDMI and
ARM966E core-ased microcontrollers. Kits come with all the hardware and sotware developers need to start developin
applications or STR7 and STR9 devices, includin the REva evaluation oard, microcontrollers, emedded RLin JTAG
in-circuit deuer/prorammer and Raisonance Interated Development Environment RIDE. Starter Kit Architecture:
Embedded RLink: In-circuit deuin and prorammin tool with JTAG application oard interace and USB connection
to the host PC REva Motherboard: Universal evaluation board designed for quick and easy evaluation of a complete range
o device eatures. It is powered rom the RLins USB connection to the host PC REva Daughter Boards: Interchaneale
boards featuring different target microcontrollers, make it easy to evaluate and develop applications for a complete range
of MCUs from a single evaluation platform RIDE Software: Raisonance’s integrated development environment drive the
hardware and oers seamless control o all sotware development tools compiler, assemler, liner, deuer, etc. rom
an intuitive raphical interace. Fully interates control o the GNU C/C tools. The starter it comes with the 16K code size
limited version o RIDE REva Starter Kits: Based on the same mother/dauhter oard desin, with emedded RLin, and
driven y RIDE are availale or the ST7 and uPSD 8-it microcontroller amilies Starter Kit Key Features: Embedded
RLink: USB interface to host PC Industry standard JTAG application interace REva Motherboard: One standard SO-
DIMM connector to plu in dauhter oards Diital and analo I/O evaluation eatures, includin on-oard LEDs, uttons,
switches, external analo connector, temperature sensor and potentiometer I 2 C EEPROM and us RS232 driver and 2
DB9 connectors Prototypin area VDD settins or 1.8V, 3.3V and 5V USB powered, no external power reuired
497-5754-ND STR750-SK/RAIS — RoHS Compliant ................................................. $198.75
497-5064-ND STR91X-SK/RAI ......................................................................... $248.75
STR750 Evaluation Board
The STR750 Evaluation Board STR750-EVAL is a complete, development platorm or STMicroelectronics’ ARM® core-
ased STR75xF microcontrollers. Based on a cost eective, lexile and open desin, it allows easy demonstration o
STR75xF capailities and enales rapid evaluation o the microcontrollers peripheral and other eatures. It includes the hih
perormance STR750F microcontroller, which is ased on the ARM7TDMI-S core and includes USB 2.0 compliant port with
ull speed data transmission, CAN 2.0A/B compliant interace, 3 UART channels, internal Flash and internal SRAM memory.
The STR750-EVAL eatures a complete rane o connectors and hardware eatures or developin applications ased on
STR75xF peripherals includin motor control, USB and RS232 connectors, microphone, speaer, oystic and LCD display.
he STR750-EVAL uses a JTAG standard interace to connect to your host PC via any o a rane o in-circuit emulators
ICE or ARM core-ased microcontrollers. Features: Three 5V power supply options Power ac, USB connection or
dauhter oard RTC Audio play and record 3 RS232 connectors, one with hardware low control USB 2.0 compliant
with ull speed 12M/s data transmission CAN 2.0A/B connection Inductor Motor Control connector with 6 PWM
output and Emerency Stop Deu and prorammin support via 20-pin JTAG connector Dot-matrix LCD module
Joystic with 4-direction control and selector Extension connectors or dauhter oard or wrappin oard
497-5748-ND STR750-EVAL ........................................................................ $239.00
STR71x Evaluation Board
The STR710-EVAL oard is a complete development platorm or the STR71x series. The STR710-EVAL oard is a cost
eective, lexile and open desin to demonstrate the capaility o the STR71x series o lash microcontrollers and to
enale rapid evaluation o the STR71x devices and availale peripherals. It includes the hih perormance STR710F2T6
ARM7TDMITM device that oasts 2Mits emedded lash with est-in-class random access time, 64KB on-chip hih
speed SRAM as well as up to 10 serial communication interaces, includin USB and CAN. The STR710-EVAL oard
includes SRAM and lash memory on the EMI to enale ull reedom in development o lare prorams eore custom
hardware is desined. It interates a 2x16 LCD, LEDs, UART, CAN, USB interaces, piezo uzzer and test uttons to
create a versatile stand alone test platform. A wide choice of development tool support is readily available, including tools
rom STMicroelectronics and 3rd parties.
497-4516-ND STR710-EVAL ........................................................................ $300.00
ST7 Evaluation Boards
This demonstration oard is used to proram EEPROM data and to test ST7LNBx 0/1 microcontrollers on socets or
remotely usin a coaxial cale 75Ω, via DiSEC commands. Features: Ready-to-use prorammin and test oard with
user riendly raphical user interace or windows hyper terminal EEPROM data programming on-socket or via coaxial
cale DiSEC commands testin controlled y pre-prorammed microcontroller and dedicated voltae reulatorBased
on ST7LNBX
497-6453-ND STEVAL-CBL001V1 ......................................................................... $132.67
STR910 Family Evaluation Board
The STR910 evaluation oard STR910-EVAL is a complete development platorm or the STMicroelectronics’ ARM®
core-ased STR91xF. Based on the ARM966E-S® core. The STR91xF includes Pre-Fetch Queue and Branch cache, ull
speed USB 2.0 compatile port, Ethernet 100/10 interace, emedded MAC, CAN2.0B compliant interace, a lare Dual
Ban Flash memory, a lare SRAM and many peripherals. It includes a STR910F microcontroller, pre-loaded demonstration
sotware and a ull rane o hardware eatures to help you evaluate device peripherals Motor control, IrDA, USB, Ethernet,
CAN,...etc. and develop your own applications. Extension headers mae it possile to easily connect a dauhter oard or
wrapping board for your specific application.
Features: Three 5V power supply options Jac, USB connection or a Dauhter oard RTC with tamper detection
Audio play and record 3 RS232 connectors with support of full modem control on one connector Inrared Data Access
IrDA USB 2.0 compliant with ull-speed 12M/s data transmission CAN 2.0B connection Inductor Motor Control
connector with 6 PWM output, emerency stop and Tachometer input IEEE-802.3-2002 compliant Ethernet connection
Deu support via 20-pin JTAG connector 38-pin ETM connector for optional trace module Dot-matrix LCD module
Joystic with 4-direction control and selector Extension connectors for daughter board or wrapping board
497-5067-ND STR910-EVAL ..............................................................................$278.75
STX-RLINK Programmer
The RLin is Raisonances versatile, low-cost, in-circuit deuer/prorammer or ST7, uPSD, and STR7 microcontrollers.
It connects to application or evaluation oards or prorammin and deuin via a JTAG standard connection or
ARM core-based and uPSD microcontrollers, or via STMicroelectronics’ In-Circuit Communication ICC connection or
ST7 microcontrollers. The RLin can e driven y Raisonances RIDE interated development environment or in-circuit
deuin and prorammin o applications or ST7 and uPSD, and in-circuit prorammin o STR7 microcontroller
applications. In comination with Raisonances ree RFlasher prorammin sotware, RLin can e used as a very-low
cost, dedicated in-circuit prorammer or ST7 and STR7. ST7 application developers can also drive RLin usin the STVD7
version 3.3 or later interated development environment or in-circuit deuin/prorammin and STVP7 version 2.0
or later or in-circuit proramin. Both are availale or ree download in the ST7 Toolset.
Note: RLins included with REva starter its or STR7 ST part numer STRxxx-SK/RAIS and Proessional Kits or STR7
Raisonance part numer RKITPSTRxxx provide deuin o STR7 devices.
497-5046-ND STX-RLINK .................................................................................. $73.50
STZB-SK/RAIS REva
ZigBee Starter Kit
The STB-SK/RAIS REva iBee Starter Kit is one o Raisonances low-cost solutions desined to help developers add
wireless connectivity to their ST7 microcontroller-ased applications usin STMicroelectronics SN260 sinle-chip iBee
wireless networking device. With the included SNRCM-260 module, Emernet iBee plu-and-play SPI interace,
developers can turn their REva mother boards into wireless application nodes and explore the possibilities of networking
their microcontroller applications.
Starter Kit includes: SNRCM-260 module EmberZnet stack ST ESP and HAL liraries REva mother board and
embedded RLink STR711F dauhter oard ST7FLITE3 dauhter oard Raisonance RIDE GNU C/C compiler or
ARM Raisonance C compiler or ST7
497-5990-ND STB-SK/RAIS .............................................................................. $400.00
Embedded Web Server
Evaluation Board for ST7
The STEVAL-CDE001V1 is ale to oer a temperature display via LCD on the oard and on a wepae via Ethernet
connection. It also acts as a server to provide temperature inormation on a wepae displayed on the client end. It is
able to measure the temperature from a remote region and send it to a computer unit and then provides the solution for
central server-based temperature measurement of various terminals as in applications such as air conditioning control in
the industrial sector and hospitals.
497-8395-ND STEVAL-CDE001V1 ......................................................................... $144.38
C
Microcontrollers, Kits and Evaluation Board
Fuitsus LPC Low Pin Count MCUs eature hih-perormance, low-voltae, emedded lash, a precision on-chip
RC oscillator, and an on-chip deu eature. The MB95200 series includes a complete rane o sinle-chip standard
microcontrollers with etween 8 and 24 pins, powered y an optimized core and eaturin low-leaae technoloy and
embedded flash.
With ast processin capailities and low power consumption position, the MB95200 series is an ideal desin choice or
appliances such as washing machines, refrigerators, ovens, smoke detectors, vacuum cleaners and air conditioning units.
The MCUs are also ideal for cordless phones, remote controls, shavers and other handheld consumer products, as well as
aftermarket automotive accessories
ROM
RAM
A/D
Digi-Key
Price Each
Fujitsu
(KBytes)
(Bytes)
I/O Ports
Converter
Package Part No.
1 10 50 Part No.
240 17 6-Ch., 8/10 Bit 20-SOP 865-1053-ND 1.89 1.77 1.64 MB95F202KPF-G-SNE2
240 17 6-Ch., 8/10 Bit 24-SDIP 865-1054-ND 1.89 1.77 1.64 MB95F202KP-G-SH-SNE2
4
240 5 2-Ch., 8/10 Bit 8-SOP 865-1059-ND 1.43 1.32 1.28 MB95F212KPF-G-SNE2
240 5 2-Ch., 8/10 Bit 8-DIP 865-1060-ND 1.43 1.32 1.28 MB95F212KPH-G-SNE2
496 17 6-Ch., 8/10 Bit 20-SOP 865-1055-ND 2.07 1.94 1.80 MB95F203KPF-G-SNE2
496 17 6-Ch., 8/10 Bit 24-SDIP 865-1056-ND 2.07 1.94 1.80 MB95F203KP-G-SH-SNE2
8
496 5 2-Ch., 8/10 Bit 8-SOP 865-1061-ND 1.56 1.44 1.40 MB95F213KPF-G-SNE2
496 5 2-Ch., 8/10 Bit 8-DIP 865-1062-ND 1.56 1.44 1.40 MB95F213KPH-G-SNE2
496 17 6-Ch., 8/10 Bit 20-SOP 865-1057-ND 2.46 2.30 2.14 MB95F204KPF-G-SNE2
496 17 6-Ch., 8/10 Bit 24-SDIP 865-1058-ND 2.46 2.30 2.14 MB95F204KP-G-SH-SNE2
16
496 5 2-Ch., 8/10 Bit 8-SOP 865-1063-ND 1.74 1.63 1.51 MB95F214KPF-G-SNE2
496 5 2-Ch., 8/10 Bit 8-DIP 865-1064-ND 1.74 1.63 1.51 MB95F214KPH-G-SNE2
32 1K 39 8-Ch., 8/10 Bit 48-LQFP 865-1076-ND 6.38 5.93 5.48 MB95F156JPMT-GE1
2K 52 12-Ch., 8/10 Bit 64-LQFP 865-1070-ND 6.55 6.03 5.77 MB95F108AJWPMC-GE1
2K 37 8-Ch., 8/10 Bit 52-LQFP 865-1071-ND 6.75 6.27 5.79 MB95F118JWPMC-GE1
60
2K 87 12-Ch., 8/10 Bit 100-QFP 865-1073-ND 8.05 7.41 7.09 MB95F128DPF-GE1
2K 53 8-Ch., 8/10 Bit 64-LQFP 865-1078-ND 7.23 6.65 6.36 MB95F168JAPMC1-GE1
2K 53 8-Ch., 8/10 Bit 64-LQFP 865-1079-ND 7.23 6.65 6.36 MB95F168JAPMC-GE1
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
(Continued)
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(TZM112.US)
177
177

Microcontrollers, Kits and Evaluation Board (Cont.)
C
ROM
RAM
A/D
Digi-Key
Price Each
Fujitsu
(KBytes)
(Bytes)
I/O Ports
Converter
Package Part No.
1 10 50 Part No.
2K 34 8-Ch., 8/10 Bit 48-LQFP 865-1080-ND 7.05 6.49 6.21 MB90F387PMT-GSE1
64
2K 36 8-Ch., 8/10 Bit 48-LQFP 865-1081-ND 7.05 6.49 6.21 MB90F387SPMT-GSE1
4K 45 — 64-LQFP 865-1090-ND 7.98 7.34 7.02 MB90F337PMC-GE1
128 4K 48 11-Ch., 8/10 Bit 64-LQFP 865-1092-ND 10.50 9.66 9.24 MB91F267APMC-GE1
256
16K 113 12-Ch., 8/10 Bit 144-LQFP 865-1093-ND 12.38 11.39 10.89 MB91F475PMC1-GE1
16K 77 6-Ch., 8/10 Bit 100-LQFP 865-1097-ND 10.98 10.10 9.66 MB91F482PMC-GE1
12K 66 18-Ch., 10 Bit 80-LQFP 865-1082-ND 10.93 10.06 9.62 MB96F326RSBPMC-GSE2
288
12K 51 15-Ch., 10 Bit 64-LQFP 865-1087-ND 10.03 9.23 8.83 MB96F356RSBPMC-GSE2
16K 96 16-Ch., 10 Bit 120-LQFP 865-1088-ND 11.95 10.86 10.32 MB96F386RSBPMC-GSE2
416
16K 82 24-Ch., 10 Bit 100-LQFP 865-1084-ND 12.91 11.74 11.16 MB96F347RSBPMC-GSE2
16K 96 16-Ch., 10 Bit 120-LQFP 865-1089-ND 12.54 11.40 10.83 MB96F387RSBPMC-GSE2
32K 113 12-Ch., 8/10 Bit 144-LQFP 865-1095-ND 11.99 10.90 10.36 MB91F479PMC1-GE1
512
32K 77 10-Ch., 8/10 Bit 100-LQFP 865-1096-ND 12.48 11.48 10.98 MB91F487PMC-GE1
48K 99 24-Ch., 10 Bit 120-LQFP 865-1099-ND 11.98 11.02 10.54 MB91F662PMC-GE1
544
24K 82 24-Ch., 10 Bit 100-LQFP 865-1085-ND 13.64 12.40 11.78 MB96F348HSBPMC-GSE2
24K 82 24-Ch., 10 Bit 100-LQFP 865-1086-ND 14.52 13.20 12.54 MB96F348RSBPMC-GSE2
Starter Kits and Evaluation Board
Bundle Consistin o Starter Kit SK-16FX-100PMC and On-Chip Deu Sotware EUROScope Lite 16FX 865-1100-ND 162.60 — — SK-16FX-EUROSCOPE-FMA
Starter Kit that Supports MB96330 Series 865-1101-ND 355.11 — — SK-16FX-144PMC-USB
Starter Kit F 2 MC-16LX Series or MB90F387 865-1103-ND 49.88 — — CT-161-CD
Starter Kit or F 2 MC-8FX, 3V 865-1105-ND 1091.25 — — MB2146-401-01A
Starter Kit or F 2 MC-8FX, 5V 865-1106-ND 1091.25 — — MB2146-401-03A
Starter Kit or MB95200H/210H Series 865-1107-ND 150.00 — — MB2146-410A-01-E
Starter Kit or USB 865-1108-ND 200.00 — — USB-100
Evaluation Board or Fast Sotware Desin Start Usin Flash/CAN Microcontrollers in 100-QFP Pacae 865-1102-ND 375.00 — — CAN-100
NEW! Graphics Display Controller (GDC)
ARM926: 16-bit data and instruction cache 320MHz operation 32-bit bus ICE interface for emulation
2D/3D GDC: MB86296 GDC core Alpha blending Anti-aliasing (unweighed algorithm) Texture
mapping Z-buffer (16-bit) Polygon drawing 8, 16 and 24 bpp color depths Bit blt (multiple options)
Description
Package
Digi-Key
Part No.
Performance up to 500k polygon/sec and 75m pixel/sec Dual display (RGB) Dual capture (YUV)
Features: CAN (2 ports) FlexRay Media LB ADC DAC SD card USB (H and F) IDE-66
Flash/SRAM UARTs SPI PWM GPIOs
Price Each
1 10 50
Fujitsu
Part No.
IC SoC Graphic Controller Jade Series 484-BGA 865-1110-ND 36.00 34.00 32.00 MB86R01PB-GSE1
Network Development
Kits and Modules
Description
Digi-Key
Part No.
Price
Each
Netburner
Part No.
Development Kit - Serial 528-1000-ND 149.00 NNDK-SB72-KIT
Development Kit - Network for MOD5272 528-1001-ND 299.00 NNDK-MOD5272-KIT
10/100 Ether net Module 528-1008-ND◆ 139.00 MOD5272-100IR
Development Kit - Network for MOD5282 528-1002-ND 299.00 NNDK-MOD5282-KIT
Serial - Ethernet Board 528-1003-ND◆ 156.13 SB72-300CR
◆ RoHS Compliant
NetBurner SB72 is designed for applications that require a high performance/low
cost 10/100 Ethernet inter face to serial devices. The SB72 come preloaded with
software to translate serial and Ethernet data, and is con fig ur able through any web
browser. The SB72 application code can be customized to any specific application
re quire ments with a net work development kit.
NetBurner MOD5272 core module (with Coldfire Pro ces sor from Free scale)
is a device containing everything needed for design engineers to add network
control and to mon i tor a com pany's com mun i ca tions assets. The module solves
the problem of network-enabling devices with 10/100 Ether net, including those
requiring digital, analog and serial control.
Kit Includes: evelopment board dapt er board C-ROM with software
source code, develop ment tools, manuals Straight through and cross over
networ cables 12 power supply
inDART Series and Starter Kits
inDART SERIES: They are a powerul entry-level tool or Freescale Semiconductor, Inc. Formerly Motorola SPS MCU-
ased systems. InDART taes advantae o Metrowors CodeWarrior Interated Development environment and the
ISP In-System Pro rammin eature to proram the lash memory o the Freescale amily o MCUs. InDART provides
you with everythin you need to download proram, in-circuit emulate and deu end-user code. Full speed proram
execution allows you to per form hardware and software testing in real-time. Features: Low cost and easy to use its
ISP/ICP pro ram min USB interace In-circuit deuin Kit Includes: inDART oard and demo oard with
prototypin area USB Cale Sotware CodeWarrior CD and Sotec System CD Gettin started uide
STARTER KITS: These starter kits are entry-level tools which allow you to get familiar with the different Freescale
Semiconductor, Inc. ormerly Motorola SPS microcontrollers. These its alon with the included CodeWarrior sotware
allow or easy write, compile, download, in-circuit emulation and deu o user code. Includes a prototypin area to
develop your own small applications. Features: Low cost and easy to use its Full-speed proram execution or
hardware and sotware testin In-circuit deu and emulation Serial interace Kit Includes: Evaluation oard with
prototypin area Starter uide Serial cale
ST5 and ST7 Development Kits
The easy-to-use inDART series development its are powerul entry-level tools or ST5 and ST7 ased systems. These
its ive you the aility to write, compile, download and in-circuit emulate and deu your code. Supports ISP in-system
prorammin to proram the lash on the taret MCU.
Features:
Low cost and easy to use ISP/ICP prorammin USB Interace In-circuit deu
Kit Includes:
inDART oard, Demo oard, Starter uide, CodeWarrior, STVD7 ST Visual Deu and DataBlaze sotware
Digi-Key
Price SofTec
Description
Part No.
Each Part No.
ST72C1xx, 2xx Desin Kit 520-1024-ND 217.88 INDART-ST72C254
Devices
Supported
Digi-Key
Part No.
Price
Each
SofTec
Part No.
HC08
MC68HC908GRxx, MC68HC908Gxx 520-1002-ND 261.63 INDART-HC08/G
MC68HC908G32, 48, 60 520-1003-ND 261.63 INDART-HC08/G64
MC68HC908JKxx 520-1004-ND 261.63 INDART-HC08/JK
MC68HC908JLxx 520-1005-ND 261.63 INDART-HC08/JL
HCS08
MC9S08RG60 520-1029-ND 261.63 INDART-HCS08/RG60
HCS12
MC9S12C32 520-1011-ND 436.63 INDART-HCS12/C32
MC9S12DP256 520-1012-ND 499.00 INDART-HCS12/DP256
MC9S12E128 520-1013-ND 436.63 INDART-HCS12/E128
Starter Kits
MC9S08GB60 520-1014-ND 86.63 PK-HCS08GB60
ST7 Tools
IPL-ST7: This Dynamic Link Library includes all low-level functions that allow users to set up and perform commands and
unctions rom the DataBlaze user interace within their own windows application
PK-ST7FLITE2: Entry level tool which allows you to et started with the ST7FLITE2 MCU. Features: Real-time
code execution In-circuit deuin In-system prorammin and deuin Demo area Prototypin area Kit
Includes: Evaluation oard USB cale STVD7, CodeWarrior, and Cosmic C Sotware Quicstart poster Users
manual
Description
Digi-Key
Part No.
Price
Each
SofTec
Part No.
Prorammin Lirary or ST7 520-1026-ND 315.00 IPL-ST7
ST7FLITE2 Starter Kit 520-1030-ND 86.63 PK-ST7FLITE2
178 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Microcontrollers – 8 and 16 Bit
®
HC705 Family — 8-Bit
Features: 68HC705 CPU with the addition o EPROM memory Fully static desin allowin operation down to DC 8- it accumulator 8-it index reister 16-it stac pointer On-chip oscillator 16-it timer with uilt in prescaler COP
watchdo protection Low power STOP and WAIT modes Availale SPI, SCI or SIOP Eiht addressin modes
RAM
(Bytes)
176
EPROM/
OTP
(Bytes) I/O A/D Timer Serial COP
Operating
Voltage
(V)
Max. Bus
Freq.
(MHz)
Temperature
(°C)
Package
Digi-Key
Part No.
Price Each
1 10 25
4.5K 21 4-Ch., 8-Bit 16-Bit, 1 IC, 1 OC SIOP 3.3, 5.0 2.1 -40 125 28-PDIP MC705P6AMPE-ND 5.19 4.67 4.26 MC705P6AMPE
4.5K 21 4-Ch., 8-Bit 16-Bit, 1 IC, 1 OC SIOP 3.3, 5.0 2.1 -40 85 28-DIP MC705P6ACPE-ND 5.29 4.73 4.26 MC705P6ACPE
Freescale
Part No.
8.0K 31 — 16-Bit, 1 IC, 1 OC SCI, SPI 3.3, 5.0 4.0 -40 85 40-DIP MC705C8ACPE-ND 12.08 10.87 9.91 MC705C8ACPE
304
8K 8K 31 — 2-Ch. SCI, SPI 3.3, 5.0 2.1 -40 85 42-SDIP MC68HC705C8AB-ND 9.90 8.92 8.12 MC68HC705C8AB
352 16K 31 — 16-Bit, 1 IC, 1 OC SCI, SPI 3.3, 5.0 2.1 -40 85 40-DIP MC705C9ACPE-ND 10.94 9.95 9.21 MC705C9ACPE
◆ RoHS Compliant
C
HC711 Family — 8-Bit
Features: 68HC11 CPU with the addition o EPROM memory Fully static desin allowin operation down to DC Two 8-it accumulators Two 16-it index reisters 16-it stac pointer 16-it timer with uilt in prescaler
COP watchdo protection Low power STOP and WAIT modes SPI, SCI Six addressin modes immediate, direct, extended, indexed, inherent, and relative 16/16 inteer and ractional divides 8 x 8 multiply
RAM EEPROM EPROM/OTP
Operating Max. Bus Temperature
Digi-Key
Price Each
Freescale
(Bytes) (Bytes) (Bytes) Timer I/O A/D Voltage (V) Freq. (MHz) (°C) Package Part No.
1 10 25 Part No.
— 4K 16-Bit, RTI 32 — 5.0 2.0 -40 105 44-PLCC MC68HC711D3VFNE2-ND 10.85 9.87 9.13 MC68HC711D3VFNE2
192
— 4K 16-Bit 32 — 5.0 2.0 -40 85 44-PLCC MC711D3CFNE2RTR-ND‡ 3348.45/450 MC711D3CFNE2R
512
512 12K 16-Bit, RTI 38 8-Ch., 8-Bit 5.0 2.0 -40 85 52-PLCC MC711E9CFNE2RCT-ND§ 22.54 20.58 19.11 MC711E9CFNE2R
512 12K 16-Bit, RTI 38 8-Ch., 8-Bit 5.0 2.0 -40 85 52-PLCC MC711E9CFNE2RTR-ND‡ 5618.70/450 MC711E9CFNE2R
512 32K 16-Bit 38 8-Ch., 8-Bit 5.0 4.0 -40 85 52-PLCC MC68HC711E9CFNE2-ND 21.30 19.36 17.91 MC68HC711E9CFNE2
768 512 20K 16-Bit, RTI 38 8-Ch., 8-Bit 5.0 2.0 -40 85 52-PLCC MC68711E20CFNE2-ND 27.68 25.61 23.53 MC68711E20CFNE2
§ Cut Tape ‡ Tape and Reel
HC11 Family — 8-Bit
Features: Fully static desin allowin operation down to DC Two 8-it accumulators Two 16-it index reisters 16-it stac pointer 16-it timer with uilt in prescaler COP watchdo protection Low power STOP and WAIT modes SPI,
SCI Six addressin modes immediate, direct, extended, indexed, inherent, and relative 16/16 inteer and ractional divides 8 x 8 multiply
RAM EEPROM
Operating Max. Bus Temperature
Digi-Key
Price Each
Freescale
(Bytes) (Bytes) PWM Timer I/O A/D Volt. (V) Freq. (MHz) (°C) Package Part No.
1 10 25 Part No.
768 640 4-Ch., 8-Bit 16-Bit, RTI, PWM 37 8-Ch., 8-Bit 5.0 4.0 -40 85 80-QFP MC68L11K1FUE2-ND 17.57 16.25 14.94 MC68L11K1FUE2
M68HC908 Family — 8-Bit
The MC68HC08 Family is a low cost, hih perormance, Complex Instruction Set Computer CISC with a Von Neumann
architecture.
Features: Enhanced HC05 Prorammin Model Extensive loop control unctions 16 Addressin modes 16-it
Index Reister and Stac Pointer Memory to memory data transers Oect-code compatile with Freescales 68HC05
architecture or easy miration Desined to allow eicient, compact modular codin in assemly or C with ull 16-it
Stac Pointer and stac relative addressin Eicient instruction set with multiply and divide that is easy to learn and use
RAM
(Bytes)
128
◆ RoHS Compliant § Cut Tape ‡ Tape and Reel
Operating
Voltage
(V)
Maximum Bus
Frequency
@5.0V (MHz)
Memory: In-application, In-circuit Re-Prorammale Flash Memory 1.5K to 16K Bytes 128 to 512 Bytes o random
access memory RAM Peripherals: Two/Four-Channel, 16-it Timer with selectale input capture, output compare or
pulse width modulation PWM Internal Cloc Oscillator reduces oard space and system costs y eliminatin external
components Flexile I/O allows direct drive o LED and other circuits to eliminate external drivers and help reduce
system costs System Protection eatures, includin Watchdo Timer and On-chip Low Voltae Detect/Reset to help
reduce cost and increase reliability
Flash
(Bytes) Timer I/O A/D
Temperature
(°C) Package
Digi-Key
Part No.
1
Price Each
10 25
Freescale
Part No.
1.5K 2-Ch., 16-Bit 5 — 3.0 5.0 8.0 -40 85 8-DIP MC68HC908QT1CPE-ND 2.17 1.96 1.75 MC68HC908QT1CPE
1.5K 2-Ch., 16-Bit 5 — 3.0 5.0 8.0 -40 105 8-DIP MC68HC908QT1VPE-ND 2.29 2.08 1.85 MC68HC908QT1VPE
1.5K 2-Ch., 16-Bit 5 — 3.0 5.0 8.0 -40 85 8-SOIC MCHC908QT1CDWE-ND 2.17 1.96 1.75 MCHC908QT1CDWE
1.5K 2-Ch., 16-Bit 5 — 3.0 5.0 8.0 -40 85 8-DIP MC68HC908QT1CPE-ND 2.17 1.96 1.75 MC68HC908QT1CPE
1.5K 2-Ch., 16-Bit 5 4-Ch., 8-Bit 3.0 5.0 8.0 -40 105 8-SOIC MCHC908QT1VDWE-ND 1.87 1.70 1.51 MCHC908QT1VDWE
1.5K 2-Ch., 16-Bit 5 4-Ch., 8-Bit 3.0 5.0 8.0 -40 85 8-DIP MC68HC908QT2CPE-ND 2.60 2.36 2.10 MC68HC908QT2CPE
1.5K 2-Ch., 16-Bit 5 4-Ch., 8-Bit 3.0 5.0 8.0 -40 85 8-SOIC MCHC908QT2CDWE-ND 2.60 2.36 2.10 MCHC908QT2CDWE
1.5K 2-Ch., 16-Bit 13 — 3.0 5.0 8.0 -40 85 16-DIP MC68HC908Q1CPE-ND 2.45 2.22 1.98 MC68HC908Q1CPE
1.5K 2-Ch., 16-Bit 13 — 3.0 5.0 8.0 -40 105 16-DIP MC68HC908Q1VPE-ND 2.57 2.33 2.08 MC68HC908Q1VPE
1.5K 2-Ch., 16-Bit 13 — 3.0 5.0 8.0 -40 85 16-SOIC MCHC908Q1CDWE-ND 2.45 2.22 1.98 MCHC908Q1CDWE
1.5K 2-Ch., 16-Bit 13 4-Ch., 8-Bit 5.0 8.0 -40 125 16-SOIC MCHC908Q1MDWE-ND 2.20 1.99 1.78 MCHC908Q1MDWE
1.5K 2-Ch., 16-Bit 13 — 3.0 5.0 8.0 -40 85 16-TSSOP MC68HC908Q1CDTE-ND 2.73 2.47 2.20 MC68HC908Q1CDTE
1.5K 2-Ch., 16-Bit 13 — 3.0 5.0 8.0 -40 105 16-TSSOP MC68HC908Q1VDTE-ND 2.33 2.11 1.88 MC68HC908Q1VDTE
1.5K 2-Ch., 16-Bit 13 4-Ch., 8-Bit 3.0 5.0 8.0 -40 85 16-DIP MC68HC908Q2CPE-ND 2.88 2.61 2.33 MC68HC908Q2CPE
1.5K 2-Ch., 16-Bit 13 4-Ch., 8-Bit 3.0 5.0 8.0 -40 125 16-DIP MC68HC908Q2MPE-ND 2.86 2.55 2.30 MC68HC908Q2MPE
1.5K 2-Ch., 16-Bit 13 4-Ch., 8-Bit 3.0 5.0 8.0 -40 85 16-SOIC MCL908Q2CDWE-ND 2.35 2.13 1.90 MCL908Q2CDWE
1.5K 2-Ch., 16-Bit 13 4-Ch., 8-Bit 3.0 5.0 8.0 -40 85 16-PDIP MCL908Q2CDTE-ND 2.50 2.27 2.02 MCL908Q2CDTE
1.5K 2-Ch., 16-Bit 13 4-Ch., 8-Bit 3.0 5.0 8.0 -40 125 16-TSSOP MC68HC908Q2MDTE-ND 2.50 2.23 2.01 MC68HC908Q2MDTE
4K 2-Ch., 16-Bit 13 6-Ch., 10-Bit 3.0 5.0 8.0 -40 85 16-PDSO MC908QL3CDWE-ND 4.10 3.67 3.30 MC908QL3CDWE
®
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(TZM112.US)
179
179

Microcontrollers – 8 and 16 Bit
M68HC908 Family — 8-Bit (Cont.)
®
C
RAM
(Bytes)
128
256
512
◆ RoHS Compliant § Cut Tape ‡ Tape and Reel
Operating
Voltage
(V)
Maximum Bus
Frequency
@5.0V (MHz)
Flash
Temperature
Digi-Key
Price Each
Freescale
(Bytes) Timer I/O A/D
(°C) Package Part No.
1 10 25 Part No.
4K 2-Ch., 16-Bit 13 6-Ch., 10-Bit 3.0 5.0 8.0 -40 125 16-TSSOP MC908QL3MDTE-ND 4.76 4.26 3.83 MC908QL3MDTE
4K 2-Ch., 16-Bit 13 6-Ch., 10-Bit 3.0 5.0 8.0 -40 105 16-TSSOP MC908QL3VDTE-ND 4.53 4.05 3.65 MC908QL3VDTE
4K 2-Ch., 16-Bit 5 4-Ch., 8-Bit 3.0 5.0 8.0 -40 85 8-DIP MC68HC908QT4CPE-ND 3.07 2.78 2.48 MC68HC908QT4CPE
4K 2-Ch., 16-Bit 5 4-Ch., 8-Bit 3.0 5.0 8.0 -40 85 8-SOIC MCHC908QT4CDWE-ND 3.07 2.78 2.48 MCHC908QT4CDWE
4K 2-Ch., 16-Bit 5 4-Ch., 8-Bit 5.0 8.0 -40 105 8-SOIC MCHC908QT4VDWE-ND 2.91 2.60 2.34 MCHC908QT4VDWE
4K 2-Ch., 16-Bit 13 4-Ch., 8-Bit 3.0 5.0 8.0 -40 85 16-DIP MC68HC908Q4CPE-ND 3.39 3.03 2.73 MC68HC908Q4CPE
4K 2-Ch., 16-Bit 13 4-Ch., 8-Bit 3.0 5.0 8.0 -40 125 16-DIP MC68HC908Q4MPE-ND 3.72 3.33 3.00 MC68HC908Q4MPE
4K 2-Ch., 16-Bit 13 4-Ch., 8-Bit 3.0 5.0 8.0 -40 105 16-DIP MC68HC908Q4VPE-ND 3.56 3.18 2.86 MC68HC908Q4VPE
4K 2-Ch., 16-Bit 13 4-Ch., 8-Bit 3.0 5.0 8.0 -40 85 16-SOIC MCHC908Q4CDWE-ND 3.39 3.03 2.73 MCHC908Q4CDWE
4K 2-Ch., 16-Bit 13 4-Ch., 8-Bit 5.0 8.0 -40 125 16-SOIC MCHC908Q4MDWE-ND 3.72 3.33 3.00 MCHC908Q4MDWE
4K 2-Ch., 16-Bit 13 4-Ch., 8-Bit 3.0 5.0 8.0 -40 125 16-PDIP MC908Q4MDWERCT-ND§ 3.46 3.12 2.83 MC908Q4MDWER
4K 2-Ch., 16-Bit 13 4-Ch., 8-Bit 3.0 5.0 8.0 -40 125 16-PDIP MC908Q4MDWERTR-ND‡ 1664.00/1,000 MC908Q4MDWER
4K 2-Ch., 16-Bit 13 4-Ch., 8-Bit 3.0 5.0 8.0 -40 85 16-TSSOP MC68HC908Q4CDTE-ND 3.72 3.33 3.00 MC68HC908Q4CDTE
4K 2-Ch., 16-Bit 13 6-Ch., 10-Bit 3.0 5.0 8.0 -40 125 16-SOIC MC908QL4MDWE-ND 5.02 4.48 4.04 MC908QL4MDWE
4K 4-Ch., 16-Bit 13 10-Ch., 10-Bit 3.0 5.0 8.0 -40 85 16-TSSOP MC908QB4CDTE-ND 2.72 2.57 2.42 MC908QB4CDTE
4K 4-Ch., 16-Bit 13 10-Ch., 10-Bit 3.0 5.0 8.0 -40 85 16-SOIC MC908QB4CDWE-ND 2.54 2.40 2.26 MC908QB4CDWE
4K 4-Ch., 16-Bit 13 10-Ch., 10-Bit 3.0 5.0 8.0 -40 85 16-DIP MC908QB4CPE-ND 3.67 3.28 2.95 MC908QB4CPE
4K 2-Ch., 16-Bit 14 4-Ch., 8-Bit 3.0 5.0 8.0 -40 85 16-TSSOP MC68HC908Q4MDTE-ND 4.09 3.65 3.29 MC68HC908Q4MDTE
4K 2-Ch., 16-Bit 14 4-Ch., 8-Bit 3.0 5.0 8.0 -40 85 16-TSSOP MC68HC908Q4VDTE-ND 3.92 3.50 3.15 MC68HC908Q4VDTE
8K 4-Ch., 16-Bit 13 10-Ch., 10-Bit 3.0 5.0 8.0 -40 85 16-TSSOP MC908QB8CDTE-ND 3.06 2.89 2.72 MC908QB8CDTE
8K 4-Ch., 16-Bit 13 10-Ch., 10-Bit 3.0 5.0 8.0 -40 85 16-SOIC MC908QB8CDWE-ND 2.88 2.72 2.56 MC908QB8CDWE
8K 4-Ch., 16-Bit 13 10-Ch., 10-Bit 3.0 5.0 8.0 -40 85 16-DIP MC908QB8CPE-ND 4.14 3.70 3.33 MC908QB8CPE
8K 4-Ch., 16-Bit 13 10-Ch., 10-Bit 3.0 5.0 8.0 -40 85 16-PDSO MC908QB8CDWERCT-ND§ 3.84 3.43 3.22 MC908QB8CDWER
8K 4-Ch., 16-Bit 13 10-Ch., 10-Bit 3.0 5.0 8.0 -40 85 16-PDSO MC908QB8CDWERTR-ND‡ 1680.00/1,000 MC908QB8CDWER
16K 2-Ch., 16-Bit 23 12-Ch., 10-Bit 3.0 5.0 8.0 -40 85 28-SOIC MC908JL16CDWE-ND 3.13 2.96 2.79 MC908JL16CDWE
16K 2-Ch., 16-Bit 23 12 Ch., 10-Bit 3.0 5.0 8.0 -40 85 28-DIP MC908JL16CPE-ND 3.35 3.17 2.98 MC908JL16CPE
16K 2-Ch., 16-Bit 26 13 Ch., 10-Bit 3.0 5.0 8.0 -40 85 32-LQFP MC908JL16CFJE-ND 3.22 3.05 2.87 MC908JL16CFJE
16K 2-Ch., 16-Bit 26 13-Ch., 10-Bit 3.0 5.0 8.0 -40 85 32-SDIP MC908JL16CSPE-ND 3.44 3.25 3.06 MC908JL16CSPE
16K 4-Ch., 16-Bit 14 10-Ch., 10-Bit 3.3 5.5 8.0 -40 85 16-SOIC MC908QC16CDXE-ND 3.69 3.49 3.28 MC908QC16CDXE
Accessories
Demo Board or MC908JL16 DEMO908JL16E-ND 50.00 — — DEMO908JL16E
Demo Board or MC908QC16 DEMO908QC16-ND 75.00 — — DEMO908QC16
Evaluation Board or MC908QL4 M68EVB908QL4-ND 205.15 — — M68EVB908QL4
HC908 Family — 8-Bit
Features: 68HC08 CPU with Flash memory Fully upward code compatile with the 68HC05 amily or easy miration Fully static desin allowin operation down to DC 16-it index reister 16-it stac pointer 1, 2, 4 or 6 channel 16-it
timers with uilt in prescalers COP watchdo protection Low-power STOP and WAIT modes Availale USB, SPI, SCI, CAN2, I 2 C and ESCI Availale A/D converter 16 addressin modes LVI Low Voltae Inhiit supply voltae monitor
16/8 divide 8 x 8 multiply 68HC908A additional eature MSCAN Motorola Scalale Controller Area Networ interace conorms to CAN 2.0B
Typ. Operating Max. Bus Temperature
FLASH RAM
Timer (s)
Voltage Frequency
Digi-Key
Price Each
Freescale
(Bytes) (Bytes) I/O A/D 16-Bit
Serial
(V) (MHz) (°C) Package Part No.
1 10 25 Part No.
128 15 10-Ch., 8-Bit 2-Ch. — 2.7 3.3 8.0 -40 85 20-SOIC MC908JK1ECDWE-ND 3.19 2.85 2.57 MC908JK1ECDWE
128 6 — 2-Ch. SPI 2.7 5.5 8.0 -40 85 8-SOIC MC908QT1ACDWE-ND 1.36 1.29 1.21 MC908QT1ACDWE
128 6 — 2-Ch. SPI 2.7 5.5 8.0 -40 85 8-DIP MC908QT1ACPE-ND 1.36 1.29 1.21 MC908QT1ACPE
1.5K
128 6 6-Ch., 10-Bit 2-Ch. SPI 2.7 5.5 8.0 -40 85 8-SOIC MC908QT2ACDWE-ND 1.63 1.55 1.46 MC908QT2ACDWE
128 6 6-Ch., 10-Bit 2-Ch. SPI 2.7 5.5 8.0 -40 85 8-DFN MC908QT2ACFQE-ND 1.83 1.73 1.63 MC908QT2ACFQE
128 6 6-Ch., 10-Bit 2-Ch. SPI 2.7 5.5 8.0 -40 85 8-DIP MC908QT2ACPE-ND 1.63 1.55 1.46 MC908QT2ACPE
128 16 — 1-Ch. SPI 2.7 5.5 8.2 -40 85 16-DIP MC908Q1ACPE-ND 1.54 1.45 1.37 MC908Q1ACPE
128 14 6-Ch., 10-Bit 1-Ch. SPI 2.7 5.5 8.2 -40 85 16-TSSOP MC908Q2ACDTE-ND 1.92 1.82 1.72 MC908Q2ACDTE
2K
192 13 4-Ch., 8-Bit 2-Ch. SCI 2.7 5.5 8.0 -40 85 16-SOICW MC908KX2CDWE-ND 3.79 3.58 3.37 MC908KX2CDWE
192 13 4-Ch., 8-Bit 2-Ch. SCI 2.7 5.5 8.0 -40 125 16-SOIC MC908KX2MDWE-ND 4.18 3.95 3.72 MC908KX2MDWE
128 15 10-Ch., 8-Bit 2-Ch. — 2.7 3.3 8.0 -40 85 20-DIP MCHC908JK3ECPE-ND 3.64 3.25 2.93 MCHC908JK3ECPE
128 23 12-Ch., 8-Bit 2-Ch. — 2.7 3.3 8.0 -40 85 20-DIP MCR908JK3ECPE-ND 3.64 3.25 2.93 MCR908JK3ECPE
128 15 10-Ch., 8-Bit 2-Ch. — 2.7 3.3 8.0 -40 85 20-SOIC MC908JK3ECDWE-ND 3.64 3.25 2.93 MC908JK3ECDWE
128 23 12-Ch., 8-Bit 2-Ch. — 2.7 3.3 8.0 -40 85 28-SOIC MC908JL3ECDWE-ND 4.34 3.88 3.49 MC908JL3ECDWE
128 23 10-Ch., 8-Bit 2-Ch. — 2.7 3.3 8.0 -40 85 48-LQFP MC908JL3ECFAE-ND 3.55 3.17 2.86 MC908JL3ECFAE
4K 128 23 12-Ch., 8-Bit 2-Ch. — 2.7 3.3 8.0 -40 85 28-DIP MC908JL3ECPE-ND 4.34 3.88 3.49 MC908JL3ECPE
128 6 6-Ch., 10-Bit 2-Ch. SPI 2.7 5.5 8.2 -40 85 8-DFN MC908QT4ACFQE-ND 2.12 2.01 1.89 MC908QT4ACFQE
128 6 6-Ch., 10-Bit 2-Ch. SPI 2.7 5.5 8.2 -40 85 8-DIP MC908QT4ACPE-ND 1.92 1.82 1.72 MC908QT4ACPE
128 14 6-Ch., 10-Bit 1-Ch. SPI 2.7 5.5 8.2 -40 85 16-SOIC MC908Q4ACDWE-ND 2.35 2.23 2.10 MC908Q4ACDWE
128 14 6-Ch., 10-Bit 1-Ch. SPI 2.7 5.5 8.2 -40 85 16-DIP MC908Q4ACPE-ND 2.35 2.23 2.10 MC908Q4ACPE
256 26 — 2-Ch. SCI — 8.0 -40 85 20-DIP MC908KK3ECPE-ND 3.02 2.70 2.43 MC908KK3ECPE
◆ RoHS Compliant § Cut Tape ‡ Tape and Reel
(Continued)
®
For Digi-Reel ® information, please see page 71.
180 (US2011)
(TZM112.US)
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Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Microcontrollers – 8 and 16 Bit
HC908 Family — 8-Bit (Cont.)
®
FLASH RAM
Timer (s)
Typ. Operating
Voltage
Max. Bus
Frequency
Temperature
Digi-Key
Price Each
Freescale
(Bytes) (Bytes) I/O A/D 16-Bit
Serial
(V) (MHz) (°C) Package Part No.
1 10 25 Part No.
4K
256 26 12-Ch., 8-Bit 2-Ch. SCI 2.7 3.3 8.0 -40 85 28-SOIC MC908KL3ECDWE-ND 3.85 3.44 3.10 MC908KL3ECDWE
384 21 6-Ch., 8-Bit 3-Ch. SCI, SPI 3 5.5 8.2 -40 85 32-LQFP MC68HC908GR4CFAE-ND 6.30 5.63 5.07 MC68HC908GR4CFAE
192 13 4-Ch., 8-Bit 2-Ch. SCI 2.7 5.5 8.0 -40 85 16-SOIC MC908KX8CDWE-ND 5.25 4.96 4.67 MC908KX8CDWE
192 13 4-Ch., 8-Bit 2-Ch. SCI 2.7 5.5 8.0 -40 125 16-SOICW MC908KX8MDWE-ND 5.83 5.51 5.19 MC908KX8MDWE
256 37 — 2-Ch. USB1.1 4 5.5 6.0 -40 85 20-DIP MC68HC908JB8JPE-ND 2.93 2.78 2.61 MC68HC908JB8JPE
256 21 — 2-Ch. USB1.1 4 5.5 3.0 -40 85 28-SOIC MC908JB8ADWE-ND 2.88 2.72 2.56 MC908JB8ADWE
256 37 — 2-Ch. USB1.1 4 5.5 3.0 -40 85 44-QFP MC908JB8FBE-ND 3.33 3.15 2.96 MC908JB8FBE
256 13 — 1-Ch. USB1.1 4 5.5 3.0 -40 85 20-SOIC MC908JB8JDWE-ND 2.86 2.71 2.55 MC908JB8JDWE
256 15 10-Ch., 8-Bit 2-Ch. SCI 2.7 5.5 8.0 -40 85 20-SOIC MC908JK8CDWE-ND 4.18 3.95 3.72 MC908JK8CDWE
256 15 10-Ch., 8-Bit 2-Ch. SCI 2.7 5.5 8.0 -40 85 28-DIP MCHC908JK8CPE-ND 4.18 3.95 3.72 MCHC908JK8CPE
256 23 10-Ch., 8-Bit 2-Ch. — 2.7 5.5 8.0 -40 85 28-SOIC MC908JL8CDWE-ND 3.11 2.95 2.77 MC908JL8CDWE
256 23 10-Ch., 8-Bit 2-Ch. SCI 2.7 5.5 8.0 -40 85 28-SOIC MC908JL8CDWERCT-ND§ 4.14 3.70 3.48 MC908JL8CDWER
256 23 10-Ch., 8-Bit 2-Ch. SCI 2.7 5.5 8.0 -40 85 28-SOIC MC908JL8CDWERTR-ND‡ 1810.00/1,000 MC908JL8CDWER
256 24 8-Ch., 10-Bit 2-Ch. SCI, SPI 2.7 5.5 8.0 -40 105 32-LQFP MC908E8AVFJE-ND 5.11 4.83 4.55 MC908E8AVFJE
256 12 7-Ch., 10-Bit 2-Ch. SCI 4.5 5.5 8.0 -40 85 28-DIP MC908MR8CPE-ND 7.00 6.62 6.23 MC908MR8CPE
256 16 7-Ch., 10-Bit 2-Ch. SCI 4.5 5.5 8.0 -40 125 32-LQFP MCHC908MR8MFAE-ND 7.70 7.28 6.85 MCHC908MR8MFAE
256 16 7-Ch., 10-Bit 2-Ch. SCI 4.5 5.5 8.0 -40 105 32-LQFP MCHC908MR8VFAE-ND 7.34 6.94 6.53 MCHC908MR8VFAE
256 23 12-Ch., 8-Bit 2-Ch. — 2.7 5.5 8.0 -40 85 28-DIP MC908JL8CPE-ND 3.11 2.95 2.77 MC908JL8CPE
256 23 12-Ch., 8-Bit 2-Ch. — 2.7 5.5 8.0 -40 85 32-DIP MC68HC908JL8CSPE-ND 3.11 2.95 2.77 MC68HC908JL8CSPE
8K 256 14 10-Ch., 10-Bit 4-Ch. SPI, SCI 2.7 5.5 8.0 -40 125 16-DIP MC908QB8MPE-ND 4.56 4.08 3.67 MC908QB8MPE
256 16 4-Ch., 10-Bit 2-Ch. SPI 2.7 5.5 8.0 -40 85 16-SOIC MC908Q8CDWE-ND 2.55 2.41 2.27 MC908Q8CDWE
384 21 6-Ch., 8-Bit 2-Ch. SCI, SPI 2.7 5.5 8.0 -40 85 28-DIP MC908GR8CPE-ND 8.25 7.43 6.77 MC908GR8CPE
384 21 8-Ch., 8-Bit 2-Ch. 1-Ch. SCI, SPI 3 5.5 8.0 -40 85 32-LQFP MCHC908GR8CFAE-ND 8.28 7.45 6.79 MCHC908GR8CFAE
384 26 10-Ch., 10-Bit 1-Ch. SPI, SCI 3 5.5 8.0 -40 85 28-TSSOP MC908QC8CDRE-ND 3.31 3.13 2.95 MC908QC8CDRE
384 14 10-Ch., 10-Bit 4-Ch. SCI, SPI 3 5.5 8.0 -40 85 16-TSSOP MC908QC8CDTE-ND 3.24 3.06 2.88 MC908QC8CDTE
384 14 10-Ch., 10-Bit 4-Ch. SCI, SPI 3 5.5 8.0 -40 85 16-SOIC MC908QC8CDXE-ND 3.20 3.03 2.85 MC908QC8CDXE
384 26 10-Ch., 10-Bit 4-Ch. SCI, SPI 3 5.5 8.0 -40 85 28-SOIC MC908QC8CDE-ND 3.26 3.08 2.90 MC908QC8CDE
384 26 10-Ch., 10-Bit 4-Ch. SCI, SPI 3 5.5 8.0 -40 125 28-TSSOP MC908QC8MDRE-ND 3.64 3.44 3.24 MC908QC8MDRE
384 18 10-Ch., 10-Bit 4-Ch. SCI, SPI 3 5.5 8.0 -40 125 20-TSSOP MC908QC8MDSE-ND 3.60 3.40 3.20 MC908QC8MDSE
512 36 8-Ch., 8-Bit Dual 2-Ch. SCI, SPI 2.7 5.5 8.0 -40 85 44-QFP MC908GT8CFBE-ND 8.75 7.88 7.18 MC908GT8CFBE
1K 30 8-Ch., 10-Bit 2-Ch. SCI, SPI 2.75 5.5 8.0 -40 85 42-SDIP MC908AP8CBE-ND 6.25 5.63 5.13 MC908AP8CBE
1K 32 8-Ch., 10-Bit Dual 2-Ch. I2C, 2-SCI, SPI 2.75 5.5 8.0 -40 85 44-QFP MC908AP8CFBE-ND 6.25 5.63 5.13 MC908AP8CFBE
1K 37 8-Ch., 10-Bit Dual 2-Ch. SCI, SPI, CAN2 3 5.5 8.0 -40 85 48-LQFP MC68908G8CFAE-ND 7.00 6.62 6.23 MC68908G8CFAE
1K 37 8-Ch., 10-Bit 2-Ch. SPI, CAN2 3 5.5 8.0 -40 85 32-LQFP MC68908G8CFJE-ND 7.00 6.62 6.23 MC68908G8CFJE
1K 21 8-Ch., 10-Bit 2-Ch. SPI 3 5.5 8.0 -40 85 32-LQFP MC68908G8CFJERCT-ND§ 9.13 8.15 7.67 MC68908G8CFJER
1K 21 8-Ch., 10-Bit 2-Ch. SPI 3 5.5 8.0 -40 85 32-LQFP MC68908G8CFJERTR-ND‡ 7999.97/2,000 MC68908G8CFJER
2K 39 6-Ch., 8-Bit 2-Ch. USB, I2C 3 3.6 6.0 -40 85 64-QFP MC908LD64IFUE-ND 10.21 9.64 9.08 MC908LD64IFUE
384 21 — 2-Ch. USB, SCI 4 5.5 6.0 -40 85 28-SOIC MC908JB12DWE-ND 3.78 3.38 3.04 MC908JB12DWE
384 21 — 2-Ch. USB, SCI 4 5.5 6.0 -40 85 20-SOIC MC908JB12JDWE-ND 4.17 3.73 3.36 MC908JB12JDWE
12K
512 33 14-Ch., 10-Bit 4-Ch. I2C, SCI 4.5 5.5 8.0 -40 125 48-LQFP MC908SR12MFAE-ND 9.02 8.12 7.40 MC908SR12MFAE
512 32 6-Ch., 10-Bit 2-Ch. SCI, SPI 3 5.5 8.0 -40 85 64-LQFP MC908LJ12CPBE-ND 8.10 7.65 7.20 MC908LJ12CPBE
512 32 6-Ch., 10-Bit 4-Ch. SCI, SPI 3 5.5 8.0 -40 85 64-LQFP MCL908LJ12CPBE-ND 8.55 7.70 7.01 MCL908LJ12CPBE
512 32 6-Ch., 10-Bit 4-Ch. SCI, SPI 3 5.5 8.0 -40 85 64-QFP MC68HC98LJ12CFUE-ND 8.10 7.65 7.20 MC68HC98LJ12CFUE
384 21 — 2-Ch. USB, SCI 4 5.5 6.0 -40 85 28-SOIC MC908JB16DWE-ND 3.55 3.35 3.16 MC908JB16DWE
384 21 — 2-Ch. USB, SCI 4 5.5 6.0 -40 85 32-LQFP MC908JB16FAE-ND 3.58 3.39 3.19 MC908JB16FAE
384 21 — 2-Ch. USB, SCI 4 5.5 6.0 -40 85 20-SOIC MC908JB16JDWE-ND 3.51 3.32 3.12 MC908JB16JDWE
512 24 8-Ch., 10-Bit 2-Ch. ESCI, SCI, SPI 2.7 5.5 8.0 -40 85 32-LQFP MC908E16ACFJE-ND 7.69 7.26 6.84 MC908E16ACFJE
512 24 8-Ch., 10-Bit 2-Ch. ESCI, SCI, SPI 2.7 5.5 8.0 -40 125 32-LQFP MC908E16AMFJE-ND 8.46 7.99 7.52 MC908E16AMFJE
512 36 8-Ch., 8-Bit 2-Ch. ESCI, SPI 2.7 5.5 8.0 -40 85 44-QFP MC908GT16CFBE-ND 9.23 8.31 7.57 MC908GT16CFBE
512 26 13-Ch., 10-Bit 2-Ch. SCI 2.7 5.5 8.0 -40 85 32-LQFP MC908JL16CFJERCT-ND§ 4.28 3.83 3.60 MC908JL16CFJER
512 26 13-Ch., 10-Bit 2-Ch. SCI 2.7 5.5 8.0 -40 85 32-LQFP MC908JL16CFJERTR-ND‡ 3760.01/2,000 MC908JL16CFJER
512 18 10-Ch., 10-Bit 1-Ch. SPI, SCI 3 5.5 8.0 -40 85 20-TSSOP MC908QC16CDSE-ND 3.82 3.61 3.40 MC908QC16CDSE
512 26 10-Ch., 10-Bit 4-Ch. SCI, SPI 3 5.5 8.0 -40 85 28-SOIC MC908QC16CDE-ND 3.82 3.61 3.40 MC908QC16CDE
512 26 10-Ch., 10-Bit 4-Ch. SCI, SPI 3 5.5 8.0 -40 125 28-TSSOP MC908QC16MDRE-ND 4.28 4.05 3.81 MC908QC16MDRE
16K
768 44 10-Ch., 10-Bit 4-Ch. 2-Ch. SCI, SPI 4.5 5.5 8.0 -40 85 64-QFP MC908MR16CFUE-ND 8.75 8.27 7.78 MC908MR16CFUE
768 37 9-Ch., 10-Bit 2-Ch. SCI, SPI 4.5 5.5 8.2 -40 85 56-SDIP MC908MR16CBE-ND 8.75 8.27 7.78 MC908MR16CBE
768 44 10-Ch., 10-Bit Dual 2-Ch. IRSCI, SPI, I2C 4.5 5.5 8.0 -40 105 64-QFP MC908MR16VFUE-ND 9.18 8.67 8.16 MC908MR16VFUE
1K 21 8-Ch., 10-Bit Dual 2-Ch. SCI, SPI 3 5.5 8.0 -40 85 32-LQFP MC68908GR16CFJE-ND 7.78 7.35 6.92 MC68908GR16CFJE
1K 37 8-Ch., 10-Bit 2-Ch. ESCI, SPI 3 5.5 8.0 -40 85 32-LQFP MC908GR16ACFJE-ND 7.78 7.35 6.92 MC908GR16ACFJE
1K 37 8-Ch., 10-Bit Dual 2-Ch. SCI, SPI 3 5.5 8.0 -40 85 48-LQFP MC908GR16CFAE-ND 7.78 7.35 6.92 MC908GR16CFAE
1K 37 8-Ch., 10-Bit 2-Ch. ESCI, SPI 3 5.5 8.0 -40 85 48-LQFP MC908GR16ACFAE-ND 7.78 7.35 6.92 MC908GR16ACFAE
1K 32 8-Ch., 10-Bit Dual 2-Ch. I2C, 2-SCI, SPI 2.75 5.5 8.0 -40 85 44-QFP MC908AP16CFBE-ND 6.88 6.19 5.64 MC908AP16CFBE
1K 30 8-Ch., 10-Bit 2-Ch. I2C, SPI 2.75 5.5 8.0 -40 85 42-DIP MC908AP16CBE-ND 6.88 6.19 5.64 MC908AP16CBE
1K 37 8-Ch., 10-Bit 2-Ch. ESCI, SPI - 8.0 -40 85 44-QFP MC908GP16CFBE-ND 6.15 5.54 5.05 MC908GP16CFBE
1K 21 8-Ch., 10-Bit 2-Ch. ESCI, SPI 3 5.5 8.0 -40 85 32-LQFP MC68908G16CFJE-ND 8.17 7.72 7.27 MC68908G16CFJE
1K 21 8-Ch., 10-Bit 2-Ch. ESCI, SPI 3 5.5 8.0 -40 85 48-LQFP MC908G16CFAE-ND 8.17 7.72 7.27 MC908G16CFAE
1K 37 8-Ch., 10-Bit 2-Ch. CAN, SPI, SCI 3 5.5 8.0 -40 125 48-LQFP MC908G16MFAE-ND 8.98 8.49 7.99 MC908G16MFAE
24K 768 40 6-Ch., 10-Bit 2-Ch. SCI, SPI 3 5.5 8.0 -40 85 64-QFP MC908LJ24CFUE-ND 9.52 9.00 8.47 MC908LJ24CFUE
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181
181

Microcontrollers – 8 and 16 Bit
HC908 Family — 8-Bit (Cont.)
®
C
FLASH RAM
Timer (s)
Typ. Operating
Voltage
Max. Bus
Frequency
Temperature
Digi-Key
Price Each
Freescale
(Bytes) (Bytes) I/O A/D 16-Bit
Serial
(V) (MHz) (°C) Package Part No.
1 10 25 Part No.
768 40 6-Ch., 10-Bit 2-Ch. SCI, SPI 3 5.5 8.0 -40 85 64-LQFP MC908LJ24CPBE-ND 9.52 9.00 8.47 MC908LJ24CPBE
768 40 6-Ch., 10-Bit 2-Ch. SCI, SPI 3 5.5 8.0 -40 85 80-LQFP MC908LJ24CPKE-ND 10.05 9.05 8.24 MC908LJ24CPKE
24K 768 40 6-Ch., 10-Bit 2-Ch. SCI, SPI 3 5.5 8.0 -40 85 64-QFP MC908LK24CFUE-ND 8.95 8.45 7.96 MC908LK24CFUE
768 40 6-Ch., 10-Bit Dual 2-Ch. I2C, SCI, SPI 3 5.5 8.0 -40 85 64-LQFP MC908LK24CPBE-ND 8.95 8.45 7.96 MC908LK24CPBE
768 40 6-Ch., 10-Bit 2-Ch. SCI, SPI 3 5.5 8.0 -40 85 80-QFP MCHC908LK24CFQE-ND 9.52 9.00 8.47 MCHC908LK24CFQE
512 33 8-Ch., 8-Bit Dual 2-Ch. SCI, SPI 2.7 5.5 8.0 -40 85 44-QFP MC908GP32CFBE-ND 12.10 11.00 10.18 MC908GP32CFBE
512 30 8-Ch., 8-Bit 2-Ch. SCI, SPI 2.7 5.5 8.0 -40 85 40-DIP MC908GP32CPE-ND 12.10 11.00 10.18 MC908GP32CPE
512 33 8-Ch., 8-Bit 4-Ch. SCI, SPI 2.7 5.5 8.2 -40 85 44-QFP MC908GP32CFBERCT-ND§ 12.93 11.81 10.96 MC908GP32CFBER
512 33 8-Ch., 8-Bit 4-Ch. SCI, SPI 2.7 5.5 8.2 -40 85 44-QFP MC908GP32CFBERTR-ND‡ 5796.00/750 MC908GP32CFBER
512 31 8-Ch., 8-Bit 4-Ch. SCI, SPI 2.7 5.5 8.0 -40 85 42-SDIP MC908GP32CBE-ND 12.10 11.00 10.18 MC908GP32CBE
768 44 10-Ch., 10-Bit 4-Ch. 2-Ch. SCI, SPI 4.5 5.5 8.0 -40 85 64-QFP MC908MR32CFUE-ND 11.75 11.11 10.45 MC908MR32CFUE
768 36 10-Ch., 10-Bit 6-Ch. SCI, SPI 4.5 5.5 8.2 -40 85 56-SDIP MC908MR32CBE-ND 11.75 11.11 10.45 MC908MR32CBE
768 36 10-Ch., 10-Bit 4-Ch. 2-Ch. SCI, SPI 4.5 5.5 8.0 -40 105 56-SDIP MC908MR32VBE-ND 12.35 11.67 10.98 MC908MR32VBE
768 44 10-Ch., 10-Bit Dual 2-Ch. IRSCI, SPI, I2C 4.5 5.5 8.0 -40 105 64-QFP MC908MR32VFUE-ND 12.35 11.67 10.98 MC908MR32VFUE
1K 40 15-Ch., 8-Bit 6-Ch. J1850, SCI, SPI 4.5 5.5 8.0 -40 85 52-PLCC MC908AS32ACFNE-ND 10.76 9.79 9.05 MC908AS32ACFNE
32K 1K 51 8-Ch., 8-Bit 8-Ch. SCI, SPI 4.5 5.5 8.0 -40 85 64-QFP MC908AB32CFUE-ND 13.09 11.90 11.01 MC908AB32CFUE
1K 51 8-Ch., 8-Bit 8-Ch. SCI, SPI 4.5 5.5 8.0 -40 85 64-QFP MC908AB32CFUERCT-ND§ 11.53 10.53 9.78 MC908AB32CFUER
1K 51 8-Ch., 8-Bit 8-Ch. SCI, SPI 4.5 5.5 8.0 -40 85 64-QFP MC908AB32CFUERTR-ND‡ 6291.00/750 MC908AB32CFUER
1K 50 15-Ch., 8-Bit 6-Ch. SCI, SPI 4.5 5.5 8.4 -40 85 64-QFP MC908A32ACFUE-ND 13.09 11.90 11.01 MC908A32ACFUE
1K 29 — 2-Ch. USB, SPI 3.5 5.5 8.0 0 70 48-QFN MCHC908JW32FC-ND 6.12 5.78 5.44 MCHC908JW32FC
1.5K 21 8-Ch., 8-Bit 2-Ch. SCI, SPI 3 5.5 8.0 -40 85 48-LQFP MC908GR32ACFAE-ND 8.16 7.72 7.26 MC908GR32ACFAE
1.5K 21 8-Ch., 8-Bit 2-Ch. SCI, SPI 3 5.5 8.0 -40 85 32-LQFP MC908GR32ACFJE-ND 8.16 7.72 7.26 MC908GR32ACFJE
1.5K 37 8-Ch., 10-Bit 2-Ch. CAN, SPI 3 5.5 8.0 -40 85 32-LQFP MC908G32CFJE-ND 8.75 8.27 7.78 MC908G32CFJE
2K 30 8-Ch., 10-Bit 2-Ch. I2C, 2-SCI, SPI 2.75 5.5 8.0 -40 85 42-DIP MC908AP32CBE-ND 8.75 7.88 7.18 MC908AP32CBE
2K 32 8-Ch., 10-Bit Dual 2-Ch. I2C, 2-SCI, SPI 2.75 5.5 8.0 -40 85 44-QFP MC908AP32CFBE-ND 8.75 7.88 7.18 MC908AP32CFBE
2K 32 8-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.75 5.5 8.0 -40 85 44-LQFP MC908AP32CFAE-ND 8.75 7.88 7.18 MC908AP32CFAE
1K 32 6-Ch., 8-Bit 2-Ch. — 4.5 5.5 6.0 -40 85 42-SDIP MC908BD48IBE-ND 7.20 6.80 6.40 MC908BD48IBE
1.5K 21 8-Ch., 8-Bit 2-Ch. SCI, SPI 3 5.5 8.0 -40 85 48-LQFP MC908GR48ACFAE-ND 9.14 8.63 8.13 MC908GR48ACFAE
48K 1.5K 21 8-Ch., 8-Bit 2-Ch. SCI, SPI 3 5.5 8.0 -40 85 32-LQFP MC908GR48ACFJE-ND 9.14 8.63 8.13 MC908GR48ACFJE
1.5K 21 8-Ch., 8-Bit 2-Ch. SCI, SPI 3 5.5 8.0 -40 85 64-QFP MC908GR48ACFUE-ND 9.43 8.91 8.39 MC908GR48ACFUE
1.5K 37 8-Ch., 10-Bit 2-Ch. SCI, SPI, CAN 3 5.5 8.0 -40 85 48-LQFP MC908G48CFAE-ND 9.72 9.18 8.64 MC908G48CFAE
2K 42 15-Ch., 8-Bit 6-Ch. SCI, SPI 4.5 5.5 8.4 -40 85 52-PLCC MC908AS60ACFNE-ND 19.25 17.50 16.19 MC908AS60ACFNE
2K 50 15-Ch., 8-Bit 6-Ch. 2-Ch. SCI, SPI 4.5 5.5 8.4 -40 85 64-QFP MC908A60ACFUE-ND 19.25 17.50 16.19 MC908A60ACFUE
2K 50 15-Ch., 8-Bit 6-Ch. 2-Ch. SCI, SPI 4.5 5.5 8.4 -40 125 64-QFP MC908A60AMFUE-ND 17.41 15.84 14.65 MC908A60AMFUE
2K 52 15-Ch., 8-Bit 6-Ch. SCI, SPI 4.5 5.5 8.4 -40 85 64-QFP MC908AS60ACFUE-ND 19.25 17.50 16.19 MC908AS60ACFUE
2K 21 8-Ch., 8-Bit 2-Ch. SCI, SPI 3 5.5 8.0 -40 85 48-LQFP MC908GR60ACFAE-ND 10.11 9.55 8.99 MC908GR60ACFAE
2K 21 8-Ch., 8-Bit 2-Ch. SCI, SPI 3 5.5 8.0 -40 85 32-LQFP MC908GR60ACFJE-ND 10.11 9.55 8.99 MC908GR60ACFJE
60K
2K 37 24-Ch., 10-Bit 2-Ch. SPI, ESCI 3 5.5 8.0 -40 85 48-LQFP MC908G60CFAE-ND 10.69 10.10 9.51 MC908G60CFAE
2K 37 24-Ch., 10-Bit 2-Ch. SPI, ESCI 3 5.5 8.0 -40 125 48-LQFP MC908G60MFAE-ND 11.75 11.11 10.45 MC908G60MFAE
2K 37 8-Ch., 10-Bit 2-Ch. SCI, SPI, CAN 3 5.5 8.0 -40 85 32-LQFP MC908G60CFJE-ND 10.69 10.10 9.51 MC908G60CFJE
2K 53 20-Ch., 10-Bit 2-Ch. SCI, SPI, CAN 3 5.5 8.0 -40 85 64-QFP MC908G60CFUE-ND 11.03 10.43 9.81 MC908G60CFUE
2K 52 15-Ch., 8-Bit 8-Ch. MSCAN12, SPI 4.5 5.5 8.4 -40 85 64-QFP MC908A60ACFUERCT-ND§ 16.83 15.37 14.27 MC908A60ACFUER
2K 52 15-Ch., 8-Bit 8-Ch. MSCAN12, SPI 4.5 5.5 8.4 -40 85 64-QFP MC908A60ACFUERTR-ND‡ 7876.50/750 MC908A60ACFUER
2K 52 15-Ch., 8-Bit 8-Ch. MSCAN12, SCI, SPI 4.5 5.5 8.4 -40 85 64-QFP MC908A60AVFUR2CT-ND§ 17.66 16.13 14.98 MC908A60AVFUR2
2K 52 15-Ch., 8-Bit 8-Ch. MSCAN12, SCI, SPI 4.5 5.5 8.4 -40 85 64-QFP MC908A60AVFUE-ND 20.22 18.38 17.01 MC908A60AVFUE
2K 30 8-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.75 5.5 8.0 -40 85 42-SDIP MC908AP64CBE-ND 11.25 10.13 9.23 MC908AP64CBE
64K 2K 32 8-Ch., 10-Bit Dual 2-Ch. I2C, 2-SCI, SPI 2.75 5.5 8.0 -40 85 44-QFP MC908AP64CFBE-ND 11.25 10.13 9.23 MC908AP64CFBE
2K 32 8-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.75 5.5 8.0 -40 85 48-LQFP MC908AP64CFAE-ND 11.25 10.13 9.23 MC908AP64CFAE
RS08KA — RoHS Compliant
63 2 — 1-Ch. 8-Bit — 1.8 5.5 10.0 -40 85 6-DFN MC9RS08KA1CDB-ND .76 .72 .68 MC9RS08KA1CDB
63 4 — 1-Ch. 8-Bit — 1.8 5.5 10.0 -40 85 8-PDIP MC9RS08KA1CPC-ND .80 .76 .71 MC9RS08KA1CPC
1K 63 4 — 1-Ch. 8-Bit — 1.8 5.5 10.0 -40 85 8-SOIC MC9RS08KA1CSC-ND .76 .72 .68 MC9RS08KA1CSC
63 4 — 1-Ch. — 1.8 5.5 10.0 -40 85 8-SOIC MC9RS08KA1CSCRCT-ND§ .87 .78 .73 MC9RS08KA1CSCR
63 4 — 1-Ch. — 1.8 5.5 10.0 -40 85 8-SOIC MC9RS08KA1CSCRTR-ND‡ 1107.00/2,500 MC9RS08KA1CSCR
63 2 — 1-Ch. 8-Bit — 1.8 5.5 10.0 -40 85 6-DFN MC9RS08KA2CDB-ND .80 .76 .71 MC9RS08KA2CDB
2K 63 4 — 1-Ch. 8-Bit — 1.8 5.5 10.0 -40 85 8-PDIP MC9RS08KA2CPC-ND .84 .79 .75 MC9RS08KA2CPC
63 4 — 1-Ch. 8-Bit — 1.8 5.5 10.0 -40 85 8-SOIC MC9RS08KA2CSC-ND .80 .76 .71 MC9RS08KA2CSC
4K
128 14 8-Ch., 10-Bit 1-Ch. I2C 1.8 5.5 10.0 -40 85 16-SOIC MC9RS08KA4CWG-ND 1.26 1.20 1.13 MC9RS08KA4CWG
128 18 12-Ch., 10-Bit 1-Ch. I2C 1.8 5.5 10.0 -40 85 20-SOIC MC9RS08KA4CWJ-ND 1.34 1.27 1.20 MC9RS08KA4CWJ
8K 254 14 8-Ch., 10-Bit 1-Ch. I2C 1.8 5.5 10.0 -40 85 16-SOIC MC9RS08KA8CWG-ND 1.36 1.29 1.21 MC9RS08KA8CWG
MC9S08AC — RoHS Compliant
8K
700 34 8-Ch., 10-Bit 4-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 44-LQFP MC9S08AC8CFGE-ND 3.15 2.98 2.80 MC9S08AC8CFGE
700 32 8-Ch., 10-Bit 4-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 125 42-DIP MC9S08AC8MBE-ND NEW! 3.37 3.18 3.00 MC9S08AC8MBE
1K 38 8-Ch., 10-Bit 3-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 48-QFN MC9S08AC16CFDE-ND 3.48 3.29 3.10 MC9S08AC16CFDE
1K 34 8-Ch., 10-Bit 3-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 44-LQFP MC9S08AC16CFGE-ND 3.38 3.20 3.01 MC9S08AC16CFGE
16K
1K 22 6-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 32-LQFP MC9S08AC16CFJE-ND 3.19 3.02 2.84 MC9S08AC16CFJE
1K 32 6-Ch., 10-Bit 3-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 42-DIP MC9S08AC16CBE-ND NEW! 3.29 3.12 2.93 MC9S08AC16CBE
1K 32 6-Ch., 10-Bit 3-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 125 42-DIP MC9S08AC16MBE-ND NEW! 3.62 3.42 3.22 MC9S08AC16MBE
1K 22 6-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 125 32-LQFP MC9S08AC16MFJE-ND 3.50 3.31 3.12 MC9S08AC16MFJE
32K 2K 38 8-Ch., 10-Bit 3-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 48-QFN MC9S08AC32CFDE-ND 3.95 3.73 3.51 MC9S08AC32CFDE
◆ RoHS Compliant § Cut Tape ‡ Tape and Reel
(Continued)
®
For Digi-Reel ® information, please see page 71.
182 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Microcontrollers – 8 and 16 Bit
HC908 Family — 8-Bit (Cont.)
®
FLASH RAM
Timer (s)
Typ. Operating
Voltage
Max. Bus
Frequency
Temperature
Digi-Key
Price Each
Freescale
(Bytes) (Bytes) I/O A/D 16-Bit
Serial
(V) (MHz) (°C) Package Part No.
1 10 25 Part No.
2K 34 8-Ch., 10-Bit 3-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 44-LQFP MC9S08AC32CFGE-ND 3.85 3.64 3.43 MC9S08AC32CFGE
2K 54 8-Ch., 10-Bit 3-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 64-QFP MC9S08AC32CFUE-ND 4.22 3.99 3.75 MC9S08AC32CFUE
2K 54 8-Ch., 10-Bit 3-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 64-LQFP MC9S08AC32CPUE-ND 4.30 4.06 3.82 MC9S08AC32CPUE
32K 2K 54 8-Ch., 10-Bit 3-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 64-LQFP MC9S08AC32CPUERCT-ND§ NEW! 4.98 4.45 4.19 MC9S08AC32CPUER
2K 54 8-Ch., 10-Bit 3-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 64-LQFP MC9S08AC32CPUERTR-ND‡ NEW! 3839.99/1,500 MC9S08AC32CPUER
2K 54 8-Ch., 10-Bit 3-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 125 64-LQFP MC9S08AC32MPUERCT-ND§ NEW! 5.43 4.85 4.56 MC9S08AC32MPUER
2K 54 8-Ch., 10-Bit 3-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 125 64-LQFP MC9S08AC32MPUERTR-ND‡ NEW! 4200.00/1,500 MC9S08AC32MPUER
48K
2K 34 8-Ch., 10-Bit 3-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 44-LQFP MC9S08AC8MBE-ND 4.00 3.79 3.56 MC9S08AC8MBE
2K 54 8-Ch., 10-Bit 3-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 64-QFP MC9S08AC48CFUE-ND 4.37 4.14 3.89 MC9S08AC48CFUE
2K 34 8-Ch., 10-Bit 4-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 44-LQFP MC9S08AC60CFGE-ND 4.14 3.92 3.69 MC9S08AC60CFGE
60K
2K 22 6-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 32-LQFP MC9S08AC60CFJE-ND 4.04 3.82 3.60 MC9S08AC60CFJE
2K 54 6-Ch., 10-Bit 6-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 64-QFP MC9S08AC60CFUE-ND 4.63 4.37 4.12 MC9S08AC60CFUE
2K 54 16-Ch., 10-Bit 6-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 64-LQFP MC9S08AC60CPUE-ND 4.53 4.28 4.03 MC9S08AC60CPUE
8K 34 16-Ch., 10-Bit 2-Ch., 6-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 44-LQFP MC9S08AC128CFGE-ND 5.46 5.16 4.86 MC9S08AC128CFGE
128K 8K 54 16-Ch., 10-Bit 2-Ch., 6-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 64-QFP MC9S08AC128CFUE-ND 5.85 5.53 5.21 MC9S08AC128CFUE
8K 71 16-Ch., 10-Bit 2-Ch., 6-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 80-LQFP MC9S08AC128CLKE-ND 6.05 5.71 5.38 MC9S08AC128CLKE
MC9S08JM — RoHS Compliant
2K 33 8-Ch., 12-Bit 2-Ch., 6-Ch. SCI, SPI 2.7 5.5 24.0 -40 85 44-LQFP MC9S08JM32CLD-ND 3.97 3.75 3.53 MC9S08JM32CLD
32K
2K 37 8-Ch., 12-Bit 2-Ch., 6-Ch. SCI, SPI 2.7 5.5 24.0 -40 85 48-QFN MC9S08JM32CGT-ND 4.00 3.79 3.56 MC9S08JM32CGT
2K 51 12-Ch., 12-Bit 2-Ch., 6-Ch. SCI, SPI 2.7 5.5 24.0 -40 85 64-QFP MC9S08JM32CQH-ND 4.12 3.90 3.67 MC9S08JM32CQH
2K 51 12-Ch., 12-Bit 2-Ch., 6-Ch. SCI, SPI 2.7 5.5 24.0 -40 85 64-LQFP MC9S08JM32CLH-ND 4.12 3.90 3.67 MC9S08JM32CLH
4K 33 8-Ch., 12-Bit 2-Ch., 6-Ch. SCI, SPI 2.7 5.5 24.0 -40 85 44-LQFP MC9S08JM60CLD-ND 5.48 5.18 4.88 MC9S08JM60CLD
60K
4K 37 8-Ch., 12-Bit 2-Ch., 6-Ch. SCI, SPI 2.7 5.5 24.0 -40 85 48-QFN MC9S08JM60CGT-ND 5.60 5.29 4.98 MC9S08JM60CGT
4K 51 12-Ch., 12-Bit 2-Ch., 6-Ch. SCI, SPI 2.7 5.5 24.0 -40 85 64-QFP MC9S08JM60CQH-ND 5.77 5.46 5.14 MC9S08JM60CQH
4K 51 12-Ch., 12-Bit 2-Ch., 6-Ch. SCI, SPI 2.7 5.5 24.0 -40 85 64-LQFP MC9S08JM60CLH-ND 5.77 5.46 5.14 MC9S08JM60CLH
NEW! MC9S08LG — RoHS Compliant NEW!
18K
2K 39 9-Ch. 2-Ch., 1-Ch. SCI, SPI -0.3 5.8 20.0 -40 85 48-LQFP MC9S08LG16CLF-ND 3.32 3.14 2.96 MC9S08LG16CLF
2K 53 12-Ch. 2-Ch., 1-Ch. SCI, SPI -0.3 5.8 20.0 -40 85 64-LQFP MC9S08LG16CLH-ND 3.62 3.42 3.22 MC9S08LG16CLH
32K
2K 53 12-Ch. 2-Ch., 1-Ch. SCI, SPI -0.3 5.8 20.0 -40 85 64-LQFP MC9S08LG32CLH-ND 4.04 3.82 3.60 MC9S08LG32CLH
2K 69 16-Ch. 2-Ch., 1-Ch. SCI, SPI -0.3 5.8 20.0 -40 85 80-LQFP MC9S08LG32CLK-ND 4.30 4.06 3.82 MC9S08LG32CLK
MC9S08LL — RoHS Compliant
10K
2K 31 8-Ch., 12-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 10.0 -40 85 48-QFN MC9S08LL8CGT-ND 3.21 3.03 2.86 MC9S08LL8CGT
2K 31 8-Ch., 12-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 10.0 -40 85 48-LQFP MC9S08LL8CLF-ND 3.21 3.03 2.86 MC9S08LL8CLF
2K 38 8-Ch., 12-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 10.0 -40 85 48-QFN MC9S08LL16CGT-ND 3.38 3.20 3.01 MC9S08LL16CGT
16K 2K 38 8-Ch., 12-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 10.0 -40 85 48-LQFP MC9S08LL16CLF-ND 3.38 3.20 3.01 MC9S08LL16CLF
2K 38 8-Ch., 12-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 10.0 -40 85 64-LQFP MC9S08LL16CLH-ND 3.42 3.24 3.05 MC9S08LL16CLH
36K 4K 37 8-Ch., 12-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 20.0 -40 85 64-LQFP MC9S08LL36CLH-ND NEW! 4.20 3.97 3.74 MC9S08LL36CLH
64K
4K 37 8-Ch., 12-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 20.0 -40 85 64-LQFP MC9S08LL64CLH-ND NEW! 4.94 4.67 4.39 MC9S08LL64CLH
4K 39 10-Ch., 12-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 20.0 -40 85 80-LQFP MC9S08LL64CLK-ND NEW! 5.13 4.85 4.57 MC9S08LL64CLK
Flexis MC9S08QE — RoHS Compliant
256 26 10-Ch., 12-Bit 3-Ch. I2C, SCI, SPI 1.8 3.6 10.0 -40 85 32-LQFP MC9S08QE4CLC-ND 2.20 2.08 1.96 MC9S08QE4CLC
256 12 8-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 10.0 -40 85 16-DIP MC9S08QE4CPG-ND 2.00 1.90 1.78 MC9S08QE4CPG
4K 256 12 8-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 10.0 -40 85 16-TSSOP MC9S08QE4CTG-ND 2.00 1.90 1.78 MC9S08QE4CTG
256 16 10-Ch., 10-Bit 3-Ch. I2C, SCI, SPI 1.8 3.6 10.0 -40 85 20-SOIC MC9S08QE4CWJ-ND 2.08 1.97 1.85 MC9S08QE4CWJ
256 22 10-Ch., 12-Bit 3-Ch. I2C, SCI, SPI 1.8 3.6 10.0 -40 85 28-SOIC MC9S08QE4CWL-ND 2.18 2.06 1.94 MC9S08QE4CWL
512 26 10-Ch., 12-Bit 3-Ch. I2C, SCI, SPI 1.8 3.6 10.0 -40 85 32-LQFP MC9S08QE8CLC-ND 2.47 2.34 2.20 MC9S08QE8CLC
512 12 8-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 10.0 -40 85 16-DIP MC9S08QE8CPG-ND 2.31 2.19 2.06 MC9S08QE8CPG
8K 512 12 8-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 10.0 -40 85 16-TSSOP MC9S08QE8CTG-ND 2.31 2.19 2.06 MC9S08QE8CTG
512 16 10-Ch., 10-Bit 3-Ch. I2C, SCI, SPI 1.8 3.6 10.0 -40 85 20-SOIC MC9S08QE8CWJ-ND 2.39 2.26 2.13 MC9S08QE8CWJ
512 22 10-Ch., 12-Bit 3-Ch. I2C, SCI, SPI 1.8 3.6 10.0 -40 85 28-SOIC MC9S08QE8CWL-ND 2.45 2.32 2.18 MC9S08QE8CWL
1K 22 8-Ch., 12-Bit 8-Ch., 8-Bit I2C, LIN, SCI, SPI 1.8 3.6 40.0 -40 85 28-TSSOP S9S08SG16E1CTLRCT-ND§ NEW! 3.33 2.98 2.80 S9S08SG16E1CTLR
1K 22 8-Ch., 12-Bit 8-Ch., 8-Bit I2C, LIN, SCI, SPI 1.8 3.6 40.0 -40 85 28-TSSOP S9S08SG16E1CTLRTR-ND‡ NEW! 4293.01/2,500 S9S08SG16E1CTLR
16K
1K 40 10-Ch., 12-Bit 3-Ch., 6-Ch. I2C, SCI, SPI 1.8 3.6 25.0 -40 85 48-QFN MC9S08QE16CFT-ND 3.09 2.92 2.75 MC9S08QE16CFT
1K 40 10-Ch., 12-Bit 3-Ch., 6-Ch. I2C, SCI, SPI 1.8 3.6 25.0 -40 85 32-LQFP MC9S08QE16CLC-ND 2.97 2.81 2.65 MC9S08QE16CLC
1K 40 10-Ch., 12-Bit 3-Ch., 6-Ch. I2C, SCI, SPI 1.8 3.6 25.0 -40 85 44-LQFP MC9S08QE16CLD-ND 3.07 2.91 2.74 MC9S08QE16CLD
1K 40 10-Ch., 12-Bit 3-Ch., 6-Ch. I2C, SCI, SPI 1.8 3.6 25.0 -40 85 28-SOIC MC9S08QE16CWL-ND 2.92 2.76 2.60 MC9S08QE16CWL
2K 40 10-Ch., 12-Bit 3-Ch., 6-Ch. I2C, SCI, SPI 1.8 3.6 25.0 -40 85 48-QFN MC9S08QE32CFT-ND 3.69 3.49 3.29 MC9S08QE32CFT
2K 80 8-Ch., 10-Bit 8-Ch., 16-Bit I2C, SCI, SPI 1.8 3.6 32.0 -40 85 100-LQFP S9S12HA32J0CLL-ND NEW! 5.93 5.60 5.28 S9S12HA32J0CLL
32K
2K 40 10-Ch., 12-Bit 3-Ch., 6-Ch. I2C, SCI, SPI 1.8 3.6 25.0 -40 85 32-LQFP MC9S08QE32CLC-ND 3.40 3.22 3.03 MC9S08QE32CLC
2K 40 10-Ch., 12-Bit 3-Ch., 6-Ch. I2C, SCI, SPI 1.8 3.6 25.0 -40 85 44-LQFP MC9S08QE32CLD-ND 3.48 3.29 3.10 MC9S08QE32CLD
2K 40 10-Ch., 12-Bit 3-Ch., 6-Ch. I2C, SCI, SPI 1.8 3.6 25.0 -40 85 28-SOIC MC9S08QE32CWL-ND 3.30 3.13 2.94 MC9S08QE32CWL
4K 39 8-Ch., 12 Bit 8-Ch., 10 Bit IC, SCI, SPI 1.8 3.6 40.0 -40 85 80-LQFP MC9S08LL36CLK-ND NEW! 6.33 5.65 5.09 MC9S08LL36CLK
64K
4K 26 10-Ch., 12-Bit 3-Ch., 6-Ch. I2C, SCI, SPI 1.8 3.6 25.0 -40 85 32-LQFP MC9S08QE64CLC-ND 4.49 4.25 4.00 MC9S08QE64CLC
4K 54 22-Ch., 12-Bit 3-Ch., 6-Ch. I2C, SCI, SPI 1.8 3.6 25.0 -40 85 64-LQFP MC9S08QE64CLH-ND 5.13 4.85 4.57 MC9S08QE64CLH
96K 6K 34 10-Ch., 12-Bit 3-Ch., 6-Ch. I2C, SCI, SPI 1.8 3.6 25.0 -40 85 44-LQFP MC9S08QE96CLD-ND 4.86 4.59 4.32 MC9S08QE96CLD
8K 38 10-Ch., 12-Bit 3-Ch., 6-Ch. I2C, SCI, SPI 1.8 3.6 25.0 -40 85 48-QFN MC9S08QE128CFT-ND 5.27 4.98 4.69 MC9S08QE128CFT
128K
8K 34 10-Ch., 12-Bit 3-Ch., 6-Ch. I2C, SCI, SPI 1.8 3.6 25.0 -40 85 44-LQFP MC9S08QE128CLD-ND 5.11 4.83 4.55 MC9S08QE128CLD
8K 54 22-Ch., 12-Bit 3-Ch., 6-Ch. I2C, SCI, SPI 1.8 3.6 25.0 -40 85 64-LQFP MC9S08QE128CLH-ND 5.70 5.38 5.07 MC9S08QE128CLH
8K 70 24-Ch., 12-Bit 3-Ch., 6-Ch. I2C, SCI, SPI 1.8 3.6 25.0 -40 85 80-LQFP MC9S08QE128CLK-ND 5.89 5.57 5.24 MC9S08QE128CLK
HC9S08 — RoHS Compliant
2K
128 4 4-Ch., 10-Bit 2-Ch. 1-Ch. — 2.7 5.5 8.0 -40 85 8-PDIP MC9S08QD2CPC-ND 1.26 1.20 1.13 MC9S08QD2CPC
128 4 4-Ch., 10-Bit 2-Ch. 1-Ch. — 2.7 5.5 8.0 -40 85 8-SOIC MC9S08QD2CSC-ND 1.24 1.18 1.11 MC9S08QD2CSC
◆ RoHS Compliant § Cut Tape ‡ Tape and Reel
(Continued)
C
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183
183

Microcontrollers – 8 and 16 Bit
HC908 Family — 8-Bit (Cont.)
®
C
FLASH
(Bytes)
2K
4K
8K
RAM
Timer (s)
Typ. Operating
Voltage
Max. Bus
Frequency
Temperature
Digi-Key
Price Each
Freescale
(Bytes) I/O A/D 16-Bit
Serial
(V) (MHz) (°C) Package Part No.
1 10 25 Part No.
128 4 4-Ch., 10-Bit 2-Ch. 1-Ch. — 2.7 5.5 8.0 -40 125 8-SOIC MC9S08QD2MSC-ND 1.32 1.25 1.18 MC9S08QD2MSC
128 4 4-Ch., 10-Bit 2-Ch. 1-Ch. — 2.7 5.5 8.0 -40 105 8-SOIC MC9S08QD2VSC-ND 1.28 1.22 1.15 MC9S08QD2VSC
160 5 4-Ch., 10-Bit 1-Ch. SPI 1.8 3.6 10.0 -40 85 8-SOIC MC9S08QA2CDNE-ND 1.19 1.12 1.06 MC9S08QA2CDNE
160 5 4-Ch., 10-Bit 1-Ch. SPI 1.8 3.6 10.0 -40 85 8-QFN MC9S08QA2CFQE-ND 1.22 1.16 1.09 MC9S08QA2CFQE
160 5 4-Ch., 10-Bit 1-Ch. SPI 1.8 3.6 10.0 -40 85 8-DIP MC9S08QA2CPAE-ND 1.26 1.20 1.13 MC9S08QA2CPAE
128 23 12-Ch., 8-Bit 2-Ch. — 2.7 3.3 8.0 -40 85 28-SOIC MCR908JL3ECDWE-ND 4.34 3.88 3.49 MCR908JL3ECDWE
128 23 12-Ch., 8-Bit 2-Ch. — 2.7 3.3 8.0 -40 85 20-SOIC MCR908JK3ECDWE-ND 3.64 3.25 2.93 MCR908JK3ECDWE
256 5 4-Ch., 10-Bit 1-Ch. SCI 1.8 3.6 10.0 -40 85 8-SOIC MC9S08QA4CDNE-ND 1.30 1.23 1.16 MC9S08QA4CDNE
256 5 4-Ch., 10-Bit 1-Ch. SCI 1.8 3.6 10.0 -40 85 8-DIP MC9S08QA4CPAE-ND 1.26 1.20 1.13 MC9S08QA4CPAE
256 20 12-Ch., 8-Bit 1-Ch. SCI 1.8 3.6 10.0 -40 85 24-QFN MC9S08QB4CGK-ND 1.79 1.69 1.59 MC9S08QB4CGK
256 14 12-Ch., 8-Bit 1-Ch. SCI 1.8 3.6 10.0 -40 85 16-TSSOP MC9S08QB4CTG-ND 1.65 1.57 1.47 MC9S08QB4CTG
256 6 4-Ch., 10-Bit 2-Ch. SCI 2.7 5.5 8.0 -40 125 8-SOIC MC9S08QD4MSC-ND 1.52 1.44 1.35 MC9S08QD4MSC
256 4 4-Ch., 10-Bit 2-Ch. — 2.7 5.5 8.0 -40 85 8-DIP MC9S08QD4CPC-ND 1.34 1.27 1.20 MC9S08QD4CPC
256 4 4-Ch., 10-Bit 2-Ch. — 2.7 5.5 8.0 -40 85 8-SOIC MC9S08QD4CSC-ND 1.32 1.25 1.18 MC9S08QD4CSC
256 4 4-Ch., 10-Bit 2-Ch. 1-Ch. — 2.7 5.5 8.0 -40 125 8-PDIP MC9S08QD4MPC-ND 1.61 1.53 1.44 MC9S08QD4MPC
256 4 4-Ch., 10-Bit 2-Ch. SPI 2.7 5.5 20.0 -40 105 8-SOIC MC9S08QD4VSC-ND 1.46 1.38 1.30 MC9S08QD4VSC
256 4 4-Ch., 10-Bit 2-Ch. SPI 2.7 5.5 20.0 -40 105 8-DIP MC9S08QD4VPC-ND 1.52 1.44 1.35 MC9S08QD4VPC
256 6 4-Ch., 10-Bit — — 1.8 3.6 8.0 -40 85 8-SOIC MC9S08QG4CDNE-ND 1.48 1.40 1.32 MC9S08QG4CDNE
256 14 8-Ch., 10-Bit 2-Ch. SCI, SPI 1.8 3.6 10.0 -40 85 16-TSSOP MC9S08QG4CDTE-ND 1.63 1.55 1.46 MC9S08QG4CDTE
256 14 8-Ch., 10-Bit 2-Ch. SCI, SPI 1.8 3.6 10.0 -40 85 16-QFN MC9S08QG4CFFE-ND 1.65 1.57 1.47 MC9S08QG4CFFE
256 6 4-Ch., 10-Bit — — 1.8 3.6 8.0 -40 85 8-QFN-D MC9S08QG4CFQE-ND 1.50 1.42 1.34 MC9S08QG4CFQE
256 6 4-Ch., 10-Bit — — 1.8 3.6 8.0 -40 85 8-DIP MC9S08QG4CPAE-ND 1.40 1.33 1.25 MC9S08QG4CPAE
256 6 4-Ch., 10-Bit — — 1.8 3.6 8.0 -40 85 16-PDIP MC9S08QG4CPBE-ND 1.50 1.42 1.34 MC9S08QG4CPBE
256 4 4-Ch., 10-Bit 1-Ch. I2C, SCI, SPI 1.8 3.6 10.0 -40 125 8-DIP MC9S08QG4MPAE-ND 1.54 1.45 1.37 MC9S08QG4MPAE
256 12 8-Ch., 10-Bit 1-Ch. I2C, SCI, SPI 1.8 3.6 20.0 -40 85 16-TSSOP MC9S08QG84CDTE-ND 2.20 2.08 1.96 MC9S08QG84CDTE
256 24 10-Ch., 10-Bit 2-Ch. 1-Ch. SCI 2.7 5.5 10.0 -40 85 28-PDIP MC9S08SE4CRL-ND 1.79 1.69 1.59 MC9S08SE4CRL
256 14 10-Ch., 10-Bit 2-Ch. 1-Ch. SCI 2.7 5.5 10.0 -40 85 16-TSSOP MC9S08SE4CTG-ND 1.65 1.57 1.47 MC9S08SE4CTG
256 24 10-Ch., 10-Bit 2-Ch. 1-Ch. SCI 2.7 5.5 10.0 -40 85 28-SOIC MC9S08SE4CWL-ND 1.79 1.69 1.59 MC9S08SE4CWL
256 17 12-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 20-DIP MC9S08SH4CPJ-ND 2.04 1.93 1.82 MC9S08SH4CPJ
256 13 12-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 16-TSSOP MC9S08SH4CTG-ND 1.92 1.82 1.72 MC9S08SH4CTG
256 17 12-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 20-TSSOP MC9S08SH4CTJ-ND 2.02 1.91 1.80 MC9S08SH4CTJ
256 17 12-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 125 20-DIP MC9S08SH4MPJ-ND 2.26 2.13 2.01 MC9S08SH4MPJ
256 13 12-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 125 16-TSSOP MC9S08SH4MTG-ND 2.12 2.01 1.89 MC9S08SH4MTG
256 17 12-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 125 20-TSSOP MC9S08SH4MTJ-ND 2.22 2.10 1.97 MC9S08SH4MTJ
512 16 12-Ch., 10-Bit 2-Ch. SCI, SPI, I2C, SLIC 2.7 5.5 20.0 -40 85 20-TSSOP MC9S08SL8CTJ-ND 3.09 2.92 2.75 MC9S08SL8CTJ
512 22 16-Ch., 10-Bit 2-Ch. SCI, SPI, I2C, SLIC 2.7 5.5 20.0 -40 85 28-TSSOP MC9S08SL8CTL-ND 2.94 2.78 2.61 MC9S08SL8CTL
512 14 12-Ch., 8-Bit 1-Ch. SCI 1.8 3.6 10.0 -40 85 16-TSSOP MC9S08QB8CTG-ND 1.81 1.71 1.61 MC9S08QB8CTG
512 14 8-Ch., 10-Bit 2-Ch. SCI, SPI 1.8 3.6 10.0 -40 85 16-TSSOP MC9S08QG8CDTE-ND 1.69 1.60 1.51 MC9S08QG8CDTE
512 14 8-Ch., 10-Bit 2-Ch. I2C, SPI, SCI 1.8 3.6 8.0 -40 85 16-TSOP MC9S08QG8CDTERCT-ND§ 1.93 1.73 1.63 MC9S08QG8CDTER
512 14 8-Ch., 10-Bit 2-Ch. I2C, SPI, SCI 1.8 3.6 8.0 -40 85 16-TSOP MC9S08QG8CDTERTR-ND‡ 2484.00/2,500 MC9S08QG8CDTER
512 14 8-Ch., 10-Bit 2-Ch. SCI, SPI 1.8 3.6 10.0 -40 85 16-QFN MC9S08QG8CFFE-ND 1.77 1.68 1.58 MC9S08QG8CFFE
512 14 8-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 10.0 -40 85 16-QFN MC9S08QG8CFFERCT-ND§ 2.10 1.88 1.77 MC9S08QG8CFFER
512 14 8-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 10.0 -40 85 16-QFN MC9S08QG8CFFERTR-ND‡ 2700.00/2,500 MC9S08QG8CFFER
512 14 8-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 10.0 -40 85 24-QFN MC9S08QG8CFKE-ND 1.94 1.84 1.73 MC9S08QG8CFKE
512 6 4-Ch., 10-Bit — — 1.8 3.6 8.0 -40 85 8-QFN-D MC9S08QG8CFQE-ND 1.57 1.49 1.40 MC9S08QG8CFQE
512 14 8-Ch., 10-Bit 2-Ch. SCI, SPI 1.8 3.6 10.0 -40 85 16-DIP MC9S08QG8CPBE-ND 1.65 1.57 1.47 MC9S08QG8CPBE
512 4 4-Ch., 10-Bit 1-Ch. I2C, SCI, SPI 1.8 3.6 10.0 -40 125 8-SOIC MC9S08QG8MDNE-ND 1.69 1.60 1.51 MC9S08QG8MDNE
512 4 8-Ch., 10-Bit 1-Ch. I2C, SCI, SPI 1.8 3.6 10.0 -40 125 16-DIP MC9S08QG8MPBE-ND 1.81 1.71 1.61 MC9S08QG8MPBE
512 24 10-Ch., 10-Bit 2-Ch. 1-Ch. SCI 2.7 5.5 10.0 -40 85 28-PDIP MC9S08SE8CRL-ND 1.92 1.82 1.72 MC9S08SE8CRL
512 14 10-Ch., 10-Bit 2-Ch. 1-Ch. SCI 2.7 5.5 10.0 -40 85 16-TSSOP MC9S08SE8CTG-ND 1.81 1.71 1.61 MC9S08SE8CTG
512 24 10-Ch., 10-Bit 2-Ch. 1-Ch. SCI 2.7 5.5 10.0 -40 85 28-SOIC MC9S08SE8CWL-ND 1.92 1.82 1.72 MC9S08SE8CWL
512 17 12-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 20-DIP MC9S08SH8CPJ-ND 2.24 2.12 1.99 MC9S08SH8CPJ
512 13 12-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 16-TSSOP MC9S08SH8CTG-ND 2.12 2.01 1.89 MC9S08SH8CTG
512 17 12-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 20-TSSOP MC9S08SH8CTJ-ND 2.20 2.08 1.96 MC9S08SH8CTJ
512 17 12-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 125 20-DIP MC9S08SH8MPJ-ND 2.47 2.34 2.20 MC9S08SH8MPJ
512 13 12-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 125 16-TSSOP MC9S08SH8MTG-ND 2.33 2.21 2.08 MC9S08SH8MTG
512 17 12-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 125 20-TSSOP MC9S08SH8MTJ-ND 2.41 2.28 2.15 MC9S08SH8MTJ
512 14 — 2-Ch. SCI, SPI 2.7 5.5 24.0 -40 85 24-QFN MC9S08JS8CFK-ND 2.12 2.01 1.89 MC9S08JS8CFK
512 14 — 2-Ch. SCI, SPI 2.7 5.5 24.0 -40 85 20-SOIC MC9S08JS8CWJ-ND 2.06 1.95 1.84 MC9S08JS8CWJ
1K 39 8-Ch., 10-Bit 3-Ch. 2-Ch. 2 SCI, SPI 1.8 3.6 20.0 -40 125 48-QFN MC9S08GT8AMFDE-ND 3.09 2.92 2.75 MC9S08GT8AMFDE
1K 36 8-Ch., 10-Bit Dual 2-Ch. 2 SCI, SPI 1.8 3.6 20.0 -40 125 44-QFP MC9S08GT8AMFBE-ND 2.99 2.83 2.67 MC9S08GT8AMFBE
1K 24 8-Ch., 10-Bit 2-Ch. 2 SCI, SPI 1.8 3.6 20.0 -40 125 32-QFN MC9S08GT8AMFCE-ND 2.99 2.83 2.67 MC9S08GT8AMFCE
1K 36 8-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 20.0 -40 85 44-QFP MC9S08GT8ACFBERCT-ND§ 3.19 2.85 2.68 MC9S08GT8ACFBER
1K 36 8-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 20.0 -40 85 44-QFP MC9S08GT8ACFBERTR-ND‡ 1231.20/750 MC9S08GT8ACFBER
1K 36 8-Ch., 10-Bit Dual 2-Ch. 2 SCI, SPI 1.8 3.6 20.0 -40 85 44-QFP MC9S08GT8ACFBE-ND 2.72 2.57 2.42 MC9S08GT8ACFBE
1K 34 8-Ch., 10-Bit Dual 2-Ch. 2 SCI, SPI 1.8 3.6 20.0 -40 85 42-SDIP MC9S08GT8ACBE-ND 2.72 2.57 2.42 MC9S08GT8ACBE
1K 24 8-Ch., 10-Bit 2-Ch. 2 SCI, SPI 1.8 3.6 20.0 -40 85 32-QFN MC9S08GT8ACFCE-ND 2.72 2.57 2.42 MC9S08GT8ACFCE
1K 23 — 2-Ch. SCI 1.8 3.6 8.0 -40 85 28-SOIC MC9S08RD8CDWE-ND 4.24 4.01 3.77 MC9S08RD8CDWE
1K 27 — 2-Ch. SCI 1.8 3.6 8.0 -40 85 32-LQFP MC9S08RE8FJE-ND 4.37 4.14 3.89 MC9S08RE8FJE
◆ RoHS Compliant § Cut Tape ‡ Tape and Reel
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®
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Microcontrollers – 8 and 16 Bit
HC908 Family — 8-Bit (Cont.)
®
FLASH RAM
Timer (s)
Typ. Operating
Voltage
Max. Bus
Frequency
Temperature
Digi-Key
Price Each
Freescale
(Bytes) (Bytes) I/O A/D 16-Bit
Serial
(V) (MHz) (°C) Package Part No.
1 10 25 Part No.
512 22 16-Ch., 10-Bit 2-Ch. SCI, SPI, I2C, SLIC 2.7 5.5 20.0 -40 85 28-TSSOP MC9S08SL16CTL-ND 3.23 3.05 2.87 MC9S08SL16CTL
512 14 — 2-Ch. SCI, SPI 2.7 5.5 24 -40 85 24-QFN MC9S08JS16CFK-ND 2.53 2.39 2.25 MC9S08JS16CFK
512 14 — 2-Ch. SCI, SPI 2.7 5.5 24 -40 85 20-SOIC MC9S08JS16CWJ-ND 2.47 2.34 2.20 MC9S08JS16CWJ
1K 38 16-Ch., 10-Bit 2-Ch. 6-Ch. SPI, 2 SCI, I2C 2.7 5.5 20.0 -40 85 48-QFN MC9S08AW16CFDE-ND 3.99 3.77 3.55 MC9S08AW16CFDE
1K 34 16-Ch., 10-Bit 2-Ch. 6-Ch. SPI, 2 SCI, I2C 2.7 5.5 20.0 -40 85 44-LQFP MC9S08AW16CFGE-ND 3.79 3.58 3.37 MC9S08AW16CFGE
1K 54 16-Ch., 10-Bit 2-Ch. 6-Ch. SPI, 2 SCI, I2C 2.7 5.5 20.0 -40 85 64-QFP MC9S08AW16CFUE-ND 4.28 4.04 3.81 MC9S08AW16CFUE
1K 54 16-Ch., 10-Bit 2-Ch. 6-Ch. SPI, 2 SCI, I2C 2.7 5.5 20.0 -40 85 64-LQFP MC9S08AW16CPUE-ND 4.28 4.04 3.81 MC9S08AW16CPUE
1K 38 12-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 125 48-QFN MC9S08AW16MFDE-ND 4.39 4.15 3.91 MC9S08AW16MFDE
1K 34 8-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 125 44-LQFP MC9S08AW16MFGE-ND 4.18 3.95 3.72 MC9S08AW16MFGE
1K 26 16-Ch., 12-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 85 32-LQFP MC9S08DN16ACLC-ND 4.76 4.50 4.24 MC9S08DN16ACLC
1K 26 10-Ch., 12-Bit 2-Ch. SCI, SPI, I2C, CAN 2.7 5.5 20.0 -40 85 32-LQFP MC9S08DV16ACLC-ND 4.96 4.69 4.41 MC9S08DV16ACLC
1K 26 10-Ch., 12-Bit 2-Ch. 2 SCI, SPI, I2C, CAN 2.7 5.5 20.0 -40 85 32-LQFP MC9S08D16ACLC-ND 5.27 4.98 4.69 MC9S08D16ACLC
1K 40 16-Ch., 12-Bit 2-Ch. 2 SCI, SPI, I2C, CAN 2.7 5.5 20.0 -40 85 48-LQFP MC9S08D16ACLF-ND 5.44 5.15 4.84 MC9S08D16ACLF
16K 1K 40 16-Ch., 12-Bit 2-Ch. 2 SCI, SPI, I2C, CAN 2.7 5.5 20.0 -40 125 48-LQFP MC9S08D16AMLF-ND 6.01 5.68 5.34 MC9S08D16AMLF
1K 16 12-Ch., 10-Bit 4-Ch. 2-Ch. SLIC, SCI, SPI, I2C 2.7 5.5 20.0 -40 125 20-TSSOP MC9S08EL16CTJ-ND 3.48 3.29 3.10 MC9S08EL16CTJ
1K 22 16-Ch., 10-Bit 4-Ch. 2-Ch. SLIC, SCI, SPI, I2C 2.7 5.5 20.0 -40 85 28-TSSOP MC9S08EL16CTL-ND 3.34 3.16 2.98 MC9S08EL16CTL
1K 39 8-Ch., 10-Bit 3-Ch. 2-Ch. 2 SCI, SPI 1.8 3.6 20.0 -40 125 48-QFN MC9S08GT16AMFDE-ND 3.73 3.53 3.32 MC9S08GT16AMFDE
1K 39 — 2-Ch. SCI 1.8 3.6 8.0 0 70 32-LQFP MC9S08RE16FJE-ND 6.24 5.90 5.55 MC9S08RE16FJE
1K 39 — 2-Ch. SCI 1.8 3.6 8.0 0 70 44-LQFP MC9S08RE16FGE-ND 6.24 5.90 5.55 MC9S08RE16FGE
2K 36 8-Ch., 10-Bit Dual 2-Ch. 2 SCI, SPI 1.8 3.6 20.0 -40 125 44-QFP MC9S08GT16AMFBE-ND 3.64 3.44 3.24 MC9S08GT16AMFBE
2K 24 8-Ch., 10-Bit 2-Ch. 2 SCI, SPI 1.8 3.6 20.0 -40 125 32-QFN MC9S08GT16AMFCE-ND 3.64 3.44 3.24 MC9S08GT16AMFCE
2K 39 8-Ch., 10-Bit 3-Ch., 2-Ch. 2 SCI, SPI 1.8 3.6 20.0 -40 85 48-QFN MC9S08GT16ACFDE-ND 3.40 3.22 3.03 MC9S08GT16ACFDE
2K 36 8-Ch., 10-Bit Dual 2-Ch. 2 SCI, SPI 1.8 3.6 20.0 -40 85 44-QFP MC9S08GT16ACFBE-ND 3.30 3.13 2.94 MC9S08GT16ACFBE
2K 36 8-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 20.0 -40 85 44-QFP MC9S08GT16ACFBERCT-ND§ 3.84 3.43 3.22 MC9S08GT16ACFBER
2K 36 8-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 20.0 -40 85 44-QFP MC9S08GT16ACFBERTR-ND‡ 1474.20/750 MC9S08GT16ACFBER
2K 34 8-Ch., 10-Bit Dual 2-Ch. 2 SCI, SPI 1.8 3.6 20.0 -40 85 42-SDIP MC9S08GT16ACBE-ND 3.30 3.13 2.94 MC9S08GT16ACBE
2K 24 8-Ch., 10-Bit 2-Ch. 2 SCI, SPI 1.8 3.6 20.0 -40 85 32-QFN MC9S08GT16ACFCE-ND 3.30 3.13 2.94 MC9S08GT16ACFCE
1500 40 16-Ch., 12-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 125 48-LQFP MC9S08DN32AMLF-ND 5.87 5.55 5.22 MC9S08DN32AMLF
1K 16 12-Ch., 10-Bit 2-Ch. 4-Ch. SLIC, SCI, SPI, I2C 2.7 5.5 20.0 -40 85 20-TSSOP MC9S08EL32CTJ-ND 4.06 3.84 3.62 MC9S08EL32CTJ
1K 22 16-Ch., 10-Bit 4-Ch. 2-Ch. SLIC, SCI, SPI, I2C 2.7 5.5 20.0 -40 85 28-TSSOP MC9S08EL32CTL-ND 3.91 3.69 3.48 MC9S08EL32CTL
2K 38 16-Ch., 10-Bit 2-Ch. 6-Ch. SPI, 2 SCI, I2C 2.7 5.5 20.0 -40 85 48-QFN MC9S08AW32CFDE-ND 4.28 4.04 3.81 MC9S08AW32CFDE
2K 34 16-Ch., 10-Bit 2-Ch. 6-Ch. SPI, 2 SCI, I2C 2.7 5.5 20.0 -40 85 44-LQFP MC9S08AW32CFGE-ND 4.08 3.86 3.63 MC9S08AW23CFGE
2K 54 16-Ch., 10-Bit 2-Ch. 6-Ch. SPI, 2 SCI, I2C 2.7 5.5 20.0 -40 85 64-QFP MC9S08AW32CFUE-ND 4.57 4.32 4.07 MC9S08AW32CFUE
2K 54 16-Ch., 10-Bit 2-Ch. 6-Ch. SPI, 2 SCI, I2C 2.7 5.5 20.0 -40 85 64-LQFP MC9S08AW32CPUE-ND 4.57 4.32 4.07 MC9S08AW32CPUE
2K 34 8-Ch., 10-Bit 2-Ch. 6-Ch. SPI, 2 SCI, I2C 2.7 5.5 20.0 -40 125 44-LQFP MC9S08AW32MFGE-ND 4.49 4.25 4.00 MC9S08AW32MFGE
2K 40 16-Ch., 12-Bit 2-Ch. 2 SCI, SPI, I2C, CAN 2.7 5.5 20.0 -40 85 48-LQFP MC9S08DV32ACLF-ND 5.54 5.24 4.93 MC9S08DV32ACLF
32K
2K 40 16-Ch., 12-Bit 2-Ch. 2 SCI, SPI, I2C, CAN 2.7 5.5 20.0 -40 125 48-LQFP MC9S08DV32AMLF-ND 6.10 5.77 5.43 MC9S08DV32AMLF
2K 54 16-Ch., 12-Bit 2-Ch. 2 SCI, SPI, I2C, CAN 2.7 5.5 20.0 -40 125 64-LQFP MC9S08DV32AMLH-ND 6.53 6.17 5.81 MC9S08DV32AMLH
2K 26 10-Ch., 12-Bit 2-Ch. 2 SCI, SPI, I2C, CAN 2.7 5.5 20.0 -40 85 32-LQFP MC9S08D32ACLC-ND 5.66 5.35 5.03 MC9S08D32ACLC
2K 40 16-Ch., 12-Bit 2-Ch. 2 SCI, SPI, I2C, CAN 2.7 5.5 20.0 -40 85 48-LQFP MC9S08D32ACLF-ND 5.83 5.51 5.19 MC9S08D32ACLF
2K 54 16-Ch., 12-Bit 2-Ch. 2 SCI, SPI, I2C, CAN 2.7 5.5 20.0 -40 125 64-LQFP MC9S08D32AMLH-ND 6.84 6.47 6.09 MC9S08D32AMLH
2K 56 8-Ch., 10-Bit 5-Ch. I2C, SCI, SPI 1.8 3.6 20.0 -40 85 64-LQFP MC9S08GB32ACFUE-ND 5.73 5.42 5.10 MC9S08GB32ACFUE
2K 36 8-Ch., 10-Bit 2-Ch. SCI, SPI 1.8 3.6 20.0 -40 85 42-SDIP MC9S08GT32ACBE-ND 5.64 5.33 5.02 MC9S08GT32ACBE
2K 36 8-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 20.0 -40 85 44-QFP MC9S08GT32ACFBE-ND 5.15 4.87 4.58 MC9S08GT32ACFBE
2K 39 8-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 20.0 -40 85 48-QFN MC9S08GT32ACFDE-ND 5.35 5.05 4.76 MC9S08GT32ACFDE
2K 36 8-Ch., 10-Bit Dual 2-Ch. SCI, SPI 1.8 3.6 20.0 -40 85 48-QFN MC9S08GT32CFDE-ND 8.10 7.29 6.64 MC9S08GT32CFDE
2K 27 — 2-Ch. SCI, SPI 1.8 3.6 8.0 -40 85 32-LQFP MC9S08RG32CFJE-ND 7.89 7.46 7.02 MC9S08RG32CFJE
36K
2K 18 2-Ch., 12-Bit 2-Ch. SCI, SPI 1.8 3.6 40.0 -40 85 64-LQFP MC9S08LC36LH-ND 6.45 6.10 5.74 MC9S08LC36LH
2K 23 8-Ch., 12-Bit 2-Ch. SCI, SPI 1.8 3.6 40.0 -40 85 80-LQFP MC9S08LC36LK-ND 6.69 6.32 5.95 MC9S08LC36LK
2K 38 16-Ch., 10-Bit 2-Ch. 6-Ch. 2 SCI, 1 SPI, I2C 2.7 5.5 20.0 -40 85 48-QFN MC9S08AW48CFDE-ND 5.11 4.83 4.55 MC9S08AW48CFDE
2K 34 16-Ch., 10-Bit 2-Ch. 6-Ch. 2 SCI, 1 SPI, I2C 2.7 5.5 20.0 -40 85 44-LQFP MC9S08AW48CFGE-ND 4.92 4.65 4.38 MC9S08AW48CFGE
48K 2K 54 16-Ch., 10-Bit 2-Ch. 6-Ch. 2 SCI, 1 SPI, I2C 2.7 5.5 20.0 -40 85 64-QFP MC9S08AW48CFUE-ND 5.40 5.11 4.81 MC9S08AW48CFUE
2K 26 10-Ch., 12-Bit 2-Ch. 2 SCI, SPI, I2C, CAN 2.7 5.5 20.0 -40 85 32-LQFP MC9S08DV48ACLC-ND 5.73 5.42 5.10 MC9S08DV48ACLC
2K 40 16-Ch., 12-Bit 2-Ch. 6-Ch. CAN, SCI, SPI, I2C 2.7 5.5 20.0 -40 125 48-LQFP MC9S08D48MLF-ND 8.80 7.92 7.22 MC9S08D48MLF
2K 38 16-Ch., 10-Bit 2-Ch. 6-Ch. SPI, 2-ESCI, I2C 2.7 5.5 20.0 -40 85 48-QFN MC9S08AW60CFDE-ND 5.54 5.24 4.93 MC9S08AW60CFDE
2K 34 16-Ch., 10-Bit 2-Ch. 6-Ch. SPI, 2-ESCI, I2C 2.7 5.5 20.0 -40 85 44-LQFP MC9S08AW60CFGE-ND 5.35 5.05 4.76 MC9S08AW60CFGE
2K 54 16-Ch., 10-Bit 2-Ch. 6-Ch. SPI, 2-ESCI, I2C 2.7 5.5 20.0 -40 85 64-QFP MC9S08AW60CFUE-ND 5.83 5.51 5.19 MC9S08AW60CFUE
2K 54 16-Ch., 10-Bit 2-Ch. 6-Ch. SPI, 2-ESCI, I2C 2.7 5.5 20.0 -40 85 64-LQFP MC9S08AW60CPUE-ND 5.83 5.51 5.19 MC9S08AW60CPUE
2K 34 8-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 125 44-LQFP MC9S08AW60MFGE-ND 5.89 5.57 5.24 MC9S08AW60MFGE
2K 54 16-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 125 64-QFP MC9S08AW60MFUE-ND 6.42 6.06 5.71 MC9S08AW60MFUE
2K 54 16-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 125 64-QFP MC9S08AW60MFUERCT-ND§ NEW! 7.28 6.50 6.11 MC9S08AW60MFUER
60K
2K 54 16-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 125 64-QFP MC9S08AW60MFUERTR-ND‡ NEW! 2805.00/750 MC9S08AW60MFUER
2K 34 16-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 2.7 5.5 20.0 -40 105 44-LQFP MC9S08AW60VFGE-ND NEW! 5.63 5.33 5.01 MC9S08AW60VFGE
3K 26 10-Ch., 12-Bit 2-Ch. 2 SCI, SPI, I2C, CAN 2.7 5.5 20.0 -40 85 32-LQFP MC9S08DV60ACLC-ND 6.12 5.79 5.45 MC9S08DV60ACLC
4K 26 10-Ch., 12-Bit 2-Ch. 2 SCI, SPI, I2C, CAN 2.7 5.5 20.0 -40 85 32-LQFP MC9S08D60ACLC-ND 6.43 6.08 5.72 MC9S08D60ACLC
4K 40 16-Ch., 12-Bit 2-Ch. 2 SCI, SPI, I2C, CAN 2.7 5.5 20.0 -40 85 48-LQFP MC9S08D60ACLF-ND 6.61 6.25 5.88 MC9S08D60ACLF
4K 54 10-Ch., 12-Bit 2-Ch. 2 SCI, SPI, I2C, CAN 2.7 5.5 20.0 -40 85 64-LQFP MC9S08D60ACLH-ND 7.00 6.61 6.23 MC9S08D60ACLH
4K 40 16-Ch., 12-Bit 2-Ch. 2 SCI, SPI, I2C, CAN 2.7 5.5 20.0 -40 125 48-LQFP MC9S08D60AMLF-ND 7.27 6.87 6.47 MC9S08D60AMLF
4K 54 24-Ch., 12-Bit 2-Ch. 2 SCI, SPI, I2C, CAN 2.7 5.5 20.0 -40 125 64-LQFP MC9S08D60AMLH-ND 7.70 7.28 6.85 MC9S08D60AMLH
4K 56 8-Ch., 10-Bit 5-Ch. I2C, SCI, SPI 1.8 3.6 20.0 -40 85 64-LQFP MC9S08GB60ACFUE-ND 7.68 7.26 6.83 MC9S08GB60ACFUE
◆ RoHS Compliant § Cut Tape ‡ Tape and Reel (Continued)
C
®
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More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
185
185

Microcontrollers – 8 and 16 Bit
HC908 Family — 8-Bit (Cont.)
®
C
FLASH RAM
Timer (s)
Typ. Operating
Voltage
Max. Bus
Frequency
Temperature
Digi-Key
Price Each
Freescale
(Bytes) (Bytes) I/O A/D 16-Bit
Serial
(V) (MHz) (°C) Package Part No.
1 10 25 Part No.
4K 36 8-Ch., 10-Bit Dual 2-Ch. SCI, SPI 1.8 3.6 20.0 -40 85 42-SDIP MC9S08GT60ACBE-ND 7.58 7.16 6.74 MC9S08GT60ACBE
4K 39 8-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 20.0 -40 85 48-QFN MC9S08GT60ACFDE-ND 7.29 6.89 6.48 MC9S08GT60ACFDE
4K 36 8-Ch., 10-Bit 2-Ch. I2C, SCI, SPI 1.8 3.6 20.0 -40 85 44-QFP MC9S08GT60ACFBE-ND 7.10 6.71 6.31 MC9S08GT60ACFBE
4K 36 8-Ch., 10-Bit 3-Ch. 5-Ch. I2C, SCI, SPI 1.8 3.6 20.0 -40 85 44-QFP MC9S08GT60ACFBERCT-ND§ 7.92 7.08 6.66 MC9S08GT60ACFBER
60K
4K 36 8-Ch., 10-Bit 3-Ch. 5-Ch. I2C, SCI, SPI 1.8 3.6 20.0 -40 85 44-QFP MC9S08GT60ACFBERTR-ND‡ 3053.70/750 MC9S08GT60ACFBER
4K 39 8-Ch., 10-Bit 3-Ch. 5-Ch. I2C, SCI, SPI 1.8 3.6 20.0 -40 85 48-QFN MC9S08GT60ACFDERCT-ND§ 8.15 7.28 6.84 MC9S08GT60ACFDER
4K 39 8-Ch., 10-Bit 3-Ch. 5-Ch. I2C, SCI, SPI 1.8 3.6 20.0 -40 85 48-QFN MC9S08GT60ACFDERTR-ND‡ 8380.80/2,000 MC9S08GT60ACFDER
4K 36 8-Ch., 10-Bit Dual 2-Ch. SCI, SPI 1.8 3.6 20.0 -40 85 48-QFN MC9S08GT60CFDE-ND 9.13 8.31 7.68 MC9S08GT60CFDE
4K 18 2-Ch., 12-Bit 2-Ch. SCI, SPI 1.8 3.6 20.0 -40 85 64-LQFP MC9S08LC60LH-ND 7.60 7.18 6.76 MC9S08LC60LH
4K 18 2-Ch., 12-Bit 2-Ch. SCI, SPI 1.8 3.6 20.0 -40 85 80-LQFP MC9S08LC60LK-ND 7.83 7.40 6.97 MC9S08LC60LK
Demo Boards
Demo Board or MC9S08AW60 DEMO9S08AW60E-ND 85.00/1 DEMO9S08AW60E
Demo Board or MC9S08D60 DEMO9S08D60-ND 78.00/1 DEMO9S08D60
Demo Board or MC9S08EL DEMO9S08EL32-ND◆ 69.00/1 DEMO9S08EL32
Demo Board or 9S08LC60 / LCD Controller DEMO9S08LC60-ND 75.00/1 DEMO9S08LC60
Demo Board or MC9RSOLA8 DEMO9RS08LA8-ND 59.00/1 DEMO9RS08LA8
Demo Board or MC9S08LL16 DEMO9S08LL16-ND 69.00/1 DEMO9S08LL16
Demo Board or MC9S08QD Family DEMO9S08QD4-ND 59.00/1 DEMO9S08QD4
Demo Board or MC908AP64 DEMO908AP64E-ND◆ 49.00/1 DEMO908AP64E
Demo Board or 908G60 DEMO908G60E-ND 49.95/1 DEMO908G60E
Demo Board or 9RS08KA2 DEMO9RS08KA2-ND 50.00/1 DEMO9RS08KA2
Demo Board or 9RS08KA12 DEMO9RS08KB12-ND NEW! 59.00/1 DEMO9RS08KB12
Evaluation Board or HC908GP32 M68EVB908GP32-ND 168.20/1 M68EVB908GP32
Evaluation Board or MC9S08GB60 M68EVB908GB60E-ND 249.10/1 M68EVB908GB60E
Demo Board or MC9S08QG8 DEMO9S08QG8E-ND 50.00/1 DEMO9S08QG8E
Demo Board or MC9S08QE DEMO9S08QE8-ND 69.00/1 DEMO9S08QE8
Demo Kit or MCF51AC and S08AC DEMOACKIT-ND 99.00/1 DEMOACKIT
Dauhter Card or DEMO9S/JM Series DC9S08JM16-ND 10.00/1 DC9S08JM16
Demo Board or MC9RS08KA8/MC9RS08KA4 DEMO9RS08KA8-ND 50.00/1 DEMO9RS08KA8
Demo Board or S08AC Microcontroller Family DEMO9S08AC60E-ND 85.00/1 DEMO9S08AC60E
Demo Board or MC9S08SG Family o Microcontrollers DEMO9S08SG8-ND 59.00/1 DEMO9S08SG8
Demo Board or MC9S08SH Family o Microcontrollers DEMO9S08SH8-ND 59.00/1 DEMO9S08SH8
Demo Board or MC9S08MP16 DEMO9S08MP16-ND NEW! 69.00/1 DEMO9S08MP16
Evaluation Board or 9S08D60 Family o MCUs EVB9S08D60-ND 285.00/1 EVB9S08D60
Demo Board or MC9S08GB60 Family o MCUs M68DEMO908GB60E-ND 49.00/1 M68DEMO908GB60E
Demo Board or MC9S08QE32 Series o MCUs DEMO9S08QE32-ND 79.00/1 DEMO9S08QE32
Dauhter Card or DEMO9S08QE32 DC9S08QE32-ND 10.00/1 DC9S08QE32
Demo Board or QE128 Series o MCUs DEMOQE128-ND 99.00/1 DEMOQE128
Evaluation Board or QE128 Series o MCUs EVBQE128-ND 325.00/1 EVBQE128
Demo Board or JM Family o MCUs DEMOJM-ND 99.00/1 DEMOJM
Evaluation Board or JM Family o MCUs EVB51JM128-ND 325.00/1 EVB51JM128
Demo Board or JS16 Family o MCUs DEMO9S08JS16-ND◆ 79.00/1 DEMO9S08JS16
Demo Board for SE8 Family of MCUs DEMO9S08SE8-ND◆ 75.00/1 DEMO9S08SE8
◆ RoHS Compliant § Cut Tape ‡ Tape and Reel
HC912 Family — 16-Bit
Operating
Voltage
(V)
The 68HC12 CPU is upwardly compatile with the 68HC11 core and supports all reisters, instructions, addressin modes
and operatin modes o the 68HC11. Features: Fully static desin allowin operation down to DC 16-it Accumulator
20-it ALU 16-it Timer with uilt-in prescaler BDM Bacround Deu Module or aster deuin and nonintrusive,
real time read/write capaility to the memory and reisters SAE J1850 BDLC-D Byte Data Lin Control Module
or sinle wire communication with other BDLC MCUs COP Watchdo Timer Low power STOP and WAIT modes SPI,
SCI, I 2 C and CAN 2.0 Hih-level lanuae optimization 32/16 Divide 16 x 16 Multiply
Flash
(B)
RAM
(Bytes)
EEPROM
(Bytes) Timer PWM I/O A/D Features
Temp.
(°C) Package
Digi-Key
Part No.
1
Price Each
10 25
Freescale
Part No.
1K 768 8-Ch., 16-Bit 2-Ch., 8-Bit 63 8-Ch., 10-Bit SCI, SPI 5.0 8.0 -40 85 80-QFP MCHC912B32CFUE8-ND 22.18 20.52 18.86 MCHC912B32CFUE8
32K 3.5K — 8-Ch., 16-Bit See Timer 75 — USB 2.0 5.0 30.0 0 70 100-LQFP MC9S12UF32PUE-ND 8.75 8.27 7.78 MC9S12UF32PUE
3.5K — 8-Ch., 16-Bit See Timer 37 — USB 2.0 5.5 30.0 -40 85 64-LQFP MC9S12UF32PBE-ND 8.16 7.72 7.26 MC9S12UF32PBE
60K 2K 1K 8-Ch., 16 Bit 4-Ch., 8-Bit 48 8-Ch., 10-Bit CAN 2.0 5.0 8.0 -40 85 80-QFP MC912D60ACFUE8-ND 20.54 19.00 17.46 MC912D60ACFUE8
4K 1K 8-Ch., 16-Bit 6-Ch., 8-Bit 60 8-Ch., 10-Bit SCI, SPI 5.0 25.0 -40 85 80-QFP MCS12GC64CFUE-ND 8.51 7.66 6.98 MCS12GC64CFUE
64K
4K 1K 8-Ch., 16-Bit 6-Ch., 8-Bit 60 8-Ch., 10-Bit SCI, SPI 5.0 25.0 -40 125 80-QFP MCS12GC64MFUE-ND 9.55 8.60 7.84 MCS12GC64MFUE
8K 2K 8-Ch., 16-Bit 4-Ch., 16-Bit 69 8-Ch., 10-Bit CAN 2.0 5.0 8.0 -40 85 112-LQFP MC912DG128ACPVE-ND 39.74 37.53 35.33 MC912DG128ACPVE
8K 2K 8-Ch., 16-Bit 4-Ch., 16-Bit 69 8-Ch., 10-Bit SCI, SPI 5.0 8.0 -40 125 112-LQFP MC912DG128AMPVE-ND 43.29 40.89 38.49 MC912DG128AMPVE
128K
8K 2K 8-Ch., 16-Bit 4-Ch., 16-Bit 69 8-Ch., 10-Bit SCI, SPI 5.0 8.0 -40 85 112-LQFP MC912DG128ACPVERCT-ND§ 41.65 37.65 32.04 MC912DG128ACPVER
8K 2K 8-Ch., 16-Bit 4-Ch., 16-Bit 69 8-Ch., 10-Bit SCI, SPI 5.0 8.0 -40 85 112-LQFP MC912DG128ACPVERTR-ND‡ 11178.04/500 MC912DG128ACPVER
HC9S12
6K 2K 1K 8-Ch., 16-Bit 4-Ch., 16-Bit 16 8-Ch., 10-Bit CAN 2.0 5.0 8.0 -40 85 112-LQFP MC912D60ACPVE8-ND 20.54 19.00 17.46 MC912D60ACPVE8
1K — 8-Ch., 16-Bit 6-Ch., 8-Bit 33 8-Ch., 10-Bit SCI, SPI 3.3 5.5 25.0 -40 85 52-LQFP MC9S12GC16CPBE-ND 7.02 6.63 6.24 MC9S12GC16CPBE
16K
1K — 8-Ch., 16-Bit 6-Ch., 8-Bit 60 8-Ch., 10-Bit SCI, SPI 3.3 5.5 25.0 -40 125 80-QFP MC9S12GC16MFUE-ND 8.03 7.59 7.14 MC9S12GC16MFUE
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Max. Bus
Freq.
(MHz)
186 (US2011)
(TZM112.US)
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Microcontrollers – 8 and 16 Bit
HC912 Family — 16-Bit (Cont.)
®
Flash
(B)
RAM EEPROM
(Bytes) (Bytes) Timer PWM I/O A/D Features
Operating
Voltage
(V)
Max. Bus
Freq.
(MHz)
Temp.
(°C)
Package
Digi-Key
Part No.
Price Each
1 10 25
2K — 8-Ch., 16-Bit 6-Ch., 8-Bit 31 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 85 48-LQFP MC9S12C32CFAE16-ND 9.23 8.73 8.21 MC9S12C32CFAE16
2K — 8-Ch., 16-Bit 6-Ch., 8-Bit 31 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 85 48-LQFP MC9S12C32CFAE25-ND 9.72 9.18 8.64 MC9S12C32CFAE25
2K — 8-Ch., 16-Bit 6-Ch., 8-Bit 60 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 85 80-QFP MC9S12C32CFUE16-ND 9.80 9.26 8.71 MC9S12C32CFUE16
2K — 8-Ch., 16-Bit 6-Ch., 8-Bit 60 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 85 80-QFP MC9S12C32CFUE25-ND 10.30 9.74 9.16 MC9S12C32CFUE25
2K — 8-Ch., 16-Bit 6-Ch., 8-Bit 35 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 85 52-LQFP MC9S12C32CPBE25-ND 9.72 9.18 8.64 MC9S12C32CPBE25
2K — 8-Ch., 16-Bit 6-Ch., 8-Bit 31 8-Ch., 10-Bit SCI, SPI 3.3 5.5 25.0 -40 85 48-LQFP MC9S12GC32CFAE-ND 8.51 8.05 7.57 MC9S12GC32CFAE
2K — 8-Ch., 16-Bit 6-Ch., 8-Bit 35 8-Ch., 10-Bit SCI, SPI 3.3 5.5 25.0 -40 85 52-LQFP MC9S12GC32CPBE-ND 8.51 8.05 7.57 MC9S12GC32CPBE
2K — 8-Ch., 16-Bit 6-Ch., 8-Bit 31 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 125 48-LQFP MC9S12C32MFAE16-ND 10.17 9.61 9.04 MC9S12C32MFAE16
2K — 8-Ch., 16-Bit 6-Ch., 8-Bit 31 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 125 48-LQFP MC9S12C32MFAE25-ND 10.83 10.23 9.63 MC9S12C32MFAE25
32K 2K — 8-Ch., 16-Bit 6-Ch., 8-Bit 60 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 125 80-QFP MC9S12C32MFUE16-ND 10.77 10.18 9.58 MC9S12C32MFUE16
2K — 8-Ch., 16-Bit See Timer 60 8-Ch., 10-Bit CAN 2.0 3.15 5.55 25.0 -40 125 80-QFP MC9S12C32MFUE25-ND 11.45 10.82 10.18 MC9S12C32MFUE25
2K — 8-Ch., 16-Bit See Timer 60 8-Ch., 10-Bit CAN 2.0 3.15 5.55 25.0 -40 125 52-LQFP MC9S12C32MPBE25-ND 10.69 10.10 9.51 MC9S12C32MPBE25
2K — 8-Ch., 16-Bit 6-Ch., 8-Bit 31 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 105 48-LQFP MC9S12C32VFAE16-ND 9.72 9.18 8.64 MC9S12C32VFAE16
2K — 8-Ch., 16-Bit 6-Ch., 8-Bit 60 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 105 80-QFP MC9S12C32VFUE16-ND 10.30 9.74 9.16 MC9S12C32VFUE16
2K — 8-Ch., 16-Bit 6-Ch., 8-Bit 35 8-Ch., 10-Bit SCI, SPI 3.3 5.5 25.0 -40 125 52-LQFP MC9S12GC32MPBE-ND 9.37 8.85 8.33 MC9S12GC32MPBE
2K — 8-Ch., 16-Bit 6-Ch., 8-Bit 31 8-Ch., 10-Bit SCI, SPI 3.3 5.5 25.0 -40 105 48-LQFP MC9S12GC32VFAE-ND 8.94 8.45 7.95 MC9S12GC32VFAE
4K 1K 8-Ch., 18-Bit See Timer 91 8-Ch., 10-Bit SCI, SPI, I2C 5.0 25.0 -40 85 80-QFP MC9S12A32CFUE-ND 9.43 8.91 8.39 MC9S12A32CFUE
4K 1K 8-Ch., 16-Bit See Timer 91 8-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 25.0 -40 85 80-QFP MC9S12D32CFUE-ND 10.36 9.79 9.22 MC9S12D32CFUE
4K 1K 8-Ch., 16-Bit See Timer 91 8-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 25.0 -40 125 80-QFP MC9S12D32MFUE-ND 11.41 10.78 10.15 MC9S12D32MFUE
2K 1K 8-Ch., 16-Bit 8-Ch., 8-Bit 59 8-Ch., 10-Bit CAN 2.0 5.0 25.0 -40 125 80-QFP MC9S12B64MFUE-ND 13.41 12.67 11.93 MC9S12B64MFUE
2K 1K 8-Ch., 16-Bit 8-Ch., 8-Bit 59 8-Ch., 10-Bit CAN 2.0 5.0 25.0 -40 85 112-LQFP MC9S12B64CPVE-ND 12.64 11.94 11.24 MC9S12B64CPVE
4K 1K 8-Ch., 10-Bit See Timer 91 8-Ch., 10-Bit SCI, SPI, I2C 5.0 25.0 -40 85 80-QFP MC9S12A64CFUE-ND 12.83 12.12 11.41 MC9S12A64CFUE
4K 1K 8-Ch., 10-Bit 7-Ch., 8-Bit 59 8-Ch., 10-Bit SCI, SPI, I2C 5.0 25.0 -40 85 112-LQFP MC9S12A64CPVE-ND 13.01 12.29 11.57 MC9S12A64CPVE
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 31 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 85 48-LQFP MC9S12C64CFAE-ND 11.66 11.02 10.37 MC9S12C64CFAE
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 60 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 85 80-QFP MC9S12C64CFUE-ND 12.25 11.57 10.89 MC9S12C64CFUE
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 35 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 85 52-LQFP MC9S12C64CPBE-ND 11.66 11.02 10.37 MC9S12C64CPBE
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 31 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 125 48-LQFP MC9S12C64MFAE-ND 12.83 12.12 11.41 MC9S12C64MFAE
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 60 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 125 80-QFP MC9S12C64MFUE-ND 13.47 12.73 11.98 MC9S12C64MFUE
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 31 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 105 48-LQFP MC9S12C64VFAE-ND 12.25 11.57 10.89 MC9S12C64VFAE
4K 1K 8-Ch., 16-Bit 4-Ch., 16-Bit 59 8-Ch., 10-Bit CAN 2.0 5.0 25.0 -40 85 80-QFP MC9S12D64CFUE-ND 14.35 13.55 12.76 MC9S12D64CFUE
4K 1K 8-Ch., 10-Bit 7-Ch., 8-Bit 59 8-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 25.0 -40 85 112-LQFP MC9S12D64CPVE-ND 14.91 14.09 13.26 MC9S12D64CPVE
4K 1K 8-Ch., 16-Bit 4-Ch., 16-Bit 59 8-Ch., 10-Bit CAN 2.0 5.0 25.0 -40 125 80-QFP MC9S12D64MFUE-ND 15.79 14.91 14.04 MC9S12D64MFUE
4K 1K 8-Ch., 16-Bit 4-Ch., 16-Bit 59 8-Ch., 10-Bit CAN 2.0 5.0 25.0 -40 125 112-LQFP MC9S12D64MPVE-ND 16.41 15.50 14.59 MC9S12D64MPVE
64K
4K 1K 8-Ch., 16-Bit 4-Ch., 16-Bit 59 8-Ch., 10-Bit CAN 2.0 5.0 25.0 -40 105 80-QFP MC9S12D64VFUE-ND 15.07 14.23 13.40 MC9S12D64VFUE
4K 1K 8-Ch., 10-Bit 7-Ch., 8-Bit 59 8-Ch., 10-Bit SCI, SPI, CAN I2C 5.0 25.0 -40 105 112-LQFP MC9S12D64VPVE-ND 15.65 14.78 13.92 MC9S12D64VPVE
4K 1K 8-Ch., 10-Bit See Timer 91 8-Ch., 10-Bit SCI, SPI, CAN I2C 5.0 25.0 -40 85 80-QFP MC9S12DJ64CFUE-ND 14.91 14.09 13.26 MC9S12DJ64CFUE
4K 1K 8-Ch., 10-Bit 7-Ch., 8-Bit 59 8-Ch., 10-Bit SCI, SPI, CAN I2C 5.0 25.0 -40 85 112-LQFP MC9S12DJ64CPVE-ND 15.49 14.64 13.78 MC9S12DJ64CPVE
4K 1K 8-Ch., 10-Bit See Timer 91 8-Ch., 10-Bit SCI, SPI, CAN I2C 5.0 25.0 -40 105 80-QFP MC9S12DJ64VFUE-ND 16.15 15.26 14.36 MC9S12DJ64VFUE
4K — 34-Ch., 16-Bit See Timer 90 16-Ch., 10-Bit — 3.3 5.0 25.0 -40 85 80-QFP MC9S12E64CFUE-ND 10.94 10.34 9.73 MC9S12E64CFUE
4K — 8-Ch., 16-Bit 7-Ch., 8-Bit 90 16-Ch., 10-Bit SCI, SPI, I2C 5.0 25.0 -40 85 112-LQFP MC9S12E64CPVE-ND 11.47 10.84 10.20 MC9S12E64CPVE
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 29 8-Ch., 10-Bit SCI, SPI 3.3 5.5 25.0 -40 85 48-LQFP MC9S12GC64CFAE-ND 10.11 9.55 8.99 MC9S12GC64CFAE
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 58 8-Ch., 10-Bit SCI, SPI 3.3 5.5 25.0 -40 85 80-QFP MC9S12GC64CFUE-ND 10.42 9.85 9.27 MC9S12GC64CFUE
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 29 8-Ch., 10-Bit SCI, SPI 3.3 5.5 25.0 -40 125 48-LQFP MC9S12GC64MFAE-ND 11.12 10.51 9.89 MC9S12GC64MFAE
4K 1K 8-Ch., 16-Bit 8-Ch., 8-Bit 59 8-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 85 80-QFP MC9S12XD64CAA-ND 10.28 9.72 9.15 MC9S12XD64CAA
8K — 4-Ch., 16-Bit See Timer 36 8-Ch., 10-Bit Ethernet 3.3 5.0 25.0 -40 105 80-TQFP MC9S12NE64VTU-ND 14.32 13.02 12.05 MC9S12NE64VTU
8K — 4-Ch., 16-Bit See Timer 38 8-Ch., 10-Bit Ethernet 3.3 5.0 25.0 -40 105 80-TQFP MC9S12NE64VTUE-ND 13.32 12.58 11.84 MC9S12NE64VTUE
8K — 4-Ch., 16-Bit See Timer 70 8-Ch., 10-Bit Ethernet 3.3 5.0 25.0 -40 85 112-LQFP MC9S12NE64CPV-ND 14.87 13.52 12.50 MC9S12NE64CPV
8K — 4-Ch., 16-Bit See Timer 70 8-Ch., 10-Bit Ethernet 3.3 5.0 25.0 -40 85 112-LQFP MC9S12NE64CPVE-ND 14.06 13.28 12.50 MC9S12NE64CPVE
12K — 34-Ch., 16-Bit See Timer 90 16-Ch., 10-Bit — 3.3 5.0 25.0 -40 125 80-QFP MC9S12E64MFUE-ND 12.01 11.35 10.68 MC9S12E64MFUE
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 31 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 85 48-LQFP MC9S12C96CFAE-ND 13.61 12.86 12.10 MC9S12C96CFAE
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 60 8-Ch., 10-Bit CAN 2.0 3.3 5.0 25.0 -40 85 80-QFP MC9S12C96CFUERCT-ND§ 14.56 13.16 11.20 MC9S12C96CFUER
96K
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 60 8-Ch., 10-Bit CAN 2.0 3.3 5.0 25.0 -40 85 80-QFP MC9S12C96CFUERTR-ND‡ 6042.60/750 MC9S12C96CFUER
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 29 8-Ch., 10-Bit SCI, SPI 3.3 5.5 25.0 -40 85 48-LQFP MC9S12GC96CFAE-ND 10.65 10.07 9.47 MC9S12GC96CFAE
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 58 8-Ch., 10-Bit SCI, SPI 3.3 5.5 25.0 -40 85 80-QFP MC9S12GC96CFUE-ND 11.04 10.43 9.82 MC9S12GC96CFUE
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 29 8-Ch., 10-Bit SCI, SPI 3.3 5.5 25.0 -40 125 48-LQFP MC9S12GC96MFAE-ND 11.18 10.56 9.94 MC9S12GC96MFAE
64K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 119 16-Ch., 12-Bit SCI, SPI, CAN, I2C 5.0 50.0 -40 85 144-LQFP MC9S12XEP100CAG-ND 21.62 20.42 19.22 MC9S12XEP100CAG
100K
64K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 16-Ch., 12-Bit SCI, SPI, CAN, I2C 5.0 50.0 -40 85 112-LQFP MC9S12XEP100CAL-ND 21.33 20.15 18.96 MC9S12XEP100CAL
64K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 119 16-Ch., 12-Bit SCI, SPI, CAN, I2C 5.0 50.0 -40 125 144-LQFP MC9S12XEP100MAG-ND 23.78 22.46 21.14 MC9S12XEP100MAG
64K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 16-Ch., 12-Bit SCI, SPI, CAN, I2C 5.0 50.0 -40 125 112-LQFP MC9S12XEP100MAL-ND 23.48 22.18 20.88 MC9S12XEP100MAL
4K 2K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 8-Ch., 10-Bit CAN 2.0 5.0 25.0 -40 85 48-LQFP MC9S12C128CFAE-ND 14.58 13.77 12.96 MC9S12C128CFAE
4K 1K 8-Ch., 10-Bit 7-Ch., 8-Bit 59 8-Ch., 10-Bit SCI, SPI, I2C, CAN 5.5 25.0 -40 85 80-QFP MC9S12B128CFUE-ND 16.08 15.19 14.30 MC9S12B128CFUE
4K 1K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 16-Ch., 10-Bit CAN 2.0 5.5 25.0 -40 125 80-QFP MC9S12B128MFUE-ND 17.69 16.71 15.73 MC9S12B128MFUE
4K 1K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 16-Ch., 10-Bit CAN 2.0 5.5 25.0 -40 105 80-QFP MC9S12B128VFUE-ND 16.87 15.94 15.00 MC9S12B128VFUE
4K 1K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 16-Ch., 10-Bit CAN 2.0 5.5 25.0 -40 125 112-LQFP MC9S12B128MPVE-ND 18.18 17.17 16.16 MC9S12B128MPVE
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 60 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 85 80-QFP MC9S12C128CFUE-ND 15.16 14.33 13.48 MC9S12C128CFUE
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 31 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 125 48-LQFP MC9S12C128MFAE-ND 16.04 15.15 14.26 MC9S12C128MFAE
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 60 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 125 80-QFP MC9S12C128MFUE-ND 16.68 15.76 14.83 MC9S12C128MFUE
128K
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 35 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 125 52-LQFP MC9S12C128MPBE-ND 16.04 15.15 14.26 MC9S12C128MPBE
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 31 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 105 48-LQFP MC9S12C128VFAE-ND 15.32 14.47 13.62 MC9S12C128VFAE
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 60 8-Ch., 10-Bit SCI, SPI, CAN 5.0 25.0 -40 105 80-QFP MC9S12C128VFUE-ND 15.92 15.04 14.16 MC9S12C128VFUE
4K — 8-Ch., 16-Bit 6-Ch., 8-Bit 58 8-Ch., 10-Bit SCI, SPI 3.3 5.5 25.0 -40 85 80-QFP MC9S12GC128CFUE-ND 12.64 11.94 11.24 MC9S12GC128CFUE
4K 2K 8-Ch., 16-Bit 6-Ch., 8-Bit 37 8-Ch., 10-Bit CAN 2.0 5.0 25.0 -40 125 48-LQFP MC9S12GC128MFAE-ND 13.59 12.84 12.08 MC9S12GC128MFAE
6K 4K 8-Ch., 10-Bit See Timer 99 8-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 16.0 -40 105 144-LQFP MC9S12H128VFVE-ND 22.14 20.92 19.69 MC9S12H128VFVE
6K 2K 8-Ch., 16-Bit 6-Ch., 8-Bit 85 16-Ch., 10-Bit 2CAN 2.0, 2SCI, SPI, I2C 5.0 25.0 -40 85 112-LQFP MC9S12H128CAL-ND 20.33 19.21 18.08 MC9S12H128CAL
6K 2K 8-Ch., 16-Bit 6-Ch., 8-Bit 85 16-Ch., 10-Bit CAN 2.0 5.0 25.0 -40 105 112-LQFP MC9S12H128VAL-ND 21.35 20.16 18.98 MC9S12H128VAL
8K 2K 8-Ch., 10-Bit See Timer 59 8-Ch., 10-Bit SCI, SPI, I2C 5.0 25.0 -40 85 80-QFP MC9S12A128CFUE-ND 17.77 16.79 15.80 MC9S12A128CFUE
8K 2K 8-Ch., 10-Bit See Timer 59 8-Ch., 10-Bit SCI, SPI, I2C 5.0 25.0 -40 85 112-LQFP MC9S12A128CPVE-ND 18.33 17.32 16.30 MC9S12A128CPVE
◆ RoHS Compliant § Cut Tape ‡ Tape and Reel
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Freescale
Part No.
C
®
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(TZM112.US)
187
187

Microcontrollers – 8 and 16 Bit
HC912 Family — 16-Bit (Cont.)
®
C
Flash
(B)
RAM EEPROM
(Bytes) (Bytes) Timer PWM I/O A/D Features
◆ RoHS Compliant § Cut Tape ‡ Tape and Reel
Operating
Voltage
(V)
Max. Bus
Freq.
(MHz)
Temp.
(°C)
Package
Digi-Key
Part No.
Price Each
1 10 25
8K 2K 7-Ch., 16-Bit 8-Ch., 8-Bit 59 8-Ch., 10-Bit SCI, SPI, CAN I2C 5.0 25.0 -40 105 80-QFP MC9S12DG128VFUE-ND 19.34 18.27 17.20 MC9S12DG128VFUE
8K 2K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 8-Ch., 10-Bit SCI, SPI, CAN I2C 5.0 25.0 -40 105 112-LQFP MC9S12DG128VPVE-ND 19.96 18.86 17.75 MC9S12DG128VPVE
8K 2K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 8-Ch., 10-Bit CAN 2.0 5.0 25.0 -40 85 112-LQFP MC9S12DT128CPVE-ND 18.76 17.72 16.68 MC9S12DT128CPVE
8K 2K 8-Ch., 16-Bit See Timer 59 8-Ch., 10-Bit CAN 2.0 5.0 25.0 -40 85 80-QFP MC9S12DB128CFUE-ND 19.83 18.73 17.63 MC9S12DB128CFUE
8K 2K 8-Ch., 16-Bit See Timer 59 8-Ch., 10-Bit 2 CAN 2.0 5.0 25.0 -40 85 80-QFP MC9S12DG128CFUE-ND 18.43 17.41 16.39 MC9S12DG128CFUE
8K 2K 8-Ch., 16-Bit See Timer 59 8-Ch., 10-Bit 2 CAN 2.0 5.0 25.0 -40 85 80-QFP MC9S12DG128CFUERTR-ND‡ 7937.99/750 MC9S12DG128CFUER
128
8K 2K 8-Ch., 16-Bit See Timer 59 8-Ch., 10-Bit 2 CAN 2.0 5.0 25.0 -40 85 80-QFP MC9S12DJ128CFUE-ND 18.78 17.74 16.70 MC9S12DJ128CFUE
8K 2K 8-Ch., 16-Bit See Timer 91 28-Ch., 10-Bit CAN 2.0 5.0 25.0 -40 85 112-LQFP MC9S12DB128CPVE-ND 19.34 18.27 17.20 MC9S12DB128CPVE
8K 2K 8-Ch., 16-Bit See Timer 91 28-Ch., 10-Bit 2 CAN 2.0 5.0 25.0 -40 85 112-LQFP MC9S12DG128CPVE-ND 19.01 17.96 16.90 MC9S12DG128CPVE
8K 2K 8-Ch., 16-Bit See Timer 91 28-Ch., 10-Bit 2 CAN 2.0 5.0 25.0 -40 85 112-LQFP MC9S12DJ128CPVE-ND 19.36 18.29 17.22 MC9S12DJ128CPVE
8K — 34-Ch., 16-Bit See Timer 59 16-Ch., 10-Bit — 3.3 5.0 25.0 -40 85 80-QFP MC9S12E128CFUE-ND 12.25 11.57 10.89 MC9S12E128CFUE
8K — 34-Ch., 16-Bit See Timer 59 16-Ch., 10-Bit — 5.0 25.0 -40 125 80-QFP MC9S12E128MFUE-ND 13.47 12.73 11.98 MC9S12E128MFUE
8K — 12-Ch., 16-Bit 6-Ch., 8-Bit 60 — CAN 2.0 5.0 25.0 -40 85 112-LQFP MC9S12E128CPVE-ND 14.04 13.26 12.48 MC9S12E128CPVE
12K 2K 8-Ch., 16-Bit 8-Ch., 8-Bit 59 8-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 85 80-QFP MC9S12XDG128CAA-ND 11.64 11.00 10.36 MC9S12XDG128CAA
12K 4K 8-Ch., 10-Bit See Timer 91 8-Ch., 10-Bit SCI, SPI, I2C 5.0 25.0 -40 105 80-QFP MC9S12A256CFUE-ND 21.70 20.49 19.29 MC9S12A256CFUE
12K 4K 8-Ch., 16-Bit See Timer 59 8-Ch., 10-Bit 2 CAN 2.0 5.0 25.0 -40 85 80-QFP MC9S12DG256CFUE-ND 22.88 21.61 20.34 MC9S12DG256CFUE
12K 4K 8-Ch., 16-Bit See Timer 91 2 8-Ch., 10-Bit 2 CAN 2.0 5.0 25.0 -40 85 112-LQFP MC9S12DG256CPVE-ND 23.48 22.18 20.88 MC9S12DG256CPVE
12K 4K 8-Ch., 10-Bit See Timer 91 8-Ch., 10-Bit SCI, SPI, CAN I2C 5.0 25.0 -40 125 80-QFP MC9S12DG256MFUE-ND 25.17 23.78 22.38 MC9S12DG256MFUE
12K 4K 8-Ch., 10-Bit See Timer 91 8-Ch., 10-Bit SCI, SPI, CAN I2C 5.0 25.0 -40 125 112-LQFP MC9S12DG256MPVE-ND 25.82 24.39 22.95 MC9S12DG256MPVE
12K 4K 8-Ch., 10-Bit See Timer 91 8-Ch., 10-Bit SCI, SPI, CAN I2C 5.0 25.0 -40 105 112-LQFP MC9S12DG256VPVE-ND 24.63 23.27 21.90 MC9S12DG256VPVE
12K 4K 8-Ch., 16-Bit See Timer 59 8-Ch., 10-Bit 2 CAN 2.0 5.0 25.0 -40 85 80-QFP MC9S12DJ256CFUE-ND 25.12 23.73 22.33 MC9S12DJ256CFUE
12K 4K 8-Ch., 16-Bit See Timer 91 2 8-Ch., 10-Bit 2 CAN 2.0 5.0 25.0 -40 85 112-LQFP MC9S12DJ256CPVE-ND 25.70 24.28 22.85 MC9S12DJ256CPVE
12K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 8-Ch., 10-Bit SCI, SPI, CAN I2C 5.0 25.0 -40 85 112-LQFP MC9S12DT256CPVE-ND 25.02 23.63 22.24 MC9S12DT256CPVE
12K 4K 8-Ch., 16-Bit See Timer 115 16-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 16.0 -40 105 144-LQFP MC9S12H256VFVE-ND 25.64 24.22 22.80 MC9S12H256VFVE
12K 4K 8-Ch., 16-Bit 6-Ch., 8-Bit 117 16-Ch., 10-Bit CAN 2.0 5.0 25.0 -40 105 144-LQFP MC9S12H256VFVERCT-ND§ 30.71 27.76 23.62 MC9S12H256VFVER
12K 4K 8-Ch., 16-Bit 6-Ch., 8-Bit 117 16-Ch., 10-Bit CAN 2.0 5.0 25.0 -40 105 144-LQFP MC9S12H256VFVERTR-ND‡ 7246.79/500 MC9S12H256VFVER
12K 2K 8-Ch., 16-Bit See Timer 85 16-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 16.0 -40 85 112-LQFP MC9S12H256CAL-ND 23.41 22.11 20.81 MC9S12H256CAL
14K 4K 8-Ch., 16-Bit 7-Ch., 8-Bit 59 8-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 85 80-QFP MC9S12XD256CAA-ND 14.35 13.55 12.76 MC9S12XD256CAA
14K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 119 24-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 85 144-LQFP MC9S12XD256CAG-ND 14.83 14.01 13.19 MC9S12XD256CAG
14K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 16-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 85 112-LQFP MC9S12XD256CAL-ND 14.54 13.74 12.93 MC9S12XD256CAL
256K 14K 4K 8-Ch., 16-Bit 7-Ch., 8-Bit 59 8-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 125 80-QFP MC9S12XD256MAA-ND 18.37 17.35 16.33 MC9S12XD256MAA
14K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 16-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 125 112-LQFP MC9S12XD256MAL-ND 18.60 17.58 16.54 MC9S12XD256MAL
16K — 4-Ch., 16-Bit 6-Ch., 8-Bit 60 16-Ch., 10-Bit SCI, SPI, I2C 5.0 25.0 -40 85 80-QFP MC9S12E256CFUE-ND 14.56 13.76 12.95 MC9S12E256CFUE
16K — 4-Ch., 16-Bit 6-Ch., 8-Bit 91 16-Ch., 10-Bit SCI, SPI, I2C 5.0 25.0 -40 85 112-LQFP MC9S12E256CPVE-ND 15.12 14.29 13.45 MC9S12E256CPVE
16K — 4-Ch., 16-Bit 6-Ch., 8-Bit 58 16-Ch., 10-Bit SCI, SPI, I2C 5.0 25.0 -40 125 80-QFP MC9S12E256MFUE-ND 16.04 15.15 14.26 MC9S12E256MFUE
16K — 4-Ch., 16-Bit 6-Ch., 8-Bit 90 16-Ch., 10-Bit SCI, SPI, I2C 5.0 25.0 -40 125 112-LQFP MC9S12E256MPVE-ND 16.64 15.72 14.80 MC9S12E256MPVE
16K — 4-Ch., 16-Bit 6-Ch., 8-Bit 91 16-Ch., 10-Bit SCI, SPI, I2C 5.0 25.0 -40 105 112-LQFP MC9S12E256VPVE-ND 15.88 15.00 14.12 MC9S12E256VPVE
16K 4K 8-Ch., 16-Bit 7-Ch., 8-Bit 59 8-Ch., 10-Bit SCI, SPI, I2C 5.5 40.0 -40 85 80-QFP MC9S12XA256CAA-ND 13.96 13.19 12.41 MC9S12XA256CAA
16K 4K 8-Ch., 16-Bit 8-Ch., 16-Bit 59 8-Ch., 10-Bit SCI, SPI 3.3 40.0 -40 105 80-PQFP MC9S12XA256CAARCT-ND§ 17.91 16.20 13.78 MC9S12XA256CAAR
16K 4K 8-Ch., 16-Bit 8-Ch., 16-Bit 59 8-Ch., 10-Bit SCI, SPI 3.3 40.0 -40 105 80-PQFP MC9S12XA256CAARTR-ND‡ 7443.89/750 MC9S12XA256CAAR
16K 4K 8-Ch., 16-Bit 7-Ch., 8-Bit 119 24-Ch., 10-Bit SCI, SPI, I2C 5.0 40.0 -40 85 144-LQFP MC9S12XA256CAG-ND 14.44 13.65 12.84 MC9S12XA256CAG
16K 4K 8-Ch., 16-Bit 7-Ch., 8-Bit 59 8-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 85 80-QFP MC9S12XDT256CAA-ND 15.12 14.29 13.45 MC9S12XDT256CAA
16K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 16-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 85 112-LQFP MC9S12XDT256CAL-ND 15.32 14.47 13.62 MC9S12XDT256CAL
16K 4K 8-Ch., 16-Bit 7-Ch., 8-Bit 59 8-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 125 80-QFP MC9S12XDT256MAA-ND 19.23 18.16 17.09 MC9S12XDT256MAA
16K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 16-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 105 112-LQFP MC9S12XDT256MAL-ND 19.46 18.38 17.30 MC9S12XDT256MAL
16K 4K 8-Ch., 16-Bit 7-Ch., 8-Bit 59 8-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 105 80-QFP MC9S12XDT256VAA-ND 18.35 17.34 16.32 MC9S12XDT256VAA
16K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 16-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 85 112-LQFP MC9S12XDT256VAL-ND 18.53 17.50 16.47 MC9S12XDT256VAL
4K 1K 8-Ch., 16-Bit 7-Ch., 8-Bit 59 8-Ch., 10-Bit SCI, SPI, I2C 5.0 25.0 -40 85 112-LQFP MC9S12A512CPVE-ND 25.60 24.18 22.76 MC9S12A512CPVE
12K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 10-Ch., 8-Bit SCI, SPI, CAN I2C 5.0 25.0 -40 85 112-LQFP MC9S12DP512CPVE-ND 27.35 25.84 24.32 MC9S12DP512CPVE
12K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 8-Ch., 10-Bit SCI, SPI, CAN I2C 5.0 25.0 -40 125 112-LQFP MC9S12DP512MPVE-ND 30.09 28.43 26.75 MC9S12DP512MPVE
12K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 8-Ch., 10-Bit SCI, SPI, CAN I2C 5.0 25.0 -40 105 112-LQFP MC9S12DP512VPVE-ND 29.61 27.97 26.32 MC9S12DP512VPVE
14K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 2 8-Ch., 10-Bit 5 CAN 2.0 5.0 25.0 -40 85 112-LQFP MC9S12DP512CPVERCT-ND§ 32.66 29.52 25.12 MC9S12DP512CPVER
14K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 2 8-Ch., 10-Bit 5 CAN 2.0 5.0 25.0 -40 85 112-LQFP MC9S12DP512CPVERTR-ND‡ 7705.81/500 MC9S12DP512CPVER
20K 4K 8-Ch., 16-Bit 7-Ch., 8-Bit 59 8-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 85 80-QFP MC9S12XDT512CAA-ND 18.99 17.94 16.89 MC9S12XDT512CAA
20K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 119 24-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 85 144-LQFP MC9S12XDT512CAG-ND 19.48 18.40 17.32 MC9S12XDT512CAG
512K
20K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 16-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 85 112-LQFP MC9S12XDT512CAL-ND 19.19 18.13 17.06 MC9S12XDT512CAL
20K 4K 8-Ch., 16-Bit 7-Ch., 8-Bit 59 8-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 125 80-QFP MC9S12XDT512MAA-ND 22.43 21.19 19.95 MC9S12XDT512MAA
20K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 16-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 125 112-LQFP MC9S12XDT512MAL-ND 22.67 21.41 20.15 MC9S12XDT512MAL
32K 4K 8-Ch., 16-Bit 7-Ch., 8-Bit 59 8-Ch., 10-Bit SCI, SPI, I2C 5.5 40.0 -40 105 80-QFP MC9S12XA512VAA-ND 21.40 20.22 19.03 MC9S12XA512VAA
32K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 119 24-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 85 144-LQFP MC9S12XDP512CAG-ND 20.26 19.14 18.01 MC9S12XDP512CAG
32K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 16-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 85 112-LQFP MC9S12XDP512CAL-ND 19.96 18.86 17.75 MC9S12XDP512CAL
32K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 119 24-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 125 144-LQFP MC9S12XDP512MAG-ND 23.95 22.62 21.29 MC9S12XDP512MAG
32K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 16-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 125 112-LQFP MC9S12XDP512MAL-ND 23.52 22.22 20.91 MC9S12XDP512MAL
32K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 119 24-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 105 144-LQFP MC9S12XDP512VAG-ND 22.84 21.58 20.31 MC9S12XDP512VAG
32K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 16-Ch., 10-Bit SCI, SPI, CAN, I2C 5.0 40.0 -40 105 112-LQFP MC9S12XDP512VAL-ND 22.43 21.19 19.95 MC9S12XDP512VAL
768K 48K 4K 8-Ch., 16-Bit 8-Ch., 8-Bit 91 16-Ch., 12-Bit SCI, SPI, CAN, I2C 5.0 50.0 -40 85 112-LQFP MC9S12XEP768CAL-ND 20.35 19.23 18.10 MC9S12XEP768CAL
HC16 — RoHS Compliant
— 1K — 8-Ch., 10-Bit 2-Ch. 16 8-Ch., 10-Bit SCI, SPI 5.0 16.0 -40 85 132-PQFP MC68HC161VEH16-ND 27.97 26.42 24.87 MC68HC161VEH16
Demo Boards
Evaluation Board or MC9S12E128/64 M68EVB912E128-ND 153.63/1 M68EVB912E128
Evaluation Board or MC9S12XDT512 DEMO9S12XDT512E-ND 75.00/1 DEMO9S12XDT512E
Development Kit or 912D60A with Serial Deuer M68KIT912D60A-ND 450.60/1 M68KIT912D60A
Development Kit or 912D128A with Serial Deuer M68KIT912DG128A-ND 451.95/1 M68KIT912D128A
Development Kit or 912DP256 with Multilin M68KIT912DP256-ND 495.30/1 M68KIT912DP256
Demo Board or MC9S12XEP100-ND DEMO9S12XEP100-ND 75.30/1 DEMO9S12XEP100
Demo Board or MC9S12XDP512 EVB9S12XDP512E-ND 395.00/1 EVB9S12XDP512E
Demo Board or MC9S12XEP100 EVB9S12XEP100-ND 500.00/1 EVB9S12XEP100
Freescale
Part No.
®
For Digi-Reel ® information, please see page 71.
188 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

68HC05
68HC 1
68HC16
All other product
.
8-16 Bit Development Tools
MultiLink
The MultiLin is an easy-to-use, low cost development tool or the Freescale HCS08 and HCS12 MCUs. It provides In-Circuit emulation, deuin and prorammin throuh
the MON08 HC08 and BDM HC12, HCS08 interaces. Features: Universal development tool or HCS08 and HCS12 MCUs Real-Time In-Circuit emulation and deu
Fast In-Circuit prorammin Auto-detects aud rate and reuency Provides optional overdrive cloc to taret Small size Supports 2V 5.5V Auto-cycle power or
security checs up to 125mA Universal power supply included. The M68CCLONEPRO provides all the same capailities o the MultiLins, with the aility to unction as a
standalone programmer, with pushbuttons and LEDs to control operation. Also provides support for 1.8V operation.
2
CD
inte ligence everywhere
VOLUME 1
CDMCU/D REV 5.
8- AND 16-BIT MICROCONTROLLERS
MOTOROLA and the Stylized M Logo are
property of their respective owners. ©Motorola, Inc. 2002
or service names are the
registered in
the U.S. Patent
and Trademark Office
2V, 3V, 5V Rev.A
Requires 9 v. Center-Positive Power Su ply
MON08-MULTILINK
68HC08 Parallel Port
MON08 Interface
P & E Microcomputer Systems, Inc.
P: 617-353-9206 F: 617-353-9205
M68CYCLONEPROE-ND HCS08, HCS12, USB ................................................................................................................... $498.80
USBMULTILINK08E-ND HC08s, USB .................................................................................................................................$99.00
USBMULTILINKBDME-ND HCS08, HCS12, USB .....................................................................................................................$99.00
NEW! i.MX Multimedia Applications Processors
Freescale ARM-based i.MX multimedia applications processors deliver an optimal balance of performance and long battery
life for rich multimedia experiences on the go. The i.MX applications processor family includes processors based on
ARM9, ARM11 and ARM Cortex A8 core technoloies, which are powerin new applications in consumer, automotive and
industrial markets that demand exceptional performance and efficiency.
Temperature Speed
Voltage
Package Digi-Key
Price Each
Freescale
Description
(°C)
(MHz)
Supply (V)
(MAPBGA) Part No.
1 10 25 Part No.
MPU 32-Bit i.MX233 Industrial -40 85 454 1.0 2.1 169-MAPBGA MCIMX233CJM4B-ND 12.85 12.14 11.43 MCIMX233CJM4B
MPU 32-Bit i.MX233 -10 70 454 1.0 2.1 128-LQFP MCIMX233DAG4B-ND 9.67 9.13 8.60 MCIMX233DAG4B
MPU 32-Bit i.MX233 -10 70 454 1.0 2.1 169-MAPBGA MCIMX233DJM4B-ND 11.39 10.77 10.13 MCIMX233DJM4B
MPU 32-Bit i.MX21 -40 85 266 1.45 1.65 289-MAPBGA MC9328MX21CJM-ND 23.49 22.19 20.88 MC9328MX21CJM
MPU i.MX25 Industrial -40 85 400 1.38 1.52 400-MAPBGA MCIMX253CJM4-ND 13.61 12.86 12.10 MCIMX253CJM4
MPU i.MX25 Communication -20 70 400 1.38 1.52 400-MAPBGA MCIMX253DJM4-ND 13.14 12.41 11.68 MCIMX253DJM4
MPU i.MX25 Auto -40 85 400 1.38 1.52 400-MAPBGA MCIMX255AJM4-ND 16.15 15.25 14.36 MCIMX255AJM4
MPU i.MX25 Industrial -40 85 400 1.38 1.52 400-MAPBGA MCIMX257CJM4-ND 15.50 14.64 13.78 MCIMX257CJM4
IC MPU i.MX25 Communication -20 70 400 1.38 1.52 400-MAPBGA MCIMX257DJM4-ND 14.69 13.88 13.06 MCIMX257DJM4
MPU i.MX25 -40 85 400 1.15 1.52 400-MAPBGA MCIMX258CJM4-ND 17.03 16.09 15.14 MCIMX258CJM4
MPU MX31 ARM11 -40 85 532 1.22 1.65 457-MAPBGA MCIMX31CJKN5D-ND 29.84 28.19 26.53 MCIMX31CJKN5D
MPU MX35 ARM11 -40 85 532 1.33 1.47 400-MAPBGA MCIMX357CJQ5C-ND 21.38 20.20 19.01 MCIMX357CJQ5C
Multimedia Processors -20 85 600 0.8 1.15 529-LFBGA MCIMX512CJM6C-ND 44.71 42.23 39.75 MCIMX512CJM6C
Multimedia Processors -20 85 800 0.8 1.15 529-LFBGA MCIMX512DJM8C-ND 40.39 38.15 35.91 MCIMX512DJM8C
Multimedia Processors -20 85 800 0.8 1.15 529-LFBGA MCIMX513DJM8C-ND 41.36 39.07 36.77 MCIMX513DJM8C
Multimedia Processors -20 85 600 0.8 1.15 529-LFBGA MCIMX515CJM6C-ND 51.73 48.86 45.99 MCIMX515CJM6C
Multimedia Processors -20 85 800 0.8 1.15 529-LFBGA MCIMX515DJM8C-ND 47.03 44.43 41.81 MCIMX515DJM8C
Module LCD i.MX233 4.3 WQVGA MCIMX23LCD-ND 199.00 — — MCIMX23LCD
Evaluation Kit or IMX233 MCIMX23LEVKJ-ND 399.00 — — MCIMX23LEVKJ
Development Kit or MCIMX25 PDK or Linux MCIMX25LPDKJ-ND 995.00 — — MCIMX25LPDKJ
Evaluation Board i.MX23 MCIMX23WEVKJ-ND 399.00 — — MCIMX23WEVKJ
Kit Development WINCE i.MX25 MCIMX25WPDKJ-ND 995.00 — — MCIMX25WPDKJ
C
32-Bit Microcontrollers
ColdFire the highly integrated ColdFire series of processors allow for advanced
performance at low cost. Rich peripheral sets and development tools make these
processors oth easy to use and hihly unctional. The variale lenth RISC
architecture enable this processor to save system memory and cost.
PowerPC series o processors rom Freescale Semiconductor, Inc. are
the ideal oundation or RISC emedded applications. Features include hih
scalability and code compatibility over the entire line.
PowerQUICC delivers functionality tailored to the needs of the embedded
communications market space, excelling particularly in access and customer
premise euipment applications. PowerQUICC processors are well-suited or
applications includin SOHO routers, remote access routers, DSLAMs, and Voice
over IP systems.
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
M-CORE with an emphasis on low power consumption, the M-CORE series of
processors are the ideal match for handheld and other low-power applications,
which require high performance.
68K series of processors are ideal for the engineer looking for high performance
at a reduced cost. The wide array o 68K processors can suit most any
application.
Temperature
Freq. Cache SRAM Flash
Digi-Key
Price Each
Freescale
(MHz) (KB) (KB) (KB) DMA USB CAN Serial ADC (°C) Package Part No.
1 10 25 Part No.
ColdFire Processors
66 1K 4K 16 2-Ch. Full-Speed Device — SPI, I2C — -40 85 196-MAPBGA MCF5272CVF66J-ND◆ NEW! 24.19 22.85 21.51 MCF5272CVF66J
66 1K 4K 16 2-Ch. Full-Speed Device — SPI, I2C — -40 85 196-MAPBGA MCF5272CVM66J-ND◆ NEW! 24.19 22.85 21.51 MCF5272CVM66J
66 1K 4K 16 2-Ch. Full-Speed Device — SPI, I2C — 0 70 196-MAPBGA MCF5272VF66J-ND◆ NEW! 21.17 20.00 18.82 MCF5272VF66J
66 1K 4K 16 2-Ch. Full-Speed Device — SPI, I2C — 0 70 196-MAPBGA MCF5272VF66R2J-ND◆ NEW! 21.56 20.37 19.17 MCF5272VF66R2J
66 1K 4K 16 2-Ch. Full-Speed Device — SPI, I2C — 0 70 196-MAPBGA MCF5272VM66J-ND◆ NEW! 21.17 20.00 18.82 MCF5272VM66J
66 1K 4K 16 2-Ch. Full-Speed Device — SPI, I2C — 0 70 196-MAPBGA MCF5272VM66R2JCT-ND◆† NEW! 21.63 19.55 16.64 MCF5272VM66R2J
66 1K 4K 16 2-Ch. Full-Speed Device — SPI, I2C — 0 70 196-MAPBGA MCF5272VM66R2JTR-ND◆‡ NEW! 8984.98/750 MCF5272VM66R2J
50 — 64 128 2-Ch. — — SCI, SPI, I2C 12-Bit -40 85 48-QFN MCF51CN128CGT-ND◆ 6.01 5.68 5.34 MCF51CN128CGT
50 — 64 128 2-Ch. — — SCI, SPI, I2C 12-Bit -40 85 64-LQFP MCF51CN128CLH-ND◆ 6.43 6.08 5.72 MCF51CN128CLH
50 — 64 128 2-Ch. — — SCI, SPI, I2C 12-Bit -40 85 80-LQFP MCF51CN128CLK-ND◆ 6.63 6.27 5.90 MCF51CN128CLK
40 4K 8 — 2-Ch. — 2 2 UART — -40 85 160-QFP MCF5206ECAB40-ND◆ 21.58 20.38 19.19 MCF5206ECAB40
40 4K 8 — 2-Ch. — 2 2 UART — -40 85 160-QFP MCF5206EAB40-ND◆ 17.42 16.46 15.49 MCF5206EAB40
54 4K 8 — 2-Ch. — 2 2 UART — -40 85 160-QFP MCF5206EAB54-ND◆ 21.58 20.38 19.19 MCF5206EAB54
25 512K 512 — 4-Ch. Hih-Speed OTG — UART 12-Bit 8-Ch. 0 70 160-QFP MCF5206FT25A-ND 22.87 21.16 19.45 MCF5206FT25A
80 16K 64 — 4-Ch. — 2 I2C, UART, SPI — -40 85 160-QFP MCF5232CAB80-ND 21.75 20.55 19.34 MCF5232CAB80
120 8K 96 — 4-Ch. — 2 I2C, UART, SPI 10-Bit 0 70 144-LQFP MCF5249LAG120-ND 19.79 18.69 17.60 MCF5249LAG120
100 16K 64 — 4-Ch. Full-Speed Device — I2C, UART, SPI — 0 70 160-QFP MCF5270AB100-ND 15.94 15.06 14.17 MCF5270AB100
100 16K 64 — 4-Ch. Full-Speed Device — I2C, UART, SPI — -40 85 160-QFP MCF5271CAB100-ND 20.18 19.06 17.94 MCF5271CAB100
66 16K 4 — 4-Ch. — — I2C, UART — 0 70 208-FQFP MCF5307AI66B-ND 27.84 26.30 24.75 MCF5307AI66B
90 16K 4 — 4-Ch. — — I2C, UART — 0 70 208-FQFP MCF5307AI90B-ND 36.66 34.63 32.59 MCF5307AI90B
66 16K 4 — 4-Ch. — — I2C, UART — -40 85 208-FQFP MCF5307CAI66B-ND 34.21 32.32 30.42 MCF5307CAI66B
220 24K 4 — 4-Ch. — — I2C, UART — -40 85 208-FQFP MCF5407CAI220-ND 67.81 64.04 60.28 MCF5407CAI220
162 24K 4 — 4-Ch. — — I2C, UART — -40 85 208-FQFP MCF5407CAI162-ND 59.97 56.65 53.31 MCF5407CAI162
220 24K 4 — 4-Ch. — — I2C, UART — 0 70 208-FQFP MCF5407AI220-ND 59.97 56.65 53.31 MCF5407AI220
162 24K 4 — 4-Ch. — — I2C, UART — 0 70 208-FQFP MCF5407AI162-ND 49.51 46.77 44.02 MCF5407AI162
200 64K 32 — 16-Ch. Hih-Speed Device 2 I2C, UART, SPI — 0 70 388-PBGA MCF5471VR200-ND 43.55 41.13 38.71 MCF5471VR200
200 64K 32 — 16-Ch. Hih-Speed Device 2 I2C, UART, SPI — 0 70 388-PBGA MCF5472VR200-ND 36.99 34.94 32.89 MCF5472VR200
200 64K 32 — 16-Ch. Hih-Speed Device 2 I2C, UART, SPI — 0 70 388-PBGA MCF5474VR200-ND 41.48 39.18 36.88 MCF5474VR200
266 64K 32 — 16-Ch. Hih-Speed Device 2 I2C, UART, SPI — 0 70 388-PBGA MCF5474VR266-ND 43.55 41.13 38.71 MCF5474VR266
200 64K 32 — 16-Ch. Hih-Speed Device 2 I2C, UART, SPI — 0 70 388-PBGA MCF5475VR200-ND 48.02 45.35 42.69 MCF5475VR200
266 64K 32 — 16-Ch. Hih-Speed Device 2 I2C, UART, SPI — 0 70 388-PBGA MCF5475VR266-ND 50.10 47.32 44.54 MCF5475VR266
166 64K 32 — 16-Ch. Hih-Speed Device 2 I2C, UART, SPI — -40 85 388-PBGA MCF5480CVR166-ND 43.53 41.11 38.69 MCF5480CVR166
166 64K 32 — 16-Ch. Hih-Speed Device 2 I2C, UART, SPI — -40 85 388-PBGA MCF5482CVR166-ND 43.53 41.11 38.69 MCF5482CVR166
166 64K 32 — 16-Ch. Hih-Speed Device 2 I2C, UART, SPI — -40 85 388-PBGA MCF5483CVR166-ND 50.08 47.30 44.52 MCF5483CVR 166
200 64K 32 — 16-Ch. Hih-Speed Device 2 I2C, UART, SPI — -40 85 388-PBGA MCF5484CVR200-ND 51.24 48.40 45.55 MCF5484CVR200
200 64K 32 — 16-Ch. Hih-Speed Device 2 I2C, UART, SPI — -40 85 388-PBGA MCF5485CVR200-ND 57.78 54.57 51.36 MCF5485CVR200
66 — 16 128 4-Ch. Full-Speed Device/Host/OTG — I2C, UART, SPI 12-Bit -40 85 64-LQFP MCF52221CAE66-ND 7.21 6.82 6.42 MCF52221CAE66
66 — 16 128 4-Ch. Full-Speed Device/Host/OTG — I2C, UART, SPI 12-Bit -40 85 100-LQFP MCF52221CAF66-ND 7.41 7.00 6.59 MCF52221CAF66
80 — 16 128 4-Ch. Full-Speed Device/Host/OTG — I2C, UART, SPI 12-Bit -40 85 100-LQFP MCF52221CAF80-ND 8.16 7.72 7.26 MCF52221CAF80
66 — 32 256 4-Ch. Full-Speed Device/Host/OTG — I2C, UART, SPI 12-Bit -40 85 100-LQFP MCF52223CAF66-ND 8.16 7.72 7.26 MCF52223CAF66
80 — 32 256 4-Ch. Full-Speed Device/Host/OTG — I2C, UART, SPI 12-Bit -40 85 100-LQFP MCF52223CAF80-ND 8.98 8.49 7.99 MCF52223CAF80
◆ RoHS Compliant † Cut Tape ‡ Tape and Reel
(Continued)
®
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(TZM112.US)
189
®
189

32-Bit Microcontrollers (Cont.)
®
C
Freq. Cache SRAM Flash
Temperature
Digi-Key
Price Each
Freescale
(MHz) (KB) (KB) (KB) DMA USB CAN Serial ADC (°C) Package Part No.
1 10 25 Part No.
60 — 32 256 4-Ch. — 1 I2C, UART, SPI 12-Bit -40 85 112-LQFP MCF52230CAL60-ND 11.41 10.78 10.15 MCF52230CAL60
60 — 32 256 4-Ch. — 1 I2C, UART 12-Bit -40 85 112-LQFP MCF52233CAL60-ND 12.58 11.88 11.18 MCF52233CAL60
60 — 32 256 4-Ch. — 1 I2C, UART 12-Bit -40 85 112-LQFP MCF52234CAL60-ND 12.99 12.27 11.55 MCF52234CAL60
60 — 32 256 4-Ch. — 1 I2C, UART 12-Bit -40 85 112-LQFP MCF52235CAL60-ND 14.04 13.26 12.48 MCF52235CAL60
NEW! ColdFire V1 Processors — RoHS Compliant NEW!
50 — 8 128 2-Ch. — — I2C, SCI, SPI 32-Bit -40 85 80-LQFP MCF51EM128CLK-ND 9.23 8.31 7.57 MCF51EM128CLK
50 — 8 128 2-Ch. — — I2C, SCI, SPI 32-Bit -40 85 100-LQFP MCF51EM128CLL-ND 7.69 7.26 6.84 MCF51EM128CLL
50 — 16 256 2-Ch. — — I2C, SCI, SPI 32-Bit -40 85 80-LQFP MCF51EM256CLK-ND 10.13 9.12 8.31 MCF51EM256CLK
50 — 16 256 2-Ch. — — I2C, SCI, SPI 32-Bit -40 85 100-LQFP MCF51EM256CLL-ND 8.41 7.94 7.48 MCF51EM256CLL
ColdFire V2 Processors
80 — 16 128 4-Ch. — — I2C, UART, SPI 12-Bit -40 85 100-LQFP MCF52110CAF80-ND 7.04 6.65 6.26 MCF52110CAF80
66 — 16 128 4-Ch. — — I2C, UART, SPI 12-Bit -40 85 64-LQFP MCF5211CAE66-ND 10.30 9.74 9.16 MCF5211CAE66
66 — 32 256 4-Ch. — — I2C, UART, SPI 12-Bit -40 85 64-LQFP MCF5212CAE66-ND 13.32 12.58 11.84 MCF5212CAE66
66 — 32 256 4-Ch. — 1 I2C, UART, SPI 12-Bit -40 85 100-LQFP MCF5213CAF66-ND 15.55 14.69 13.83 MCF5213CAF66
80 — 32 256 4-Ch. — 1 I2C, UART, SPI 12-Bit -40 85 100-LQFP MCF5213CAF80-ND 16.39 15.48 14.57 MCF5213CAF80
66 — 16 128 4-Ch. OTG — I2C, UART, SPI 12-Bit -40 85 64-LQFP MCF52211CAE66-ND 7.21 6.82 6.42 MCF52211CAE66
80 — 16 128 4-Ch. OTG — I2C, UART, SPI 12-Bit -40 85 64-LQFP MCF52211CAE80-ND 7.91 7.48 7.04 MCF52211CAE80
80 — 16 128 4-Ch. OTG — I2C, UART, SPI 12-Bit -40 85 100-LQFP MCF52211CAF80-ND 8.16 7.72 7.26 MCF52211CAF80
50 — 8 64 4-Ch. OTG — I2C, UART, SPI 12-Bit 0 70 64-LQFP MCF52212AE50-ND 6.01 5.68 5.34 MCF52212AE50
60 — 32 128 4-Ch. — — I2C, UART, SPI 12-Bit -40 85 80-LQFP MCF52230CAF60-ND 10.93 10.32 9.72 MCF52230CAF60
50 — 32 128 4-Ch. — — I2C, UART, SPI 12-Bit 0 70 80-LQFP MCF52232AF50-ND 9.60 9.07 8.54 MCF52232AF50
50 — 32 128 4-Ch. — — I2C, UART, SPI 12-Bit -40 85 80-LQFP MCF52232CAF50-ND 10.58 9.99 9.41 MCF52232CAF50
60 — 32 256 4-Ch. — — I2C, UART, SPI 12-Bit -40 85 80-LQFP MCF52233CAF60-ND 12.03 11.37 10.70 MCF52233CAF60
50 — 32 256 4-Ch. — — I2C, UART, SPI 12-Bit 0 70 80-LQFP MCF52236AF50-ND 10.58 9.99 9.41 MCF52236AF50
50 — 32 256 4-Ch. — — I2C, UART, SPI 12-Bit -40 85 80-LQFP MCF52236CAF50-ND 11.64 11.00 10.36 MC52236CAF50
80 — 64 512 4-Ch. OTG — I2C, UART, SPI 12-Bit 0 70 100-LQFP MCF52254AF80-ND 10.05 9.50 8.94 MCF52254AF80
80 — 64 512 4-Ch. OTG 1 I2C, UART, SPI 12-Bit -40 85 100-LQFP MCF52255CAF80-ND 11.66 11.02 10.37 MCF52255CAF80
66 — 64 256 4-Ch. OTG 1 I2C, UART, SPI 12-Bit -40 85 144-LQFP MCF52256CAG66-ND 10.15 9.59 9.02 MCF52256CAG66
80 — 64 512 4-Ch. OTG — I2C, UART, SPI 12-Bit 0 70 144-LQFP MCF52258AG80-ND 11.02 10.41 9.80 MCF52258AG80
66 — 64 512 4-Ch. OTG 1 I2C, UART, SPI 12-Bit -40 85 144-LQFP MCF52258CAG66-ND 11.55 10.91 10.27 MCF52258CAG66
80 — 64 512 4-Ch. OTG 1 I2C, UART, SPI 12-Bit -40 85 144-LQFP MCF52259CAG80-ND 12.62 11.92 11.22 MCF52259CAG80
266 32/32 32 — 1-Ch. Hih-Speed Device 1 I2C, SPI — 0 70 388-PBGA MCF5474P266-ND 44.89 42.40 39.90 MCF5474P266
166 32/32 32 — 1-Ch. — 1 I2C, SPI — -40 85 388-PBGA MCF5480CP166-ND 44.87 42.38 39.89 MCF5480CP166
200 32/32 32 — 1-Ch. Hih-Speed Device 1 I2C, SPI — -40 85 388-PBGA MCF5484CP200-ND 52.82 49.89 46.95 MCF5484CP200
200 32/32 32 — 1-Ch. Hih-Speed Device 1 I2C, SPI — -40 85 388-PBGA MCF5485CP200-ND 59.56 56.26 52.95 MCF5485CP200
MCF51QE: Flexis 32-Bit — RoHS Compliant
50 — 8 32 — — — I2C, UART, SPI 12-Bit -40 85 64-LQFP MCF51QE32CLH-ND 4.51 4.26 4.01 MCF51QE32CLH
50 — 8 32 — — — I2C, UART, SPI 12-Bit -40 85 64-LQFP MCF51QE32LH-ND 4.12 3.90 3.67 MCF51QE32LH
50 — 8 64 — — — I2C, UART, SPI 12-Bit -40 85 64-LQFP MCF51QE64CLH-ND 5.29 5.00 4.70 MCF51QE64CLH
50 — 8 128 — — — I2C, UART, SPI 12-Bit -40 85 64-LQFP MCF51QE128CLH-ND 5.89 5.57 5.24 MCF51QE128CLH
50 — 8 128 — — — I2C, UART, SPI 12-Bit -40 85 80-LQFP MCF51QE128CLK-ND 6.10 5.77 5.43 MCF51QE128CLK
◆ RoHS Compliant § Cut Tape ‡ Tape and Reel
Operating
Frequency
(MHz) Features Timer
◆ RoHS Compliant § Cut Tape ‡ Tape and Reel
Operating
Voltage
(V)
Temperature
Digi-Key
Price Each
Freescale
(°C)
Package Part No.
1 10 25 Part No.
PowerPC Processors
400 EBI/EMI, Ethernet, I2C, USB OTG, CAN 32-Bit 1.33 1.47 0 70 516-PBGA MPC5121V400B-ND NEW! 49.36 46.62 43.88 MPC5121V400B
400 EBI/EMI, Ethernet, I2C, USB OTG, CAN 32-Bit 1.33 1.47 -40 85 516-PBGA MPC5121V400B-ND NEW! 51.95 49.07 46.18 MPC5121V400B
400 EBI/EMI, Ethernet, I2C, USB OTG, CAN 32-Bit 1.33 1.47 0 70 516-PBGA MPC5123V400B-ND NEW! 46.89 44.29 41.68 MPC5123V400B
400 EBI/EMI, Ethernet, I2C, USB OTG, CAN 32-Bit 1.33 1.47 -40 85 516-PBGA MPC5123V400B-ND NEW! 49.36 46.62 43.88 MPC5123V400B
400 EBI/EMI, Ethernet, I2C, USB OTG, CAN 32-Bit 3.3 -40 125 324-PBGA MPC5125VN400-ND NEW! 25.83 24.40 22.96 MPC5125VN400
400 IIC, SPI, CAN 2.0, USB 1.1 8-Ch. 3.3 -40 85 272-PBGA MPC5200CVR400-ND 54.67 51.46 48.24 MPC5200CVR400
400 I2C, SPI — 3.3 -40 85 272-PBGA MPC5200CVR400B-ND 39.48 37.29 35.10 MPC5200CVR400B
400 SPI, I2C — 3.3 -40 85 272-PBGA MPC5200VR400-ND 53.47 50.32 47.18 MPC5200VR400
400 I2C, SPI, CAN 2.0 — 3.3 -40 85 272-PBGA MPC5200VR400B-ND 36.29 34.28 32.27 MPC5200VR400B
40 SPI, SCI, TouCAN 22-Ch. 2.6 -40 85 388-BGA MPC535CP40-ND 70.18 66.28 62.39 MPC535CP40
132 SPI, SCI, CAN 64-Ch. 1.5 -40 125 416-PBGA MPC5554MVR132-ND◆ 56.90 53.74 50.58 MPC5554MVR132
132 SPI, SCI, CAN 64-Ch. 1.5 -40 125 416-PBGA MPC5554MP132-ND 56.90 53.74 50.58 MPC5554MP132
40 QSMCM — 3.3 -40 105 272-PBGA MPC555LFCVR40-ND◆ 96.56 91.20 85.83 MPC555LFCVR40
40 QSPI, SCI, TouCAN 50-Ch. 3.3 -40 125 272-PBGA MPC555LFCP40-ND 96.56 91.20 85.83 MPC555LFCP40
40 QSMCM 50-Ch. 3.3 -40 85 272-PBGA MPC555LFMVR40-ND◆ 106.20 100.30 94.41 MPC555LFMVR40
40 QSPI, SCI, TouCAN 50-Ch. 3.3 -40 125 272-BGA MPC555LFMP40-ND 106.20 100.30 94.41 MPC555LFMP40
40 SCI, QSPI, TouCAN 54-Ch. 3.3 -40 85 388-PBGA MPC561CVR40-ND◆ 44.83 42.34 39.85 MPC561CVR40
56 QSPI, SCI, TouCAN 54-Ch. 2.6 -40 125 388-PBGA MPC561MVR56-ND◆ 49.32 46.58 43.84 MPC561MVR56
56 SCI, QSPI, TouCAN 54-Ch. 2.6 -40 125 388-PBGA MPC561MP56-ND 49.32 46.58 43.84 MPC561MP56
56 SCI, QSPI, TouCAN 54-Ch. 2.6 -40 125 388-PBGA MPC562MP56-ND 56.71 53.56 50.41 MPC562MP56
40 QSMCM 54-Ch. 2.6 -40 85 388-PBGA MPC563CVR40-ND◆ 73.60 69.52 65.43 MPC563CVR40
40 QSPI, SCI, TouCAN 54-Ch. 2.6 -40 85 388-PBGA MPC563CP40-ND 73.60 69.52 65.43 MPC563CP40
56 SCI, QSPI, TouCAN — 2.6 -40 105 388-BGA MPC563MVR56-ND◆ 80.97 76.47 71.98 MPC563MVR56
56 SCI, QSPI, TouCAN — 2.6 -40 105 388-BGA MPC564MVR56-ND◆ 89.05 84.11 79.16 MPC564MVR56
56 QSPI, SCI, TouCAN 54-Ch. 2.6 -40 125 388-BGA MPC564MP56-ND 89.05 84.11 79.16 MPC564MP56
40 QSMCM 70-Ch. 2.6 -40 85 388-PBGA MPC565CVR40-ND◆ 105.17 99.33 93.49 MPC565CVR40
56 QSMCM 70-Ch. 2.6 -40 85 388-PBGA MPC565CVR56-ND◆ 110.44 104.31 98.17 MPC565CVR56
40 QSPI, SCI, TouCAN, J1850 70-Ch. 2.6 -40 85 388-PBGA MPC565CP40-ND 105.17 99.33 93.49 MPC565CP40
56 QSPI, SCI, TouCAN, J1850 70-Ch. 2.6 -40 85 388-PBGA MPC565CP56-ND 110.44 104.31 98.17 MPC565CP56
56 SCI, QSPI, TouCAN — 2.6 -40 105 388-BGA MPC565MVR56-ND◆ 120.96 114.24 107.52 MPC565MVR56
56 QSPI, SCI, TouCAN, J1850 70-Ch. 2.6 -40 125 388-BGA MPC565MP56-ND 120.96 114.24 107.52 MPC565MP56
56 SCI, QSPI, TouCAN — 2.6 -40 105 388-BGA MPC566MVR56-ND◆ 127.27 120.21 113.14 MPC566MVR56
56 QSPI, SCI, TouCAN, J1850 70-Ch. 2.6 -40 125 388-BGA MPC566MP56-ND 127.27 120.21 113.14 MPC566MP56
200 60X — 2.5 -40 85 255-PBGA MPC603RT200LC-ND 54.56 50.87 47.19 MPC603RT200LC
400 60X, MPX — 3.3 -40 105 360-FCCLGA MPC7410VS400LE-ND 92.94 87.14 82.78 MPC7410VS400LE
500 60X — 2.5, 3.3 -40 85 360-CBGA MPC7410VS500LE-ND 179.60 170.31 164.74 MPC7410VS500LE
300 60X — 3.3 -40 85 360-CBGA MPC755BPX300LE-ND 93.71 87.86 83.47 MPC755BPX300LE
400 60X — 3.3 -40 85 360-PBGA MPC755CPX400LE-ND 145.65 138.12 133.60 MPC755CPX400LE
400 60X — 3.3 -40 85 360-CBGA MPC755CRX400LE-ND 145.65 138.12 133.60 MPC755CRX400LE
PowerQUICC I
50 PCMCIA, SCC, SMC, SPI 2-16 Bit 3.3 -40 85 256-PBGA MPC852TCVR50A-ND 20.24 19.12 17.99 MPC852TCVR50A
66 PCMCIA, SCC, SMC, SPI 2-16 Bit 3.3 -40 85 256-PBGA MPC852TCVR66A-ND 22.86 21.60 20.33 MPC852TCVR66A
80 PCMCIA, SCC, SMC, SPI 2-16 Bit 3.3 -40 85 256-PBGA MPC852TCVR80A-ND 25.84 24.40 22.97 MPC852TCVR80A
100 PCMCIA, SCC, SMC, SPI 2-16 Bit 3.3 -40 85 256-PBGA MPC852TCVR100A-ND 29.72 28.08 26.43 MPC852TCVR100A
®
For Digi-Reel ® information, please see page 71.
(Continued)
190 (US2011)
(TZM112.US)
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Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

32-Bit Microcontrollers (Cont.)
®
Operating
Frequency
(MHz) Features Timer
Operating
Voltage
(V)
Temperature
Digi-Key
Price Each
Freescale
(°C)
Package Part No.
1 10 25 Part No.
66 PCMCIA, SCC, SMC, SPI 2-16 Bit 3.3 -40 85 256-PBGA MPC852TCT66A-ND 22.86 21.60 20.33 MPC852TCT66A
50 PCMCIA, SCC, SMC, SPI 2-16 Bit 3.3 -40 85 256-PBGA MPC852TVR50A-ND 18.74 17.70 16.66 MPC852TVR50A
80 PCMCIA, SCC, SMC, SPI 2-16 Bit 3.3 -40 85 256-PBGA MPC852TVR80A-ND 23.91 22.59 21.26 MPC852TVR80A
66 PCMCIA, SCC, SMC, SPI 2-16 Bit 3.3 -40 85 256-PBGA MPC852TVR66A-ND 21.17 20.00 18.82 MPC852TVR66A
100 PCMCIA, SCC, SMC, SPI 32 bit 1.8 0 85 256-PBGA MPC852TVR100A-ND◆ NEW! 27.51 25.98 24.46 MPC852TVR100A
50 PCMCIA, SCC, SMC, SPI 2-16 Bit 3.3 -40 85 256-PBGA MPC852TT50A-ND 18.74 17.70 16.66 MPC852TT50A
80 PCMCIA, SCC, SMC, SPI 2-16 Bit 3.3 -40 85 256-PBGA MPC852TT80A-ND 23.91 22.59 21.26 MPC852TT80A
100 PCMCIA, SCC, SMC, SPI 32 bit 1.8 0 85 256-PBGA MPC852TT100A-ND◆ NEW! 27.51 25.98 24.46 MPC852TT100A
66 PCMCIA, SPI — 3.3 0 105 256-PBGA MPC853TVR66A-ND 23.35 22.05 20.76 MPC853TVR66A
50 PCMCIA, I2C, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC855TCVR50D4-ND 50.84 48.02 45.19 MPC855TCVR50D4
50 PCMCIA, SPI 4-16 Bit 3.3 0 105 357-PBGA MPC855TVR50D4-ND 44.79 41.77 38.74 MPC855TVR50D4
66 PCMCIA, SPI 4-16 Bit 3.3 0 105 357-PBGA MPC855TVR66D4-ND 52.66 49.74 46.82 MPC855TVR66D4
80 PCMCIA, SPI 4-16 Bit 3.3 -40 105 357-PBGA MPC855TVR80D4-ND 59.12 55.84 52.55 MPC855TVR80D4
50 PCMCIA, SPI 32 bit 3.3 0 85 357-PBGA MPC855TQ50D4-ND◆ NEW! 47.06 44.45 41.84 MPC855TQ50D4
50 PCMCIA, SPI 4-16 Bit 3.3 -40 105 357-PBGA MPC857DSLVR50B-ND 39.71 37.51 35.30 MPC857DSLVR50B
66 PCMCIA, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC857DSLCVR66B-ND 47.16 44.54 41.92 MPC857DSLCVR66B
66 PCMCIA, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC857TCVR66B-ND 68.22 64.43 60.64 MPC857TCVR66B
100 PCMCIA, SPI 4-16 Bit 3.3 -40 105 357-PBGA MPC857TVR100B-ND 82.53 77.95 73.36 MPC857TVR100B
50 PCMCIA, I2C, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC859DSLCVR50A-ND 34.02 32.13 30.24 MPC859DSLCVR50A
133 PCMCIA, I2C, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC859TVR133A-ND 61.80 58.37 54.94 MPC859TVR133A
50 PCMCIA, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC860DECVR50D4-ND 75.66 71.46 67.26 MPC860DECVR50D4
50 PCMCIA, SPI 4-16 Bit 3.3 -40 105 357-PBGA MPC860DEVR50D4-ND 70.06 66.17 62.28 MPC860DEVR50D4
66 PCMCIA, SPI 4-16 Bit 3.3 -40 105 357-PBGA MPC860DEVR66D4-ND 77.08 72.80 68.52 MPC860DEVR66D4
50 PCMCIA, I2C, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC860DTVR50D4-ND 77.27 72.99 68.69 MPC860DTVR50D4
66 PCMCIA, SPI 4-16 Bit 3.3 -40 105 357-PBGA MPC860DTVR66D4-ND 84.29 79.61 74.93 MPC860DTVR66D4
80 PCMCIA, I2C, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC860DTVR80D4-ND 99.69 94.15 88.62 MPC860DTVR80D4
50 PCMCIA, SPI, I2C 32 bit 3.3 -40 85 357-PBGA MPC860ENCQ50D4-ND◆ NEW! 91.25 86.19 81.12 MPC860ENCQ50D4
66 PCMCIA, SPI, I2C 4-16 Bit 3.3 -40 105 357-PBGA MPC860ENVR66D4-ND 77.65 72.95 69.42 MPC860ENVR66D4
80 PCMCIA, I2C, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC860ENVR80D4-ND 106.90 100.97 95.03 MPC860ENVR80D4
50 PCMCIA, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC860PCVR50D4-ND 91.12 85.43 81.16 MPC860PCVR50D4
66 PCMCIA, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC860PCVR66D4-ND 97.36 91.28 86.72 MPC860PCVR66D4
50 PCMCIA, SPI 4-16 Bit 3.3 -40 105 357-PBGA MPC860PVR50D4-ND 102.51 96.82 91.12 MPC860PVR50D4
66 PCMCIA, SPI 4-16 Bit 3.3 -40 105 357-PBGA MPC860PVR66D4-ND 90.14 84.51 80.29 MPC860PVR66D4
80 PCMCIA, I2C, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC860PVR80D4-ND 124.94 118.00 111.06 MPC860PVR80D4
66 PCMCIA, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC860SRCVR66D4-ND 106.59 100.67 94.75 MPC860SRCVR66D4
50 PCMCIA, I2C, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC860SRVR50D4-ND 91.70 86.61 81.51 MPC860SRVR50D4
80 PCMCIA, I2C, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC860SRVR80D4-ND 114.13 107.80 101.46 MPC860SRVR80D4
80 PCMCIA, I2C, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC860SRQ80D4-ND 93.94 88.07 83.67 MPC860SRQ80D4
50 PCMCIA, I2C, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC860TCVR50D4-ND 99.05 93.55 88.05 MPC860TCVR50D4
66 PCMCIA, SPI 4-16 Bit 3.3 -40 115 357-PBGA MPC860TCVR66D4-ND 106.59 100.67 94.75 MPC860TCVR66D4
50 PCMCIA, I2C, SPI 32 bit 3.3 -40 85 357-PBGA MPC860TCQ50D4-ND◆ NEW! 99.05 93.55 88.05 MPC860TCQ50D4
50 PCMCIA, I2C, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC860TVR50D4-ND 91.70 86.61 81.51 MPC860TVR50D4
66 PCMCIA, I2C, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC860TVR66D4-ND 98.72 93.24 87.75 MPC860TVR66D4
80 PCMCIA, I2C, SPI 32 bit 3.3 0 85 357-PBGA MPC860TQ80D4-ND◆ NEW! 114.14 107.80 101.46 MPC860TQ80D4
80 PCMCIA, SPI 4-16 Bit 3.3 -40 115 357-PBGA MPC862PCVR80B-ND 145.06 137.01 128.95 MPC862PCVR80B
66 PCMCIA, SPI 4-16 Bit 3.3 0 105 357-PBGA MPC862PVR66B-ND 117.76 111.22 104.68 MPC862PVR66B
100 PCMCIA, SPI 4-16 Bit 3.3 0 105 357-PBGA MPC862PVR100B-ND 145.06 137.01 128.95 MPC862PVR100B
100 PCMCIA, SPI 4-16 Bit 3.3 0 105 357-PBGA MPC862PQ100B-ND 145.06 137.01 128.95 MPC862PQ100B
80 PCMCIA, SPI 4-16 Bit 3.3 -40 115 357-PBGA MPC862TCVR80B-ND 132.52 125.16 117.80 MPC862TCVR80B
80 I2C, UART 4-16 Bit 5 -40 105 357-PBGA MPC862TVR80B-ND 122.69 115.88 109.06 MPC862TVR80B
100 PCMCIA, SPI 4-16 Bit 5 -40 85 357-PBGA MPC866PCVR100A-ND 105.33 99.48 93.63 MPC866PCVR100A
133 PCMCIA, I2C, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC866PVR133A-ND 104.78 98.97 93.14 MPC866PVR133A
133 PCMCIA, I2C, SPI 4-16 Bit 3.3 -40 100 357-PBGA MPC866PP133A-ND 104.78 98.97 93.14 MPC866PP133A
100 PCMCIA, I2C, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC866TCVR100A-ND 98.37 92.91 87.44 MPC866TCVR100A
100 PCMCIA, I2C, SPI 4-16 Bit 3.3 -40 85 357-PBGA MPC866TVR100A-ND 76.08 71.48 68.02 MPC866TVR100A
50 I2C, SPI, TDM, IrDA 4-16 Bit 3.3 -40 105 357-PBGA MC860DECVR50D4R2CT-ND§ 71.93 65.08 59.94 MC860DECVR50D4R2
50 I2C, SPI, TDM, IrDA 4-16 Bit 3.3 -40 105 357-PBGA MC860DECVR50D4R2TR-ND‡ 7566.06/180 MC860DECVR50D4R2
50 I2C, SPI, TDM, IrDA 4-16 Bit 3.3 -40 105 357-PBGA MC860ENCVR50D4R2CT-ND§ 82.61 74.75 68.85 MC860ENCVR50D4R2
50 I2C, SPI, TDM, IrDA 4-16 Bit 3.3 -40 105 357-PBGA MC860ENCVR50D4R2TR-ND‡ 9125.14/180 MC860ENCVR50D4R2
133 PCMCIA, I2C, SPI, USB 4-16 Bit 3.3 -40 85 256-PBGA MPC870CVR133-ND 26.13 24.68 23.23 MPC870CVR133
133 PCMCIA, I2C, SPI, USB 4-16 Bit 3.3 -40 85 256-PBGA MPC870VR133-ND 24.20 22.86 21.52 MPC870VR133
66 PCMCIA, I2C, SPI, USB 4-16 Bit 3.3 -40 85 256-PBGA MPC870VR66-ND 21.97 20.75 19.53 MPC870VR66
80 PCMCIA, I2C, SPI, USB 4-16 Bit 3.3 -40 85 256-PBGA MPC870VR80-ND 23.04 21.76 20.48 MPC870VR80
133 PCMCIA, I2C, SPI, USB 4-16 Bit 3.3 -40 85 256-PBGA MPC875CVR133-ND 36.24 34.23 32.21 MPC875CVR133
66 PCMCIA, I2C, SPI, USB 4-16 Bit 3.3 -40 85 256-PBGA MPC875CVR66-ND 32.89 31.07 29.24 MPC875CVR66
133 PCMCIA, I2C, SPI, USB 4-16 Bit 3.3 -40 85 256-PBGA MPC875VR133-ND 33.55 31.69 29.83 MPC875VR133
80 PCMCIA, I2C, SPI, USB 4-16 Bit 3.3 -40 85 256-PBGA MPC875VR80-ND 31.94 30.17 28.40 MPC875VR80
133 PCMCIA, I2C, SPI, USB 4-16 Bit 3.3 -40 85 357-PBGA MPC880CVR133-ND 46.79 44.20 41.60 MPC880CVR133
66 PCMCIA, I2C, SPI, USB 4-16 Bit 3.3 -40 85 357-PBGA MPC880CVR66-ND 42.44 40.08 37.73 MPC880CVR66
133 PCMCIA, I2C, SPI, USB 4-16 Bit 3.3 -40 85 357-PBGA MPC880VR133-ND 43.33 40.93 38.52 MPC880VR133
66 PCMCIA, I2C, SPI, USB 4-16 Bit 3.3 -40 85 357-PBGA MPC880VR66-ND 39.29 37.11 34.93 MPC880VR66
80 PCMCIA, I2C, SPI, USB 4-16 Bit 3.3 -40 85 357-PBGA MPC880VR80-ND 41.25 38.96 36.67 MPC880VR80
133 PCMCIA, I2C, SPI, USB 4-16 Bit 3.3 -40 85 357-PBGA MPC885CVR133-ND 56.69 53.54 50.39 MPC885CVR133
66 PCMCIA, I2C, SPI, USB 4-16 Bit 3.3 -40 85 357-PBGA MPC885CVR66-ND 48.91 45.61 42.31 MPC885CVR66
133 PCMCIA, I2C, SPI, USB 4-16 Bit 3.3 0 95 357-PBGA MPC885CP133-ND 56.69 53.54 50.39 MPC885CP133
133 PCMCIA, I2C, SPI, USB 4-16 Bit 3.3 -40 85 357-PBGA MPC885VR133-ND 52.49 49.58 46.66 MPC885VR133
66 PCMCIA, I2C, SPI, USB 4-16 Bit 3.3 -40 85 357-PBGA MPC885VR66-ND 47.59 44.95 42.31 MPC885VR66
80 PCMCIA, I2C, SPI, USB 4-16 Bit 3.3 -40 85 357-PBGA MPC885VR80-ND 49.96 47.19 44.41 MPC885VR80
PowerQUICC II
200 I2C, SPI, DUART — 1.8 3.3 0 105 357-PBGA MPC8241LVR200D-ND 29.82 28.17 26.51 MPC8241LVR200D
266 I2C — 1.8 3.3 0 105 357-PBGA MPC8241LVR266D-ND 37.56 35.48 33.39 MPC8241LVR266D
200 DUART, DUAL, I2C DMA. 2-Ch. 32 bit 1.8 0 105 357-PBGA MPC8241LQ200D-ND NEW! 29.83 26.52 26.52 MPC8241LQ200D
400 DUART, I2C 4-Ch. 3.3 0 85 352-TBGA MPC8245ARVV400D-ND 99.14 93.64 88.13 MPC8245ARVV400D
400 DUART, I2C 4-Ch. 3.3 0 85 352-TBGA MPC8245ARU400D-ND 99.14 93.64 88.13 MPC8245ARU400D
266 DUART, I2C 4-Ch. 3.3 -40 85 352-TBGA MPC8245LVV266D-ND 58.40 55.16 51.91 MPC8245LVV266D
300 DUART, I2C 4-Ch. 3.3 -40 85 352-TBGA MPC8245LVV300D-ND 69.46 65.60 61.75 MPC8245LVV300D
333 DUART, I2C 4-Ch. 3.3 -40 85 352-TBGA MPC8245LVV333D-ND 73.44 69.37 65.29 MPC8245LVV333D
350 DUART, I2C 4-Ch. 3.3 -40 85 352-TBGA MPC8245LVV350D-ND 86.49 81.69 76.88 MPC8245LVV350D
266 DUART, I2C 4-Ch. 3.3 -40 85 352-TBGA MPC8245LU266D-ND 58.40 55.16 51.91 MPC8245LU266D
◆ RoHS Compliant § Cut Tape ‡ Tape and Reel
(Continued)
C
®
For Digi-Reel ® information, please see page 71.
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(TZM112.US)
191
191

32-Bit Microcontrollers (Cont.)
®
C
Operating
Frequency
(MHz) Features Timer
Operating
Voltage
(V)
Temperature
Digi-Key
Price Each
Freescale
(°C)
Package Part No.
1 10 25 Part No.
300 DUART, I2C 4-Ch. 3.3 -40 85 352-TBGA MPC8245LU300D-ND 69.46 65.60 61.75 MPC8245LU330D
266 DUART, I2C 4-Ch. 3.3 -40 85 352-TBGA MPC8245TVV266D-ND 75.93 71.72 67.50 MPC8245TVV266D
333 DUART, I2C — 3.3 -40 115 352-TBGA MPC8245TVV333D-ND 95.47 90.17 84.87 MPC8245TVV333D
350 DUART, I2C — 3.3 -40 115 352-TBGA MPC8245TVV350D-ND 76.98 72.18 68.57 MPC8245TVV350D
400 SPI, I2C, TDM, USB 4-Ch. 3.3 -40 115 516-FPBGA MPC8247CVRMIBA-ND 44.52 42.05 39.58 MPC8247CVRMIBA
400 SPI, I2C, TDM, USB 4-Ch. 3.3 -40 115 516-FPBGA MPC8247CVRPIEA-ND 50.31 47.52 44.73 MPC8247CVRPIEA
400 SPI, I2C, TDM, USB 4-Ch. 3.3 -40 115 516-FPBGA MPC8247CVRTIEA-ND 60.36 57.01 53.66 MPC8247CVRTIEA
400 SPI, I2C, TDM, USB 4-Ch. 3.3 -40 115 516-PBGA MPC8247CQMIBA-ND 44.52 42.05 39.58 MPC8247CQMIBA
266 SPI, I2C, TDM, USB 4-Ch. 1.5 0 105 516-PBGA MPC8247VRMIBA-ND◆ NEW! 40.48 38.24 35.99 MPC8247VRMIBA
300 SPI, I2C, TDM, USB 4-Ch. 3.3 0 105 516-FPBGA MPC8247VRPIEA-ND 45.74 43.21 40.66 MPC8247VRPIEA
400 SPI, I2C, TDM, USB 4-Ch. 3.3 0 105 516-FPBGA MPC8247VRTIEA-ND 54.90 51.85 48.80 MPC8247VRTIEA
400 SPI, I2C, TDM, USB 4-Ch. 3.3 0 105 516-PBGA MPC8247QTIEA-ND 54.90 51.85 48.80 MPC8247QTIEA
266 SPI, I2C, TDM, USB 4-Ch. 3.3 -40 115 516-FPBGA MPC8248CVRMIBA-ND 46.69 44.11 41.51 MPC8248CVRMIBA
300 SPI, I2C, TDM, USB 4-Ch. 3.3 -40 115 516-FPBGA MPC8248CVRPIEA-ND 52.78 49.85 46.92 MPC8248CVRPIEA
400 SPI, I2C, TDM, USB 4-Ch. 3.3 -40 115 516-FPBGA MPC8248CVRTIEA-ND 63.34 59.82 56.30 MPC8248CVRTIEA
266 SPI, I2C, TDM, USB 4-Ch. 3.3 0 105 516-FPBGA MPC8248VRMIBA-ND 42.46 40.10 37.74 MPC8248VRMIBA
300 SPI, I2C, TDM, USB 4-Ch. 3.3 0 105 516-FPBGA MPC8248VRPIEA-ND 48.00 45.34 42.67 MPC8248VRPIEA
400 SPI, I2C, TDM, USB 4-Ch. 3.3 0 105 516-FPBGA MPC8248VRTIEA-ND 57.56 54.37 51.17 MPC8248VRTIEA
400 SPI, I2C, TDM, USB 4-Ch. 3.3 0 105 516-FPBGA MPC8248VRTMFA-ND 64.50 60.92 57.34 MPC8248VRTMFA
200 SPI, I2C, TDM, UTOPIA 4-Ch. 3.3 -40 115 516-PBGA MPC8250ACVRIHBC-ND 80.38 75.92 71.46 MPC8250ACVRIHBC
266 SPI, I2C, TDM, UTOPIA 4-Ch. 3.3 -40 115 480-TBGA MPC8250ACUMHBC-ND 137.03 129.42 121.81 MPC8250ACUMHBC
200 SPI, I2C, TDM, UTOPIA 4-Ch. 3.3 0 105 516-PBGA MPC8250AVRIHBC-ND 73.07 69.02 64.96 MPC8250AVRIHBC
300 I2C, MII, SPI, UART 4-Ch. 3.3 0 105 480-TBGA MPC8250AVVPIBC-ND 112.78 105.74 100.45 MPC8250AVVPIBC
300 I2C, MII, SPI, UART 4-Ch. 3.3 -40 115 480-TBGA MPC8250AUPIBC-ND 137.03 129.42 121.81 MPC8250AUPIBC
266 SPI, I2C, TDM, UTOPIA 4-Ch. 3.3 -40 115 480-TBGA MPC8255ACVVMHBB-ND 173.40 163.78 154.14 MPC8255ACVVMHBB
266 I2C, MII, SPI, UTOPIA 4-Ch. 3.3 0 105 480-TBGA MPC8255AVVMHBB-ND 157.64 148.89 140.13 MPC8255AVVMHBB
266 I2C, MII, SPI, TDM 4-16 Bit 3.3 -40 85 480-TBGA MPC8260ACVVMHBB-ND 196.54 185.62 174.71 MPC8260ACVVMHBB
266 I2C, MII, SPI, UTOPIA 4-Ch. 3.3 -40 105 480-TBGA MPC8260ACVVMIBB-ND 205.29 193.89 182.48 MPC8260ACVVMIBB
300 I2C, MII, SPI, TDM 4-16 Bit 3.3 -40 85 480-TBGA MPC8260AVVPJDB-ND 225.89 213.35 200.80 MPC8260AVVPJDB
266 I2C, MII, SPI, TDM 4-Ch. 3.3 -40 105 480-TBGA MPC8260AUMHBB-ND 178.60 168.68 158.76 MPC8260AUMHBB
300 I2C, MII, SPI, TDM 4-Ch. 3.3 -40 105 480-TBGA MPC8260AUPIBB-ND 197.32 186.36 175.40 MPC8260AUPIBB
300 I2C, MII, SPI, TDM 4-Ch. 3.3 -40 105 480-TBGA MPC8260AUPJDB-ND 225.89 213.35 200.80 MPC8260AUPJDB
300 SPI, I2C, TDM, UTOPIA 4-Ch. 3.3 0 105 480-TBGA MPC8265AVVPIBC-ND 219.67 207.47 195.27 MPC8265AVVPIBC
266 SPI, I2C, TDM, USB 4-Ch. 3.3 -40 115 516-FPBGA MPC8270CVRMIBA-ND 80.36 75.90 71.44 MPC8270CVRMIBA
333 SPI, I2C, TDM, USB 4-Ch. 3.3 -40 115 480-FTBGA MPC8270CVVQLDA-ND 110.19 104.07 97.95 MPC8270CVVQLDA
450 SPI, I2C, TDM, USB 4-Ch. 3.3 -40 115 480-FTBGA MPC8270CVVUPEA-ND 132.19 124.85 117.51 MPC8270CVVUPEA
266 SPI, I2C, TDM, USB 4-Ch. 3.3 -40 115 516-PBGA MPC8270CQMIBA-ND 80.36 75.90 71.44 MPC8270CQMIBA
450 SPI, I2C, TDM, USB 4-Ch. 3.3 -40 115 480-TBGA MPC8270CUUPEA-ND 132.19 124.85 117.51 MPC8270CUUPEA
266 SPI, I2C, TDM, USB 4-Ch. 3.3 0 105 516-FPBGA MPC8270VRMIBA-ND 73.04 68.98 64.93 MPC8270VRMIBA
333 SPI, I2C, TDM, USB 4-Ch. 3.3 0 105 480-FTBGA MPC8270VVQLDA-ND 100.14 94.58 89.01 MPC8270VVQLDA
450 SPI, I2C, TDM, USB 4-Ch. 3.3 0 105 480-FTBGA MPC8270VVUPEA-ND 120.18 113.51 106.83 MPC8270VVUPEA
333 SPI, I2C, TDM, USB, MII, Ethernet 4-Ch. 1.5 0 105 516-PBGA MPC8270QMIBA-ND◆ NEW! 73.04 68.98 64.93 MPC8270QMIBA
333 I2C, MII, SPI, UTOPIA, USB 4-Ch. 3.3 -40 105 480-FTBGA MPC8270UQLDA-ND 100.14 94.58 89.01 MPC8270UQLD
450 I2C, MII, SPI, UTOPIA, USB 4-Ch. 3.3 -40 105 480-FTBGA MPC8270UUPEA-ND 120.18 113.51 106.83 MPC8270UUPE
266 SPI, I2C, TDM, USB 4-Ch. 3.3 -40 115 516-FPBGA MPC8271CVRMIBA-ND 51.07 48.24 45.40 MPC8271CVRMIBA
400 SPI, I2C, TDM, USB 4-Ch. 3.3 -40 115 516-FPBGA MPC8271CVRTIEA-ND 69.26 65.42 61.57 MPC8271CVRTIEA
400 SPI, I2C, TDM, USB 4-Ch. 3.3 0 105 516-FPBGA MPC8271VRTIEA-ND 62.97 59.47 55.97 MPC8271VRTIEA
266 SPI, I2C, TDM, USB 4-Ch. 3.3 -40 115 516-FPBGA MPC8272CVRMIBA-ND 53.25 50.29 47.33 MPC8272CVRMIBA
300 SPI, I2C, TDM, USB 4-Ch. 3.3 0 105 516-FPBGA MPC8272VRPIEA-ND 54.72 51.69 48.65 MPC8272VRPIEA
400 SPI, I2C, TDM, USB 4-Ch. 3.3 0 105 516-FPBGA MPC8272VRTIEA-ND 65.65 62.01 58.36 MPC8272VRTIEA
400 SPI, I2C, TDM, USB 4-Ch. 3.3 0 105 516-FPBGA MPC8272VRTMFA-ND 73.52 69.44 65.36 MPC8272VRTMFA
266 SPI, I2C, TDM, USB 4-Ch. 3.3 -40 115 516-FPBGA MPC8275CVRMIBA-ND 107.19 101.24 95.29 MPC8275CVRMIBA
266 SPI, I2C, TDM, USB 4-Ch. 3.3 0 105 516-FPBGA MPC8275VRMIBA-ND 97.43 92.02 86.61 MPC8275VRMIBA
333 SPI, I2C, TDM, USB 4-Ch. 3.3 -40 115 480-FTBGA MPC8280CVVQLDA-ND 201.22 190.05 178.87 MPC8280CVVQLDA
450 SPI, I2C, TDM, USB 4-Ch. 3.3 -40 115 480-FTBGA MPC8280CVVUPEA-ND 241.46 228.05 214.64 MPC8280CVVUPEA
450 SPI, I2C, TDM, USB 4-Ch. 3.3 0 105 480-FTBGA MPC8280VVUPEA-ND 219.52 207.33 195.13 MPC8280VVUPEA
450 I2C, MII, SPI, UTOPIA, USB 4-Ch. 3.3 -40 105 480-FTBGA MPC8280UUPEA-ND 219.52 207.33 195.13 MPC8280UUPE
PowerQUICC II Pro Processors
333 DUART, SPI, I2C, Ethernet 4-Ch. 3.3 -40 85 473-MAPBGA MPC8308CVMADD-ND◆ NEW! 22.55 21.31 20.05 MPC8308CVMADD
333 DUART, SPI, I2C, Ethernet 4-Ch. 3.3 -40 85 473-MAPBGA MPC8308CVMAFD-ND◆ NEW! 25.24 23.84 22.44 MPC8308CVMAFD
333 DUART, SPI, I2C, Ethernet 4-Ch. 3.3 0 105 473-MAPBGA MPC8308VMADD-ND◆ NEW! 20.48 19.35 18.21 MPC8308VMADD
333 DUART, SPI, I2C, Ethernet 4-Ch. 3.3 0 105 473-MAPBGA MPC8308VMAFD-ND◆ NEW! 22.93 21.66 20.39 MPC8308VMAFD
333 DUART, SPI, I2C, Ethernet 4-Ch. 3.3 0 105 473-MAPBGA MPC8308VMAGD-ND◆ NEW! 25.24 23.84 22.44 MPC8308VMAGD
400 SPI, I2C, MII, UART, USB, Ethernet, eTSEC 4-Ch. 3.3 -40 105 516-PBGA MPC8313CVRAFFB-ND 33.05 31.22 29.38 MPC8313CVRAFFB
400 SPI, I2C, MII, UART, USB, Ethernet, eTSEC 4-Ch. 3.3 -40 105 516-PBGA MPC8313CQAFFB-ND 33.05 31.22 29.38 MPC8313CQAFFB
400 SPI, I2C, MII, UART, USB, Ethernet, eTSEC 4-Ch. 3.3 -40 105 516-PBGA MPC8313ECVRAFFB-ND 38.01 35.90 33.79 MPC8313ECVRAFFB
400 SPI, I2C, MII, UART, USB, Ethernet, eTSEC 4-Ch. 3.3 -40 105 516-PBGA MPC8313ECQAFFB-ND 38.01 35.90 33.79 MPC8313ECQAFFB
400 SPI, I2C, MII, UART, USB, Ethernet, eTSEC 4-Ch. 3.3 -40 105 516-PBGA MPC8313EVRAFFB-ND 33.05 31.22 29.38 MPC8313EVRAFFB
400 SPI, I2C, MII, UART, USB, Ethernet, eTSEC 4-Ch. 3.3 -40 105 516-PBGA MPC8313EQAFFB-ND 34.00 31.45 28.90 MPC8313EQAFFB
400 SPI, I2C, MII, UART, USB, Ethernet, eTSEC 4-Ch. 3.3 -40 105 516-PBGA MPC8313VRAFFB-ND 28.73 27.14 25.54 MPC8313VRAFFB
266 UART, SPI I2C USB, TDM 32 bit 3.3 -40 105 620-PBGA MPC8314CVRADDA-ND◆ NEW! 34.35 32.45 30.54 MPC8314CVRADDA
333 SPI I2C USB 32 bit 3.3 -40 105 620-PBGA MPC8314CVRAFDA-ND◆ NEW! 39.50 37.31 35.12 MPC8314CVRAFDA
400 SPI I2C USB 32 bit 3.3 -40 105 620-PBGA MPC8314CVRAGDA-ND◆ NEW! 43.90 41.46 39.02 MPC8314CVRAGDA
266 Encryption Acceleration 32 bit 3.3 -40 105 620-PBGA MPC8314ECVRADDA-ND◆ NEW! 39.50 37.31 35.12 MPC8314ECVRADDA
333 Encryption Acceleration 32 bit 3.3 -40 105 620-PBGA MPC8314ECVRAFDA-ND◆ NEW! 45.41 42.89 40.37 MPC8314ECVRAFDA
400 Encryption Acceleration 32 bit 3.3 -40 105 620-PBGA MPC8314ECVRAGDA-ND◆ NEW! 50.49 47.69 44.88 MPC8314ECVRAGDA
266 Encryption Acceleration 32 bit 3.3 0 105 620-PBGA MPC8314EVRADDA-ND◆ NEW! 34.35 32.45 30.54 MPC8314EVRADDA
333 Encryption Acceleration 32 bit 3.3 0 105 620-PBGA MPC8314EVRAFDA-ND◆ NEW! 39.50 37.31 35.12 MPC8314EVRAFDA
400 Encryption Acceleration 32 bit 3.3 0 105 620-PBGA MPC8314EVRAGDA-ND◆ NEW! 43.90 41.46 39.02 MPC8314EVRAGDA
266 TDM VSB VART ILC 32 bit 3.3 0 105 620-PBGA MPC8314VRADDA-ND◆ NEW! 29.86 28.21 26.55 MPC8314VRADDA
333 TDM VSB VART ILC 32 bit 3.3 0 105 620-PBGA MPC8314VRAFDA-ND◆ NEW! 34.35 32.45 30.54 MPC8314VRAFDA
400 TDM VSB VART ILC 32 bit 3.3 0 105 620-PBGA MPC8314VRAGDA-ND◆ NEW! 38.18 36.06 33.94 MPC8314VRAGDA
266 TDM VSB VART ILC 32 bit 3.3 -40 105 620-PBGA MPC8315CVRADDA-ND◆ NEW! 38.74 36.60 34.44 MPC8315CVRADDA
333 TDM VSB VART ILC 32 bit 3.3 -40 105 620-PBGA MPC8315CVRAFDA-ND◆ NEW! 42.61 40.25 37.88 MPC8315CVRAFDA
400 TDM VSB VART ILC 32 bit 3.3 -40 105 620-PBGA MPC8315CVRAGDA-ND◆ NEW! 49.03 46.31 43.58 MPC8315CVRAGDA
266 I2C MII SPI TDM USB 32 bit 3.3 -40 105 620-PBGA MPC8315ECVRADDA-ND◆ NEW! 44.56 42.09 39.61 MPC8315ECVRADDA
333 I2C M2 SPI TDM USB 32 bit 3.3 -40 105 620-PBGA MPC8315ECVRAFDA-ND◆ NEW! 49.03 46.31 43.58 MPC8315ECVRAFDA
400 I2C M2 SPI TDM USB 32 bit 3.3 -40 105 620-PBGA MPC8315ECVRAGDA-ND◆ NEW! 56.38 53.25 50.12 MPC8315ECVRAGDA
266 I2C M2 SPI TDM USB 32 bit 3.3 0 105 620-PBGA MPC8315EVRADDA-ND◆ NEW! 38.74 36.60 34.44 MPC8315EVRADDA
333 I2C M2 SPI TDM USB 32 bit 3.3 0 105 620-PBGA MPC8315EVRAFDA-ND◆ NEW! 42.61 40.25 37.88 MPC8315EVRAFDA
◆ RoHS Compliant § Cut Tape ‡ Tape and Reel
(Continued)
®
For Digi-Reel ® information, please see page 71.
192 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

32-Bit Microcontrollers (Cont.)
®
Operating
Frequency
(MHz) Features Timer
Operating
Voltage
(V)
Temperature
(°C)
Package
Digi-Key
Part No.
Price Each
1 10 25
400 I2C M2 SPI TDM USB 32 bit 3.3 0 105 620-PBGA MPC8315EVRAGDA-ND◆ NEW! 49.03 46.31 43.58 MPC8315EVRAGDA
266 TDM VSB VART ILC 32 bit 3.3 0 105 620-PBGA MPC8315VRADDA-ND◆ NEW! 33.69 31.82 29.95 MPC8315VRADDA
333 TDM VSB VART ILC 32 bit 3.3 0 105 620-PBGA MPC8315VRAFDA-ND◆ NEW! 37.07 35.02 32.96 MPC8315VRAFDA
266 MII or RMII, TDM, DUART, I2C 4-Ch. 3.3 -40 105 516-PBGA MPC8321CVRADDC-ND 30.70 28.99 27.29 MPC8321CVRADDC
333 MII or RMII, TDM, DUART, I2C 4-Ch. 3.3 -40 105 516-PBGA MPC8321CVRAFDC-ND 33.77 31.90 30.02 MPC8321CVRAFDC
266 MII or RMII, TDM, DUART, I2C 4-Ch. 3.3 -40 105 516-PBGA MPC8321ECVRADDC-ND 33.77 31.90 30.02 MPC8321ECVRADDC
333 MII or RMII, TDM, DUART, I2C 4-Ch. 3.3 -40 105 516-PBGA MPC8321ECVRAFDC-ND 37.15 35.09 33.03 MPC8321ECVRAFDC
333 MII or RMII, TDM, DUART, I2C 4-Ch. 3.3 0 105 516-PBGA MPC8321EVRAFDC-ND 32.31 30.52 28.72 MPC8321EVRAFDC
266 MII or RMII, TDM, DUART, I2C 4-Ch. 3.3 0 105 516-PBGA MPC8321VRADDC-ND 26.69 25.21 23.73 MPC8321VRADDC
333 MII or RMII, TDM, DUART, I2C 4-Ch. 3.3 0 105 516-PBGA MPC8321VRAFDC-ND 29.37 27.75 26.11 MPC8321VRAFDC
333 MII or RMII, TDM, DUART, I2C 4-Ch. 3.3 -40 105 516-PBGA MPC8323ECVRAFDC-ND 47.94 45.28 42.62 MPC8323ECVRFDC
333 MII or RMII, TDM, DUART, I2C 4-16 Bit 3.3 0 105 516-PBGA MPC8323EVRAFDC-ND 41.68 39.37 37.05 MPC8323EVRAFDC
333 Encryption Acceleration 4-16 Bit 3.3 0 105 516-PBGA MPC8323EQAFDC-ND 41.68 39.37 37.05 MPC8323EQAFDC
266 DUART, DUAL I2C, SPI, 4-Ch. DMA 4-16 Bit 3.3 -40 105 620-PBGA MPC8343CVRADDB-ND 55.09 51.38 47.65 MPC8343CVRADDB
400 Encryption Acceleration 4-16 Bit 3.3 0 105 620-PBGA MPC8343EVRAGDB-ND 69.61 65.75 61.88 MPC8343EVRAGDB
400 DUART, DUAL I2C, SPI, 4-Ch. DMA 4-16 Bit 3.3 0 105 620-PBGA MPC8343VRAGDB-ND 60.54 57.18 53.81 MPC8343VRAGDB
400 DUART, DUAL I2C, SPI, 4-Ch. DMA 4-16 Bit 3.3 -40 105 672-TBGA MPC8347CVVAGDB-ND 75.54 71.35 67.15 MPC8347CVVAGDB
400 Encryption Acceleration 4-16 Bit 3.3 -40 105 620-PBGA MPC8347ECVRAGDB-ND 86.88 82.06 77.23 MPC8347ECVRAGDB
400 Encryption Acceleration 4-16 Bit 3.3 0 105 620-PBGA MPC8347EVRAGDB-ND 78.98 74.60 70.21 MPC8347EVRAGDB
533 Encryption Acceleration 4-16 Bit 3.3 0 105 672-TBGA MPC8347EVVAJFB-ND 120.76 114.06 107.35 MPC8347EVVAJFB
667 Encryption Acceleration 4-16 Bit 3.3 0 105 672-TBGA MPC8347EVVALFB-ND 131.24 123.95 116.66 MPC8347EVVALFB
266 DUART, DUAL I2C, SPI, 4-Ch. DMA 4-16 Bit 3.3 0 105 620-PBGA MPC8347VRADDB-ND 60.77 57.40 54.02 MPC8347VRADDB
400 DUART, DUAL I2C, SPI, 4-Ch. DMA 4-16 Bit 3.3 0 105 620-PBGA MPC8347VRAGDB-ND 68.68 64.87 61.05 MPC8347VRAGDB
400 DUART, DUAL I2C, SPI, 4-Ch. DMA 4-16 Bit 3.3 0 105 672-TBGA MPC8347VVAGDB-ND 68.68 64.87 61.05 MPC8347VVAGDB
533 DUART, DUAL I2C, SPI, 4-Ch. DMA 4-16 Bit 3.3 0 105 672-TBGA MPC8347VVAJFB-ND 105.01 99.19 93.35 MPC8347VVAJFB
667 DUART, DUAL I2C, SPI, 4-Ch. DMA 4-16 Bit 3.3 0 105 672-TBGA MPC8347VVALFB-ND 114.11 107.78 101.44 MPC8347VVALFB
400 Encryption Acceleration 4-16 Bit 3.3 -40 105 672-TBGA MPC8349ECVVAGDB-ND 110.91 104.75 98.59 MPC8349ECVVAGDB
533 Encryption Acceleration 4-16 Bit 3.3 -40 105 672-TBGA MPC8349ECVVAJDB-ND 126.55 119.53 112.50 MPC8349ECVVAJDB
400 Encryption Acceleration 4-16 Bit 3.3 0 105 672-TBGA MPC8349EVVAGDB-ND 100.84 95.24 89.64 MPC8349EVVAGDB
533 Encryption Acceleration 4-16 Bit 3.3 0 105 672-TBGA MPC8349EVVAJFB-ND 132.31 124.96 117.61 MPC8349EVVAJFB
667 Encryption Acceleration 4-16 Bit 3.3 0 105 672-TBGA MPC8349EVVALFB-ND 143.78 135.80 127.81 MPC8349EVVALFB
400 DUART, DUAL I2C, SPI, 4-Ch. DMA 4-16 Bit 3.3 0 105 672-TBGA MPC8349VVAGDB-ND 87.67 82.81 77.94 MPC8349VVAGDB
533 DUART, DUAL I2C, SPI, 4-Ch. DMA 4-16 Bit 3.3 0 105 672-TBGA MPC8349VVAJFB-ND 115.05 108.66 102.27 MPC8349VVAJFB
667 DUART, DUAL I2C, SPI, 4-Ch. DMA 4-16 Bit 3.3 0 105 672-TBGA MPC8349VVALFB-ND 125.02 118.08 111.13 MPC8349VVALFB
533 DUART, DUAL I2C, SPI, 4-Ch. DMA 4-16 Bit 3.3 -40 105 740-TBGA MPC8360CUAJDG-ND 72.39 67.87 64.48 MPC8360CUAJDG
533 Encryption Acceleration 4-16 Bit 3.3 0 105 740-TBGA MPC8360EVVAJDG-ND 75.69 70.97 67.42 MPC8360EVVAJDG
667 Encryption Acceleration 4-16 Bit 3.3 0 105 740-TBGA MPC8360EVVAJDGA-ND 110.54 104.40 98.26 MPC8360EVVAJDGA
533 Encryption Acceleration 4-16 Bit 3.3 0 105 740-TBGA MPC8360EUAJDGA-ND 110.54 104.40 98.26 MPC8360EUAJDGA
400 DUART, DUAL I2C, SPI, 4-Ch. DMA 4-16 Bit 3.3 0 105 740-TBGA MPC8360VVAGDGA-ND 87.36 82.51 77.66 MPC8360VVAGDGA
400 SPI, I2C, UART, Ethernet 4-Ch. DMA 3.3 -40 125 689-TEPBGA MPC8377EVRAGD-ND 66.93 63.22 59.50 MPC8377EVRAGD
533 SPI, I2C, UART, Ethernet 4-Ch. DMA 3.3 -40 125 689-TEPBGA MPC8377EVRAJF-ND 73.62 69.53 65.44 MPC8377EVRAJF
667 SPI, I2C, UART, Ethernet 4-Ch. DMA 3.3 -40 125 689-TEPBGA MPC8377EVRALG-ND 83.67 79.03 74.38 MPC8377EVRALG
667 SPI, I2C, UART, Ethernet 4-Ch. DMA 3.3 -40 125 689-TEPBGA MPC8378EVRALG-ND 83.67 79.03 74.38 MPC8378EVRALG
800 MII, SPI, UART, USB 4-Ch. DMA 3.3 0 105 689-TEPBGA MPC8378EVRANG-ND 98.74 93.25 87.77 MPC8378EVRANG
400 SPI, I2C, UART, Ethernet 4-Ch. DMA 3.3 -40 125 689-TEPBGA MPC8379EVRAGD-ND 80.31 75.85 71.39 MPC8379EVRAGD
1000 MCU PWRQUICC II 32 Bit 3.3 0 105 783-FCPBGA MPC8535BVTAQGA-ND◆ NEW! 179.55 169.58 159.60 MPC8535BVTAQGA
1250 UART SPI I2C, Ethernet 32 Bit 3.3 0 105 783-FCPBGA MPC8535BVTATHA-ND◆ NEW! 206.67 195.19 183.71 MPC8535BVTATHA
1250 UART SPI I2C, Ethernet 32 Bit 3.3 -40 105 783-FCPBGA MPC8535CVTATHA-ND◆ NEW! 221.13 208.85 196.57 MPC8535CVTATHA
1000 Encryption Acceleration 32 Bit 3.3 0 105 783-FCPBGA MPC8535EBVTAQGA-ND◆ NEW! 188.53 178.06 167.59 MPC8535EBVTAQGA
1250 Encryption Acceleration 32 Bit 3.3 0 105 783-FCPBGA MPC8535EBVTATHA-ND◆ NEW! 216.99 204.94 192.88 MPC8535EBVTATHA
PowerQUICC III
1000 UART, SPI I2C, Ethernet 32 Bit 3.3 0 105 783-FCPBGA MPC8535CVTAQGA-ND◆ NEW! 190.30 179.72 169.15 MPC8535CVTAQGA
800 UART, SPI I2C, Ethernet 32 Bit 3.3 0 105 783-FCPBGA MPC8536BVTANGA-ND◆ NEW! 179.53 169.56 159.59 MPC8536BVTANGA
1250 UART, SPI I2C, Ethernet 32 Bit 3.3 0 105 783-FCPBGA MPC8536BVTATHA-ND◆ NEW! 220.20 207.97 195.74 MPC8536BVTATHA
1333 UART, SPI I2C, Ethernet 32 Bit 3.3 0 105 783-FCPBGA MPC8536BVTAULA-ND◆ NEW! 296.01 279.57 263.13 MPC8536BVTAULA
1500 UART, SPI I2C, Ethernet 32 Bit 3.3 0 105 783-FCPBGA MPC8536BVTAVLA-ND◆ NEW! 315.59 298.06 280.53 MPC8536BVTAVLA
1250 UART, SPI I2C, Ethernet 32 Bit 3.3 -40 105 783-FCPBGA MPC8536CVTATHA-ND◆ NEW! 235.57 222.49 209.40 MPC8536CVTATHA
1333 UART, SPI I2C, Ethernet 32 Bit 3.3 -40 105 783-FCPBGA MPC8536CVTAULA-ND◆ NEW! 325.62 307.53 289.45 MPC8536CVTAULA
1500 UART, SPI I2C, Ethernet 32 Bit 3.3 -40 105 783-FCPBGA MPC8536CVTAVLA-ND◆ NEW! 353.44 333.81 314.17 MPC8536CVTAVLA
1000 Encryption Acceleration 32 Bit 3.3 0 90 783-FCPBGA MPC8536EAVTAQGA-ND◆ NEW! 189.46 178.94 168.42 MPC8536EAVTAQGA
1500 Encryption Acceleration 32 Bit 3.3 0 90 783-FCPBGA MPC8536EAVTAVLA-ND◆ NEW! 301.49 284.75 268.00 MPC8536EAVTAVLA
600 Encryption Acceleration 32 Bit 3.3 0 105 783-FCPBGA MPC8536EBVTAKGA-ND◆ NEW! 177.88 168.00 158.12 MPC8536EBVTAKGA
800 Encryption Acceleration 32 Bit 3.3 0 105 783-FCPBGA MPC8536EBVTANGA-ND◆ NEW! 188.53 178.06 167.59 MPC8536EBVTANGA
1000 Encryption Acceleration 32 Bit 3.3 0 105 783-FCPBGA MPC8536EBVTAQGA-ND◆ NEW! 200.83 189.68 178.52 MPC8536EBVTAQGA
1250 ILC USB ATA Controller 32 Bit 3.3 0 105 783-FCPBGA MPC8536EBVTATHA-ND◆ NEW! 231.18 218.34 205.50 MPC8536EBVTATHA
1333 ILC USB ATA Controller 32 Bit 3.3 0 105 783-FCPBGA MPC8536EBVTAULA-ND◆ NEW! 316.72 299.13 281.53 MPC8536EBVTAULA
1500 ILC USB ATA Controller 32 Bit 3.3 0 105 783-FCPBGA MPC8536EBVTAVLA-ND◆ NEW! 337.67 318.92 300.16 MPC8536EBVTAVLA
600 ILC USB ATA Controller 32 Bit 3.3 -40 105 783-FCPBGA MPC8536ECVTAKGA-ND◆ NEW! 188.53 178.06 167.59 MPC8536ECVTAKGA
800 ILC USB ATA Controller 32 Bit 3.3 -40 105 783-FCPBGA MPC8536ECVTANGA-ND◆ NEW! 199.82 188.73 177.63 MPC8536ECVTANGA
1000 ILC USB ATA Controller 32 Bit 3.3 -40 105 783-FCPBGA MPC8536ECVTAQGA-ND◆ NEW! 212.89 201.06 189.24 MPC8536ECVTAQGA
1250 ILC USB ATA Controller 32 Bit 3.3 -40 105 783-FCPBGA MPC8536ECVTATHA-ND◆ NEW! 247.37 233.64 219.89 MPC8536ECVTATHA
1333 ILC USB ATA Controller 32 Bit 3.3 -40 105 783-FCPBGA MPC8536ECVTAULA-ND◆ NEW! 348.38 329.03 309.68 MPC8536ECVTAULA
1500 ILC USB ATA Controller 32 Bit 3.3 -40 105 783-FCPBGA MPC8536ECVTAVLA-ND◆ NEW! 378.19 357.18 336.17 MPC8536ECVTAVLA
667 SPI, I2C, DUART WDT 3.3 -40 105 783-FCPBGA MPC8540CVT667JB-ND 167.43 158.78 153.58 MPC8540CVT667JB
667 SPI, I2C, DUART WDT 3.3 0 105 783-FCPBGA MPC8540PX667LB-ND 152.21 144.34 139.61 MPC8540PX667LB
833 SPI, I2C, DUART WDT 3.3 0 105 783-FCPBGA MPC8540PX833LB-ND 175.04 165.99 160.56 MPC8540PX833LB
667 SPI, I2C, DUART WDT 3.3 0 105 783-FCPBGA MPC8540VT667LB-ND 152.21 144.34 139.61 MPC8540VT667LB
833 SPI, I2C, DUART WDT 3.3 0 105 783-FCPBGA MPC8540VT833LB-ND 175.04 165.99 160.56 MPC8540VT833LB
533 Encryption Acceleration — 3.3 -40 105 783-FCPBGA MPC8541ECVTAJD-ND 184.45 174.20 163.96 MPC8541ECVTAJD
667 Encryption Acceleration — 3.3 -40 105 783-FCPBGA MPC8541ECVTALF-ND 151.32 143.50 138.80 MPC8541ECVTALF
833 Encryption Acceleration — 3.3 0 105 783-FCPBGA MPC8541EPXAPF-ND 212.11 200.33 188.55 MPC8541EPXAPF
533 Encryption Acceleration — 3.3 0 105 783-FCPBGA MPC8541EVTAJD-ND 167.67 158.36 149.04 MPC8541EVTAJD
667 Encryption Acceleration — 3.3 0 105 783-FCPBGA MPC8541EVTALF-ND 144.69 135.21 130.46 MPC8541EVTALF
833 Encryption Acceleration — 3.3 0 105 783-FCPBGA MPC8541EVTAPF-ND 212.11 200.33 188.55 MPC8541EVTAPF
◆ RoHS Compliant § Cut Tape ‡ Tape and Reel
(Continued)
Freescale
Part No.
C
®
For Digi-Reel ® information, please see page 71.
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193
193

32-Bit Microcontrollers (Cont.)
®
C
Operating
Frequency
(MHz) Features Timer
Operating
Voltage
(V)
Temperature
(°C)
Package
Digi-Key
Part No.
Price Each
1 10 25
833 SPI, I2C, DUART — 3.3 0 105 783-FCPBGA MPC8541VTAPF-ND 201.50 190.31 179.11 MPC8541VTAPF
800 I2C, UART — 3.3 0 105 783-FCPBGA MPC8543VTANGB-ND 162.25 153.24 144.22 MPC8543VTANGB
533 I2C, MII, UART RT/WDT 3.3 0 105 783-FCPBGA MPC8545EPXAQGB-ND 192.53 181.84 171.15 MPC8545EPXAQGB
533 I2C, MII, UART RT/WDT 3.3 0 105 783-FCPBGA MPC8545EPXATGB-ND 212.27 200.48 188.69 MPC8545EPXATGB
1000 Encryption Acceleration RT/WDT 3.3 0 105 783-FCPBGA MPC8548EPXAQGB-ND 221.71 209.40 197.08 MPC8548EPXAQGB
1333 Encryption Acceleration RT/WDT 3.3 0 105 783-FCPBGA MPC8548EPXAUJB-ND 281.80 266.15 250.50 MPC8548EPXAUJB
1000 Encryption Acceleration RT/WDT 3.3 0 105 783-FCPBGA MPC8548EVTAQGB-ND 221.71 209.40 197.08 MPC8548EVTAQGB
1333 Encryption Acceleration RT/WDT 3.3 0 105 783-FCPBGA MPC8548EVTAUJB-ND 281.80 266.15 250.50 MPC8548EVTAUJB
1000 Encryption Acceleration RT/WDT 3.3 0 105 783-FCPBGA MPC8548PXAQGB-ND 157.50 149.36 144.47 MPC8548PXAQGB
1333 Encryption Acceleration RT/WDT 3.3 0 105 783-FCPBGA MPC8548VTAUJB-ND 268.39 253.48 238.57 MPC8548VTAUJB
667 Encryption Acceleration RT/WDT 3.3 -40 105 783-FCPBGA MPC8555ECPXALF-ND 223.17 210.78 198.38 MPC8555ECPXALF
667 Encryption Acceleration RT/WDT 3.3 -40 105 783-FCPBGA MPC8555ECVTALF-ND 223.17 210.78 198.38 MPC8555ECVTALF
833 I2C, Ethernet, HDLC RT/WDT 3.3 0 105 783-FCPBGA MPC8555EVTAPF-ND 233.32 220.36 207.40 MPC8555EVTAPF
667 I2C, Ethernet, HDLC RT/WDT 3.3 -40 85 783-FCPBGA MPC8560CVT667JB-ND 200.91 190.52 184.29 MPC8560CVT667JB
667 I2C, Ethernet, HDLC RT/WDT 3.3 0 105 783-PBGA MPC8560PX667LB-ND 182.66 173.21 167.54 MPC8560PX667LB
833 I2C, Ethernet, HDLC RT/WDT 3.3 0 105 783-PBGA MPC8560PX833LB-ND 210.05 199.19 192.67 MPC8560PX833LB
667 I2C, Ethernet, HDLC RT/WDT 3.3 -40 105 783-FCPBGA MPC8560VT667LB-ND 182.66 173.21 167.54 MPC8560VT667LB
833 I2C, Ethernet, HDLC RT/WDT 3.3 -40 105 783-FCPBGA MPC8560VT833LB-ND 210.05 199.19 192.67 MPC8560VT833LB
800 I2C, DUART, 4-Ch. DMA, LBC 32 bit 1.1 -55 150 1023-FCPBGA MPC8567VTANGG-ND◆ NEW! 218.56 206.43 194.28 MPC8567VTANGG
1000 I2C, DUART, 4-Ch. DMA, LBC 32 bit 1.1 -55 150 1023-FCPBGA MPC8567VTAQGG-ND◆ NEW! 244.44 230.86 217.28 MPC8567VTAQGG
NEW! i.MX ARM Processors — RoHS Compliant NEW!
400 ATA Controller, LCD Video Controller 32 bit 3.1 -40 85 473-MAPBGA MCIMX27MJP4A-ND 23.81 22.50 21.17 MCIMX27MJP4A
400 ATA Controller, LCD Video Controller 32 bit 3.1 -40 85 473-MAPBGA MCIMX31CJMN4D-ND 45.25 42.74 40.23 MCIMX31CJMN4D
454 SPI, I2C, UART 16 it 1.4 -40 85 128-LQFP MCIMX233CAG4B-ND 11.12 10.51 9.89 MCIMX233CAG4B
532 ATA Controller, LCD Video Controller 32 bit 3.1 -40 85 400-MAPBGA MCIMX356AJQ5C-ND 25.92 24.48 23.04 MCIMX356AJQ5C
M-CORE Processors — RoHS Compliant
33 Dual, SCI, SPI 4-Ch. 2.7 3.6 -40 85 144-LQFP MMC2107CFCAG33-ND 26.94 25.45 23.95 MMC2107CFCAG33
NEW! QorIQ P2 Processors — RoHS Compliant NEW!
1200 Processor Comm — — 0 105 689-PBGA P2020PSE2HB-ND 106.67 100.01 95.01 P2020PSE2HB
1200 Processor Comm — — 0 105 689-PBGA P2020PSE2KA-ND 155.54 146.90 138.26 P2020PSE2KA
1200 Processor Comm — — 0 105 689-PBGA P2020PSE2MB-ND 146.40 136.80 132.00 P2020PSE2MB
68K Family Processors
16 SCP, TDM 4-Ch. 5 -40 120 144-LQFP MC68302AG16VC-ND 43.55 40.61 37.67 MC68302AG16VC
20 SCP, TDM 4-Ch. 5 0 105 144-LQFP MC68302AG20C-ND 38.68 36.07 33.46 MC68302AG20C
25 SCP, TDM 4-Ch. 5 0 105 144-LQFP MC68302AG25C-ND 42.53 39.66 36.79 MC68302AG25C
33 SCP, TDM 4-Ch. 5 0 105 144-LQFP MC68302AG33C-ND 38.29 35.71 33.12 MC68302AG33C
16 SCP, TDM 4-Ch. 5 -40 120 144-LQFP MC68302CAG16VC-ND 43.15 40.25 37.34 MC68302CAG16VC
16 SCP, TDM 4-Ch. 5 0 70 132-PQFP MC68302EH16C-ND 38.70 35.80 32.90 MC68302EH16C
20 SCP, TDM 4-Ch. 5 0 105 132-PQFP MC68302EH20C-ND 32.73 30.52 28.31 MC68302EH20C
25 SCP, TDM 4-Ch. 5 0 105 132-PQFP MC68302EH25C-ND 43.49 40.56 37.62 MC68302EH25C
16 SCP, TDM 4-Ch. 5 0 70 132-PGA MC68302RC16C-ND 93.46 87.62 83.24 MC68302RC16C
16 SCP, TDM 4-Ch. 3.3 -40 85 100-TQFP MC68LC302AF16CT-ND 22.72 21.02 19.32 MC68LC302AF16CT
16 SCP, TDM 4-Ch. 3.3 -40 105 100-LQFP MC68LC302AF16VCT-ND 26.15 24.20 22.24 MC68LC302AF16VCT
20 SCP, TDM 4-Ch. 3.3 -40 85 100-TQFP MC68LC302AF20CT-ND 27.22 25.18 23.14 MC68LC302AF20CT
16 EBI/EMI, SCI, SPI, UART/USART 32-Bit 4.5 5.5 -40 85 144-LQFP MC68332ACAG16-ND◆ NEW! 24.71 23.35 21.97 MC68332ACAG16
20 EBI/EMI, SCI, SPI, UART/USART 32-Bit 4.5 5.5 -40 85 144-LQFP MC68332ACAG20-ND◆ NEW! 25.94 24.50 23.06 MC68332ACAG20
25 SCI, Queued, SPI TPU 5 -40 85 132-PQFP MC68332ACEH25-ND 32.70 30.89 29.07 MC68332ACEH25
16 EBI/EMI, SCI, SPI, UART/USART 32-Bit 4.5 5.5 -40 125 132-QFP MC68332AMEH16-ND◆ NEW! 32.71 30.89 29.08 MC68332AMEH16
20 EBI/EMI, SCI, SPI, UART/USART 32-Bit 4.5 5.5 -40 125 132-QFP MC68332AMEH20-ND◆ NEW! 34.16 32.27 30.37 MC68332AMEH20
25 EBI/EMI, SCI, SPI, UART/USART 32-Bit 4.5 5.5 -40 105 144-LQFP MC68332AVAG25-ND◆ NEW! 28.40 26.83 25.25 MC68332AVAG25
16 EBI/EMI, SCI, SPI, UART/USART 32-Bit 4.5 5.5 -40 105 132-QFP MC68332AVEH16-ND◆ NEW! 31.19 29.47 27.73 MC68332AVEH16
20 EBI/EMI, SCI, SPI, UART/USART 32-Bit 4.5 5.5 -40 105 132-QFP MC68332AVEH20-ND◆ NEW! 32.71 30.89 29.08 MC68332AVEH20
25 EBI/EMI, SCI, SPI, UART/USART 32-Bit 4.5 5.5 -40 105 132-QFP MC68332AVEH25-ND◆ NEW! 34.16 32.27 30.37 MC68332AVEH25
16 EBI/EMI, SCI, SPI, UART/USART 32-Bit 4.5 5.5 -40 85 144-LQFP MC68332GCAG16-ND◆ NEW! 24.71 23.35 21.97 MC68332GCAG16
20 EBI/EMI, SCI, SPI, UART/USART 32-Bit 4.5 5.5 -40 85 144-LQFP MC68332GCAG20-ND◆ NEW! 25.94 24.50 23.06 MC68332GCAG20
25 EBI/EMI, SCI, SPI, UART/USART 32-Bit 4.5 5.5 -40 85 144-LQFP MC68332GCAG25-ND◆ NEW! 27.18 25.67 24.16 MC68332GCAG25
16 SCI, Queued, SPI TPU 5 -40 85 132-PQFP MC68332GCEH16-ND 29.70 28.06 26.41 MC68332GCEH16
20 EBI/EMI, SCI, SPI, UART/USART 32-Bit 4.5 5.5 -40 85 132-QFP MC68332GCEH20-ND◆ NEW! 31.19 29.47 27.73 MC68332GCEH20
25 EBI/EMI, SCI, SPI, UART/USART 32-Bit 4.5 5.5 -40 85 132-QFP MC68332GCEH25-ND◆ NEW! 32.71 30.89 29.08 MC68332GCEH25
16 EBI/EMI, SCI, SPI, UART/USART 32-Bit 4.5 5.5 -40 125 132-QFP MC68332GMEH16-ND◆ NEW! 32.71 30.89 29.08 MC68332GMEH16
20 EBI/EMI, SCI, SPI, UART/USART 32-Bit 4.5 5.5 -40 125 132-QFP MC68332GMEH20-ND◆ NEW! 34.16 32.27 30.37 MC68332GMEH20
16 EBI/EMI, SCI, SPI, UART/USART 32-Bit 4.5 5.5 -40 105 144-LQFP MC68332GVAG16-ND◆ NEW! 25.94 24.50 23.06 MC68332GVAG16
25 EBI/EMI, SCI, SPI, UART/USART 32-Bit 4.5 5.5 -40 105 144-LQFP MC68332GVAG25-ND◆ NEW! 28.40 26.83 25.25 MC68332GVAG25
25 EBI/EMI, SCI, SPI, UART/USART 32-Bit 4.5 5.5 -40 105 132-QFP MC68332GVEH25-ND◆ NEW! 34.16 32.27 30.37 MC68332GVEH25
16 SCI, Queued, SPI TPU 3.5 -40 85 144-LQFP MC68LK332ACAG16-ND 27.18 25.67 24.16 MC68LK332ACAG16
20 SCI, Queued, SPI TPU 5 -40 85 132-PQFP MC68332ACEH20-ND 31.20 29.47 27.74 MC68332ACEH20
33 — — 5 -40 85 184-CQFP MC68EC040FE33A-ND 193.62 182.87 172.11 MC68EC040FE33A
25 — — 5 -40 85 179-PGA MC68LC040RC25A-ND 265.01 250.29 235.57 MC68LC040RC25A
50 — — 3.3 -40 85 206-PGA MC68EC060RC50-ND 228.13 215.46 202.79 MC68EC060RC50
16 — — 5 -40 85 64-QFP MC68SEC000AA16-ND 15.44 14.58 13.73 MC68SEC000AA16
16 SCI, Queued, SPI GPT 5 -40 85 144-LQFP MC68331CAG16-ND 21.77 20.57 19.36 MC68331CAG16
16 SCI, Queued, SPI GPT 5 -40 85 132-PQFP MC68331CEH16-ND 26.77 25.29 23.80 MC68331CEH16
50 — — 5 -40 85 206-PGA MC68060RC50-ND 834.11 787.78 741.44 MC68060RC50
16 DUART 2-16 Bit 3.3 5.0 -40 85 144-CQFP MC68340FE16E-ND 70.63 66.71 62.78 MC68340FE16E
25 DUART 2-16 Bit 3.3 5.0 -40 85 144-CQFP MC68340FE25E-ND 95.35 90.06 84.76 MC68340FE25E
33 SPI, UART 4-Ch. 5 -40 85 240-PQFP MC68360AI25L-ND 65.62 61.76 57.90 MC68360AI25L
25 — — 5 -40 85 132-CQFP MC68EC030FE25C-ND 45.25 42.19 39.14 MC68EC030FE25C
40 — — 5 0 70 132-CQFP MC68EC030FE40C-ND 56.25 52.84 50.28 MC68EC030FE40C
20 SCP, DUART 3-Ch. 5 -40 85 144-TQFP MC68EN302AG20BT-ND 48.36 45.10 41.83 MC68EN302AG20BT
25 SCP, DUART 3-Ch. 5 -40 85 144-TQFP MC68EN302AG25BT-ND 44.15 41.56 38.95 MC68EN302AG25BT
25 UART, SPI, TDM 4-Ch. 5 -40 85 357-PBGA MC68EN360VR25L-ND 59.79 56.17 53.46 MC68EN360VR25L
16 — — 5 -40 85 68-PLCC MC68HC000EI16-ND 14.20 12.91 11.94 MC68HC000EI16
16 — — 5 0 70 68-PLCC MC68HC000IEI16-ND 24.70 22.86 21.00 MC68HC000IEI16
16 — — 5 0 70 64-TQFP MC68SEC000AA16R2CT-ND§ 15.99 14.46 12.30 MC68SEC000AA16R2
16 — — 5 0 70 64-TQFP MC68SEC000AA16R2TR-ND‡ 6431.39/750 MC68SEC000AA16R2
◆ RoHS Compliant § Cut Tape ‡ Tape and Reel
Freescale
Part No.
®
For Digi-Reel ® information, please see page 71.
194 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

32-Bit Development Tools
Digi-Key
Price Freescale
Device Numbers Series Part No.
Each Part No.
MCF5211 ColdFire M5211DEMO-ND 99.00 M5211DEMO
MCF5213 ColdFire M5213EVBE-ND 299.10 M5213EVBE
MCF547X ColdFire M5474LITEKIT-ND 350.00 M5474LITEKIT
MCF548X ColdFire M5484LITEKITE-ND 350.00 M5484LITEKITE
MCF5221X ColdFire M52211EVB-ND 299.00 M52211EVB
MCF5222X ColdFire M52221DEMO-ND 119.00 M52221DEMO
MCF5222X ColdFire M52223EVB-ND 299.10 M52223EVB
MCF5223X ColdFire M52233DEMO-ND 99.00 M52233DEMO
MCF5223X ColdFire M52235EVB-ND 299.00 M52235EVB
MCF5225X ColdFire M52259DEMOKIT-ND◆ 99.00 M52259DEMOKIT
MCF53010 V3 ColdFire MCF53010CQT240-ND◆ NEW! 19.32 MCF53010CQT240
MCF53011 V3 ColdFire MCF53011CQT240-ND◆ NEW! 21.74 MCF53011CQT240
MCF53012 V3 ColdFire MCF53012CQT240-ND◆ NEW! 21.96 MCF53012CQT240
MCF53013 V3 ColdFire MCF53013CQT240-ND◆ NEW! 24.16 MCF53013CQT240
MCF53017 ColdFire M53017KIT-ND◆ NEW! 799.00 M53017KIT
MCF5445X ColdFire M54455EVB-ND 850.00 M54455EVB
MCF5445X ColdFire M5485AFEE-ND 276.10 M5485AFEE
MCF548X ColdFire M5485BFEE-ND 311.50 M5485BFEE
Device Numbers Series
Digi-Key
Part No.
Price
Each
Freescale
Part No.
MCIMX35 i.MX35 MCIMX35WPDKJ-ND◆ NEW! 995.00 MCIMX35WPDKJ
MCIMX51 i.MX51 MCIMX51EVKJ-ND◆ NEW! 699.00 MCIMX51EVKJ
MPC8308 PowerQUICC II Pro MPC8308-RDB-ND NEW! 317.69 MPC8308-RDB
MPC8313E PowerQUICC II Pro MPC8313E-RDB-ND 317.69 MPC8313E-RDB
MPC8313E PowerQUICC II Pro MPC8313E-RDBB-ND◆ NEW! 299.00 MPC8313E-RDBB
MPC8315E PowerQUICC II Pro MPC8315E-RDB-ND 530.19 MPC8315E-RDB
MPC8315E PowerQUICC II Pro MPC8315E-RDBA-ND◆ NEW! 530.19 MPC8315E-RDBA
MPC8323E PowerQUICC II Pro MPC8323E-RDB-ND 423.94 MPC8323E-RDB
MPC8349E PowerQUICC II Pro MPC8349E-MITXE-ND 742.69 MPC8349E-MITXE
MPC8360E PowerQUICC II Pro MPC8360E-RDK-ND 1061.44 MPC8360E-RDK
MPC8360EA PowerQUICC II Pro MPC8360EA-MDS-PB-ND◆ NEW! 1487.50 MPC8360EA-MDS-PB
MPC8379E PowerQUICC II Pro MPC8379E-RDBA-ND◆ NEW! 742.69 MPC8379E-RDBA
MPC8536 PowerQUICC III MPC8536DS-ND◆ NEW! 3394.99 MPC8536DS
MPC8544 PowerQUICC III MPC8544DS-ND◆ NEW! 3607.19 MPC8544DS
MPC8572E PowerQUICC III MPC8572DS-ND◆ NEW! 3995.00 MPC8572DS
M53015 ColdFire M53015EVB-ND◆ NEW! 599.00 M53015
M53017 V3 ColdFire M53017MOD-ND◆ NEW! 235.00 M53017MOD
MCF51EM ColdFire DEMOEM-ND NEW! 99.00 DEMOEM
P2020E QorlQ P2020DS-PA-ND◆ NEW! 3718.75 P2020DS-PA
◆ RoHS Compliant
C
CAN
A/D
Converter
Oper.
Freq.
MHz
Internal
Flash
(Bytes)
Internal
RAM
(Bytes) Package Serial
Supply
Voltage (V)
Min. ~ Max.
Timers -
Channels
Timers -
Number of
Timers -
Size (Bit)
Temperature
(°C)
Felix JM USB Microcontroller Family — RoHS Compliant
Digi-Key
Part No.
Price Each
1 10 25
CAN 12-Ch., 12-Bit 50 64K 8K L-PQFP-G80 SCI, SPI, I2C, USB, CAN 2.7 5.5 6, 2 1, 1 16, 16 -40 85 MCF51JM64EVLK-ND 7.52 7.11 6.69 MCF51JM64EVLK
CAN 12-Ch., 12-Bit 50 64K 8K L-PQFP-G44 SCI, SPI, I2C, USB, CAN 2.7 5.5 6, 2 1, 1 16, 16 -40 85 MCF51JM64VLD-ND 6.10 5.77 5.43 MCF51JM64VLD
— 8-Ch., 12-Bit 50 64K 8K FL-PQFP-G64 SCI, SPI, I2C, USB, CAN 2.7 5.5 4, 2 1, 1 16, 16 -40 85 MCF51JM64VLH-ND 6.26 5.92 5.57 MCF51JM64VLH
CAN 12-Ch., 12-Bit 50 64K 8K L-PQFP-G80 SCI, SPI, I2C, USB, CAN 2.7 5.5 6, 2 1, 1 16, 16 -40 85 MCF51JM64VLK-ND 6.45 6.10 5.74 MCF51JM64VLK
CAN 12-Ch., 12-Bit 50 64K 8K PQFP-G64 SCI, SPI, I2C, USB, CAN 2.7 5.5 6, 2 1, 1 16, 16 -40 85 MCF51JM64VQH-ND 6.26 5.92 5.57 MCF51JM64VQH
CAN 12-Ch., 12-Bit 50 64K 8K L-PQFP-G80 SCI, SPI, I2C, USB, CAN 2.7 5.5 6, 2 1, 1 16, 16 -40 85 MCF51JM128EVLK-ND 8.16 7.72 7.26 MCF51JM128EVL
CAN 12-Ch., 12-Bit 50 64K 8K L-PQFP-G44 SCI, SPI, I2C, USB, CAN 2.7 5.5 6, 2 1, 1 16, 16 -40 85 MCF51JM128VLD-ND 6.75 6.38 6.00 MCF51JM128VLD
— 8-Ch., 12-Bit 50 64K 8K FL-PQFP-G64 SCI, SPI, I2C, USB, CAN 2.7 5.5 4, 2 1, 1 16, 16 -40 85 MCF51JM128VLH-ND 6.90 6.52 6.14 MCF51JM128VLH
CAN 12-Ch., 12-Bit 50 64K 8K L-PQFP-G80 SCI, SPI, I2C, USB, CAN 2.7 5.5 6, 2 1, 1 16, 16 -40 85 MCF51JM128VLK-ND 7.10 6.71 6.31 MCF51JM128VLH
CAN 12-Ch., 12-Bit 50 64K 8K PQFP-G64 SCI, SPI, I2C, USB, CAN 2.7 5.5 6, 2 1, 1 16, 16 -40 85 MCF51JM128VQH-ND 6.90 6.52 6.14 MCF51JM128VQH
Freescale
Part No.
Flexis Microcontroller Series
The DEMOQE128 is a low-cost development system designed for demonstrating, evaluating and debugging
the Freescale MC9S08QE128 and MCF51QE128 microcontrollers. The board supports two interchangeable
plug-in daughter cards to quickly evaluate the 8-bit S08 and 32-bit ColdFire V1QE128 microcontrollers.
DEMOQE128-ND .......................................................................................... $99.00
The EVBQE128 Evaluation Board has been designed for the evaluation, demonstration and debugging of
the Freescale Flexis QE128 Microcontrollers (MC9S08QE128 and MCF51QE128). The EVBQE128 can be
used as a standalone application or can be controlled by a host PC via its built-in microDART interface.
EVBQE128-ND ............................................................................................ $325.00
Flexis JM Development Tools
The DEMOJM is a cost-effective kit enabling quick microcontroller evaluation. The kit includes a DEMOJM
base board, a red MCF51JM128 daughter card, and a green MC9S08JM60 daughter card. The included kit
can first be used to demonstrate the features of the MC9S08JM60 devices, starting with an on-chip USB
device controller and transceiver. Then, move to MCF51JM128 with an on-chip USB host and device dualrole
controller.
DEMOJM-ND .............................................................................................. $99.00
The EVB51JM128 is a low-cost development system for the Freescale MCF51JM128 ColdFire® microcontroller,
which is a part of the Freescale FLEXIS Microcontroller Continuum.
CodeWarrior Development Tools provide support for quick and easy application development and debug.
EVB51JM128-ND .........................................................................................$325.00
Tower Systems
The Tower System is a modular and reconfigurable development platform designed to speed your time to
market and reduce your hardware investment. This modular approach allows you to design and develop
embedded systems for many different applications. Each module in the Tower System is sold individually or
as a complete kit. Over time, new modules and kits will become available as part of the Tower System. With
hardware schematics provided, you can even design your own custom module.
TWR-MCF51CN: MCF51CN V1 ColdFire® Ethernet Module, USB cable, interactive DVD with instructions,
software, tutorials and more. Lab Tutorials and Quick Start Guide included TWR-MCF51CN-KIT: This module
is part of the Freescale Tower System, a modular development platform that enables rapid prototyping and
tool re-use through reconfigurable hardware. Includes TWR-MCF51CN, TWR-SER and TWR-ELEV TWR-
SER: Serial module for the tower system features Ethernet, USB, RS232/485, and CAN. Includes Ethernet
cable and USB cable TWR-ELEV: Elevator boards for the Tower System. Two I/O boards included TWR-
PROTO: Proto Board module for Tower System TWR-MCF5225X: MCF5225X module for Tower System
TWR-MCF5225X-KIT: Tower System kit with MCF5225X module TWR-S08LL64: S08LL64 module for
Tower System TWR-S08LL64-KIT: Tower System kit with S08LL64 module TWR-LCD: LCD module for
Tower System TWR-MEM: Memory module for Tower System TWR-MPC5125-KIT-ND: Tower System
Kit for TWR-MPC5125 TWR-S08LH64-KIT-ND: Kit Tower System for TWR-S08LH64 TWR-SENSOR-
PAK-ND: modular development platform for 8-, 16- and 32-bit microcontrollers that enables advanced
development through rapid prototyping.
TWR-MCF51CN-ND ........................................................................................ $39.00
TWR-MCF51CN-KIT-ND ................................................................................... $99.00
TWR-SER-ND ............................................................................................... $49.00
TWR-ELEV-ND ............................................................................................. $29.00
TWR-PROTO-ND NEW! .................................................................................. $14.99
TWR-MCF5225X-ND NEW! ............................................................................... $49.00
TWR-MCF5225X-KIT-ND NEW! .........................................................................$119.00
TWR-S08LL64-ND NEW! ................................................................................. $69.00
TWR-S08LL64-KIT-ND NEW! ............................................................................ $99.00
TWR-LCD-ND NEW! ...................................................................................... $99.00
TWR-MEM-ND NEW! ..................................................................................... $89.00
TWR-MPC5125-ND NEW! ...............................................................................$119.00
TWR-MPC5125-KIT-ND NEW! ..........................................................................$169.00
TWR-S08LH64-ND NEW! ................................................................................. $69.00
TWR-S08LH64-KIT-ND NEW! ............................................................................ $99.00
TWR-SENSOR-PAK-ND NEW! ..........................................................................$149.00
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
195
195

Temper
MPC744X High Performance PowerPC Processor
The MPC744X processor is a hih-perormance, low-power, 32-Bit implementation o the RISC architecture. Features include 512KB o on-chip L2 cache, a 64-Bit us interace and a ull 128-Bit AltiVec technoloy. MPC744Xprocessors are ideal or
leading-edge computing, embedded and signal processing applications.
C
Bus Frequency
Cache
Operating
Core
L2 Cache
Digi-Key
Price Each
Freescale
(MHz)
(KB)
Frequency
Voltage
(KB)
Package Part No.
1 10 25 Part No.
167 576 733 1.1 512 360-FCCLGA MC7447AVS733NB-ND 115.12 107.58 103.80 MC7447AVS733NB
167 576 1000 1.3 512 360-FCCLGA MC7447AVS1000LB-ND 122.46 119.21 — MC7447AVS1000LB
167 576 1000 1.1 512 360-FCCLGA MC7447AVS1000NB-ND 165.79 157.22 152.08 MC7447AVS1000NB
167 576 1333 1.1 512 360-FCCLGA MC7447AVS1333LB-ND 449.76 424.78 399.80 MC7447AVS1333LB
167 576 1000 1.1 512 360-FCCBGA MC7447AHX1000NB-ND 222.28 209.93 197.58 MC7447AHX1000NB
167 576 1420 1.1 512 360-FCCBGA MC7447AHX1420LB-ND 380.48 366.40 359.35 MC7447AHX1420LB
167 576 600 1.1 512 360-FCCBGA MC7447AHX600NB-ND 88.80 83.25 79.09 MC7447AHX600NB
167 576 1000 1.1 512 360-FCCBGA MC7447ATHX1000NB-ND 419.11 395.83 372.54 MC7447ATHX1000NB
— 576 1000 1.1 512 360-FCCBGA MC7447AVU1000NB-ND 222.28 209.93 197.58 MC7447AVU1000NB
200 32 1400 1.3 1M 360-FCCBGA MC7448HX1400ND-ND 563.80 532.48 501.16 MC7448HX1400ND
200 32 1267 1.3 1M 360-FCCBGA MC7448THX1267ND-ND 866.97 818.80 770.64 MC7448THX1267ND
NEW! XC-1 Development Kit
The XC-1 development kit is a quick and cost effective route to trying out your design ideas using XMOS
chips. The kit includes the XC-1 development card, USB programming/power cable, and access to the
online development tools, tutorials and documentation. Features: XS1-G4 four-XCore 400MHz device:
1600MIPS, 256KB RAM, 32KB OTP Development board features: USB power and host debugger
connection Four pushbutton and LED pairs 12 bi-color LEDs Integrated speaker (can be driven via
software DAC) 60 pins user I/O expansion from two XCores Two external port expansion connections
Credit card size (85 x 54 mm) Complete development tool suite: C and XC compilers, linker and
mapper Simulator, visualization tools and in-circuit visual debugger Tutorial suite with examples:
Clock/Countdown timer, audio synthesizer, reaction game and more
XCARD XC-1A-ND (XCARD XC-1A) ...................................................................... $99.00
XC-3 Development Kit
The XC-3 is an Event-Driven Processor development board that can be used as a LED tile controller. It
comprises a single XS1-G4 device, two LED module connectors, two 10/100-BASE-T Ethernet transceiver
units, 4Mbits SPI flash memory, one press-button. A GPIO header is provided for connecting additional
components, and an XSYS connector can be used to interface the card with a PC.
The XC-3 Development Kit also includes a power supply and XTAG connector for booting the device from a
PC. The card is fitted with four plastic feet, which can be removed to provide access to mounting holes for
product integration.
880-1015-ND (XCARD XC-3) .............................................................................$149.00
NEW! XK-1 and XTAG-2
Development Kits
The XK-1 is a low cost development board intended for exploring event-driven processor designs. It
comprises a single XS1-L1 device, 128KBytes SPI FLASH memory, four LEDs and two press-button
switches. Two SS connectors let you lin multiple K-1 boards together in a chain and two bans of .1
IDC connectors are provided for connecting additional components to the XK-1. An XTAG-2 debug adapter
can be used to connect the XK-1 to a USB 2.0 port on a PC, providing a JTAG interface that can be used to
load and debug programs on the board. The XK-1 can be powered directly from the XTAG-2 debug adapter
or from an external 5V power supply.
The XTAG-2 debug adapter converts between an XMOS an XMOS XSYS connector and USB 2.0, providing
pins for JTAG control, system reset, processor debug, one duplex UART link and one duplex serial XMOS
Link. The XTAG-2 debug adapter can be used to connect XMOS development kits to most PCs, and provide
a 5V power supply.
The XTAG-2 is based on a single XS1-L1 device in a 64LQFP package. The XS1-L1 consists of a single
XCore, which comprises an event-driven multi-threaded processor with tightly integrated general purpose
I/O pins and 64 KBytes of on-chip RAM. The pins are brought out of the package and connected to the
card's components as follows: USB Connector SS 2-way IC header female.
XCARD XK-1-ND (XCARD XK-1) ......................................................................... $99.00
XCARD XTAG-2-ND (XCARD XTAG-2) ................................................................... $49.00
XC-2 Ethernet Kit
The XC-2 Ethernet Kit provides a rapid and cost effective route for developing ethernet connected designs in
XMOS silicon. Based around the four-core XS1-G4 programmable device from XMOS, the XC-2 Kit provides
the hardware needed to connect to a 10/100 Ethernet system using an RJ45 socket.
XC-2 Card Features: XS1-G4 four-XCore 400MHz device: 1600 MIPS, 256KB RAM, 32KB OTP RJ45
ethernet socket Two pushbuttons 10 user LEDs 84 pins user I/O expansion total from four XCores
External link and XSYS debug interface Credit card size (85 x 54 mm) XTAG Connector USB Cable
5V external PSU Comprehensive software development tool suite: XC, C and C++ compilers, linker, and
mapper Simulator and visual debugger Supports Windows XP SP2, Red Hat Linux 4.6 and OS X 10.4
Example software available as source code
880-1014-ND (XCARD XC-2) .............................................................................$149.00
XS1-G Development Kit
The XS1-G Development Kit (XDK) is a complete and fun hardware/software development environment that
provides the fastest way to start exploring Software Defined Silicon. Based on the XMOS XS1-G4 device,
the XDK provides a quick and easy way develop a wide range of products and applications.
Features: XS1-G4 four-XCore 400MHz device: 1600 MIPS QVGA color touch screen TFT LCD High
performance stereo audio ADC/DAC 10/100 Ethernet interface SD card slot (card included) USB
connectivity 512KB asynchronous SRAM 96 pins I/O expansion from two XCores, via 0.1” IDC headers
XMOS link channel connections
880-1012-ND (XS1-G-DK (XDK)) ....................................................................... $1000.00
NEW! USB Audio 2.0
Reference Design Kit
XMOS USB Audio 2.0 Reference Design Kit for designers targeting the USB audio market. The software
framework provides USB High Speed and Audio Class 2.0, with options to add your own audio processing,
interfaces and peripherals.
Using XMOS event-driven processor technology, the USB Audio 2.0 Reference Design Kit offers a complete
software programmable solution for Audio Class 2.0. The compact credit card sized board is an ideal
reference design for your production audio product. The XS1-L1 device at the heart of this system gives high
levels of processing and flexibility from the 400 MIPS available.
880-1017-ND (XR USB AUDIO-2.0-MC) ................................................................ $149.00
NEW! USB Audio 2.0
Reference Design
USB Audio Class 2.0 provides a dramatic improvement over USB Audio Class 1.0 with the addition of 24bit
audio, sample frequencies up to 192kHz and the ability to scale to large numbers of input/output channels.
XMOS has developed a USB Audio Class 2.0 software framework design to work on XS1-L devices. The
design provides USB 230 High Speed device and Audio Class 2.0 device class implementations with
configurable digital audio interfaces, peripherals and the ability to integrate audio processing. The framework
also provides a USB Audio Class 1.0 implementation.
880-1027-ND (XR-USB-AUDIO-2.0-MC) ............................................................... $349.00
XCore Processors
XCore MIPS Threads Memory User I/O
Temperature
(°C)
Package
Digi-Key
Part No.
Price Each
1 100 500
1 400 8 64KB RAM 36 ~ 64-LQPF 880-1000-ND 7.50 6.40 5.60 XS1-L01A-LQ64-C4
1 400 8 64KB RAM 36 -4 ~ 85 64-LQPF 880-1001-ND 8.70 7.40 6.50 XS1-L01A-LQ64-I4
1 400 8 64KB RAM 64 ~ 128-TQFP 880-1002-ND 8.70 7.40 6.50 XS1-L01A-TQ128-C4
2 800 16 128K SRAM 44 ~ 124-QFN 880-1004-ND 15.10 12.80 11.30 XS1-L02A-QF124-C4
2 800 16 128K SRAM 44 ~ 144-PBGA 880-1006-ND NEW! 15.10 12.80 11.30 XS1-G02B-FB144-C4
4 1600 32 256K SRAM 88 ~ 144-FBGA 880-1008-ND 20.90 17.80 15.70 XS1-G04B-FB144-C4
4 1600 32 256K SRAM 256 ~ 512-FBGA 880-1010-ND 31.30 26.60 23.50 XS1-G04B-FB512-C4
1 500 8 64KB SRAM 64 ~ 128-TQFP 880-1019-ND NEW! 10.00 8.50 7.50 XS1-L01A-TQ128-C5
2 500 8 64KB SRAM 84 ~ 124-TFQFN 880-1020-ND NEW! 17.40 14.80 13.10 XS1-L02A-QF124-C5
1 400 8 64KB SRAM 36 ~ 64-LQFP 880-1021-ND NEW! 8.90 8.30 7.30 XS1-L01A-LQ64-C4-THS
1 500 8 64KB SRAM 36 ~ 64-LQFP 880-1022-ND NEW! 10.30 9.60 8.40 XS1-L01A-LQ64-C5-THS
1 400 8 64KB SRAM 64 ~ 128-TQFP 880-1023-ND NEW! 10.30 9.60 8.40 XS1-L01A-TQ128-C4-THS
1 500 8 64KB SRAM 64 ~ 128-TQFP 880-1024-ND NEW! 11.80 10.90 9.70 XS1-L01A-TQ128-C5-THS
2 400 8 64KB SRAM 84 ~ 124-TQFN 880-1025-ND NEW! 17.90 16.50 14.60 XS1-L02A-QF124-C4-THS
2 500 8 64KB SRAM 84 ~ 124-TQFN 880-1026-ND NEW! 20.40 18.80 16.60 XS1-L02A-QF124-C5-THS
1 500 8 64KB SRAM 64 -4 ~ 85 128-TQFP 880-1029-ND NEW! 11.50 9.80 8.60 XS1-L01A-TQ128-I5
1 500 8 64KB SRAM 36 -4 ~ 85 64-LQFP 880-1030-ND NEW! 10.00 8.50 7.50 XS1-L01A-LQ64-I5
1 500 8 64KB SRAM 36 ~ 64-LQFP 880-1032-ND NEW! 8.70 7.40 6.50 XS1-L01A-LQ64-C5
XMOS
Part No.
196 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Flash Digital Signal Processors
Prog.
Flash
(16-Bit)
Prog.
RAM
(16-Bit)
Flash
(Data)
(16-Bit)
RAM
(Data)
(16-Bit)
Boot
Flash
(16-Bit) Timers I/O Serial A/D PWM
Digi-Key
Price Each Freescale
Package Part No.
1 10 25 Part No.
— — 16K 4K — 4 26 SCI, SPI, I2C 3-Ch., 12-Bit 6-Ch. 3 3.6 32 32-LQFP MC56F8013VFAE-ND 6.12 5.79 5.45 MC56F8013VFAE
1K 2K 1K 2K 8 11 SPI, SCI 8-Ch., 12-Bit 6-Ch. 3.3 60 48-LQFP DSP56F801FA60E-ND 8.03 7.59 7.14 DSP56F801FA60E
8K 1K 2K 1K 2K 8 11 SPI, SCI 8-Ch., 12-Bit 6-Ch. 3.3 80 48-LQFP DSP56F801FA80E-ND 8.83 8.34 7.85 DSP56F801FA80E
1K 2K 1K 2K 8 4 SCI 8-Ch., 12-Bit 6-Ch. 3.3 60 32-LQFP DSP56F802TA60E-ND 6.98 6.60 6.21 DSP56F802TA60E
12K 2K — — — 3 9 SCI, SPI, I2C 36-Ch., 12-Bit 6-Ch. 1.8 3.6 32 28-SOIC MC56F8002VWL-ND NEW! 3.21 3.03 2.86 MC56F8002VWL
2K — — — 3 13 SCI, SPI, I2C 36-Ch., 12-Bit 6-Ch. 1.8 3.6 32 32-LQFP MC56F8006VLC-ND NEW! 3.42 3.24 3.05 MC56F8006VLC
16K 2K — — — 3 26 SCI, SPI, I2C 36-Ch., 12-Bit 6-Ch. 1.8 3.6 32 48-LQFP MC56F8006VLF-ND NEW! 3.64 3.44 3.24 MC56F8006VLF
2K — — — 3 13 SCI, SPI, I2C 36-Ch., 12-Bit 6-Ch. 1.8 3.6 32 28-SOIC MC56F8006VWL-ND NEW! 3.32 3.14 2.96 MC56F8006VWL
0.5K 4K 2K 2K 16 16 SPI, SCI 8-Ch., 12-Bit 6-Ch. 3.3 80 100-LQFP DSP56F803BU80E-ND 17.71 16.73 15.75 DSP56F803BU80E
31.5K 0.5K 4K 2K 2K 16 32 SPI, 2 SCI 8-Ch., 12-Bit 2 6-Ch. 3.3 80 144-LQFP DSP56F805FV80E-ND 19.65 18.57 17.47 DSP56F805FV80E
0.5K 2K 4K 2K 4, 1 TOD 16 2 SPI, 2 SCI, SSI — — 2.5/3.3 80 100-LQFP DSP56F826BU80E-ND 19.65 17.86 16.53 DSP56F826BU80E
4K 8K 8K 8K 8 21 SCI, SPI 6-Ch., 12-Bit — 3.3 40 48-LQFP MC56F8122VFAE-ND 8.51 8.05 7.57 MC56F8122VFAE
4K 8K 8K 8K 8 27 SCI, SPI 8-Ch., 12-Bit — 3.3 40 64-LQFP MC56F8123VFBE-ND 8.81 8.32 7.83 MC56F8123VFBE
4K 8K 8K 8K 8 21 SCI, SPI 6-Ch., 12-Bit 6-Ch. 3.3 60 48-LQFP MC56F8322MFAE-ND 12.67 11.98 11.27 MC56F8322MFAE
32K
4K 8K 8K 8K 8 21 SCI, SPI 6-Ch., 12-Bit 6-Ch. 3.3 60 48-LQFP MC56F8322VFAE-ND 10.83 10.23 9.63 MC56F8322VFAE
4K 8K 8K 8K 8 27 SCI, SPI 8-Ch., 12-Bit 6-Ch. 3.3 60 64-LQFP MC56F8323MFBE-ND 13.04 12.32 11.60 MC56F8323MFBE
4K 8K 8K 8K 8 27 SCI, SPI 8-Ch., 12-Bit 6-Ch. 3.3 60 64-LQFP MC56F8323VFBE-ND 11.20 10.58 9.96 MC56F8323VFBE
60K 2K 8K 4K 2K 16 32 SPI, 2 SCI 16-Ch., 12-Bit 2 6-Ch. 3.3 80 160-LQFP DSP56F807P80E-ND 23.37 22.07 20.78 DSP56F807P80E
4K 8K 8K 8K 8 49 2 SCI, 2 SPI 16-Ch., 12-Bit 6-Ch. 3 3.6 40 128-LQFP MC56F8135VFGE-ND 12.36 11.68 10.99 MC56F8135VFGE
4K 8K 8K 8K 16 49 2 SCI, 2 SPI 16-Ch., 12-Bit 12-Ch. 3 3.6 60 128-LQFP MC56F8335VFGE-ND 15.82 14.95 14.07 MC56F8335VFGE
64K
8K 64K 8K — 4 39 SCI, SPI, I2C 4-Ch., 12-Bit 6-Ch. 3 3.6 32 48-LQFP MC56F8036VLF-ND 7.46 7.05 6.64 MC56F8036VLF
8K 64K 8K — 8 53 SCI, SPI, I2C 8-Ch., 12-Bit 6-Ch. 3 3.6 32 64-LQFP MC56F8037VLH-ND 7.99 7.55 7.11 MC56F8037VLH
4K 8K 8K 8K 8 49 SCI, SPI 16-Ch., 12-Bit 6-Ch. 3.3 40 128-LQFP MC56F8145VFGE-ND 13.78 13.02 12.26 MC56F8145VFGE
4K 8K 8K 8K 8 76 SCI, SPI 16-Ch., 12-Bit 6-Ch. 3.3 40 160-LQFP MC56F8147VPE-ND 14.75 13.94 13.12 MC56F8147VPE
4K 8K 8K 8K 16 49 SCI, SPI 16-Ch., 12-Bit 12-Ch. 3.3 60 128-LQFP MC56F8345MFGE-ND 21.07 19.91 18.74 MC56F8345MFGE
128K 4K 8K 8K 8K 16 49 SCI, SPI 16-Ch., 12-Bit 12-Ch. 3.3 60 128-LQFP MC56F8345VFGE-ND 17.69 16.71 15.73 MC56F8345VFGE
4K 8K 8K 8K 16 62 SCI, SPI 16-Ch., 12-Bit 12-Ch. 3.3 60 144-LQFP MC56F8346MFVE-ND 21.35 20.16 18.98 MC56F8346MFVE
4K 8K 8K 8K 16 62 SCI, SPI 16-Ch., 12-Bit 12-Ch. 3.3 60 144-LQFP MC56F8346VFVE-ND 17.83 16.84 15.85 MC56F8346VFVE
4K 8K 8K 8K 16 76 SCI, SPI 16-Ch., 12-Bit 12-Ch. 3.3 60 160-LQFP MC56F8347VPE-ND 18.93 17.89 16.84 MC56F8347VPE
4K 8K 16K 16K 16 49 SCI, SPI 16-Ch., 12-Bit 12-Ch. 3.3 60 128-LQFP MC56F8355MFGE-ND 27.22 25.71 24.20 MC56F8355MFGE
4K 8K 16K 16K 16 49 SCI, SPI 16-Ch., 12-Bit 12-Ch. 3.3 60 128-LQFP MC56F8355VFGE-ND 23.41 22.11 20.81 MC56F8355VFGE
256K 4K 8K 16K 16K 16 62 SCI, SPI 16-Ch., 12-Bit 12-Ch. 3.3 60 144-LQFP MC56F8356MFVE-ND 27.57 26.04 24.51 MC56F8356MFVE
4K 8K 16K 16K 16 62 SCI, SPI 16-Ch., 12-Bit 12-Ch. 3.3 60 144-LQFP MC56F8356VFVE-ND 23.56 22.26 20.95 MC56F8356VFVE
4K 8K 16K 16K 16 76 SCI, SPI 16-Ch., 12-Bit 12-Ch. 3.3 60 160-LQFP MC56F8357VPE-ND 25.35 23.95 22.54 MC56F8357VPE
4K 32K 32K 32K 16 49 SCI, SPI 16-Ch., 12-Bit 12-Ch. 3.3 60 128-LQFP MC56F8365MFGE-ND 37.56 35.48 33.39 MC56F8365MFGE
4K 32K 32K 32K 16 49 SCI, SPI 16-Ch., 12-Bit 12-Ch. 3.3 60 128-LQFP MC56F8365VFGE-ND 33.03 31.20 29.36 MC56F8365VFGE
4K 32K 32K 32K 16 62 SCI, SPI 16-Ch., 12-Bit 12-Ch. 3.3 60 144-LQFP MC56F8366MFVE-ND 37.97 35.86 33.75 MC56F8366MFVE
512K
4K 32K 32K 32K 16 62 SCI, SPI 16-Ch., 12-Bit 12-Ch. 3.3 60 144-LQFP MC56F8366VFVE-ND 33.22 31.38 29.54 MC56F8366VFVE
4K 32K 32K 32K 16 76 2 SCI, 2 SPI 16-Ch., 12-Bit 12-Ch. 3 3.6 60 160-LQFP MC56F8367MPE-ND 40.14 37.92 35.69 MC56F8367MPE
4K 32K 32K 32K 16 76 SCI, SPI 16-Ch., 12-Bit 12-Ch. 3.3 60 160-LQFP MC56F8367VPE-ND 34.70 32.78 30.85 MC56F8367VPE
Evaluation Boards
Evaluation Module or 56F802X/56F803X MC56F8037EVM-ND 199.10/1 MC56F8037EVM
Evaluation Module or 56F8367 amily o DSCs MC56F8367EVME-ND 299.10/1 MC56F8367EVME
DEMO Board or MC56F8006VWL MC56F8006DEMO-ND NEW! 49.00/1 MC56F8006DEMO
DEMO Board or 56F8013 DEMO56F8013-EE-ND 74.95/1 DEMO56F8013-EE
Operating
Voltage
(V)
Bus
Freq.
(MHz)
C
Digital Signal Processors
Operating
Voltage
(V)
Bus
Frequency
(MHz)
On Chip
RAM
Bootstrap
ROM Timer I/O Serial
Other
Features
Package
Digi-Key
Part No.
1
Price Each
10 25
Freescale
Part No.
— 3 4-Ports ESAI, SHI On-Chip Emulation 3.3 120 144-LQFP DSPB56362AG120-ND 15.84 14.97 14.09 DSPB56362AG120
— — 1 3-Ports ESAI, SHI On-Chip Emulation 3.3 100 100-LQFP DSPB56364AF100-ND 9.49 8.55 7.79 DSPB56364AF100
— 3 5-Ports ESAI, SHI On-Chip Emulation 3.3 120 144-LQFP DSPB56366AG120-ND 22.12 20.47 18.81 DSPB56366AG120
1K 4 47 ISSI, SCI, SPI DMA Controller 1.83.3 120 100-LQFP DSP56857BUE-ND 15.96 15.08 14.19 DSP56857BUE
64K
1K 4 47 ISSI, SCI, SPI DMA Controller 1.83.3 120 144-LQFP DSP56858FVE-ND 16.82 15.89 14.95 DSP56858FVE
128K 192 3 5 2-ESSI, SCI On-Chip Emulation 3.3 100 144-TQFP DSP56303AG100-ND 35.50 32.84 30.18 DSP56303AG100
4K 32 32 TDM, I2C DMA Controller 3.3 300 431-FCPBGA MSC8122TVT4800V-ND 195.24 184.39 173.55 MSC8122TVT4800V
4K 32 32 TDM, I2C DMA Controller 3.3 400 431-FCPBGA MSC8122TVT6400V-ND 214.62 202.70 190.78 MSC8122TVT6400V
1436K
4K 32 32 TDM, I2C DMA Controller 3.3 500 431-FCPBGA MSC8122VT8000-ND 247.41 233.67 219.93 MSC8122VT8000
4K 32 32 TDM, I2C DMA Controller 3.3 400 431-FCPBGA MSC8126TVT6400-ND 225.35 212.83 200.31 MSC8126TVT6400
CodeWarrior Software Dongle
The USB Dongle is a small device that plugs into a USB port on a host computer to provide an ID that is used in licensing
the use of CodeWarrior software. Freescale provides them as a licensing option for our customers. The dongle allows for
a single, specific node-locked copy of a given CodeWarriorsoftware suite to be used with any given computer system by
attaching the dongle to their computer’s USB port. Proper operation of the desired CodeWarrior software product does
require a valid license on the USB dongle.
Digi-Key
Part No.
Price
Each
Freescale
Part No.
CWH-DONGLE-ND 99.00 CWH-DONGLE
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
197
197

Flash Microcontrollers — 8-Bit
The MN101C series of 8-bit single-chip microcontroller incorporates multiple types of peripheral functions. This chip series is well suited for camera, VCR, MD, TV, CD, LD, printer, telephone, home automation products,
pager, air conditioner, PPC remote control, fax machine, musical instrument and other applications. The MN101C series brings to embedded microcontroller applications flexible, optimized hardware configurations and
simple efficient instruction set.
RAM
(Bytes)
Flash
(Bytes)
1.5K 32K
6K
10K
128K
224K
Timer/
Counter
8-Bit x 5
16-Bit x 2
8-Bit x 5
16-Bit x 1
8-Bit x 6
16-Bit x 1
I/O
Pins
39
53
88
Speed
(µs)
0.1
0.118
0.235
62.5
0.1
0.2
62.5
0.1
62.5
Operating
Voltage
. ~ .6
2. ~ .6
1.8 ~ .6
1.8 ~ .6
2.5 ~ .6
2.1 ~ .6
1.8 ~ .6
4.5 ~ 5.5
2. ~ 5.5
Serial
Interfaces
Synchronous Type/UART x 2
Synchronous Type/
Single-Master I 2 C x 1
I 2 C Slave x 1
Synchronous Type/UART x 2
Synchronous Type/
Single-Master I 2 C x 1
I 2 C Slave x 1
Synchronous Type x 1
Synchronous Type/UART x 2
Synchronous Type/
Single-Master I 2 C x 1
Interrupts
A/D
Pins
22 7 —
D/A
Pins LCD Package
SEG 12
COM 4
Digi-Key
Part No.
Price Each
1 25 100
48-TQFP MN101CF78AXN-ND 9.41 8.48 7.52
22 7 2 — 64-LQFP MN101CF77GXN-ND 15.43 13.89 12.32
23 8 4 — 100-QFP MN101CF49KXN-ND 17.49 16.33 15.16
C
AM1 Starter Kit
Introductory starter it or the FLASH MEMOR version o an
8-bit 1-chip CPU. Features: Euipped tole-switches, serial
communication unction and LCD/LED display C compiler and
source code deuer One-time C compiler upradin is allowed
rom our wesite ater purchasin Simple deuer compatile
with PanaX series with USB I/F USB 1.1 or Host PC interace
Choice o USB 1.1 us power or an external extension connector 110 70
or power supply CPU Board can e separately put in the evaluation
system Sample proram and tutorial are included
Kit Contents: USB Cale External connection cale CD
Sotware license and product warranty Quic start up uide and
reistration uide C source code deuer Deu Factory Builder
AM1 Starter Kit C compiler CPU manual and sample proram
MN101CF49K/70G/78A Online help-setup manual
MMK01-C49-ND Evaluation Kit or MN101CF49KXN...................................................... $358.50
MMK01-C77-ND Evaluation Kit or MN101CF77GXN ..................................................... $358.50
MMK01-C78-ND Evaluation Kit or MN101CF78AXN...................................................... $358.50
MMB01-001-ND Base Board or MN101C Evaluation Kit .................................................. $295.50
MMC01-C49-ND CPU Board or MN101CF49KXN ........................................................ $148.50
MMC01-C77-ND CPU Board or MN101CF77GXN ........................................................ $148.50
MMC01-C78-ND CPU Board or MN101CF78AXN........................................................ $148.50
Microcontrollers
50
130
CPU BOARD
BASE
BOARD
AM1 Debug Probe
Features: AM1 Deu Proe achieves onoard deuin y containin the deu monitor in the AM1 MN101C uiltin
lash memory o the user taret and utilizin the AM1 MN101C serial port to communicate with PC. The hardware
o AM1 Deu Proe is common to AM1 MN101C series. When developin the other AM1 MN101C series, the new
types can e added y purchasin the appropriate Deu Factory Builder. Usale as a lash writer y prorammin the
deu monitor in your AM1 MN101C in advance. Simply started up with USB connection to PC. No external power
supply is needed because AM1 Debug Probe operates by USB bus power. Contents: AM1 Deu Proe Taret
connection cale USB cale Interated prorammin devel opment tool DeuFactory Builder supportin 1 type
Deu monitor prorammed AM1 chip
MDP01-C49-ND Deu Proe or MN101CF49KXN........................................................ $636.00
MDP01-C77-ND Deu Proe or MN101CF77GXN ....................................................... $636.00
MDP01-C78-ND Deu Proe or MN101CF78AXN........................................................ $636.00
DebugFactory Builder for AM1 Debug Probe
Features: Interated development tool or the prorammin o AM1 MN101C series Provides eicient deu
environments, such as C source code leveled step execution, inspection, watchin, reapoint settin, etc. Easy-to-switch
with simple operation eases eective development wor Included with Evaluation Kits Contents: Editor Mae tool
Deuer
MDS01-C49-ND DeuFactory or MN101CF49KXN ..................................................... $358.50
MDS01-C77-ND DeuFactory or MN101CF77GXN ..................................................... $358.50
MDS01-C78-ND DeuFactory or MN101CF78AXN ..................................................... $358.50
®
8-Bit
This XC800 amily o 8-it microcontrollers oer a wide selection o products, cominin a hih perormance 8051 core
with on-chip Flash and ROM memory as well as a powerul mix o peripherals such as an enhanced CAPCOM6 CC6, CAN,
LIN and 10 it ADC.
Max.
Clock
Rate
(MHz)
16-Bit
ROM/
OTP
Flash
(Byte)
Inineons C166 Family, with pipelined 16-it core architecture and optimized real-time emedded control peripherals, oers
a wide rane o perormance variations. C161 Cost optimized CPU and peripheral set control C164 Lower pin count
and price with excellent PWM capailities and CAN apps C165 Processor-oriented microcontroller with asic peripheral
Max.
CPU
Clock
(MHz) Oscillator 3V
◊ Tape and Reel
§ Tray
Data
Flash
EEPROM
(Byte)
RAM
(Byte)
I/O
Lines
ROM/OTP/
Flash
(Byte)
ADC-
Inputs/
Max. Res.
(Bit)
RAM
(Byte)
Timers/
Counters
(16 Bit)
I/O
Lines
Serial
I/O
ADC
Inputs/
Max.
Res. (Bit)
Timers/
Counters
(16-Bit)
CAN
2.0B
Active
On-Chip
Oscillator
Serial
I/O
Based on the 8051 the C505CA enhances the C500 amily o 8-it microcontrollers y providin 32KByte o OTP or 16/32
KByte o ROM, 256 Byte o RAM, 1 KByte o XRAM, Controller Area Networ CAN Version 2.0B, an asynchronous/
synchronous serial interace and hihly accurate 10-it Analo to Diital Converter interated on chip.
On-Chip
Voltage
Regulator
PWM Package
set C167 Hih-end 16-it microcontroller with on-chip CAN. The XC164CM series is the new amily o enhanced 16-it
microcontroller XC166 which oers impressive DSP perormance and advanced interrupt handlin comined with a
powerful integrated peripheral set, high performance and reliable on-chip Flash memory
CAN
Real Interface
Time 2.0B
Clock Active
Package
Digi-Key
Part No.
Cut Tape
Price Each
1 10
25 Prescaler/Direct Input — — 2K 63 — 5 ASCSSC — — MQFP-80 SAB-C161O-LMHAIN-ND§ 12.94 11.77 SAB-C161O-LM HA
25 PLL/Prescaler/Direct Input — — 2K 76 4/10 5 ASCSSC √ — TQFP-100 SAB-C161PI-LFCAINCT-ND 13.15 12.01 SAB-C161PI-LF CA
25 PLL/Prescaler/Direct Input — — 4K 111 16/10 9 UARTSSC √ CAN MQFP-144 SAB-C167CR-LMHAIN-ND§ 27.62 25.55 SAB-C167CR-LM HA
20 PLL/Prescaler/Direct Input — — 10K 93 12/10 9 ASCSSCI2CJ1850 √ 2 x CAN TQFP-128 SAF-C161CS-LFCAINCT-ND 30.11 29.36 SAF-C161CS-LF CA
Digi-Key
Part No.
Cut Tape
Price Each
1 10
26.67 8K Flash up to 4K 256 27 8/10 3 UART, SSC — √ √ 4-ch TSSOP-38 SAA-XC866-2FRABEINCT-ND 5.16 4.65 SAA-XC866-2FRA BE
26.67 8K Flash up to 4K 256 27 8/10 3 UART, SSC — √ √ 4-ch TSSOP-38 SAA-XC866-2FRABEINTR-ND◊ 7884.00/3,000 SAA-XC866-2FRA BE
26.67 16K Flash up to 4K 256 27 8/10 3 UART, SSC — √ √ 4-ch TSSOP-38 SAA-XC866-4FRABEINCT-ND 9.71 7.73 SAA-XC866-4FRA BE
20 32K OTP/ROM — 1028 34 8/10 3 USART √ √ √ 4-ch MQFP-44 SAB-C505CA-4EMCAIN-ND§ 18.53 16.85 SAB-C505CA-4EM CA
20 32K OTP/ROM — 1028 34 8/10 3 USART √ √ √ 4-ch MQFP-44 SAF-C505CA-4EMCAIN-ND§ 19.46 17.69 SAF-C505CA-4EM CA
20 — — 1028 34 8/10 3 USART √ √ √ 4-ch MQFP-44 SAF-C505CA-LMCAIN-ND§ 12.69 11.54 SAF-C505CA-LM CA
26.67 8K Flash up to 4K 768 27 8/10 3 UART, SSC — √ √ 31-ch TSSOP-38 SAF-XC866-2FRIBCINCT-ND 4.24 3.82 SAF-XC866-2FRI BC
24 24K Flash up to 4K 256 48 8/10 4 2xUART, SSC √ √ √ 5-ch LQFP-64 SAF-XC888CLM-6FFA5VACINCT-ND 7.11 6.40 SAF-XC888CLM-6FFA 5V AC
24 24K Flash up to 4K 256 48 8/10 4 2xUART, SSC √ √ √ 5-ch LQFP-64 SAF-XC888CLM-6FFA5VACINTR-ND◊ 6306.10/1,900 SAF-XC888CLM-6FFA 5V AC
24 32K Flash up to 4K 256 48 8/10 4 2xUART, SSC √ √ √ 5-ch LQFP-64 SAF-XC888CLM-8FFA5VACINCT-ND 6.65 6.03 SAF-XC888CLM-8FFA 5V AC
24 32K Flash up to 4K 256 48 8/10 4 2xUART, SSC √ √ √ 5-ch LQFP-64 SAF-XC888CLM-8FFA5VACINTR-ND◊ 6439.10/1,900 SAF-XC888CLM-8FFA 5V AC
20 32K OTP/ROM — 1028 34 8/10 3 USART √ √ √ 4-ch MQFP-44 SAK-C505CA-4EMCAINCT-ND 19.37 17.69 SAK-C505CA-4EM CA
20 32K OTP/ROM — 1028 34 8/10 3 USART √ √ √ 4-ch MQFP-44 SAK-C505CA-4EMCAINTR-ND◊ 11203.00/1,000 SAK-C505CA-4EM CA
24 32K Flash up to 8K 1792 48 8/10 4 2xUART, SSC MultiCAN
w/2 Nodes
√ √ 31-ch TQFP-64 SAK-XC888CM-8FFAABINCT-ND 7.34 6.65 SAK-XC888CM-8FFA AB
24 32K Flash up to 8K 1792 48 8/10 4 2xUART, SSC MultiCAN
w/2 Nodes
√ √ 31-ch TQFP-64 SAK-XC888CM-8FFAABINTR-ND◊ 8020.14/1,900 SAK-XC888CM-8FFA AB
24 32K Flash up to 8K 1792 48 8/10 4 2xUART, SSC MultiCAN
w/2 Nodes
√ √ 31-ch TQFP-64 SAK-XC888CM-8FFAACINCT-ND 11.52 9.87 SAK-XC888CM-8FFA 5V AC
◊ Tape and Reel § Tray
Starter Kits / Evaluation Boards
B158-H8576-X-0-7600IN-ND XC866 Easy Kit Mini Evaluation Kit with XC866 ................................ $114.07
B158-H8548-X-0-7600IN-ND XC866 Starter Kit Full Evaluation Board with XC866 ........................... $314.35
®
For Digi-Reel ® information, please see page 71.
Infineon
Part No.
KIT_XC866_EKIN-ND XC886/888 CLM Easy Kit Mini Evaluation Kit .................................. $394.27
B158-H8743-X-X-7600IN-ND XC886/888 CLM Starter Kit Full Evaluation Board ............................. $314.35
Infineon
Part No.
(Continued)
198 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Max.
CPU
Clock
(MHz) Oscillator 3V
Microcontrollers
16-Bit (Cont.)
ROM/OTP/
Flash
(Byte)
RAM
(Byte)
I/O
Lines
ADC
Inputs/
Max.
Res. (Bit)
Timers/
Counters
(16-Bit)
Serial
I/O
CAN
Real Interface
Time 2.0B
Clock Active
Package
Digi-Key
Part No.
Cut Tape
Price Each
1 10
20 Prescaler/Direct Input √ — 1K 63 — 3 ASCSSC — — MQFP-80 SAF-C161K-LM3VHAINCT-ND 15.19 13.88 SAF-C161K-LM 3V HA
20 Prescaler/Direct Input √ — 1K 63 — 3 ASCSSC — — MQFP-80 SAF-C161K-LM3VHAINTR-ND◊ 7720.88/850 SAF-C161K-LM 3V HA
25 Prescaler/Direct Input — — 2K 63 — 5 ASCSSC — — MQFP-80 SAF-C161O-L25MHAINCT-ND 14.61 13.35 SAF-C161O-L25M HA
25 Prescaler/Direct Input — — 2K 63 — 5 ASCSSC — — MQFP-80 SAF-C161O-L25MHAINTR-ND◊ 7425.60/850 SAF-C161O-L25M HA
20 Prescaler/Direct Input √ — 2K 63 — 5 ASCSSC — — MQFP-80 SAF-C161O-LM3VHAINCT-ND 14.61 13.35 SAF-C161O-LM 3V HA
20 Prescaler/Direct Input √ — 2K 63 — 5 ASCSSC — — MQFP-80 SAF-C161O-LM3VHAINTR-ND◊ 7425.60/850 SAF-C161O-LM 3V HA
20 PLL/Prescaler/Direct Input — — 3K 76 4/10 5 ASCSSCI2C √ — MQFP-100 SAF-C161PI-LMCAINCT-ND 14.59 13.32 SAF-C161PI-LM CA
20 PLL/Prescaler/Direct Input — — 3K 76 4/10 5 ASCSSCI2C √ — MQFP-100 SAF-C161PI-LMCAINTR-ND◊ 4598.00/500 SAF-C161PI-LM CA
25 PLL/Prescaler/Direct Input — — 2K 63 — 5 ASCSSC √ — MQFP-80 SAF-C161S-L25MAAINCT-ND 8.14 7.38 SAF-C161S-L25M AA
25 PLL/Prescaler/Direct Input — — 2K 63 — 5 ASCSSC √ — MQFP-80 SAF-C161S-L25MAAINTR-ND◊ 3721.30/850 SAF-C161S-L25M AA
25 PLL/Prescaler/Direct Input — 64K OTP 4K 59 8/10 5 ASCSSC √ CAN MQFP-80 SAF-C164CI-8E25MDBIN-ND§ 25.04 23.17 SAF-C164CI-8E25M DB
20 PLL/Prescaler/Direct Input — 64K OTP 4K 59 8/10 5 ASCSSC √ CAN MQFP-80 SAF-C164CI-8EMCBINCT-ND 23.79 23.20 SAF-C164CI-8EM CB
20 PLL/Prescaler/Direct Input — — 2K 77 — 5 ASCSSC — — TQFP-100 SAF-C165-LFHAINCT-ND 22.85 20.87 SAF-C165-LF HA
20 PLL/Prescaler/Direct Input — — 2K 77 — 5 ASCSSC — — TQFP-100 SAF-C165-LFHAINTR-ND◊ 18502.40/1,400 SAF-C165-LF HA
20 PLL/Prescaler/Direct Input √ — 2K 77 — 5 ASCSSC — — MQFP-100 SAF-C165-LM3VHAINCT-ND 21.36 20.83 SAF-C165-LM 3V HA
20 PLL/Prescaler/Direct Input √ — 2K 77 — 5 ASCSSC — — MQFP-100 SAF-C165-LM3VHAINTR-ND◊ 7340.85/500 SAF-C165-LM 3V HA
20 PLL/Prescaler/Direct Input — — 3K 72 — 5 ASCSSC — — MQFP-100 SAF-C165-LMHAINCT-ND 20.97 20.45 SAF-C165-LM HA
20 PLL/Prescaler/Direct Input — — 3K 72 — 5 ASCSSC — — MQFP-100 SAF-C165-LMHAINTR-ND◊ 7207.50/500 SAF-C165-LM HA
20 PLL/Prescaler/Direct Input — 32K Flash 4K 47 14 7 2xASC2xSSC √ TwinCAN TQFP-64 SAF-XC164CM-4F20FAAINCT-ND 18.69 16.36 SAF-XC164CM-4F20F AA
20 PLL/Prescaler/Direct Input — 32K Flash 4K 47 14 7 2xASC2xSSC √ TwinCAN TQFP-64 SAF-XC164CM-4F20FAAINTR-ND◊ 14429.99/1,900 SAF-XC164CM-4F20F AA
40 PLL/Prescaler/Direct Input — 32K Flash 4K 47 14 7 2xASC2xSSC √ TwinCAN TQFP-64 SAF-XC164CM-4F40FAAINCT-ND 19.63 17.18 SAF-XC164CM-4F40F AA
40 PLL/Prescaler/Direct Input — 32K Flash 4K 47 14 7 2xASC2xSSC √ TwinCAN TQFP-64 SAF-XC164CM-4F40FAAINTR-ND◊ 15151.47/1,900 SAF-XC164CM-4F40F AA
40 PLL/Prescaler/Direct Input — 64K Flash 6K 47 — 7 2xASC2xSSC √ TwinCAN TQFP-64 SAF-XC164KM-8F40FAAINCT-ND 19.07 16.69 SAF-XC164KM-8F40F AA
40 PLL/Prescaler/Direct Input — 64K Flash 6K 47 14 7 2xASC2xSSC √ — TQFP-64 SAF-XC164SM-8F40FAAINCT-ND 19.26 16.86 SAF-XC164SM-8F40F AA
40 PLL/Prescaler/Direct Input — 64K Flash 6K 47 14 7 2xASC2xSSC √ — TQFP-64 SAF-XC164TM-8F40FAAINCT-ND 19.26 16.86 SAF-XC164TM-8F40F AA
66 PLL/Prescaler/Direct Input √ 192K Flash 2K 75 16/10 11 6xSPILINUARTIICIIS √ MultiCAN LQFP-100 SAF-XE164F-24F66LACIN-ND§ 12.62 11.48 SAF-XE164F-24F66L AC
66 PLL/Prescaler/Direct Input √ 384K Flash 2K 75 16/10 11 6xSPILINUARTIICIIS √ MultiCAN LQFP-100 SAF-XE164F-48F66LACIN-ND§ 14.11 12.83 SAF-XE164F-48F66L AC
66 PLL/Prescaler/Direct Input √ 576K Flash 2K 75 16/10 11 6xSPILINUARTIICIIS √ MultiCAN LQFP-100 SAF-XE164F-72F66LACIN-ND§ 15.59 14.18 SAF-XE164F-72F66L AC
66 PLL/Prescaler/Direct Input √ 768K Flash 2K 75 16/10 11 6xSPILINUARTIICIIS √ MultiCAN LQFP-100 SAF-XE164F-96F66LACINCT-ND 17.06 15.58 SAF-XE164F-96F66L AC
66 PLL/Prescaler/Direct Input √ 768K Flash 2K 75 16/10 11 6xSPILINUARTIICIIS √ MultiCAN LQFP-100 SAF-XE164F-96F66LACINTR-ND◊ 13808.20/1,400 SAF-XE164F-96F66L AC
66 PLL/Prescaler/Direct Input √ 384K Flash 2K 118 24/10 11 6xSPILINUARTIICIIS √ MultiCAN LQFP-144 SAF-XE167F-48F66LACIN-ND§ 16.58 15.08 SAF-XE167F-48F66L AC
66 PLL/Prescaler/Direct Input √ 576K Flash 2K 118 24/10 11 6xSPILINUARTIICIIS √ MultiCAN LQFP-144 SAF-XE167F-72F66LACIN-ND§ 18.06 16.42 SAF-XE167F-72F66L AC
66 PLL/Prescaler/Direct Input √ 768K Flash 2K 118 24/10 11 6xSPILINUARTIICIIS √ MultiCAN LQFP-144 SAF-XE167F-96F66LACIN-ND§ 17.32 15.75 SAF-XE167F-96F66L AC
66 PLL/Prescaler/Direct Input √ 384K Flash 2K 118 16/10 11 6xSPILINUARTIICIIS √ 2 x CAN LQFP-144 SAF-XE167G-48F66LACIN-ND§ 16.08 14.63 SAF-XE167G-48F66L AC
66 PLL/Prescaler/Direct Input √ 576K Flash 2K 118 16/10 11 6xSPILINUARTIICIIS √ 2 x CAN LQFP-144 SAF-XE167G-72F66LACIN-ND§ 17.57 15.97 SAF-XE167G-72F66L AC
66 PLL/Prescaler/Direct Input √ 768K Flash 2K 118 16/10 11 6xSPILINUARTIICIIS √ 2 x CAN LQFP-144 SAF-XE167G-96F66LACIN-ND§ 15.56 14.15 SAF-XE167G-96F66L AC
66 PLL/Prescaler/Direct Input √ 384K Flash 2K 118 24/10 11 6xSPILINUARTIICIIS √ — LQFP-144 SAF-XE167H-48F66LACIN-ND§ 15.59 14.18 SAF-XE167H-48F66L AC
66 PLL/Prescaler/Direct Input √ 576K Flash 2K 118 24/10 11 6xSPILINUARTIICIIS √ — LQFP-144 SAF-XE167H-72F66LACIN-ND§ 17.07 15.53 SAF-XE167H-72F66L AC
66 PLL/Prescaler/Direct Input √ 768K Flash 2K 118 24/10 11 6xSPILINUARTIICIIS √ — LQFP-144 SAF-XE167H-96F66LACIN-ND§ 14.81 13.47 SAF-XE167H-96F66L AC
66 PLL/Prescaler/Direct Input √ 384K Flash 2K 118 16/10 11 6xSPILINUARTIICIIS √ — LQFP-144 SAF-XE167K-48F66LACIN-ND§ 14.60 13.28 SAF-XE167K-48F66L AC
66 PLL/Prescaler/Direct Input √ 576K Flash 2K 118 16/10 11 6xSPILINUARTIICIIS √ — LQFP-144 SAF-XE167K-72F66LACIN-ND§ 16.08 14.63 SAF-XE167K-72F66L AC
66 PLL/Prescaler/Direct Input √ 768K Flash 2K 118 16/10 11 6xSPILINUARTIICIIS √ — LQFP-144 SAF-XE167K-96F66LACIN-ND§ 14.56 13.24 SAF-XE167K-96F66L AC
20 PLL/Prescaler/Direct Input — — 10K 93 12/10 9 ASCSSCI2CJ1850 √ 2 x CAN TQFP-128 SAK-C161CS-LFCAINCT-ND 32.95 32.13 SAK-C161CS-LF CA
20 PLL/Prescaler/Direct Input — — 10K 93 12/10 9 ASCSSCI2CJ1850 √ 2 x CAN TQFP-128 SAK-C161CS-LFCAINTR-ND◊ 21417.37/1,000 SAK-C161CS-LF CA
25 PLL/Prescaler/Direct Input — 64K OTP 4K 59 8/10 5 ASCSSC √ CAN MQFP-80 SAK-C164CI-8E25MDBIN-ND§ 31.82 29.43 SAK-C164CI-8E25M DB
20 PLL/Prescaler/Direct Input — 64K OTP 4K 59 8/10 5 ASCSSC √ CAN MQFP-80 SAK-C164CI-8EMCBIN-ND§ 25.04 23.17 SAK-C164CI-8EM CB
25 PLL/Prescaler/Direct Input — 32K Flash 8K 111 24/10 9 ASCSSC √ CAN MQFP-144 SAK-C167CS-LMCAIN-ND§ 33.91 31.37 SAK-C167CS-LM CA
25 PLL/Prescaler/Direct Input — 128K Flash 2K 111 16/10 9 ASCSSC — CAN MQFP-144 SAK-C167SR-LMHAIN-ND§ 30.11 27.85 SAK-C167SR-LM HA
20 PLL/Prescaler/Direct Input — 32K Flash 4K 47 14 7 2xASC2xSSC √ TwinCAN TQFP-64 SAK-XC164CM-4F20FAAINCT-ND 20.00 17.51 SAK-XC164CM-4F20F AA
20 PLL/Prescaler/Direct Input — 32K Flash 4K 47 14 7 2xASC2xSSC √ TwinCAN TQFP-64 SAK-XC164CM-4F20FAAINTR-ND◊ 15440.22/1,900 SAK-XC164CM-4F20F AA
40 PLL/Prescaler/Direct Input — 256K Flash 12K 79 14 11 2xASC2xSSC √ TwinCAN TQFP-100 SAK-XC164CS-32F40FBB-AINCT-ND 29.84 29.10 SAK-XC164CS-32F40F BB-A
66 PLL/Prescaler/Direct Input √ 448K Flash 2K 75 8/10 11 2xSPI2xLIN √ 2 x CAN LQFP-100 SAK-XC2264-56F66LACINCT-ND 13.33 12.18 SAK-XC2264-56F66L34 AC
66 PLL/Prescaler/Direct Input √ 448K Flash 2K 75 8/10 11 2xSPI2xLIN √ 2 x CAN LQFP-100 SAK-XC2264-56F66LACINTR-ND◊ 10791.20/1,400 SAK-XC2264-56F66L34 AC
66 PLL/Prescaler/Direct Input √ 448K Flash 2K 75 16/10 15 6xSPILINUARTIICIIS √ MultiCAN LQFP-100 SAK-XC2267-56F66LACINCT-ND 15.48 14.14 SAK-XC2267-56F66L34 AC
66 PLL/Prescaler/Direct Input √ 448K Flash 2K 75 16/10 15 6xSPILINUARTIICIIS √ MultiCAN LQFP-100 SAK-XC2267-56F66LACINTR-ND◊ 12534.20/1,400 SAK-XC2267-56F66L34 AC
80 PLL/Prescaler/Direct Input √ 768K Flash 2K 75 16/10 15 6xSPILINUARTIICIIS √ MultiCAN LQFP-100 SAK-XC2267-96F66LACINCT-ND 16.79 15.34 SAK-XC2267-96F66L82 AC
80 PLL/Prescaler/Direct Input √ 768K Flash 2K 75 16/10 15 6xSPILINUARTIICIIS √ MultiCAN LQFP-100 SAK-XC2267-96F66LACINTR-ND◊ 13595.40/1,400 SAK-XC2267-96F66L82 AC
66 PLL/Prescaler/Direct Input √ 448K Flash 2K 118 24/10 15 6xSPILINUARTIICIIS √ MultiCAN LQFP-144 SAK-XC2287-56F66L34ACINCT-ND 20.44 18.67 SAK-XC2287-56F66L34 AC
66 PLL/Prescaler/Direct Input √ 448K Flash 2K 118 24/10 15 6xSPILINUARTIICIIS √ MultiCAN LQFP-144 SAK-XC2287-56F66L34ACINTR-ND◊ 6442.50/500 SAK-XC2287-56F66L34 AC
66 PLL/Prescaler/Direct Input √ 768K Flash 2K 118 24/10 15 6xSPILINUARTIICIIS √ MultiCAN LQFP-144 SAK-XC2287-96F66L82ACINCT-ND 20.93 20.42 SAK-XC2287-96F66L82 AC
66 PLL/Prescaler/Direct Input √ 768K Flash 2K 118 24/10 15 6xSPILINUARTIICIIS √ MultiCAN LQFP-144 SAK-XC2287-96F66L82ACINTR-ND◊ 7939.13/500 SAK-XC2287-96F66L82 AC
66 PLL/Prescaler/Direct Input √ 768K Flash 2K 75 16/10 17 USIC √ 2 x CAN LQFP-100 SAK-XC2766X-96F66LACINCT-ND 19.63 17.93 SAK-XC2766X-96F66L AC
66 PLL/Prescaler/Direct Input √ 768K Flash 2K 75 16/10 17 USIC √ 2 x CAN LQFP-100 SAK-XC2766X-96F66LACINTR-ND◊ 15890.00/1,400 SAK-XC2766X-96F66L AC
66 PLL/Prescaler/Direct Input √ 768K Flash 2K 116 24/10 17 USIC √ 2 x CAN LQFP-144 SAK-XC2786X-96F66LACINCT-ND 20.08 19.58 SAK-XC2786X-96F66L AC
66 PLL/Prescaler/Direct Input √ 768K Flash 2K 116 24/10 17 USIC √ 2 x CAN LQFP-144 SAK-XC2786X-96F66LACINTR-ND◊ 13052.00/1,000 SAK-XC2786X-96F66L AC
◊ Tape and Reel § Tray
Starter Kits / Evaluation Boards
B158-H8961-X-X-7600IN-ND Easy Kit or XC164CM Mini Evaluation Board ............................... $215.33
B158-H8962-X-X-7600IN-ND Easy Kit or XC164CS Mini Evaluation Board ................................ $324.08
Infineon
Part No.
B158-H8048-X-X-7600IN-ND Full Starter Kit or XC161 ................................................... $458.79
B158-H8963-X-X-7600IN-ND Easy Kit or XC167CI Mini Evaluation Board ................................ $324.08
®
C
32-Bit
The TriCore is the irst uniied, sinle-core, 32-it microcontroller-DSP architecture optimized or real-time emedded
systems. The TriCore Instruction Set Architecture ISA comines the real-time capaility o a microcontroller, the
computational power o a DSP, and the hih perormance/price eatures o a RISC load/store architecture, in a compact
re-programmable core.
Max.
CPU
Clock
SRAM
ROM/OTP/
Flash/
eDRAM I/O
Digi-Key
Cut Tape
Price Each Infineon
(MHz) FPU MMU PCP (Byte)
(Byte) Lines CAN Package Part No.
1 10 Part No.
66 √ — — 48K 1M Flash 81 — LQFP-176 SAF-TC1161-128F66HLAAIN-ND§ 27.20 26.53 SAF-TC1161-128F66HL AA
66 √ — — 48K 1M Flash 81 MultiCAN LQFP-176 SAF-TC1162-128F66HLAAIN-ND§ 28.80 28.09 SAF-TC1162-128F66HL AA
80 √ — √ 80K 1.5M Flash 81 — LQFP-176 SAF-TC1165-192F80HLAAIN-ND§ 32.96 32.14 SAF-TC1165-192F80HL AA
80 √ — √ 80K 1.5M Flash 81 MultiCAN LQFP-176 SAF-TC1166-192F80HLAAIN-ND§ 34.56 33.70 SAF-TC1166-192F80HL AA
80 √ — √ 32K 1M Flash 81 MultiCAN LQFP-176 SAK-TC1762-128F80HLACINCT-ND 39.65 38.67 SAK-TC1762-128F80HL AC
80 √ — √ 32K 1M Flash 81 MultiCAN LQFP-176 SAK-TC1762-128F80HLACINTR-ND◊ 13630.50/500 SAK-TC1762-128F80HL AC
◊ Tape and Reel § Tray
Starter Kits
B158-H8539-G2-X-7600IN-ND Full Starter Kit or TC176X ............................................... $1133.01 B158-H8537-G2-X-7600IN-ND Full Starter Kit or TC179X ............................................... $1133.01
®
For Digi-Reel ® information, please see page 71.
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
199
199

NEW! SmartLEWIS Microcontrollers
®
The SmartLEWIS MCU amily comprises an ASK/FSK multiand transmitter or the su 1GHz ISM reuency ands with
an emedded 8051 microcontroller as ase unctionality. Additionally, the hihly interated sinle chip amily has internal
sensors and optional peripheral unctions lie an analo to diital converter ADC and a LF receiver on chip. The hih
eiciency power ampliier and an advanced power control system mae the PMA51xx amily ideal or attery operated
applications where low current consumption is necessary. The pin-compatible product family requires only a few external
components and is the basis for flexible wireless control transmitter platforms enabling applications for different frequency
bands, output power levels and feature sets based on only one design - just through different mounting options.
Dependin on the product variant, PMA51xx oers an emedded multi-channel 10-it analo to diital converter with
lexile hih-ain settins as interace or a road variety o analo sensors and an interated 125Hz LF receiver. The LF
receiver enables wireless wake-up in battery operated applications with ultra-long lifetime or even contactless configuration
of the device.
Frequency
(MHz)
Data
Rate
(Max.)
Modulation
or
Protocol
Applications
Power
Output
Voltage
Supply
(V)
Current
Transmitting Data
(mA) Interface
Operating
Temperature
Package
Digi-Key
Part No.
Cut Tape
Price Each
1 10
Digi-Key
Part No.
Tape and Reel
Pricing
3,000
Infineon
Part No.
315, 434, 868, 915 20ps ASK, FSK RKE, Security Systems 10dBm 1.9 3.6 17.1 PCB -40°C 125°C 38-TSSOP PMA5105INCT-ND 3.47 2.98 PMA5105INTR-ND 1339.00/M PMA5105
315, 434, 868, 915 20ps ASK, FSK RKE, Security Systems 10dBm 1.9 3.6 17.1 PCB -40°C 125°C 38-TSSOP PMA5110INCT-ND 4.04 3.64 PMA5110INTR-ND 1790.00/M PMA5110
C
315, 434, 868, 915 20ps ASK, FSK Remote Control, Remote Metering 10dBm 1.9 3.6 17.1 PCB -40°C 125°C 38-TSSOP PMA7105INCT-ND 3.15 2.70 PMA7105INTR-ND 1214.00/M PMA7105
315, 434, 868, 915 20ps ASK, FSK Remote Control, Remote Metering 10dBm 1.9 3.6 17.1 PCB -40°C 125°C 38-TSSOP PMA7106INCT-ND 3.07 2.77 PMA7106INTR-ND 1361.00/M PMA7106
315, 434, 868, 915 20ps ASK, FSK General Purpose 10dBm 1.9 3.6 17.1 PCB -40°C 85°C 38-TSSOP PMA7107INCT-ND 3.35 3.02 PMA7107INTR-ND 1484.00/M PMA7107
315, 434, 868, 915 20ps ASK, FSK General Purpose 10dBm 1.9 3.6 17.1 PCB -40°C 85°C 38-TSSOP PMA7110INCT-ND 3.63 3.27 PMA7110INTR-ND 1608.00/M PMA7110
Embedded Workbench ®
for ARM
IAR Emedded Worench is a set o hihly sophisticated and easy-to-use development tools or em edded applications.
It interates the IAR C/C Compiler, assemler, liner, lirarian, text editor, proect manaer and C-SP® Debugger in
an interated development environment IDE.
EWARM-ND Full Edition ...............................................................................$6143.98
EWARMBL-ND Baseline Edition, 256K ....................................................................$3543.99
J-Link for ARM
J-Lin is a small USB-JTAG/SWD deu proe or ARM processors. IAR J-Lin interates seamlessly into IAR Emedded
Workbench and is fully plug-and-play compatible.
Any ARM7/ARM9/ARM11/Cortex-M3 core supported, includin oth JTAG and SWD SWD support ETB support
Download speed up to 600KB/sec DCC speed up to 800KB/sec Full interation into IAR Emedded Worench
No power supply reuired, powered via USB Maximum JTAG speed 12 MHz Automatic core reconition 20-pin
standard JTAG connector
JLINK-ARM-ND ................................................................................................$295.00
PK51 Professional
Developer’s Kit
The PK51 Proessional Developers Kit or the 8051 microcontroller amily supports all 8051 derivatives includin new
devices with extended memory and instruction sets. On-chip peripherals and other ey eatures o the 8051 are easy to
access with the PK51 Proessional Developers Kit.
PK51-ND .....................................................................................................$3295.00
CA51 Compiler Kit
The CA51 Compiler Kit or the 8051 microcontroller amily supports all 8051 derivatives includin classic devices and IP
cores rom companies lie Analo Devices, Atmel, Cypress Semiconductor, Dallas Semiconductor, Inineon, Intel, NXP,
Silicon Las, STMicroelectronics, Texas Instruments, and Winond. On Chip peripherals and other ey eatures o the
8051 are easy to access with the CA51 Compiler Kit.
CA51-ND .....................................................................................................$1895.00
RealView ® Microcontroller
Development Kits
The RealView Microcontroller Development Kit MDK supports ARM7, ARM9, and Cortex-M3 technoloy-ased
microcontrollers rom Analo Devices, Atmel, Freescale, Luminary, NXP, OKI, Samsun, Sharp, STMicroelectronics, and
Texas Instruments. The MDK-ARM-Basic oers all the eatures o the standard version o MDK-ARM with a code size
restriction o 256KB.
MDK-ARM-ND ARM Development Kit .........................................................$4895.00
MDK-ARM-BASIC-ND NEW! ARM Development Kit ................................................$2895.00
RealView ® Real-Time Library
The RealView Real-Time Library is a collection of tightly-coupled libraries that are designed to solve the real-time and
communication challenes o emedded systems ased on ARM powered MCU devices. It also includes several drivers
that interface the RTX Real-Time with various communication interfaces.
RTL-ARM-ND .................................................................................................$4195.00
MCB2470 Evaluation Board
The MCB2470 Evaluation Board introduces the NXP LCP2470 ARM amily, allowin you to create and test worin
prorams or this architecture. Featurin the NXP MCP2478 MCU, the MCB2470 eatures a rane o interaces such as
3.2 Color QVGA LCD display with touch screen, USB Host and OTG, CAN, Ethernet, SD/MMC cards and UARTs.
MCB2470-ND ..................................................................................................$370.00
KickStart Kit for
STM32
IAR KicStart Kit or STM32 contains all the necessary hardware and sotware and allows you to desin, develop,
interate and test your applications
STM32 development board IAR visualSTATE evaluation edition, 20-state limitation includin example proects IAR
PowerPac or ARM evaluation edition includin oard support IAR Emedded Worench with a 32KB edition o IAR
C/C Compiler includin example proects IAR J-LINK JTAG deuer Micrium board support
KSDKSTM32-PL-ND ...........................................................................................$495.00
KickStart Kit for LPC2478
IAR KicStart Kit or LPC2478 contains all the necessary hardware and sotware and allows you to desin, develop,
interate and test your applications
LPC2478 development oard IAR visualSTATE evaluation edition IAR PowerPac or ARM evaluation edition IAR
Emedded Worench or ARM 32KB limited edition IAR J-Lin or ARM Example applications or the LPC2478 oard
rom IAR Systems IAR PowerPac oard support pacae Micrium board support package
KSDKLPC2478-PL-ND .........................................................................................$495.00
MCB950 Evaluation Board
The MCB950 Evaluation Board is a versatile, lexile prototype oard or the NXP P89LPC952 microcontroller amily. It
includes the Keil Vision LPC Development Studio which allows you to create and debug programs that program into the
on-chip Flash ROM using FlashMagic.
MCB950-ND ...................................................................................................$129.00
MCBTMPM330 Evaluation Board
The MCBTMPM330 Evaluation Board introduces you to the Toshia TMPM330 amily o ARM Cortex-M3 processorbased
devices and allows you to create and test working programs for this advanced architecture. With an analog input
via potentiometer, three switches, our LEDs and access to all 79 GPIO Pins, this oard is a reat startin point or your
next Cortex-M3 project.
MCBTMPM330-ND .............................................................................................. $80.00
MCBXC167 Evaluation Board
The MCBXC167 Evaluation Board introduces you to the Inineon XC16x microcontroller amily and allows you to create
and test working programs for this advanced architecture. The oard connects to your PC usin the serial port or Flash
download or the OCDS interace or proram deu usin Keil ULINK USB-JTAG Adapter and the Vision IDE and
Deuer.
MCBXC167-BASIC-ND .........................................................................................$149.00
MCBX51 Evaluation Board
The MCBX51 sinle-oard computer is an evaluation oard that supports numerous 8051-compatile and 251-compatile
devices. The MCBX51 allows you to investiate the capailities o the 8051 and 251 and create real worin prorams
with the Keil development tools. The MCBX51 wors with any 44-pin 8051-compatile or 251-compatile device.
MCBX51-ND ...................................................................................................$295.00
ULINK ® USB-JTAG Adapter
ULINK2: The ULINK USB Interace Adapter connects your PCs USB port to your taret hardware via JTAG or OCDS
and allows you to debug embedded programs running on target hardware. Supports various 8051, C166, and ARM7,
ARM9, and Cortext-Mx devices. ULINKPRO: Debug unit that allows real-time data and instruction trace streaming via
USB. Supports ARM7, ARM9, and Cortex-Mx devices. Data and Instruction Trace or Cortex-M3 systems. Hih-Speed
Flash Download.
ULINK2-ND ....................................................................................................$395.00
ULINKPRO-ND .............................................................................................. $1395.00
®
For Digi-Reel ® information, please see page 71.
200 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

NEW!
Flasher ARM
Flasher ARM is a programming tool for microcontrollers with on-chip or external Flash memory and ARM core. Flasher
ARM is desined or prorammin lash tarets with the J-Flash sotware or stand-alone. Main Features: Stand-alone
JTAG/SWD prorammer Once set up, Flasher can e controlled without the use o PC proram Support or ARM 7/9
and Cortex-M3 No power supply required, powered through USB
899-1002-ND 5.07.01 FLASHER ARM ................................................................... $847.88
Flasher 5
Flasher 5 is a prorammin tool or ST9 and Renesas M16C/20, M16C/62, M16C/80, M32C, R8C, R32C, M38 and M79
series o lash microcontrollers in serial mode 1.5MByte FLASH to store taret proram, remote control unctions
or automated testers Main Features: Serial in taret prorammin supported PC program allows batch mode
processing for usage in automated test systems Once set up, Flasher can be controlled without the use of PC program
899-1001-ND 5.05.01 FLASHER 5 ....................................................................... $422.88
Flasher ST7
Flasher ST7 is a prorammin tool or ST7 series o lash microcontrollers Main Features: Small, compact housing
Easy to use windows program 512KByte internal Flash memory to store taret proram
899-1000-ND 5.04.01 FLASHER ST7 .................................................................... $529.13
J-Link ARM Pro
J-Lin ARM Pro is a reined version o the reular J-Lin. It has an Ethernet interace in addition to the USB interace, as
well as two additional LEDs which are used as hardware status indicators. It connects via Ethernet or USB to the Windows
2000/XP/Vista PC host. Main Features: Fully compatile to J-Lin ARM Ethernet interface USB 2.0 interace
Any ARM 7/9/11, Cortex-M3 core supported, includin thum mode Automatic core recognition Maximum JTAG
speed 12MHz Seamless interation into the IAR Emedded Worench IDE Powered through USB or power supply
which comes with J-Lin ARM Pro All JTAG sinals can e monitored, taret voltae can e measured Standard
20-pin JTAG connector Wide taret voltae rane 1.2V 3.3V, 5V tolerant USB and 20-pin rion cale included
Memory viewer J-Mem included Comes with licenses or J-Lin ARM RDI, J-Lin ARM FlashBP, J-Lin ARM GDB
Server, J-Flash ARM
899-1007-ND 8.12.00 J-LINK ARM-PRO................................................................ $1060.38
Flasher STM 8
ARM Development Tools
Flasher STM 8 is a programming tool for microcontrollers with on-chip Flash memory and STM8 core. Flasher STM
8 is designed for programming flash targets with a PC program or stand-alone. Flasher STM 8 connects via USB, via
ethernet or via RS232 interace to a PC, runnin Microsot Windows 2000, Windows XP, Windows 2003, Windows Vista
or Windows 7. Flasher STM 8 has a uilt-in 10-pin interace connector and a uilt-in 4-pin interace connector, which are
compatible with the debug connectors used by STM8 eval systems. Features: Three oot modes PC mode, standalone
mode, MSD mode Stand-alone SWIM prorammer Once set up, Flasher can e controlled without the use o
PC proram No power supply required, powered through USB Support for all STM8 devices 128MB memory for
storage of target program Serial in target programming supported Data files can be update via PC program
899-1009-ND 5.09.01 FLASHER STM 8 .................................................................. $791.97
J-Trace ARM
J-Trace or ARM is a hih speed hardware trace proe or ARM. It connects via USB to the PC host runnin Windows.
J-Trace interates seamlessly into a wide rane o IDEs, is ully plu-and-play compatile and in addition it is very easy
to use. Main Features: Supports all ARM7 and ARM9 devices No power supply required, powered through USB,
although external power supply plug is available Auto speed recognition Interation into IAR Emedded Worench
for ARM makes setup and use easy
899-1006-ND 8.10.00 J-TRACE ARM ................................................................. $1326.00
JTAG Isolator
The J-Lin JTAG Isolator can e connected etween J-Lin ARM and any ARM-oard that uses the standard 20-pin
JTAG-ARM connector to provide electrical isolation. The product is compatile with J-Lin ARM, J-Lin ARM Pro and
Flasher ARM. Main Features: 1kV DC isolation 3.3V and 5V taret operation supported Powered from emulator
and target JTAG standard 20-pin connection supportin TRST, TDI, TMS, TCK, RTCK, TDO and RESET sinals Power
consumption on taret side 50mA JTAG reuency Up to 4MHz 3 LEDs to indicate emulator power, target power
and target RESET
899-1003-ND 8.07.00 JTAG ISOLATOR ................................................................ $263.50
J-Link ARM, Educational Version
J-Lin is a USB powered JTAG emulator or ARM cores. It connects via USB to the Windows 200/XP/Vista PC host.
Main Features: Direct download into flash memory of most popular microcontrollers supported USB 2.0 interace
Any ARM7/ARM9/ARM11, Cortex-M0/M1/M3 core support, includin thum mode Serial Wire Deu SWD
support Serial Wire Viewer SWV support JTAG speed up to 12MHz Download speed up to 720Kytes/second
ARM750MHz, 12MHz JTAG speed No power supply required, powered through USB All JTAG sinals can e
monitored, target voltage can be measured Standard 20-pin JTAG connector Wide taret voltae rane 1.2V 3.3V,
5V tolerant USB and 20-pin rion cale included Taret power supply J-Lin can supply up to 300mA to taret with
overload protection
899-1008-ND 8.08.90 J-LINK EDU .......................................................................$63.75
J-Link ARM
J-Lin is a USB powered JTAG emulator or ARM cores. It connects via USB to the Windows 200/XP/Vista PC host.
Main Features: Direct download into flash memory of most popular microcontrollers supported USB 2.0 interace
Any ARM7/ARM9/ARM11, Cortex-M0/M1/M3 core support, includin thum mode Serial Wire Deu SWD
support Serial Wire Viewer SWV support JTAG speed up to 12MHz Download speed up to 720Kytes/second
ARM750MHz, 12MHz JTAG speed No power supply required, powered through USB All JTAG sinals can e
monitored, target voltage can be measured Standard 20-pin JTAG connector Wide taret voltae rane 1.2V 3.3V,
5V tolerant USB and 20-pin rion cale included Taret power supply J-Lin can supply up to 300mA to taret with
overload protection
899-1004-ND 8.08.00 J-LINK ARM .................................................................... $317.69
J-Link ARM-14
Converts 20-pin interace to 14-pin interace. Compatile with J-Lin ARM and J-Lin ARM Pro.
899-1005-ND 8.08.01 J-LINK ARM-14 ...................................................................$69.06
C
Digital Signal Processors
ADIs emedded architectures eature simple yet powerul prorammin models and are supported y hih uality development tools.
TigerSHARC ® Processors
This amily oers the industrys hihest perormance per watt and per suare inch o oard space or the most demandin sinal and imae processin applications. The TierSHARCs patented lin port technoloy allows
lueless interprocessor communication with arrays o two or more TierSHARC Processors.
MMACs
On-Chip Memory
(M-Bit)
External Memory
(M-Bit)
Parallel
Bus
Core Voltage / IO
(V)
Clock Speed
(MHz)
Package
Digi-Key
Part No.
Price Each
1 25 100
Evaluation
Platform
Development
Software
2000 6 32/64 es 1.2/3.3 300 625-BGA ADSP-TS101SAB1000-ND 326.12 304.38 282.64 ADDS-TS101S-ELITE VDSP-TS-PC-FULL
SHARC ® DSPs
MMACs
Usin ADIs Super Harvard architecture, the SHARC amily is optimized to enale a variety o real-time emedded sinal processin applications and is nown as a leader in premium audio applications.
MFLOPs
On-Chip
SRAM
(M-Bit)
On-Chip
ROM
(M-Bit)
Serial
Ports
Link
Ports
Core
Voltage
(V)
Clock
Speed
(MHz)
Package
Digi-Key
Part No.
Price Each
1 25 100
Evaluation
Platform
Development
Software
40 120 2 0 2 6 3.3 40 225-BGA ADSP-21062LKB-160-ND 259.02 241.76 224.49 ADDS-21262-ELITE VDSP-SHARC-PC-FULL
66 180 0.5 0 2 0 3.3 66 208-MQFP ADSP-21065LKS-240-ND 37.44 34.95 32.45 ADDS-21065L-ELITE VDSP-SHARC-PC-FULL
400 1200 2 4 6 0 1.2 200 136-CSPBGA ADSP21262SKBC200-ND 25.73 24.01 22.30 ADDS-21262-ELITE VDSP-SHARC-PC-FULL
400 1200 2 4 6 0 1.2 200 144-LQFP ADSP-21262SKST200-ND 27.02 25.22 23.42 ADDS-21262-ELITE VDSP-SHARC-PC-FULL
666 2700 3 4 6 4 1.2 333 144-LQFP ADSP-21363KSW-1AA-ND 36.41 33.98 31.56 — —
800 2400 2 6 8 4 1.3 400 256-SBGA ADSP-21369BBP-2A-ND 49.22 45.94 42.66 ADS-21369-ELITE VDSP-SHARC-PC-FULL
800 2400 2 6 8 4 1.3 400 256-SBGA ADSP-21369KBP-2A-ND 39.38 36.75 34.13 ADS-21369-ELITE VDSP-SHARC-PC-FULL
800 2400 2 6 8 4 1.3 400 256-SBGA ADSP-21369KBP-3A-ND 49.22 45.94 42.66 ADS-21369-ELITE VDSP-SHARC-PC-FULL
800 2400 2 6 8 0 1.3 400 208-LQFP ADSP-21369KSW-5A-ND◆ NEW! 44.31 41.36 38.41 ADS-21369-ELITE VDSP-SHARC-PC-FULL
532 1596 1 4 8 0 1.2 266 208-LQFP ADSP-21371BSW-2B-ND 25.28 23.59 21.91 — —
532 1596 1 4 8 0 1.2 266 208-LQFP ADSP-21371KSW-2B-ND 21.06 19.66 18.26 — —
◆ RoHS Compliant
(Continued)
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
201
201

Digital Signal Processors (Cont.)
ADSP-21xx/2199x and Mixed-Signal DSPs
The ADSP-21xx amily architecture is uilt around a common instruction set architecture. All amily memers are code-compatile, ixed-point 16-it DSPs. In addition, the ADSP-2199x amily o mixed-sinal DSPs provides a sinle-chip solution with
signal processing and 14-bit ADC mixed signal integration.
Program Data External
Core
Clock
RAM Words RAM Words Memory Bus Host
SPI / Voltage
Speed
Digi-Key
Price Each Evaluation
Development
(KWords) (KWords) (Bits) Port SPORT UART Timers (V) ADC (MHz) Package Part No.
1 25 100 Platform
Software
2 1 16 No 2 No 1 5 — 25 68-PLCC ADSP-2101BP-100-ND 51.71 48.26 44.82 — VDSP-21XX-PC-FULL
1 0.5 24 No 1 No 1 5 — 20 68-PLCC ADSP-2105BP-80-ND 23.66 22.08 20.51 — VDSP-21XX-PC-FULL
1 0.5 24 No 2 No 1 5 — 25 68-PLCC ADSP-2115BP-100-ND 32.97 30.78 28.58 — VDSP-21XX-PC-FULL
16 16 24 No 2 No 1 5 — 33.3 128-PQFP ADSP-2181BSZ-133-ND 38.67 36.10 33.52 — VDSP-21XX-PC-FULL
4 4 24 No 2 No 1 5 — 40 100-LQFP ADSP-2184BST-160-ND 15.71 14.66 13.62 ADDS-2189M-ELITE VDSP-21XX-PC-FULL
C
16 16 24 No 2 No 1 5 — 33.3 100-LQFP ADSP-2185BST-133-ND 42.53 39.69 36.86 ADDS-2189M-ELITE VDSP-21XX-PC-FULL
16 16 24 es 2 No 1 1.8 — 80 100-LQFP ADSP-2185NKST-320-ND 17.69 16.51 15.33 ADDS-2189M-ELITE VDSP-21XX-PC-FULL
32 48 24 es 2 No 1 1.8 — 80 100-LQFP ADSP-2189NBST-320-ND 39.30 36.68 34.06 ADDS-2189M-ELITE VDSP-21XX-PC-FULL
32 32 16 es 3 es 3 2.5 — 160 144-LQFP ADSP-2191MKST-160-ND 29.13 27.19 25.25 ADDS-2191-ELITE VDSP-21XX-PC-FULL
32 16 24 es 1 es 3 2.5
Dual Ch.,14-Bit
20 MSPS
160 176-LQFP ADSP-21992BST-ND 44.21 41.26 38.32 ADDS-21992-ELITE VDSP-21XX-PC-FULL
Blackfin ® Processors
MMACs
Max.
Memory
(kBytes)
A new reed o emedded media processor desined speciically to meet the computational demands and power constraints o todays emedded audio, video and communications applications. Blacin Processors comine a
32-it RISC-lie instruction set and dual 16-it Multiply Accumulate sinal processin unctionality with the ease-o-use attriutes ound in eneral purpose microcontrollers.
External
Memory
Bus
PCI
USB
Device
UARTs
Timers
Watchdog
Timer/RTC
Core
Voltage
(V) Max.
Blackfin ® DSP uClinux Kernel Board Support Package for the ADSP-BF537/533 Processor
Clock
Speed
(MHz)
Package
The STAMP includes an ADSP-BF533 development board and a recent copy of the open source development tools (GCC 3.3.x) and the uClinux 2.6.x Kernel. The CD also includes documentation, board schematics,
Gerbers, and layout files. The latest version of all the tools can be found on the http://blackfin.uclinux.org website.
ADZS-BF537-STAMP-ND RoHS Compliant.................................................................................................................................................................................... $215.05
AD7940-DBRD-ND Evaluation Board for AD7940 Stamp SPI .................................................................................................................................................................$37.95
Digi-Key
Part No.
Price Each
1 25 100
Evaluation
Platform
Development
Software
1200 132 16-Bit No es es es 1.26 600 208-CSPBGA ADSP-BF523BBC-5A-ND NEW! 20.19 18.85 17.50 ADS-BF527-ELITE VDSP-BLKFN-PC-FULL
1200 132 16-Bit No es es es 1.26 600 289-CSPBGA ADSP-BF523KBC-5C2-ND NEW! 23.45 21.89 20.32 ADS-BF527-ELITE VDSP-BLKFN-PC-FULL
1200 132 16-Bit No es es es 1.26 600 208-CSPBGA ADSP-BF525KBC-6A-ND NEW! 28.07 26.20 24.33 ADS-BF527-ELITE VDSP-BLKFN-PC-FULL
1200 132 16-Bit No es es es 1.26 600 289-CSPBGA ADSP-BF525KBC-6C2-ND NEW! 31.50 29.40 27.30 ADS-BF527-ELITE VDSP-BLKFN-PC-FULL
1200 132 16-Bit No es es es 1.26 600 208-CSPBGA ADSP-BF527BBC-5A-ND NEW! 25.49 23.79 22.09 ADS-BF527-ELITE VDSP-BLKFN-PC-FULL
1200 132 16-Bit No es es es 1.26 600 289-CSPBGA ADSP-BF527KBC-5C2-ND NEW! 28.86 26.94 25.02 ADS-BF527-ELITE VDSP-BLKFN-PC-FULL
1200 132 16-Bit No es es es 1.26 600 208-CSPBGA ADSP-BF527KBC-6A-ND NEW! 30.84 28.79 26.73 ADS-BF527-ELITE VDSP-BLKFN-PC-FULL
1200 132 16-Bit No es es es 1.26 600 289-CSPBGA ADSP-BF527KBC-6C2-ND NEW! 34.34 32.05 29.76 ADS-BF527-ELITE VDSP-BLKFN-PC-FULL
800 52 16-Bit No No es es 1.2 400 160-CSPBGA ADSP-BF531SBBC400-ND 16.14 14.54 12.89 ADS-BF533-ELITE VDSP-BLKFN-PC-FULL
800 52 16-Bit No No es es 1.2 400 176-LQFP ADSP-BF531SBST400-ND 14.83 13.35 11.84 ADS-BF533-ELITE VDSP-BLKFN-PC-FULL
800 84 16-Bit No No es es 1.2 400 160-MBGA ADSP-BF532SBBC400-ND 16.46 15.36 14.27 ADS-BF533-ELITE VDSP-BLKFN-PC-FULL
800 84 16-Bit No No es es 1.2 400 176-LQFP ADSP-BF532SBST400-ND 15.54 14.00 12.41 ADS-BF533-ELITE VDSP-BLKFN-PC-FULL
1500 148 16-Bit No No es es 1.3 400 160-CSPBGA ADSP-BF533SBBC400-ND 18.78 17.53 16.28 ADS-BF533-ELITE VDSP-BLKFN-PC-FULL
1500 148 16-Bit No No es es 1.4 500 169-BGA ADSP-BF533SBB500-ND 26.55 24.78 23.01 ADS-BF533-ELITE VDSP-BLKFN-PC-FULL
1500 148 16-Bit No No es es 1.4 500 160-MBGA ADSP-BF533SBBC500-ND 23.00 21.47 19.93 ADS-BF533-ELITE VDSP-BLKFN-PC-FULL
1500 148 16-Bit No No es es 1.3 600 160-MBGA ADSP-BF533SKBC-6V-ND 30.29 28.27 26.25 ADS-BF533-ELITE VDSP-BLKFN-PC-FULL
800 132 16-Bit No No es es 1.2 400 182-CSPBGA ADSP-BF534BBC-4A-ND 18.60 17.36 16.12 ADS-BF537-ELITE VDSP-BLKFN-PC-FULL
1000 132 16-Bit No No es es 1.2 500 182-CSPBGA ADSP-BF534BBC-5A-ND 23.09 21.55 20.01 ADS-BF537-ELITE VDSP-BLKFN-PC-FULL
700 308 32-Bit es es es es 1.6 300 260-BGA ADSP-BF535PKB-300-ND 51.60 48.16 44.72 ADDS-BF535-ELITE VDSP-BLKFN-PC-FULL
800 100 16-Bit No No es es 1.2 400 182-CSPBGA ADSP-BF536BBC-4A-ND 19.67 18.36 17.05 ADS-BF537-ELITE VDSP-BLKFN-PC-FULL
1000 132 16-Bit No No es es 1.2 500 182-CSPBGA ADSP-BF537BBC-5AV-ND 28.64 26.73 24.82 ADS-BF537-ELITE VDSP-BLKFN-PC-FULL
1200 132 16-Bit No No es es 1.2 600 182-CSPBGA ADSP-BF537KBC-6AV-ND 31.80 29.68 27.56 ADS-BF537-ELITE VDSP-BLKFN-PC-FULL
1000 148 16-Bit No No es es 1.2 400 316-CSPBGA ADSP-BF538BBC-4F8-ND 30.39 28.37 26.34 ADS-BF538F-ELITE VDSP-BLKFN-PC-FULL
1000 148 16-Bit No No es es 1.2 500 316-CSPBGA ADSP-BF538BBC-5A-ND 24.42 22.80 21.17 ADS-BF538F-ELITE VDSP-BLKFN-PC-FULL
1000 148 16-Bit No No es es 1.2 500 316-CSPBGA ADSP-BF538BBC-5F8-ND 31.01 28.94 26.88 ADS-BF538F-ELITE VDSP-BLKFN-PC-FULL
1200 132 16-Bit No es es es 1.43 600 400-CSBGA ADSP-BF542BBC-5A-ND 26.10 24.36 22.62 ADS-BF548-ELITE VDSP-BLKFN-PC-FULL
1200 260 16-Bit No es es es 1.43 600 400-CSBGA ADSP-BF547BBC-5A-ND 30.17 28.16 26.15 ADS-BF548-ELITE VDSP-BLKFN-PC-FULL
1200 324 16-Bit es es es es 1.43 600 400-CBGA ADSP-BF547MBBC-5M-ND 30.17 28.16 26.15 ADS-BF548-ELITE VDSP-BLKFN-PC-FULL
1066 260 16-Bit No es es es 1.43 533 400-CSBGA ADSP-BF548BBC-5A-ND 31.07 29.00 26.93 ADS-BF548-ELITE VDSP-BLKFN-PC-FULL
2400 328 32-Bit No No es es/No 1.2 500 297-PBGA ADSP-BF561SBB500-ND 41.82 39.04 36.25 ADS-BF561-ELITE VDSP-BLKFN-PC-FULL
2400 328 32-Bit No No es es/No 1.2 600 297-PBGA ADSP-BF561SBB600-ND 48.75 45.50 42.25 ADS-BF561-ELITE VDSP-BLKFN-PC-FULL
2400 328 32-Bit No No es es/No 1.2 600 297-PBGA ADSP-BF561SKB600-ND 44.78 41.79 38.81 ADS-BF561-ELITE VDSP-BLKFN-PC-FULL
2400 328 32-Bit No No es es/No 1.2 500 256-CPBGA ADSP-BF561SBBC-5A-ND 31.76 29.64 27.53 ADS-BF561-ELITE VDSP-BLKFN-PC-FULL
2400 328 32-Bit No No es es/No 1.2 600 256-CPBGA ADSP-BF561SKBC-6A-ND 43.70 40.79 37.87 ADS-BF561-ELITE VDSP-BLKFN-PC-FULL
2400 328 32-Bit No No es es/No 1.2 500 256-CSPBGA ADSP-BF561SKBC-5V-ND 41.55 38.78 36.01 ADS-BF561-ELITE VDSP-BLKFN-PC-FULL
2400 328 32-Bit No No es es/No 1.2 600 256-CSPBGA ADSP-BF561SKBC-6V-ND 46.04 42.97 39.90 ADS-BF561-ELITE VDSP-BLKFN-PC-FULL
Emulator Development Tools
Analog Devices cost-effective Universal Serial Bus (USB)-based emulator and High performance (HP) Universal Serial Bus
(USB)-based emulator each provide an easy, portable, non-intrusive, target-based debugging solution for Analog Devices
JTAG processors and DSPs. These powerful USB-based emulators perform a wide range of emulation functions, including
single-step and full speed execution with pre-defined breakpoints, and viewing and/or altering of register and memory
contents. With the ability to automatically detect and support multiple I/O voltages, the USB and HP USB emulators enable
users to communicate with all of the Analog Devices JTAG processors and DSPs using either a full speed USB 1.1 or high
speed USB 2.0 port on the host PC.
Analog Devices Blackfin emulator, ADZS-ICE-100B, is an easy, portable, nonintrusive, target-based debugging solution.
The emulator performs a wide range of emulation functions, including single-step and full-speed execution with predefined
breakpoints, and viewing and/or altering of register and memory contents. The Blackfin emulator enables users to
communicate with Analog Devices Blackfin processors using a high speed USB 2.0 port on the host PC.
Features: All emulators require VisualDSP++ software for the cor responding processor.
Digi-Key
Part No.
Price
Each
ADDS-HPPCI-ICE-ND 4250.00
ADZS-HPUSB-ICE-ND◆ 4350.00
ADZS-USB-ICE-ND◆ 1305.00
ADZS-ICE-100B-ND◆ NEW! 163.13
◆ RoHS Compliant
(Continued)
202 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Digital Signal Processors (Cont.)
EZ-KIT Lite Evaluation Kits, Multimedia Kits, Audio Starter Kits and Extender Boards
EZ-KIT Lite Evaluation Kits: Features: The EZ-KIT Lite provides an easy way to evaluate the power
of ADI’s processors and begin to develop applications. Contents: Stand-alone evalu ation board
Evaluation suite of isualS to facilitate arch itecture evaluations via a C-hosted tool set.
EZ-KIT Lite users can: Evaluate I’s processors earn about S appli cations Simulate and
debug applications ro to type applications
MMSK Multimedia Starter Kits: Features: Blackfin ® Multimedia Starter Kit provides you everything you
need to get started on a multimedia application. Use a Blackfin EZ-KIT Lite and EZ-Extenders daughter
card to perform multimedia related tasks.
Media Player Starter Kit: Features: Blackfin ® Media Player Starter Kit provides you everything you need
to get started on a media player application. Use a Blackfin EZ-KIT Lite and included software to perform
audio and graphic related tasks.
Audio Starter Kit: Features: Blackfin ® Audio Starter Kit provides you with everything you need to get
started on an audio application. Use a Blackfin EZ-KIT Lite and EZ-Extenders daughter board(s) to
perform audio related tasks.
EZ-Extender Boards: Features: EZ-Extender daughter boards aids in design and prototype. The board
extends the capabilities of the evaluation system by providing a connection to various signal chains.
Debug Agent: Features: The Standalone Debug Agent is intended to provide a modular low cost
emulation solution for EZ-Boards as well as evaluation boards designed by third parties. Very similar to
the debug agent that is on existing EZ-KIT Lites but will have the flexibility to move from one board to
another board.
Digi-Key
Part No.
Price
Each
EZ-KIT Lite Evaluation Kits
ADZS-TS201S-EZLITE-ND 1087.50
ADZS-21262-EZLITE-ND 543.75
ADZS-21369-EZLITE-ND 543.75
ADZS-21469-EZLITE-ND 598.13
ADZS-21479-EZLITE-ND NEW! 598.13
ADZS-21489-EZLITE-ND NEW! 538.31
ADZS-BF518F-EZLITE-ND 538.31
ADZS-BF526-EZLITE-ND 538.31
ADZS-BF527-EZLITE-ND 978.75
ADZS-BF533-EZLITE-ND 489.38
ADZS-BF537-EZLITE-ND 380.63
ADZS-BF538F-EZLITE-ND 489.38
ADZS-BF548-EZLITE-ND 1087.50
ADZS-BF561-EZLITE-ND 543.75
ADZS-BF506F-EZLITE-ND NEW! 216.41
Digi-Key
Part No.
Price
Each
MMSK Multimedia Starter Kits
ADZS-BF533-MMSKIT-ND 978.75
ADZS-BF561-MMSKIT-ND 978.75
Media Player Starter Kit
ADZS-BF527-MPSKIT-ND 978.75
Audio Starter Kit
ADZS-BF537-ASKIT-ND 826.50
EZ-Extender Boards
ADZS-21469-EZBRD-ND 407.81
ADZS-BFFPGA-EZEXT-ND 353.44
ADZS-BFLLCD-EZEXT-ND 146.81
ADZS-BF518F-EZBRD-ND 353.44
ADZS-BF526-EZBRD-ND 353.44
Debug Agent
ADZS-DBAGENT-BRD-ND 271.88
C
DSP Based Motor Control Applications (ADSP-2100 Family Code Compatible) ADMC401ADVEVALKIT-ND .......... $434.50
Program
RAM
Program
ROM
Data
RAM
Program
FLASH
Voltage
Reference
Clock
(MHz)
Package
Digi-Key
Part No.
Price Each
1 25 100
512 x 24-Bit 4K x 24-Bit 512 x 16-Bit 4K x 24-Bit 2.5V 20 28-DIP ADMCF326BN-ND 27.12 25.32 23.51
Precision Analog Microcontrollers
MicroConverter ICs were the first to integrate true 12-bit to 24-bit
analog precision ADCs, in-circuit reprogrammable Flash/EE memory
and an on-chip 8052 or ARM core. Applications include industrial,
instrumentation, communications, and automotive control.
Program
Memory
(Kbytes)
8
Flash
Data
(Bytes)
Operating
Temperature
Range
RAM
(Bytes) I/O ADC Channels DAC Channels
PWM
(16-Bit)
Timers
(16-Bit)
Package
Digi-Key
Part No.
1
Price Each
25 100
640 256 32 1, 12-Bit 2-Ch., 12-Bit — Yes -4C ~ 85C 52-MQFP ADUC812BSZ-ND◆ 14.41 12.98 11.51
640 256 16 1, 12-Bit 2-Ch., 12-Bit — Yes -4C ~ 125C 28-TSSOP ADUC814ARUZ-ND◆ 9.14 7.32 6.17
640 256 16 1, 12-Bit 2-Ch., 12-Bit — Yes -4C ~ 125C 28-TSSOP ADUC814BRUZ-ND◆ 8.90 8.01 7.11
640 256 32 Dual, 16-Bit 1-Ch., 12-Bit — Yes -4C ~ 85C 56-LFCSP ADUC816BCP-ND 15.21 14.20 13.19
640 256 32 Dual, 16-Bit 1-Ch., 12-Bit — Yes -4C ~ 85C 52-MQFP ADUC816BSZ-ND◆ 15.36 13.83 12.27
640 256 32 16 and 24 Bit 1-Ch., 12-Bit — Yes -4C ~ 85C 56-LFCSP ADUC824BCP-ND 19.80 18.48 17.16
4K 2K + 256 32 1, 12-Bit 2-Ch., 12-Bit 2 Yes -4C ~ 85C 52-MQFP ADUC831BSZ-ND◆ 14.78 13.31 11.80
4K 2K + 256 32 1, 12-Bit 2-Ch., 12-Bit 2 Yes -4C ~ 125C 52-MQFP ADUC832BSZ-ND◆ 14.78 13.31 11.80
4K 2K + 256 32 16 and 24 Bit 1-Ch., 12-Bit 2 Yes -4C ~ 125C 52-MQFP ADUC834BSZ-ND◆ 18.71 17.46 16.22
4K 2K + 256 32 Dual, 16 Bit 1-Ch., 12-Bit 2 Yes -4C ~ 125C 52-MQFP ADUC836BSZ-ND◆ 16.61 14.96 13.27
4K 2K + 256 32 1, 12-Bit 2-Ch., 12-Bit 2 Yes -4C ~ 85C 52-MQFP ADUC841BSZ62-3-ND◆ 16.26 14.64 12.99
62 4K 2K + 256 32 1, 12-Bit 2-Ch., 12-Bit 2 Yes -4C ~ 85C 52-MQFP ADUC841BSZ62-5-ND◆ 16.26 14.64 12.99
4K 2K + 256 32 1, 12-Bit 2-Ch., 12-Bit 2 Yes -4C ~ 85C 52-MQFP ADUC842BSZ62-5-ND◆ 16.26 14.64 12.99
4K 2K + 256 32 1, 12-Bit — 2 Yes -4C ~ 85C 52-MQFP ADUC843BSZ62-5-ND◆ 11.65 10.49 9.30
4K 2K + 256 32 1, 12-Bit — 2 Yes -4C ~ 85C 56-LFCSP ADUC843BCP8-3-ND 9.11 8.21 7.28
4K 2K + 256 32 Dual, 24-Bit 1-Ch., 12-Bit 2 Yes -4C ~ 125C 52-MQFP ADUC845BSZ62-5-ND◆ 18.51 17.28 16.05
4K 2K + 256 32 Dual, 24-Bit 1-Ch., 12-Bit 2 Yes -4C ~ 125C 52-MQFP ADUC847BSZ62-5-ND◆ 16.26 14.64 12.99
◆ RoHS Compliant
ARM7 Core MicroConverters
Features: Precision Analog: 12-bit to 24-bit C resolution Sample
rates up to 1Msps lexible C input multiplexing rogrammable
gain differential inputs Self-calibration On-chip 2.5 band gap
reference Single, dual or uad rail-to-rail C
Integrated Programmable Peripherals: 852 or RM MC core
up to 45 MIS lash/EE code memory up to 62 lash/EE data
memory up to 4 RM up to 8 lexible SI, I2C, and UART
serial ports High speed baud rate generator Multiple M outputs
RAM FLASH
GP ADC
DAC PWM Temperature
Digi-Key
Price Each
(Kbytes) (Kbytes) Downloader I/O Channels Channels (16-Bit) Range
Package Part No.
1 25 100
ADuC7xxx Series
32 JTAG 9 2 (16-Bit) — — -4C~115C 48-LFCSP ADUC7030BCPZ-8V-ND 12.06 10.86 9.63
4
32 JTAG 14 2 (24-Bit) — 3-Phase -4C ~ 125C 48-LQFP ADUC7060BSTZ32-ND NEW! 9.48 7.59 6.40
32 JTAG 8 5 (24-Bit) 1 (14-Bit) 3-Phase -4C ~ 125C 32-LFCSP ADUC7061BCPZ32-ND NEW! 6.96 5.57 4.70
6 96 JTAG 12 2 (16-Bit) — — -4C~115C 48-LQFP ADUC7033BSTZ-88-ND NEW! 11.20 10.08 8.94
62 UART 14 5 (12-Bit) 4 (12-Bit) Single -4C~125C 40-Lead LFCSP_VQ ADUC7020BCPZ62-ND 11.46 10.32 9.16
62 I2C 14 5 (12-Bit) 4 (12-Bit) Single -4C~125C 40-Lead LFCSP_VQ ADUC7020BCPZ62I-ND 11.46 10.32 9.16
62 UART 13 8 (12-Bit) 2 (12-Bit) Single -4C~125C 40-Lead LFCSP_VQ ADUC7021BCPZ62-ND 9.23 8.31 7.37
62 I2C 13 8 (12-Bit) 2 (12-Bit) Single -4C~125C 40-Lead LFCSP_VQ ADUC7021BCPZ62I-ND 9.23 8.31 7.37
62 UART 13 10 (12-Bit) — Single -4C~125C 40-Lead LFCSP_VQ ADUC7022BCPZ62-ND 9.26 7.41 6.26
62 I2C 20 12 (12-Bit) 4 (12-Bit) 5-Channel -4C~125C 40-Lead LFCSP_WQ ADUC7023BCP6Z62I-ND NEW! 7.98 6.39 5.39
62 I2C 12 8 (12-Bit) 4 (12-Bit) 5-Channel -4C~125C 32-Lead LFCSP_WQ ADUC7023BCPZ62I-NDNEW! 7.98 6.39 5.39
62 UART 30 10 (12-Bit) 2 (12-Bit) 3-Phase -4C~125C 64-Lead LFCSP_VQ ADUC7024BCPZ62-ND 11.80 10.62 9.42
8
62 UART 30 10 (12-Bit) 2 (12-Bit) 3-Phase -4C~125C 64-Lead LQFP ADUC7024BSTZ62-ND 11.80 10.62 9.42
62 I2C 40 12 (12-Bit) 4 (12-Bit) 3-Phase -4C~125C 80-Lead LQFP ADUC7026BSTZ62I-ND§ 14.84 13.37 11.86
62 UART 40 12 (12-Bit) 4 (12-Bit) 3-Phase -4C~125C 80-Lead LQFP ADUC7026BSTZ62-ND§ 14.84 13.37 11.86
62 UART 40 16 (12-Bit) — 3-Phase -4C~125C 80-Lead LQFP ADUC7027BSTZ62-ND§ 10.83 9.75 8.65
62 I2C 40 16 (12-Bit) — 3-Phase -4C~125C 80-Lead LQFP ADUC7027BSTZ62I-ND 12.16 10.95 9.71
62 UART 22 7 (12-Bit) 4 (12-Bit) 3-Phase -4C~125C 49-BGA ADUC7029BBCZ62-ND NEW! 9.32 7.46 6.30
62 I2C 22 7 (12-Bit) 4 (12-Bit) 3-Phase -4C~125C 49-BGA ADUC7029BBCZ62I-ND NEW! 9.32 7.46 6.30
126 UART/ I2C 28 10 (12-Bit) — Generator -4C~125C 64-LQFP ADUC7128BSTZ126-RLCT-ND† 12.18 10.97 9.73
126 UART/ I2C 40 12 (12-Bit) — Generator -4C~125C 80-LQFP ADUC7129BSTZ126-RLCT-ND† 13.04 11.75 10.42
§ Includes external memory interface † Cut Tape
ADUC8xx QuickStart Development Kits
ARM7 Development Kits
The “entry level” QuickStart Development System allows
designers to rapidly evaluate MicroConverter performance and
functionality, and then begin a prototype development. It fully
supports assembly level code development via a serial port debug
path and provides designers with access to a demonstration
project of the C-level development environment available in
QuickStart-Plus.
Kit Contents: Evaluation oard Serial ownload/ebug
Cable Sample evices International ower Supply
Software and ocumentation
EVAL-ADUC812QS-ND ..................................... $75.00
EVAL-ADUC814QSZ-ND◆ ................................. $94.88
EVAL-ADUC831QSZ-ND◆ ................................. $75.90
EVAL-ADUC841QSZ-ND◆ ................................. $75.90
EVAL-ADUC842QS-ND ..................................... $70.31
EVAL-ADUC845QSZ-ND◆ ................................. $75.90
EVAL-ADUC847QSZ-ND◆ ................................. $75.90
◆ RoHS Compliant
Kit Contents:
Software evelopment Tools ower Supply ot included in Mini-Kit Cables
Evaluation oard T Emulator S only
EVAL-ADUC7020MKZ-ND ................................................... $31.63
EVAL-ADUC7020QSZ-ND ................................................... $86.03
EVAL-ADUC7026QSZ-ND ................................................... $86.03
EVAL-ADUC7026QSPZ-ND ................................................. $281.25
EVAL-ADUC7028QSZ-ND ................................................... $86.03
EVAL-ADUC7128QSPZ-ND ................................................. $281.25
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
203
203

H8 Family
H8 Value Series
Microcontrollers
Renesas Value Series Microcontrollers are low-cost embedded solutions with a 16-bit high performance CPU with up to 128KB of flash memory and high integration of on-chip peripherals.
C
Memory ROM Data Flash RAM
Serial
Timers Operating Frequency/
Digi-Key
Price Each
Type Bytes Bytes Bytes A/D D/A
Communication 8/16/32 GPIO Supply Voltage Temperature Package Part No.
1 25 100
ROMless
External — 4K 8-ch. 10-it 2-ch. 8-bit 2 USART, IrDA, Smart Card 4/3/ 47 25MHz/4.5 5.5V -20C 75C 100-QFP HD6413008FBL25NF-ND 5.10 4.08 3.45
ROM — 4K 8-ch. 10-it 2-ch. 8-bit 2 USART, IrDA, Smart Card 4/3/ 47 25MHz/3.0 3.6V -20C 75C 100-QFP HD6413008FBL25V-ND 6.38 5.23 4.72
128K — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 128-QFP DF2327BVFBL25V-ND 13.18 11.09 10.19
Flash
128K — 4K 8-ch. 10-it 2-ch. 8-bit 2 USART, IrDA, Smart Card 4/3/ 79 25MHz/3.0 3.6V -20C 75C 100-QFP DF3024FBL25V-ND 9.98 8.18 7.39
128K — 4K 8-ch. 10-it 2-ch. 8-bit 2 USART, IrDA, Smart Card 4/3/ 79 25MHz/4.5 5.5V -20C 75C 100-QFP DF3062BF25V-ND 12.58 10.59 9.73
128K — 4K 8-ch. 10-it 2-ch. 8-bit 2 USART, IrDA, Smart Card 4/3/ 79 25MHz/4.5 5.5V -20C 75C 100-QFP DF3062BFBL25V-ND 9.98 8.18 7.39
H8 Tiny Series
The H8/Tiny series of MCUs provide 16-bit performance and high peripheral integration ideal for many 8-bit applications.
Memory
Type
Flash
ROM Data Flash RAM
Serial
Timers Operating Frequency/
Digi-Key
Price Each
Bytes Bytes Bytes A/D D/A
Communication 8/16/32 GPIO Supply Voltage Temperature Package Part No.
1 25 100
16K — 2K 4-ch. 10-it — 2 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 64-LQFP DF36012FPV-ND 8.38 6.71 5.66
16K — 2K 4-ch. 10-it — 2 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-QFN DF36012FTV-ND 10.48 8.59 7.76
16K — 2K 4-ch. 10-it — 2 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-LQFP DF36012FXV-ND 10.48 8.59 7.76
16K — 2K 4-ch. 10-it — 2 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-LQFP DF36012FV-ND 10.48 8.59 7.76
16K — 2K 4-ch. 10-it — 2 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 64-LQFP DF36012GFPV-ND 10.80 8.86 8.00
16K — 2K 4-ch. 10-it — 2 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 64-LQFP HD64F36012GFP-ND 10.80 8.86 8.00
16K — 2K 4-ch. 10-it — 2 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-QFN DF36012GFTV-ND 10.80 8.86 8.00
16K — 2K 4-ch. 10-it — 2 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-LQFP DF36012GFXV-ND 10.80 8.86 8.00
16K — 2K 4-ch. 10-it — 2 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-LQFP DF36012GFV-ND 10.80 8.86 8.00
32K — 2K 4-ch. 10-it — 2 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 64-LQFP DF36014FPV-ND 10.80 8.86 8.00
32K — 2K 4-ch. 10-it — 2 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 64-LQFP DF36014GFPV-ND 11.10 9.11 8.22
32K — 2K 4-ch. 10-it — 2 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-QFP DF36014GFV-ND 11.10 9.11 8.22
32K — 2K 4-ch. 10-it — 2 USART 1/1/ 34 20MHz/3.0 5.5V -40C 85C 64-LQFP DF36014FPJV-ND 12.28 10.07 9.09
32K — 2K 4-ch. 10-it — 2 USART 1/1/ 34 20MHz/3.0 5.5V -40C 85C 64-LQFP DF36014FPWV-ND 11.33 9.53 8.76
32K — 2K 4-ch. 10-it — 2 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-QFN DF36014GFTV-ND 11.10 9.11 8.22
32K — 2K 4-ch. 10-it — 2 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-LQFP DF36014GFXV-ND 11.10 9.11 8.22
32K — 2K 4-ch. 10-it — 2 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-QFN DF36014FTV-ND 10.80 8.86 8.00
32K — 2K 4-ch. 10-it — 2 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-LQFP DF36014FV-ND 10.80 8.86 8.00
32K — 2K 4-ch. 10-it — 2 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-LQFP DF36014FXV-ND 10.80 8.86 8.00
16K — 2K 4-ch. 10-it — 3 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 64-LQFP DF36022FPV-ND 10.80 8.86 8.00
16K — 2K 4-ch. 10-it — 3 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-QFN DF36022FTV-ND 10.80 8.86 8.00
16K — 2K 4-ch. 10-it — 3 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-LQFP DF36022FXV-ND 10.80 8.86 8.00
16K — 2K 4-ch. 10-it — 3 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-LQFP DF36022FV-ND 10.80 8.86 8.00
16K — 2K 4-ch. 10-it — 3 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 64-LQFP DF36022GFPV-ND 11.10 9.11 8.22
16K — 2K 4-ch. 10-it — 3 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-QFN DF36022GFTV-ND 11.10 9.11 8.22
16K — 2K 4-ch. 10-it — 3 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-LQFP DF36022GFV-ND 11.10 9.11 8.22
32K — 2K 4-ch. 10-it — 3 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 64-LQFP DF36024FPV-ND 11.10 9.11 8.22
32K — 2K 4-ch. 10-it — 3 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-QFN DF36024FTV-ND 11.10 9.11 8.22
32K — 2K 4-ch. 10-it — 3 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-LQFP DF36024FV-ND 11.10 9.11 8.22
32K — 2K 4-ch. 10-it — 3 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-LQFP DF36024FXV-ND 11.10 9.11 8.22
32K — 2K 4-ch. 10-it — 3 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 64-LQFP DF36024GFPV-ND 11.43 9.37 8.46
32K — 2K 4-ch. 10-it — 3 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-QFN DF36024GFTV-ND 11.43 9.37 8.46
32K — 2K 4-ch. 10-it — 3 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-LQFP DF36024GFXV-ND 11.43 9.37 8.46
32K — 2K 4-ch. 10-it — 3 USART 1/1/ 34 20MHz/3.0 5.5V -20C 75C 48-LQFP DF36024GFV-ND 11.43 9.37 8.46
32K — 2K 8-ch. 10-it — 1 USART, 1 SSU*, 1 CAN 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-LQFP DF36034FV-ND 12.30 10.35 9.51
32K — 2K 8-ch. 10-it — 1 USART, 1 SSU*, 1 CAN 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-LQFP DF36034GFV-ND 12.58 10.59 9.73
32K — 2K 8-ch. 10-it — 1 USART, 1 SSU*, 1 CAN 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-QFP DF36034GHV-ND 12.58 10.59 9.73
32K — 2K 8-ch. 10-it — 1 USART, 1 SSU*, 1 CAN 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-QFP DF36034HV-ND 12.30 10.35 9.51
56K — 3K 8-ch. 10-it — 1 USART, 1 SSU*, 1 CAN 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-LQFP DF36037FV-ND 12.85 10.81 9.93
56K — 3K 8-ch. 10-it — 1 USART, 1 SSU*, 1 CAN 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-LQFP DF36037GFV-ND 13.13 11.05 10.15
56K — 3K 8-ch. 10-it — 1 USART, 1 SSU*, 1 CAN 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-QFP DF36037GHV-ND 13.13 11.05 10.15
56K — 3K 8-ch. 10-it — 1 USART, 1 SSU*, 1 CAN 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-QFP DF36037HV-ND 12.85 10.81 9.93
96K — 4K 8-ch. 10-it — 3 USART, 1 I 2 C 2/3/ 67 20MHz/3.0 5.5V -20C 75C 80-QFP DF36049GHV-ND 12.85 10.81 9.93
96K — 4K 8-ch. 10-it — 3 USART, 1 I 2 C 2/3/ 67 20MHz/3.0 5.5V -20C 75C 80-QFP DF36049HV-ND 12.58 10.59 9.73
32K — 2K 8-ch. 10-it — 2 USART, 1 SSU*, 1 CAN 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-LQFP DF36054FV-ND 12.58 10.59 9.73
32K — 2K 8-ch. 10-it — 2 USART, 1 SSU*, 1 CAN 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-LQFP DF36054GFV-ND 12.85 10.81 9.93
32K — 2K 8-ch. 10-it — 2 USART, 1 SSU*, 1 CAN 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-QFP DF36054GHV-ND 12.85 10.81 9.93
32K — 2K 8-ch. 10-it — 2 USART, 1 SSU*, 1 CAN 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-QFP DF36054HV-ND 12.58 10.59 9.73
56K — 3K 8-ch. 10-it — 2 USART, 1 SSU*, 1 CAN 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-LQFP DF36057FV-ND 13.13 11.05 10.15
56K — 3K 8-ch. 10-it — 2 USART, 1 SSU*, 1 CAN 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-LQFP DF36057GFV-ND 13.40 11.27 10.36
56K — 3K 8-ch. 10-it — 2 USART, 1 SSU*, 1 CAN 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-QFP DF36057GHV-ND 13.40 11.27 10.36
56K — 3K 8-ch. 10-it — 2 USART, 1 SSU*, 1 CAN 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-QFP DF36057HV-ND 13.13 11.05 10.15
32K — 2K 8-ch. 10-it — 2 USART, 1 I 2 C 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-LQFP DF36064GFPV-ND 7.93 6.50 5.87
32K — 2K 8-ch. 10-it — 2 USART, 1 I 2 C 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-QFP DF36064GHV-ND 7.93 6.50 5.87
32K — 4K 8-ch. 10-it — 2 USART, 1 I 2 C 2/2/ 55 20MHz/4.5 5.5V -20C 75C 64-LQFP DF36074GFV-ND 8.48 6.95 6.28
32K — 4K 8-ch. 10-it — 2 USART, 1 I 2 C 2/2/ 55 20MHz/4.5 5.5V -20C 75C 64-QFP DF36074GHV-ND 8.90 7.30 6.59
32K — 4K 8-ch. 10-it — 2 USART, 1 I 2 C 2/2/ 55 20MHz/4.5 5.5V -40C 85C 64-QFP DF36074GHWV-ND 9.90 8.12 7.33
56K — 4K 8-ch. 10-it — 2 USART, 1 I 2 C 2/2/ 55 20MHz/4.5 5.5V -20C 75C 64-LQFP DF36077GFV-ND 9.53 7.82 7.05
56K — 4K 8-ch. 10-it — 2 USART, 1 I 2 C 2/2/ 55 20MHz/4.5 5.5V -20C 75C 64-QFP DF36077GHV-ND 9.53 7.82 7.05
128K — 6K 8-ch. 10-it 1-ch. 14-bit 2 USART, 1 I 2 C 2/2/ 55 20MHz/3.0 5.5V -20C 75C 64-LQFP DF36079GFV-ND 12.10 9.93 8.96
56K — 4K 8-ch. 10-it — 2 USART, 1 I 2 C 2/2/ 53 18MHz/3.0 3.6V -20C 75C 64-LQFP DF36087FPV-ND 11.44 9.62 8.84
56K — 4K 8-ch. 10-it — 2 USART, 1 I 2 C 2/2/ 53 18MHz/3.0 3.6V -20C 75C 64-QFP DF36087HV-ND 11.44 9.62 8.84
32K — 2K 8-ch. 10-it — 1 USART, 1 I 2 C 3/1/ 39 20MHz/4.5 5.5V -20C 75C 64-LQFP DF36094GFV-ND 12.08 9.91 8.94
128K — 5K 16-ch. 10-it — 3 USART, 1 I 2 C 2/3/ 87 20MHz/3.0 5.5V -20C 75C 100-QFP DF36109FV-ND 13.97 11.75 10.80
128K — 5K 16-ch. 10-it — 3 USART, 1 I 2 C 2/3/ 87 20MHz/3.0 5.5V -20C 75C 100-QFP DF36109GFV-ND 14.26 11.99 11.02
128K — 5K 16-ch. 10-it — 3 USART, 1 I 2 C 2/3/ 87 20MHz/3.0 5.5V -20C 75C 100-LQFP DF36109GHV-ND 14.26 11.99 11.02
128K — 5K 16-ch. 10-it — 3 USART, 1 I 2 C 2/3/ 87 20MHz/3.0 5.5V -20C 75C 100-LQFP DF36109HV-ND 13.97 11.75 10.80
32K — 2K 8-ch. 10-it — I 2 C, 2 USART 2/1/ 29 16MHz/4.0 5.5V -20C 75C 64-LQFP HD64F3664FPV-ND 11.88 9.74 8.79
8K — 2K 4-ch. 10-it — 1 USART 1/1/ 30 16MHz/3.0 5.5V -20C 75C 64-LQFP HD64F3670FPV-ND 6.75 5.43 4.95
8K — 2K 4-ch. 10-it — 1 USART 1/1/ 30 16MHz/3.0 5.5V -20C 75C 48-LQFP HD64F3670FXV-ND 6.75 5.43 4.95
8K — 2K 4-ch. 10-it — 1 USART 1/1/ 30 16MHz/3.0 5.5V -20C 75C 48-LQFP HD64F3670FV-ND 6.75 5.43 4.95
16K — 2K 4-ch. 10-it — 1 USART 1/1/ 30 16MHz/3.0 5.5V -20C 75C 64-LQFP HD64F3672FPV-ND 6.33 5.19 4.69
16K — 2K 4-ch. 10-it — 1 USART 1/1/ 30 16MHz/3.0 5.5V -20C 75C 48-LQFP HD64F3672FXV-ND 6.33 5.19 4.69
16K — 2K 4-ch. 10-it — 1 USART 1/1/ 30 16MHz/3.0 5.5V -20C 75C 48-LQFP HD64F3672FV-ND 6.33 5.19 4.69
32K — 4K 8-ch. 10-it — 2 USART, 1 I 2 C 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-LQFP HD64F3684FPV-ND 12.38 10.15 9.16
32K — 4K 8-ch. 10-it — 2 USART, 1 I 2 C 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-LQFP HD64F3684GFPV-ND 11.18 9.40 8.64
32K — 4K 8-ch. 10-it — 2 USART, 1 I 2 C 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-QFP HD64F3684GHV-ND 11.18 9.40 8.64
32K — 4K 8-ch. 10-it — 2 USART, 1 I 2 C 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-QFP HD64F3684HV-ND 12.38 10.15 9.16
56K 500.0 4K 8-ch. 10-it — 2 USART, 1 I 2 C 2/2/ 51 20MHz/3.0 5.5V -20C 75C 64-LQFP DN3687GFPV-ND 13.13 11.05 10.15
◆ RoHS Compliant *SSU SPI ®
(Continued)
204 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Memory
Type
Flash
ROM
Bytes
Data Flash
Bytes
H8 Super Low Power
Microcontrollers
H8 Family H8 Tiny Series (Cont.)
RAM
Bytes A/D D/A
Serial
Communication
Timers
8/16/32 GPIO
Operating Frequency/
Supply Voltage Temperature Package
H8/300L and H8/300H Super Low Power series of MCUs are designed for optimum power consumption and fit in applications where battery life is critical. A built-in LCD controller is included on large packages (64-100 pins).
Digi-Key
Part No.
Price Each
1 25 100
56K — 4K 8-ch. 10-it — 2 USART, 1 I 2 C 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-LQFP HD64F3687FPV-ND 11.44 9.62 8.84
56K — 4K 8-ch. 10-it — 2 USART, 1 I 2 C 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-LQFP HD64F3687GFPV-ND 11.73 9.87 9.07
56K — 4K 8-ch. 10-it — 2 USART, 1 I 2 C 2/2/ 53 20MHz/3.0 5.5V -20C 75C 64-QFP HD64F3687GHV-ND 11.73 9.87 9.07
8K — 1.5K 4-ch. 10-it — 1 USART 1/1/ 22 12MHz/3.0 5.5V -20C 75C 32-QFP DF36902GFHV-ND 6.75 5.43 4.95
8K — 1.5K 4-ch. 10-it — 1 USART, 1 I 2 C 2/1/ 22 12MHz/3.0 5.5V -20C 75C 32-LQFP DF36912GFHV-ND 6.33 5.19 4.69
8K — 1.5K 4-ch. 10-it — 1 USART, 1 I 2 C 2/1/ 22 12MHz/3.0 5.5V -20C 75C 32-SOP DF36912GTPAFV-ND 6.33 5.19 4.69
32K 500.0 2K 8-ch. 10-it — 1 USART, 1 I 2 C 2/1/ 35 20MHz/3.0 5.5V -20C 75C 64-LQFP DN3694GFPV-ND 11.77 9.90 9.10
32K — 2K 8-ch. 10-it — 1 USART, 1 I 2 C 2/1/ 37 20MHz/3 5.5 -20C 75C 64-LQFP HD64F3694FPV-ND 11.73 9.62 8.68
32K — 2K 8-ch. 10-it — 1 USART, 1 I 2 C 2/1/ 37 20MHz/3 5.5 -20C 75C 48-QFN HD64F3694FTV-ND 11.73 9.62 8.68
32K — 2K 8-ch. 10-it — 1 USART, 1 I 2 C 2/1/ 37 20MHz/3 5.5 -20C 75C 48-LQFP HD64F3694FXV-ND 11.73 9.62 8.68
32K — 2K 8-ch. 10-it — 1 USART, 1 I 2 C 2/1/ 37 20MHz/3 5.5 -20C 75C 48-LQFP HD64F3694FV-ND 11.73 9.62 8.68
32K — 2K 8-ch. 10-it — 1 USART, 1 I 2 C 2/1/ 37 20MHz/3 5.5 -20C 75C 64-LQFP HD64F3694GFPV-ND 12.08 9.91 8.94
32K — 2K 8-ch. 10-it — 1 USART, 1 I 2 C 2/1/ 37 20MHz/3 5.5V -20C 75C 48-QFN HD64F3694GFTV-ND 12.08 9.91 8.94
32K — 2K 8-ch. 10-it — 1 USART, 1 I 2 C 2/1/ 37 20MHz/3 5.5 -20C 75C 48-QFP HD64F3694GFV-ND 12.08 9.91 8.94
32K — 2K 8-ch. 10-it — 1 USART, 1 I 2 C 2/1/ 37 20MHz/3 5.5 -20C 75C 48-LQFP HD64F3694GFXV-ND 12.08 9.91 8.94
32K — 2K 8-ch. 10-it — 1 USART, 1 I 2 C 2/1/ 37 20MHz/3 5.5 -20C 75C 64-QFP HD64F3694GHV-ND 12.08 9.91 8.94
32K — 2K 8-ch. 10-it — 1 USART, 1 I 2 C 2/1/ 37 20MHz/3 5.5 -20C 75C 64-QFP HD64F3694HV-ND 11.73 9.62 8.68
C
Memory
Type
Flash
ROM
Bytes
Data Flash
Bytes
RAM
Bytes A/D D/A
Serial
Communication
Timers
8/16/32 GPIO
Operating Frequency/
Supply Voltage Temperature Package
◆ RoHS Compliant *SSU SPI ® (Continued)
Digi-Key
Part No.
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Price Each
1 25 100
16K — 1K 4-ch. 10-it — 1 USART 2/2/0 50 4MHz/2.2 3.6V -20C 75C 64-LQFP DF38002FP4V-ND 12.38 10.15 9.16
16K — 1K 4-ch. 10-it — 1 USART 2/2/0 50 4MHz/2.2 3.6V -20C 75C 64-QFP DF38002H4V-ND 12.33 10.11 9.13
16K — 1K 4-ch. 10-it — 1 USART 2/2/0 50 10MHz/2.7 3.6V -40C 85C 64-QFP DF38002H10WV-ND 11.97 10.07 9.25
16K — 1K 4-ch. 10-it — 1 USART 2/2/0 50 10MHz/2.7 3.6V -20C 75C 64-QFP DF38002H10V-ND 12.33 10.11 9.13
32K — 1K 4-ch. 10-it — 1 USART 2/2/0 50 4MHz/2.2 3.6V -20C 75C 64-LQFP DF38004FP4V-ND 11.44 9.62 8.84
32K — 1K 4-ch. 10-it — 1 USART 2/2/0 50 4MHz/2.2 3.6V -20C 75C 64-QFP DF38004H4V-ND 11.44 9.62 8.84
32K — 1K 4-ch. 10-it — 1 USART 2/2/0 50 10MHz/2.7 3.6V -20C 75C 64-LQFP DF38004FP10V-ND 11.44 9.62 8.84
32K — 1K 4-ch. 10-it — 1 USART 2/2/0 50 10MHz/2.7 3.6V -20C 75C 64-QFP DF38004H10V-ND 11.44 9.62 8.84
32K — 1K 4-ch. 10-it — 1 USART 2/2/0 50 10MHz/2.7 3.6V -40C 85C 64-LQFP DF38004FP10WV-ND 12.58 10.59 9.73
32K — 1K 4-ch. 10-it — 1 USART 2/2/0 50 10MHz/2.7 3.6V -40C 85C 64-QFP DF38004H10WV-ND 12.58 10.59 9.73
32K — 1K 8-ch. 10-it — 1 USART 4/2/0 66 10MHz/2.7 3.6V -40C 85C 80-QFP HD64F38024DV-ND 15.07 12.68 11.65
32K — 1K 8-ch. 10-it — 1 USART 4/2/0 66 10MHz/2.7 3.6V -40C 85C 80-QFP HD64F38024RDV-ND 13.88 11.68 10.73
32K — 1K 8-ch. 10-it — 1 USART 4/2/0 66 10MHz/2.7 3.6V -20C 75C 80-QFP HD64F38024RHV-ND 12.61 10.61 9.75
32K — 1K 8-ch. 10-it — 1 USART 4/2/0 66 10MHz/2.7 3.6V -40C 85C 80-TQFP HD64F38024RWIV-ND 13.88 11.68 10.73
32K — 1K 8-ch. 10-it — 1 USART 4/2/0 66 10MHz/2.7 3.6V -20C 75C 80-TQFP HD64F38024RWV-ND 12.61 10.61 9.75
32K — 1K 8-ch. 10-it — 1 USART 3/1/ 66 10MHz/2.7 3.6V -20C 75C 80-QFP HD64F38024RFV-ND 12.61 10.61 9.75
32K — 1K 8-ch. 10-it — 1 USART 3/1/ 66 10MHz/2.7 3.6V -20C 75C 85-TFLGA HD64F38024RLPV-ND 12.61 10.61 9.75
52K — 2K 8-ch. 10-it — 3 USART, IrDA, 1 I 2 C 2/4/0 63 4.2MHz/1.8 3.6V -20C 75C 80-QFP DF38076RH4V-ND 14.96 12.58 11.56
52K — 2K 8-ch. 10-it — 3 USART, IrDA, 1 I 2 C 2/4/0 63 4.2MHz/1.8 3.6V -20C 75C 85-TFLGA DF38076RLP4V-ND 16.28 13.69 12.58
52K — 2K 8-ch. 10-it — 3 USART, IrDA, 1 I 2 C 2/4/0 63 4.2MHz/1.8 3.6V -20C 75C 80-TQFP DF38076RW4V-ND 14.96 12.58 11.56
52K — 2K 8-ch. 10-it — 3 USART, IrDA, 1 I 2 C 2/4/0 63 10MHz/2.7 3.6V -20C 75C 80-QFP DF38076RH10V-ND 15.25 12.83 11.79
52K — 2K 8-ch. 10-it — 3 USART, IrDA, 1 I 2 C 2/4/0 63 10MHz/2.7 3.6V -40C 85C 80-QFP DF38076RH10WV-ND 16.79 14.12 12.98
52K — 2K 8-ch. 10-it — 3 USART, IrDA, 1 I 2 C 2/4/0 63 10MHz/2.7 3.6V -20C 75C 85-TFLGA DF38076RLP10V-ND 16.57 13.94 12.81
52K — 2K 8-ch. 10-it — 3 USART, IrDA, 1 I 2 C 2/4/0 63 10MHz/2.7 3.6V -40C 85C 85-TFLGA DF38076RLP10WV-ND 18.24 15.34 14.10
52K — 2K 8-ch. 10-it — 3 USART, IrDA, 1 I 2 C 2/4/0 63 10MHz/2.7 3.6V -20C 75C 80-TQFP DF38076RW10V-ND 15.25 12.83 11.79
52K — 2K 8-ch. 10-it — 3 USART, IrDA, 1 I 2 C 2/4/0 63 10MHz/2.7 3.6V -40C 85C 80-TQFP DF38076RW10WV-ND 16.79 14.12 12.98
52K — 2K
— 3 USART, IrDA, 1 I 2 C 2/4/0 63 4.2MHz/1.8 3.6V -20C 75C 80-QFP DF38086RH4V-ND 16.72 14.06 12.92
52K — 2K — 3 USART, IrDA, 1 I 2 C 2/4/0 63 4.2MHz/1.8 3.6V -20C 75C 85-TFLGA DF38086RLP4V-ND 18.04 15.17 13.94
52K — 2K — 3 USART, IrDA, 1 I 2 C 2/4/0 63 4.2MHz/1.8 3.6V -20C 75C 80-TQFP DF38086RW4V-ND 16.72 14.06 12.92
52K — 2K — 3 USART, IrDA, 1 I 2 C 2/4/0 63 10MHz/2.7 3.6V -20C 75C 80-QFP DF38086RH10V-ND 17.01 14.31 13.15
52K — 2K
2-ch. 14-it∆,
3-ch. 10-it SAR
— 3 USART, IrDA, 1 I 2 C 2/4/0 63 10MHz/2.7 3.6V -40C 85C 80-QFP DF38086RH10WV-ND 18.72 15.75 14.47
52K — 2K — 3 USART, IrDA, 1 I 2 C 2/4/0 63 10MHz/2.7 3.6V -20C 75C 85-TFLGA DF38086RLP10V-ND 18.33 15.42 14.17
52K — 2K — 3 USART, IrDA, 1 I 2 C 2/4/0 63 10MHz/2.7 3.6V -40C 85C 85-TFLGA DF38086RLP10WV-ND 20.17 16.97 15.59
52K — 2K — 3 USART, IrDA, 1 I 2 C 2/4/0 63 10MHz/2.7 3.6V -20C 75C 80-TQFP DF38086RW10V-ND 17.01 14.31 13.15
52K — 2K — 3 USART, IrDA, 1 I 2 C 2/4/0 63 10MHz/2.7 3.6V -40C 85C 80-TQFP DF38086RW10WV-ND 18.72 15.75 14.47
16K — 1K 4-ch. 10-it — 1 USART 2/2/0 49 20MHz/2.7 5.5V -20C 75C 64-LQFP DF38102FPV-ND 11.15 9.38 8.62
16K — 1K 4-ch. 10-it — 1 USART 2/2/0 49 20MHz/2.7 5.5V -20C 75C 64-QFP DF38102HV-ND 11.15 9.38 8.62
32K — 1K 4-ch. 10-it — 1 USART 2/2/0 49 20MHz/2.7 5.5V -40C 85C 64-LQFP DF38104FPWV-ND 12.91 10.86 9.98
32K — 1K 4-ch. 10-it — 1 USART 2/2/0 49 20MHz/2.7 5.5V -20C 75C 64-LQFP DF38104FPV-ND 11.73 9.87 9.07
32K — 1K 4-ch. 10-it — 1 USART 2/2/0 49 20MHz/2.7 5.5V -20C 75C 64-QFP DF38104HV-ND 11.73 9.87 9.07
32K — 1K 4-ch. 10-it — 1 USART 2/2/0 49 20MHz/2.7 5.5V -40C 85C 64-QFP DF38104HWV-ND 12.91 10.86 9.98
16K — 1K 8-ch. 10-it — 1 USART 4/2/0 65 20MHz/2.7 5.5V -20C 75C 80-TQFP DF38122WV-ND 12.32 10.36 9.52
32K — 1K 8-ch. 10-it — 1 USART 4/2/0 65 20MHz/2.7 5.5V -20C 75C 80-QFP DF38124HV-ND 12.91 10.86 9.98
32K — 1K 8-ch. 10-it — 1 USART 4/2/0 65 20MHz/2.7 5.5V -40C 85C 80-QFP DF38124HWV-ND 14.19 11.94 10.97
32K — 1K 8-ch. 10-it — 1 USART 4/2/0 65 20MHz/2.7 5.5V -20C 75C 80-TQFP DF38124WV-ND 12.91 10.86 9.98
32K — 2K 8-ch. 10-it — 2 USART 4/2/0 64 16MHz/2.7 5.5V -20C 75C 80-QFP DF38324HV-ND 13.40 11.27 10.36
32K — 2K 8-ch. 10-it — 2 USART 4/2/0 64 16MHz/2.7 5.5V -20C 75C 80-TQFP DF38324WV-ND 13.40 11.27 10.36
60K — 2K 8-ch. 10-it — 2 USART 4/2/0 64 16MHz/2.7 5.5V -20C 75C 80-QFP DF38327HV-ND 14.26 11.99 11.02
60K — 2K 8-ch. 10-it — 2 USART 4/2/0 64 16MHz/2.7 5.5V -40C 85C 80-QFP DF38327HWV-ND 15.69 13.20 12.13
60K — 2K 8-ch. 10-it — 2 USART 4/2/0 64 16MHz/2.7 5.5V -20C 75C 80-TQFP DF38327WV-ND 14.26 11.99 11.02
60K — 2K 8-ch. 10-it — 2 USART 4/2/0 64 16MHz/2.7 5.5V -40C 85C 80-TQFP DF38327WWV-ND 15.69 13.20 12.13
32K — 2K 12-ch. 10-it — 3 USART 4/2/0 84 16MHz/2.7 5.5V -20C 75C 100-QFP DF38344HV-ND 14.52 12.21 11.22
32K — 2K 12-ch. 10-it — 3 USART 4/2/0 84 16MHz/2.7 5.5V -40C 85C 100-QFP DF38344HWV-ND 16.13 13.57 12.47
60K — 2K 12-ch. 10-it — 3 USART 4/2/0 84 16MHz/2.7 5.5V -20C 75C 100-QFP DF38347HV-ND 15.38 12.94 11.89
60K — 2K 12-ch. 10-it — 3 USART 4/2/0 84 16MHz/2.7 5.5V -40C 85C 100-QFP DF38347HWV-ND 16.90 14.21 13.06
60K — 2K 12-ch. 10-it — 3 USART 4/2/0 84 16MHz/2.7 5.5V -20C 75C 100-TQFP DF38347WV-ND 15.38 12.94 11.89
60K — 2K 12-ch. 10-it — 3 USART 4/2/0 84 16MHz/2.7 5.5V -20C 75C 100-TQFP DF38347XV-ND 15.38 12.94 11.89
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
205
205

Memory
Type
Flash
ROM
Bytes
Data Flash
Bytes
H8/300 Series
Microcontrollers
H8 Family H8 Super Low Power (Cont.)
RAM
Bytes A/D D/A
Serial
Communication
Timers
8/16/32 GPIO
Operating Frequency/
Supply Voltage Temperature Package
H8/300H and H8/300L Series of MCUs provide extensive support of customers’ system requirements with a high level of peripheral functionality.
Digi-Key
Part No.
Price Each
1 25 100
60K — 2K 12-ch., 10-it — 3 USART 4/2/0 84 16MHz/2.7 5.5V -40C 85C 100-TQFP DF38347XWV-ND 16.90 14.21 13.06
60K — 2K 8-ch. 10-it — 2 USART 4/2/0 64 16MHz/2.7 5.5V -20C 75C 80-QFP DF38427HV-ND 15.38 12.94 11.89
16K — 1K 6-ch. 10-it — 1 USART, 1 SSU*, IrDA, 1 I 2 C 3/2/0 19 10MHz/2.7 3.6V -20C 75C 32-QFN DF38602RFT10V-ND 12.33 10.11 9.13
16K — 1K 6-ch. 10-it — 1 USART, 1 SSU*, IrDA, 1 I 2 C 3/2/0 19 4.2MHz/1.8 3.6V -20C 75C 32-QFN DF38602RFT4V-ND 12.33 10.11 9.13
C
Memory
Type
ROMless
Flash
ROM
Bytes
Data Flash
Bytes
RAM
Bytes A/D D/A
Serial
Communication
Timers
8/16/32 GPIO
Operating Frequency/
Supply Voltage Temperature Package
Digi-Key
Part No.
Price Each
1 25 100
— — 512 8-ch. 10-it — 2 UART /5/ 38 16MHz/4.5 5.5V -20C 75C 100-QFP D13002F16V-ND 15.44 12.99 11.94
— — 512 8-ch. 10-it — 2 UART /5/ 50 16MHz/4.5 5.5V -20C 75C 100-TQFP D13003TF16V-ND 21.76 18.50 17.14
— — 4K 8-ch. 10-it 2-ch. 8-bit 1 Smart Card, 2 SCI 4/3/ 47 25MHz/4.5 5.5V -20C 75C 100-QFP D13008F25V-ND 11.88 9.74 8.79
— — 4K 8-ch. 10-it 2-ch. 8-bit 1 Smart Card, 2 SCI 4/3/ 47 25MHz/3.0 3.6V -20C 75C 100-QFP D13008VF25V-ND 11.00 9.25 8.50
— — 4K 8-ch. 10-it 2-ch. 8-bit 2 USART, IrDA, Smart Card /3/ 47 25MHz/3.0 3.6V -20C 75C 100-QFP D13008VFBL25V-ND 6.38 5.23 4.72
128K — 4K 8-ch. 10-it 2-ch. 8-bit 2 UART, Smart Card /3/ 79 25MHz/3.0 3.6V -20C 75C 100-QFP DF3024F25V-ND 16.37 13.77 12.65
256K — 8K 8-ch. 10-it 2-ch. 8-bit 2 UART /8/ 79 25MHz/3.0 3.6V -20C 75C 100-TQFP DF3026XBL25V-ND 21.45 18.04 16.58
384K — 16K 8-ch. 10-it 2-ch. 8-bit 3 UART, Smart Card /8/ 79 25MHz/3.0 3.6V -20C 75C 100-TQFP DF3028X25V-ND 22.26 18.93 17.53
512K — 16K 8-ch. 10-it 2-ch. 8-bit 3 UART /9/ 79 25MHz/3.0 3.6V -20C 75C 100-QFP DF3029F25V-ND 22.10 18.79 17.41
128K — 4K 8-ch. 10-it — 2 UART, Smart Card /5/ 63 18MHz/4.5 5.5V -20C 75C 80-QFP DF3039F18V-ND 27.12 23.06 21.36
128K — 4K 8-ch. 10-it 2-ch. 8-bit 2 UART, Smart Card /5/ 78 25MHz/4.5 5.5V -20C 75C 100-QFP DF3048BF25V-ND 18.15 15.27 14.03
128K — 4K 8-ch. 10-it 2-ch. 8-bit 2 UART, Smart Card /5/ 78 25MHz/4.5 5.5V -20C 75C 100-TQFP DF3048BX25V-ND 19.01 15.99 14.69
128K — 4K 8-ch. 10-it 2-ch. 8-bit 2 UART /5/ 78 25MHz/3.0 3.6V -20C 75C 100-QFP DF3048BVF25V-ND 18.15 15.27 14.03
128K — 4K 8-ch. 10-it 2-ch. 8-bit 2 USART /2/ 78 25MHz/2.7 5.5V -40C 85C 100-QFP DF3048BF25WV-ND 19.98 16.80 15.44
512K — 8K 8-ch. 10-it 2-ch. 8-bit 2 UART, Smart Card /5/ 79 25MHz/4.5 5.5V -20C 75C 100-QFP DF3052BF25V-ND 28.12 23.91 22.15
128K — 4K 8-ch. 10-it 2-ch. 8-bit 2 UART, Smart Card /3/ 79 25MHz/4.5 5.5V -20C 75C 100-QFP DF3062BFP25QV-ND 12.58 10.59 9.73
256K — 8K 8-ch. 10-it 2-ch. 8-bit 2 UART, Smart Card 4/3/ 79 25MHz/4.5 5.5V -20C 75C 100-QFP DF3064BF25V-ND 19.54 16.43 15.10
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 4/3/ 79 20MHz/3.0 5.5V -20C 75C 100-QFP DF3067RF20V-ND 27.40 23.29 21.58
384K — 16K 8-ch. 10-it 2-ch. 8-bit 3 UART, Smart Card 4/3/ 79 25MHz/4.5 5.5V -20C 75C 100-QFP DF3068F25V-ND 22.26 18.93 17.53
512K — 16K 8-ch. 10-it 2-ch. 8-bit Smart Card 4/3/ 79 25MHz/4.5 5.5V -20C 75C 100-QFP DF3069RF25V-ND 22.10 18.79 17.41
512K — 16K 8-ch. 10-it 2-ch. 8-bit 3 UART, Smart Card 4/3/ 79 25MHz/4.5 5.5V -20C 75C 100-TQFP DF3069RX25V-ND 22.70 19.30 17.88
56K — 3K 8-ch. 10-Bit — 2 UART, CAN 3/2/ 45 20MHz/4.5 5.5V -20C 75C 64-LQFP DF36037GFJEV-ND 16.21 13.64 12.53
32K — 4K 8-ch. 10-Bit — I 2 C, SCI 3/2/ 47 20MHz/4.5 5.5V -20C 75C 64-LQFP DF36074GFWV-ND 9.43 7.73 6.98
56K — 4K 8-ch. 10-Bit — I 2 C, SCI 3/2/ 47 16MHz/3.0 3.6V -20C 75C 64-QFP DF36077LHV-ND 9.00 7.38 6.66
96K — 6K 8-ch. 10-Bit — I 2 C, SCI 3/2/ 47 20MHz/4.5 5.5V -20C 75C 64-LQFP DF36078GFV-ND 10.88 8.92 8.05
128K — 6K 8-ch. 10-Bit — I 2 C, SCI 3/2/ 47 16MHz/3.0 3.6V -20C 75C 64-LQFP DF36079LFV-ND 12.10 9.93 8.96
128K — 6K 8-ch. 10-Bit — I 2 C, SCI 3/2/ 47 16MHz/3.0 3.6V -20C 75C 64-QFP DF36079LHV-ND 12.10 9.93 8.96
32K — 1K 8-ch. 10-it — 1 UART, 2 SCI 3/1/ 45 5MHz/2.5 5.5V -20C 75C 64-QFP HD64F3644DV-ND 14.63 12.31 11.31
32K — 1K 8-ch. 10-it — 1 UART, 2 SCI 3/1/ 45 5MHz/2.5 5.5V -20C 75C 64-QFP HD64F3644HV-ND 13.42 11.29 10.37
32K — 1K 8-ch. 10-it — 1 UART, 2 SCI 3/1/ 45 5MHz/2.5 5.5V -20C 75C 64-SDIP HD64F3644PV-ND 17.82 14.99 13.77
32K — 1K 8-ch. 8-Bit — SCI 3/1/ 53 8MHz/2.5 5.5V -20C 75C 80-TQFP HD64F3644WV-ND 15.07 12.68 11.65
128K — 4K 8-ch. 10-Bit — I 2 C, SCI 2/4/ 75 10MHz/2.7 3.6V -20C 75C 100-LQFP DF38099FP10WV-ND 20.86 17.54 16.12
128K — 4K 8-ch. 10-Bit — I 2 C, SCI 2/4/ 75 4.2MHz/1.8 3.6 -20C 75C 100-LQFP DF38099FP4V-ND 18.77 15.79 14.51
32K — 4K 8-ch. 10-Bit — I 2 C, IRDA, UART 3/1/ 75 5MHz/2.7 3.6V -20C 75C 80-QFP DF38524HV-ND 9.53 7.82 7.05
128K — 4K 10-Bit — I 2 C, IRDA, UART 2/4/ 75 10MHz/2.7 3.6V -20C 75C 100-LQFP DF38799FP10V-ND 13.97 11.75 10.80
128K — 4K 10-Bit — I 2 C, IRDA, UART 2/4/ 75 10MHz/2.7 3.6V -20C 75C 100-LQFP DF38799FP10WV-ND 15.36 12.92 11.87
H8/300 Tiny Series
Memory
Type
ROM
Bytes
Data Flash
Bytes
RAM
Bytes A/D D/A
Serial
Communication
Timers
8/16/32 GPIO
Operating Frequency/
Supply Voltage Temperature Package
Digi-Key
Part No.
Price Each
1 25 100
32K — 2K 8-ch. x 10-it — UART, CAN 3/2/ 53 1 20MHz/3.0 5.5V -20C 75C 64-LQFP DF36034FPV-ND 14.30 12.03 11.05
32K — 2K 8-ch. x 10-it — UART, CAN 3/2/ 53 1 20MHz/3.0 5.5V -20C 75C 64-LQFP DF36034GFPV-ND 12.58 10.59 9.73
Flash 32K — 2K 8-ch. x 10-it — UART, CAN 3/2/ 53 1 20MHz/3.0 5.5V -20C 75C 64-LQFP DF36037FPV-ND 15.73 13.23 12.16
128K — 6K 8-ch. x 10-it — 2 USART, I 2 C 3/2/ 47 20MHz/4.5 5.5V -20C 75C 64-QFP DF36079GHV-ND 12.10 9.93 8.96
8K — 1.5K 4-ch. x 10-it — UART 1/1/ 22 2 12MHz/3.0 5.5V -20C 75C 32-LQFP DF36902GFHSWV-ND 5.57 4.48 4.08
◆ RoHS Compliant *SSU SPI ®
H8S Family
The H8S Family meets the growing demands for system designs requiring the performance of 16-bit microcontrollers with sophisticated peripherals integrated on-chip. The H8S is the leader in memory size capacity with up to
512K on-chip flash. It includes performance speeds as high as 33MHz, extremely low power consumption and offers a wide selection of peripherals for optimizing system cost, development time, performance and features.
Memory
Type
ROMless
ROM
Bytes
Data Flash
Bytes
RAM
Bytes A/D D/A
Serial
Communication
Timers
8/16/32 GPIO
Operating Frequency/
Supply Voltage Temperature Package
Digi-Key
Part No.
Price Each
1 25 100
— — 8K 8-ch. 10-it 2-ch. 8-bit 2 USART, Smart Card 2/6/ 79 20MHz/3.0 3.6V -20C 75C 100-QFP D12312SVF20V-ND 12.00 9.84 8.88
— — 8K 8-ch. 10-it 2-ch. 8-bit 2 USART, Smart Card 2/6/ 79 25MHz/3.0 3.6V -20C 75C 100-QFP D12312SVF25V-ND 12.00 9.84 8.88
— — 8K 8-ch. 10-it 2-ch. 8-bit 2 USART, Smart Card 2/6/ 79 25MHz/3.0 3.6V -20C 75C 100-TQFP D12312SVTE25V-ND 11.35 9.55 8.78
— — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 20MHz/2.7 3.6V -20C 75C 128-QFP D12320VF20V-ND 12.00 9.84 8.88
— — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 128-QFP D12320VF25V-ND 12.00 9.84 8.88
— — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 20MHz/2.7 3.6V -20C 75C 120-TQFP D12320VTE20V-ND 11.35 9.55 8.78
— — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 120-TQFP D12320VTE25V-ND 11.35 9.55 8.78
— — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 20MHz/2.7 3.6V -20C 75C 128-QFP D12321VF20V-ND 12.00 9.84 8.88
— — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 128-QFP D12321VF25V-ND 12.00 9.84 8.88
— — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 120-TQFP D12321VTE25V-ND 11.35 9.55 8.78
— — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 20MHz/2.7 3.6V -20C 75C 128-QFP D12322RVF20V-ND 11.88 9.99 9.18
— — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 128-QFP D12322RVF25V-ND 11.62 9.77 8.98
— — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 20MHz/2.7 3.6V -20C 75C 120-TQFP D12322RVTE20V-ND 12.67 10.66 9.80
— — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 120-TQFP D12322RVTE25V-ND 12.67 10.66 9.80
— — 32K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 128-QFP D12324SVF25V-ND 14.52 12.21 11.22
— — 32K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 120-TQFP D12324SVTE25V-ND 15.31 12.88 11.84
— — 8K 12-ch. 10-it 4-ch. 8-bit 3 USART, Smart Card 2/6/ 118 20MHz/2.7 3.6V -20C 75C 144-QFP D12332VFC20V-ND 15.64 13.16 12.09
— — 8K 12-ch. 10-it 4-ch. 8-bit 3 USART, Smart Card 2/6/ 118 25MHz/3.0 3.6V -20C 75C 144-QFP D12332VFC25V-ND 15.64 13.16 12.09
◆ RoHS Compliant * SSU SPI ®
(Continued)
206 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Microcontrollers
H8S Family (Cont.)
Memory
Type
ROM
Bytes
Data Flash
Bytes
RAM
Bytes A/D D/A
ROMless
1M — 8K 8-ch. 10-it —
Flash
1M — 6K 8-ch. 10-it —
Serial
Communication
Timers
8/16/32 GPIO
Operating Frequency/
Supply Voltage Temperature Package
Digi-Key
Part No.
Price Each
1 25 100
— — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 13MHz/3.0 5.5V -20C 75C 128-QFP D12352F13V-ND 18.46 15.53 14.27
— — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 13MHz/3.0 5.5V -20C 75C 120-TQFP D12352TE13V-ND 20.13 16.93 15.56
— — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 20MHz/4.5 5.5V -20C 75C 120-TQFP D12352TE20V-ND 20.13 16.93 15.56
— — 16K 10-ch. 10-it 2-ch. 8-bit 5 USART, IrDA, 2/6/ 94 33MHz/3.0 3.6V -20C 75C 128-QFP D12363VF33V-ND 14.52 12.21 11.22
— — 16K 10-ch. 10-it 2-ch. 8-bit Smart Card, 2 I 2 C 2/6/ 94 33MHz/3.0 3.6V -20C 75C 120-TQFP D12363VTE33V-ND 15.31 12.88 11.84
— — 16K 16-ch. 10-it 6-ch. 8-it 5 USART, IrDA, 2/6/ 113 33MHz/3.0 3.6V -20C 75C 144-LQFP D12373RVFQ33V-ND 18.48 15.54 14.28
— — 16K 16-ch. 10-it 6-ch. 8-it Smart Card, 2 I 2 C 2/6/ 113 33MHz/3.0 3.6V -20C 75C 144-LQFP D12373VFQ33V-ND 17.16 14.43 13.26
— — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 20MHz/4.5 5.5V -20C 75C 128-QFP D12390F20V-ND 12.00 9.84 8.88
— — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 20MHz/4.5 5.5V -20C 75C 120-TQFP D12390TE20V-ND 11.35 9.55 8.78
— — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 20MHz/4.5 5.5V -20C 75C 128-QFP D12392F20V-ND 11.88 9.99 9.18
— — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 20MHz/4.5 5.5V -20C 75C 120-TQFP D12392TE20V-ND 12.67 10.66 9.80
— — 32K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 20MHz/4.5 5.5V -20C 75C 128-QFP D12394F20V-ND 14.52 12.21 11.22
— — 32K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 20MHz/4.5 5.5V -20C 75C 120-TQFP D12394TE20V-ND 15.31 12.88 11.84
— — 8K 12-ch. 10-it 4-ch. 8-bit 3 USART, IrDA, Smart Card 2/6/ 115 33MHz/3.0 3.6V -20C 75C 144-QFP D12670VFC33V-ND 14.67 12.34 11.34
— — 32K 12-ch. 10-it 4-ch. 8-bit 3 USART, IrDA, Smart Card 2/6/ 115 33MHz/3.0 3.6V -20C 75C 144-LQFP D12674RVFQ33V-ND 17.60 14.80 13.60
64K — 2K — — 1 USART, 2 I 2 C 3/1/ 82 10MHz/3.0 3.6V -20C 75C 100-TQFP DF2110BVTE10V-ND 19.27 16.21 14.90
64K — 2K 6-ch. 10-it — 1 USART 2 I 2 C 3/1/ 122 10MHz/3.0 3.6V -20C 75C 144-TQFP DF2111BVT10BV-ND 20.13 16.93 15.56
64K — 3K 6-ch. 10-it — 1 USART 2 I 2 C 3/1/ 122 10MHz/3.0 3.6V -20C 75C 144-TQFP DF2111BVT10CV-ND 20.61 17.34 15.93
2 USART, IrDA,
Smart Card, 2 I 2 C
2/1/ 119 20MHz/3.0 3.6V -20C 75C 144-TQFP DF2114RVT20V-ND 27.94 23.75 22.01
160K — 8K 16-ch. 10-it — I 2 C, SCI 4/10/ 128 20MHz/3.0 3.6V -20C 75C 176-LFBGA DF2117VBG20V-ND 18.15 15.27 14.03
160K — 8K 16-ch. 10-it — I 2 C, SCI 4/10/ 112 20MHz/3.0 3.6V -20C 75C 145-TFLGA DF2117VLP20V-ND 18.15 15.27 14.03
64K — 2K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA 3/1/ 66 20MHz/4.0 5.5V -20C 75C 80-QFP DF2132RFA20V-ND 19.82 16.67 15.32
64K — 2K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA 3/1/ 66 20MHz/4.0 5.5V -20C 75C 80-TQFP DF2132RTF20V-ND 21.80 18.34 16.85
64K — 2K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA 3/1/ 66 10MHz/3.0 5.5V -20C 75C 80-TQFP DF2132RVTF10V-ND 21.80 18.34 16.85
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA 3/1/ 66 20MHz/4.0 5.5V -20C 75C 80-QFP DF2134AFA20V-ND 20.13 16.93 15.56
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA 3/1/ 66 20MHz/4.0 5.5V -20C 75C 80-TQFP DF2134ATF20V-ND 20.06 17.06 15.80
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA 3/1/ 66 10MHz/2.7 3.6V -20C 75C 80-QFP DF2134AVFA10V-ND 20.13 16.93 15.56
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA 3/1/ 66 10MHz/2.7 3.6V -20C 75C 80-TQFP DF2134AVTF10V-ND 20.06 17.06 15.80
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA 3/1/ 66 20MHz/4.0 5.5V -20C 75C 80-QFP DF2134BFA20V-ND 15.38 12.94 11.89
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA, 2 I 2 C 4/1/ 66 20MHz/4.0 5.5V -20C 75C 80-QFP DF2138AFA20V-ND 20.00 17.00 15.75
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA, 2 I 2 C 4/1/ 66 20MHz/4.0 5.5V -20C 75C 80-TQFP DF2138ATF20V-ND 20.80 17.68 16.38
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA, 2 I 2 C 4/1/ 66 10MHz/2.7 3.6V -20C 75C 80-QFP DF2138AVFA10V-ND 20.00 17.00 15.75
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA, 2 I 2 C 4/1/ 66 10MHz/2.7 3.6V -20C 75C 80-TQFP DF2138AVTF10V-ND 20.80 17.68 16.38
64K — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA, 2 I 2 C 4/1/ 82 10MHz/2.7 3.6V -20C 75C 100-TQFP DF2140BVTE10V-ND 19.27 16.21 14.90
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 UART 3/1/ 82 20MHz/ 2.7 5.5V -20C 75C 100-QFP DF2144AFA20V-ND 21.23 17.86 16.41
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 UART 3/1/ 82 10MHz/2.7 5.5V -20C 75C 100-TQFP DF2144AVTE10V-ND 21.34 18.14 16.81
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 UART 3/1/ 82 20MHz/ 2.7 5.5V -20C 75C 100-QFP DF2144FA20V-ND 25.66 21.82 20.21
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 UART 3/1/ 82 10MHz/2.7 5.5V -20C 75C 100-QFP DF2144VFA10V-ND 25.66 21.82 20.21
256K — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA, 2 I 2 C 4/1/ 82 20MHz/4 - 5.5V -20C 75C 100-QFP DF2145BFA20V-ND 20.40 17.34 16.07
256K — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA, 2 I 2 C 4/1/ 82 20MHz/4.5 5.5V -20C 75C 100-TQFP DF2145BTE20V-ND 21.12 17.96 16.64
256K — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA, 2 I 2 C 4/1/ 82 10MHz/2.7 3.6V -20C 75C 100-QFP DF2145BVFA10V-ND 20.40 17.34 16.07
256K — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA, 2 I 2 C 4/1/ 82 10MHz/2.7 3.6V -20C 75C 100-TQFP DF2145BVTE10V-ND 21.12 17.96 16.64
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA, 2 I 2 C 4/1/ 82 20MHz/4.0 5.5V -40C 85C 100-TQFP DF2148ATE20IV-ND 25.14 21.37 19.80
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA, 2 I 2 C 4/1/ 82 20MHz/4.0 5.5V -20C 75C 100-QFP DF2148BFA20V-ND 19.80 16.65 15.30
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA, 2 I 2 C 4/1/ 82 20MHz/4.0 5.5V -20C 75C 100-TQFP DF2148BTE20V-ND 20.59 17.32 15.92
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA, 2 I 2 C 4/1/ 82 20MHz/4.0 5.5V -40C 85C 100-TQFP DF2148BFA20IV-ND 21.80 18.34 16.85
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA, 2 I 2 C 4/1/ 82 20MHz/4.0 5.5V -20C 75C 100-QFP DF2148BFA20V-ND 19.80 16.65 15.30
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA, 2 I 2 C 4/1/ 82 10MHz/2.7 3.6V -20C 75C 100-TQFP DF2148BVTE10V-ND 20.59 17.32 15.92
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 UART, 2 I 2 C 4/1/ 82 20MHz/3.0 5.5V -20C 75C 100-QFP DF2148RFA20V-ND 28.70 24.40 22.61
64K — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA, 2 I 2 C 4/1/ 122 10MHz/2.7 3.6V -20C 75C 144-TQFP DF2160BVT10V-ND 20.42 17.36 16.09
128K — 4K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA, 2 I 2 C 4/1/ 122 10MHz/2.7 3.6V -20C 75C 144-TQFP DF2161BVTE10V-ND 21.60 18.36 17.01
512K — 40K 8-ch. 10-it 2-ch. 8-bit 3 USART, IrDA, 6 I 2 C, 4/1/ 115 33MHz/3 3.6V -20C 75C 144-TQFP DF2166VT33V-ND 36.00 30.60 28.35
384K — 40K 8-ch. 10-it 2-ch. 8-bit Smart Card
4/1/ 115 33MHz/3.0 3.6V -20C 75C 144-TQFP DF2167VT33-ND 37.34 31.74 29.41
256K — 32K — — USB 2// 76 33MHz/3.0 3.6V -20C 75C 100-TQFP DF2170BVTE33V-ND 24.00 20.40 18.90
2 USART, IrDA,
Smart Card, 2 I 2 C
4/4/ 119 20MHz/3.0 3.6V -20C 75C 144-TQFP DF2189RVT20V-ND 31.74 26.98 25.00
64K — 8K 6-ch. 10-it — 2 USART, Smart Card /3/ 37 24MHz/2.7 3.6V -20C 75C 64-LQFP DF2211FP24V-ND 15.38 12.94 11.89
64K — 8K 6-ch. 10-it — 2 USART, Smart Card /3/ 37 24MHz/2.7 3.6V -20C 75C 64-LQFP DF2211UFP24V-ND 15.38 12.94 11.89
64K — 8K 6-ch. 10-it — 2 USART, Smart Card /3/ 37 24MHz/2.7 3.6V -20C 75C 64-LQFP HD64F2211UFP24-ND 15.38 12.94 11.89
128K — 12K 6-ch. 10-it — 2 USART, Smart Card /3/ 37 24MHz/2.7 3.6V -20C 75C 64-LQFP DF2212FP24V-ND 16.43 13.82 12.70
128K — 12K 6-ch. 10-it — 2 USART, Smart Card /3/ 37 24MHz/2.7 3.6V -20C 75C 64-LQFP DF2212UFP24V-ND 16.48 13.86 12.74
128K — 12K 6-ch. 10-it — 2 USART, Smart Card /3/ 37 24MHz/2.7 3.6V -20C 75C 64-LQFP HD64F2212UFP24-ND 16.48 13.86 12.74
128K — 12K — 1-ch. 8-bit 3 USART /3/ 81 16MHz/2.7 3.6V -20C 75C 112-TFBGA DF2214BQ16V-ND 20.40 17.34 16.07
256K — 20K 6-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/3/ 75 24MHz/2.7 3.6V -20C 75C 112-LFBGA DF2215RBR24V-ND 20.54 17.46 16.18
256K — 20K 6-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/3/ 75 24MHz/2.7 3.6V -20C 75C 120-TQFP DF2215RTE24V-ND 20.24 17.02 15.64
256K — 20K 6-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/3/ 75 24MHz/2.7 3.6V -20C 75C 112-LFBGA DF2215RUBR24V-ND 20.54 17.46 16.18
256K — 20K 6-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/3/ 75 24MHz/2.7 3.6V -20C 75C 120-TQFP DF2215RUTE24V-ND 20.24 17.02 15.64
256K — 16K 6-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/3/ 75 16MHz/2.7 3.6V -20C 75C 112-LFBGA DF2215BR16V-ND 28.00 23.80 22.05
256K — 16K 6-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/3/ 75 16MHz/2.7 3.6V -20C 75C 120-TQFP DF2215TE16V-ND 25.34 21.54 19.96
256K — 16K 6-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/3/ 75 16MHz/2.7 3.6V -20C 75C 112-LFBGA DF2215UBR16V-ND 28.00 23.80 22.05
256K — 16K 6-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/3/ 75 16MHz/2.7 3.6V -20C 75C 120-TQFP DF2215UTE16V-ND 25.34 21.54 19.96
256K — 16K 6-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/3/ 75 16MHz/2.7 3.6V -20C 75C 120-TQFP HD64F2215TE16-ND 25.34 21.54 19.96
128K — 12K 6-ch. 10-it — 2 USART, Smart Card /3/ 69 24MHz/2.7 3.6V -20C 75C 112-LFBGA DF2218BR24V-ND 21.41 18.01 16.55
128K — 12K 6-ch. 10-it — 2 USART, Smart Card /3/ 69 24MHz/2.7 3.6V -20C 75C 100-TQFP DF2218TF24V-ND 18.92 15.91 14.62
128K — 12K 6-ch. 10-it — 2 USART, Smart Card /3/ 69 24MHz/2.7 3.6V -20C 75C 100-TQFP DF2218UTF24V-ND 18.92 15.91 14.62
128K — 12K 6-ch. 10-it — 2 USART, Smart Card /3/ 69 24MHz/2.7 3.6V -20C 75C 112-LFBGA DF2218UBR24V-ND 21.41 18.01 16.55
(Continued)
C
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C
Memory
Type
Flash
◆ RoHS Compliant * SSU SPI ®
Microcontrollers
H8S Family (Cont.)
ROM Data Flash RAM
Serial
Timers Operating Frequency/
Digi-Key
Price Each
Bytes Bytes Bytes A/D D/A
Communication 8/16/32 GPIO Supply Voltage Temperature Package Part No.
1 25 100
256K — 32K 10-ch. 10-it 2-ch. 8-bit
5 USART, IrDA,
Smart Card, 2 I 2 C
2/6/ 94 34MHz/3.0 3.6V -20C 75C 120-TQFP DF2362VTE34V-ND 18.46 15.53 14.27
256K — 16K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 13.5MHz/2.7 5.5V -20C 75C 100-QFP DF2238BF13V-ND 24.14 20.52 19.02
256K — 16K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 13.5MHz/2.7 5.5V -20C 75C 100-QFP DF2238BFA13V-ND 24.14 20.52 19.02
256K — 16K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 13.5MHz/2.7 5.5V -20C 75C 100-TQFP DF2238BTE13V-ND 26.66 22.67 21.00
256K — 16K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 13.5MHz/2.7 5.5V -20C 75C 100-TQFP DF2238BTF13V-ND 26.66 22.67 21.00
256K — 16K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 13.5MHz/2.7 3.6V -20C 75C 112-TFBGA DF2238RBQ13V-ND 22.80 19.38 17.96
256K — 16K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 6.25MHz/2.2 3.6V -20C 75C 112-TFBGA DF2238RBQ6V-ND 22.80 19.38 17.96
256K — 16K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 6.25MHz/2.2 3.6V -20C 75C 100-TQFP DF2238RTE6V-ND 21.12 17.96 16.64
256K — 16K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 6.25MHz/2.2 3.6V -20C 75C 100-TQFP DF2238RTF6V-ND 21.12 17.96 16.64
256K — 16K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 13.5MHz/2.7 3.6V -20C 75C 112-BGA DF2238RBR13V-ND 22.80 19.38 17.96
256K — 16K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 6.25MHz/2.2 3.6V -20C 75C 100-QFP DF2238RFA6V-ND 20.40 17.34 16.07
256K — 16K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 13.5MHz/2.7 3.6V -20C 75C 100-QFP DF2238RFA13V-ND 20.40 17.34 16.07
256K — 16K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 13.5MHz/2.7 3.6V -20C 75C 100-TQFP DF2238RTE13V-ND 21.12 17.96 16.64
256K — 16K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 13.5MHz/2.7 3.6V -20C 75C 100-TQFP DF2238RTF13V-ND 21.12 17.96 16.64
256K — 16K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 16MHz/2.7 3.6V -20C 75C 112-TFBGA DF2239BQ16V-ND 26.40 22.44 20.79
384K — 32K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 20MHz/3.0 3.6V -20C 75C 112-TFBGA DF2239BQ20V-ND 26.40 22.44 20.79
384K — 32K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 16MHz/2.7 3.6V -20C 75C 100-QFP DF2239FA16V-ND 24.00 20.40 18.90
384K — 32K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 20MHz/3.0 3.6V -20C 75C 100-QFP DF2239FA20V-ND 24.00 20.40 18.90
384K — 32K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 20MHz/3.0 3.6V -20C 75C 100-QFP DF2239FA20IV-ND 26.40 22.44 20.79
384K — 32K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 20MHz/3.0 3.6V -20C 75C 100-QFP HD64F2239FA20-ND 24.00 20.40 18.90
384K — 32K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 16MHz/2.7 3.6V -20C 75C 100-QFP DF2239TE16V-ND 24.72 21.02 19.47
384K — 32K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 20MHz/3.0 3.6V -20C 75C 100-QFP DF2239TE20V-ND 24.72 21.02 19.47
384K — 32K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 16MHz/2.7 3.6V -20C 75C 100-TQFP DF2239TF16V-ND 24.72 21.02 19.47
384K — 32K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 20MHz/3.0 3.6V -20C 75C 100-TQFP DF2239TF20V-ND 24.72 21.02 19.47
256K — 16K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card, 2 I 2 C 4/6/ 82 13.5MHz/4.0 5.5V -20C 75C 100-QFP DF2258FA13V-ND 25.66 21.82 20.21
128K — 4K 10-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card, 2 I 2 C 4/3/ 78 13.5MHz/3.0 5.5V -20C 75C 100-QFP DF2265FA13V-ND 21.12 17.76 16.32
128K — 4K 10-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card, 2 I 2 C 4/3/ 78 20.5MHz/4.0 5.5V -20C 75C 100-QFP DF2265FA20V-ND 21.12 17.76 16.32
128K — 4K 10-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card, 2 I 2 C 4/3/ 78 13.5MHz/3.0 5.5V -20C 75C 100-TQFP DF2265TE13V-ND 20.00 17.00 15.75
128K — 8K 10-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card, 2 I 2 C 4/3/ 78 13.5MHz/3.0 5.5V -20C 75C 100-QFP DF2266FA13V-ND 20.00 17.00 15.75
128K — 8K 10-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card, 2 I 2 C 4/3/ 78 13.5MHz/3.0 5.5V -20C - 75C 100-TQFP DF2266TF13V-ND 20.80 17.68 16.38
128K — 8K 10-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card, 2 I 2 C 4/3/ 78 20.5MHz/4.0 5.5V -20C 75C 100-TQFP DF2266TF20V-ND 20.80 17.68 16.38
256K — 16K 10-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card, 2 I 2 C 4/3/ 78 13.5MHz/3.0 5.5V -20C 75C 100-QFP DF2268FA13V-ND 22.66 19.27 17.85
256K — 16K 10-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card, 2 I 2 C 4/3/ 78 20.5MHz/4.0 5.5V -20C 75C 100-QFP DF2268FA20V-ND 22.66 19.27 17.85
256K — 16K 10-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card, 2 I 2 C 4/3/ 78 13.5MHz/3.0 5.5V -20C 75C 100-TQFP DF2268TE13V-ND 23.46 19.95 18.48
256K — 16K 10-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card, 2 I 2 C 4/3/ 78 20.5MHz/4.0 5.5V -20C 75C 100-TQFP DF2268TE20V-ND 23.46 19.95 18.48
256K — 16K 10-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card, 2 I 2 C 4/3/ 78 20.5MHz/4.0 5.5V -20C 75C 100-TQFP DF2268TF20V-ND 23.46 19.95 18.48
384K — 8K 8-ch. 10-it 2-ch. 8-bit 2 USART, Smart Card 2/6/ 79 25MHz/3.0 3.6V -20C 75C 100-QFP DF2315VF25V-ND 24.00 20.40 18.90
384K — 8K 8-ch. 10-it 2-ch. 8-bit 2 USART, Smart Card 2/6/ 79 25MHz/3.0 3.6V -20C 75C 100-TQFP DF2315VTE25V-ND 24.72 21.02 19.47
128K — 8K 8-ch. 10-it 2-ch. 8-bit 2 USART, Smart Card 2/6/ 79 25MHz/3.0 3.6V -20C 75C 100-TQFP DF2317VTE25V-ND 21.23 17.86 16.41
128K — 8K 8-ch. 10-it 2-ch. 8-bit 2 USART, Smart Card 2/6/ 79 25MHz/3.0 3.6V -20C 75C 100-TQFP DF2317VTEBL25V-ND 12.48 10.23 9.24
128K — 8K 8-ch. 10-it 2-ch. 8-bit 2 USART, Smart Card 2/6/ 79 25MHz/3.0 3.6V -20C 75C 100-TQFP DF2317VTF25V-ND 21.23 17.86 16.41
256K — 8K 8-ch. 10-it 2-ch. 8-bit 2 USART, Smart Card 2/6/ 79 25MHz/3.0 3.6V -20C 75C 100-QFP DF2318VF25V-ND 20.40 17.34 16.07
256K — 8K 8-ch. 10-it 2-ch. 8-bit 2 USART, Smart Card 2/6/ 79 25MHz/3.0 3.6V -20C 75C 100-TQFP DF2318VTE25V-ND 21.12 17.96 16.64
512K — 16K 8-ch. 10-it 2-ch. 8-bit 2 USART, Smart Card 2/6/ 79 25MHz/3.0 3.6V -20C 75C 113-TFLGA DF2319CVLP25V-ND 30.48 25.91 24.01
512K — 16K 8-ch. 10-it 2-ch. 8-bit 2 USART, Smart Card 2/6/ 79 25MHz/3.0 3.6V -20C 75C 100-TQFP DF2319CVTE25V-ND 23.52 20.00 18.53
512K — 8K 8-ch. 10-it 2-ch. 8-bit 2 USART, Smart Card 2/6/ 70 25MHz/3.0 3.6V -20C 75C 100-QFP DF2319EVF25V-ND 32.00 27.20 25.20
512K — 8K 8-ch. 10-it 2-ch. 8-bit 2 USART, Smart Card 2/6/ 70 25MHz/3.0 3.6V -20C 75C 100-TQFP DF2319EVTE25V-ND 35.30 30.01 27.80
512K — 8K 8-ch. 10-it 2-ch. 8-bit 2 USART, Smart Card 2/6/ 70 25MHz/3.0 3.6V -20C 75C 100-QFP DF2319VF25V-ND 27.68 23.53 21.80
512K — 8K 8-ch. 10-it 2-ch. 8-bit 2 USART, Smart Card 2/6/ 70 25MHz/3.0 3.6V -20C 75C 100-TQFP DF2319VTE25V-ND 30.72 26.12 24.20
512K — 8K 8-ch. 10-it 2-ch. 8-bit 2 USART, Smart Card 2/6/ 70 25MHz/3.0 3.6V -20C 75C 100-QFP HD64F2319VF25-ND 27.68 23.53 21.80
512K — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 128-QFP DF2326VF25V-ND 29.20 24.82 23.00
512K — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 120-TQFP DF2326VTE25V-ND 32.00 27.20 25.20
256K — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 128-QFP DF2328BVF25V-ND 21.60 18.36 17.01
256K — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 120-TQFP DF2328BVTE25V-ND 22.32 18.98 17.58
256K — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 128-QFP DF2328VF25V-ND 21.84 18.57 17.20
256K — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 120-TQFP DF2328VTE25V-ND 24.14 20.52 19.02
384K — 32K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 128-QFP DF2329BVF25V-ND 25.20 21.42 19.85
384K — 32K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 120-TQFP DF2329BVTE25V-ND 25.92 22.04 20.42
384K — 32K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 128-QFP DF2329EVF25V-ND 36.32 30.88 28.61
384K — 32K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 120-TQFP DF2329EVTE25V-ND 39.62 33.68 31.21
384K — 32K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 120-TQFP HD64F2329EVTE25-ND 39.62 33.68 31.21
384K — 32K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 128-QFP HD64F2329VF25-ND 36.32 30.88 28.61
384K — 32K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -40C 85C 128-QFP DF2329VF25IV-ND 39.62 33.68 31.21
384K — 32K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 25MHz/3.0 3.6V -20C 75C 128-QFP DF2329VF25V-ND 36.32 30.88 28.61
256K — 8K 12-ch. 10-it 4-ch. 8-bit 3 USART, Smart Card 2/6/ 118 25MHz/3.0 3.6V -20C 75C 144-QFP DF2338VFC25V-ND 24.88 21.15 19.60
384K — 32K 12-ch. 10-it 4-ch. 8-bit 3 USART, Smart Card 2/6/ 118 25MHz/3.0 3.6V -20C 75C 144-QFP DF2339EVFC25V-ND 37.60 31.96 29.61
384K — 32K 12-ch. 10-it 4-ch. 8-bit 3 USART, Smart Card 2/6/ 118 25MHz/3.0 3.6V -20C 75C 144-QFP DF2339VFC25V-ND 37.60 31.96 29.61
128K — 4K 8-ch. 10-it 2-ch. 8-bit 2 USART, Smart Card 2/6/ 79 20MHz/4.5 5.5V -20C 75C 100-TQFP DF2345TE20V-ND 25.14 21.37 19.80
128K — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 20MHz/4.5 5.5V -20C 75C 120-TQFP DF2357TE20V-ND 33.78 28.72 26.61
128K — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 13MHz/3.0 5.5V -20C 75C 128-QFP DF2357VF13V-ND 30.72 26.12 24.20
128K — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 13MHz/3.0 5.5V -20C 75C 120-TQFP DF2357VTE13V-ND 33.78 28.72 26.61
256K — 16K 10-ch. 10-it 2-ch. 8-bit
2/6/ 94 34MHz/3.0 3.6V -20C 75C 120-TQFP DF2360VTE34V-ND 17.31 14.56 13.38
256K — 24K 10-ch. 10-it 2-ch. 8-bit 2/6/ 94 34MHz/3.0 3.6V -20C 75C 120-TQFP DF2361VTE34V-ND 17.89 15.05 13.83
384K — 32K 10-ch. 10-it 2-ch. 8-bit 2/6/ 94 34MHz/3.0 3.6V -20C 75C 120-TQFP DF2364VTE34V-ND 19.56 16.45 15.12
384K — 24K 10-ch. 10-it 2-ch. 8-bit 2/6/ 94 33MHz/3.0 3.6V -20C 75C 128-QFP DF2367VF33V-ND 22.62 19.23 17.82
384K — 24K 10-ch. 10-it 2-ch. 8-bit 2/6/ 94 33MHz/3.0 3.6V -20C 75C 120-TQFP DF2367VTE33V-ND 23.12 19.66 18.21
512K — 32K 10-ch. 10-it 2-ch. 8-bit 2/6/ 94 34MHz/3.0 3.6V -20C 75C 120-TQFP DF2368VTE34V-ND 21.49 18.08 16.61
256K — 16K 16-ch. 10-it 6-ch. 8-it 5 USART, IrDA, 2/6/ 113 34MHz/3.0 3.6V -20C 75C 144-LQFP DF2370RVFQ34V-ND 20.39 17.15 15.76
256K — 16K 16-ch. 10-it 6-ch. 8-it Smart Card, 2 I 2 C 2/6/ 113 34MHz/3.0 3.6V -20C 75C 145-TFLGA DF2370RVLP34V-ND 22.34 18.99 17.60
256K — 16K 16-ch. 10-it 6-ch. 8-it 2/6/ 113 34MHz/3.0 3.6V -20C 75C 144-LQFP DF2370VFQ34V-ND 19.27 16.21 14.90
256K — 16K 16-ch. 10-it 6-ch. 8-it 2/6/ 113 34MHz/3.0 3.6V -20C 75C 145-TFLGA DF2370VLP34V-ND 21.34 18.14 16.81
256K — 24K 16-ch. 10-it 6-ch. 8-it 2/6/ 113 34MHz/3.0 3.6V -20C 75C 144-LQFP DF2371RVFQ34V-ND 20.94 17.62 16.19
256K — 24K 16-ch. 10-it 6-ch. 8-it 2/6/ 113 34MHz/3.0 3.6V -20C 75C 145-TFLGA DF2371RVLP34V-ND 22.86 19.44 18.01
256K — 24K 16-ch. 10-it 6-ch. 8-it 2/6/ 113 34MHz/3.0 3.6V -20C 75C 144-LQFP DF2371VFQ34V-ND 19.82 16.67 15.32
256K — 24K 16-ch. 10-it 6-ch. 8-it 2/6/ 113 34MHz/3.0 3.6V -20C 75C 145-TFLGA DF2371VLP34V-ND 21.84 18.57 17.20
(Continued)
208 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
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Memory
Type
Flash
ROM
Bytes
Data Flash
Bytes
Microcontrollers
H8S Family (Cont.)
RAM
Bytes A/D D/A
Serial
Communication
Timers
8/16/32 GPIO
Operating Frequency/
Supply Voltage Temperature Package
Digi-Key
Part No.
Price Each
1 25 100
256K — 32K 16-ch. 10-it 6-ch. 8-it
2/6/ 113 34MHz/3.0 3.6V -20C 75C 145-TFLGA DF2372RVLP34V-ND 23.36 19.86 18.40
256K — 32K 16-ch. 10-it 6-ch. 8-it 2/6/ 113 34MHz/3.0 3.6V -20C 75C 145-TFLGA DF2372VLP34V-ND 22.34 18.99 17.60
384K — 32K 16-ch. 10-it 6-ch. 8-it 2/6/ 113 34MHz/3.0 3.6V -20C 75C 144-LQFP DF2374RVFQ34V-ND 20.56 17.48 16.20
384K — 32K 16-ch. 10-it 6-ch. 8-it 2/6/ 113 34MHz/3.0 3.6V -20C 75C 145-TFLGA DF2374RVLP34V-ND 24.38 20.73 19.20
384K — 32K 16-ch. 10-it 6-ch. 8-it 2/6/ 113 34MHz/3.0 3.6V -20C 75C 144-LQFP DF2374VFQ34V-ND 21.52 18.10 16.63
384K — 32K 16-ch. 10-it 6-ch. 8-it 2/6/ 113 34MHz/3.0 3.6V -20C 75C 145-TFLGA DF2374VLP34V-ND 25.66 21.82 20.21
384K — 24K 16-ch. 10-it 6-ch. 8-it 2/6/ 113 33MHz/3.0 3.6V -20C 75C 144-LQFP DF2377RVFQ33V-ND 23.86 20.29 18.79
384K — 24K 16-ch. 10-it 6-ch. 8-it
5 USART,
IrDA, Smart Card, 2 I 2 C
2/6/ 113 33MHz/3.0 3.6V -40C 85C 144-LQFP DF2377RVFQ33WV-ND 25.06 21.31 19.74
384K — 24K 16-ch. 10-it 6-ch. 8-it 2/6/ 113 33MHz/3.0 3.6V -20C 75C 144-LQFP DF2377VFQ33V-ND 23.12 19.66 18.21
512K — 32K 16-ch. 10-it 6-ch. 8-it 2/6/ 113 34MHz/3.0 3.6V -20C 75C 144-LQFP DF2378AVFQ34V-ND 21.60 18.36 17.01
512K — 32K 16-ch. 10-it 6-ch. 8-it 2/6/ 113 35MHz/3.0 3.6V -20C 75C 144-LQFP DF2378BVFQ35V-ND 20.56 17.48 16.20
512K — 32K 16-ch. 10-it 6-ch. 8-it 2/6/ 113 35MHz/3.0 3.6V -20C 75C 144-LQFP DF2378BVFQ35WV-ND 22.62 19.23 17.82
512K — 32K 16-ch. 10-it 6-ch. 8-it 2/6/ 113 35MHz/3.0 3.6V -20C 75C 145-TFLGA DF2378BVLP35V-ND 24.38 20.73 19.20
512K — 32K 16-ch. 10-it 6-ch. 8-it 2/6/ 113 34MHz/3.0 3.6V -20C 75C 144-LQFP DF2378RVFQ34V-ND 21.60 18.36 17.01
512K — 32K 16-ch. 10-it 6-ch. 8-it 2/6/ 113 34MHz/3.0 3.6V -20C 75C 144-TFLGA DF2378RVLP34V-ND 27.94 23.75 22.01
256K — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 20MHz/4.5 5.5V -20C 75C 120-TQFP DF2398TE20V-ND 22.32 18.98 17.58
256K — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 20MHz/4.5 5.5V -20C 75C 128-QFP DF2398F20TV-ND 23.76 20.20 18.72
256K — 8K 8-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card 2/6/ 95 20MHz/4.5 5.5V -20C 75C 128-QFP DF2398F20V-ND 21.60 18.36 17.01
256K — 16K 16-ch. 10-it — 5 USART, 4 I 2 C 4/5/ 110 20MHz/3.0 3.6V -20C 75C 128-QFP DF2437FV-ND 21.60 18.36 17.01
512K — 40K 8-ch. 10-it — I 2 C, SSU 4/6/ 113 34MHz/3.0 3.6V -20C 75C 144-LQFP R4F2462VFQ34V-ND 17.31 14.56 13.38
512K — 40K 8-ch. 10-it — I 2 C, SSU, USB 4/6/ 120 34MHz/3.0 3.6V -20C 75C 176-LFBGA R4F2472VBR34DV-ND 25.44 21.63 20.04
384K — 32K 16-ch. 10-it 2-ch. 8-bit 5 USART, 4/6/ 120 26MHz/3.0 5.5V -40C 75C 176-LFBGA DF2505BR26DV-ND 33.34 28.34 26.26
512K — 32K 16-ch. 10-it 2-ch. 8-bit 5 USART, Smart Card, 2 I 2 C 4/6/ 120 26MHz/3.0 5.5V -40C 75C 176-LFBGA DF2506BR26DV-ND 36.00 30.60 28.35
384K — 24K 16-ch. 10-it 2-ch. 8-bit 5 USART, Smart Card, 2 I 2 C 4/6/ 120 26MHz/3.0 5.5V -40C 75C 176-LFBGA DF2551BR26DV-ND 34.66 29.47 27.30
384K — 24K 16-ch. 10-it 2-ch. 8-bit 5 USART, Smart Card, 2 I 2 C 4/6/ 120 26MHz/3.0 5.5V -40C 75C 144-QFP DF2551FC26DV-ND 32.00 27.20 25.20
512K — 32K 16-ch. 10-it 2-ch. 8-bit 5 USART, Smart Card, 2 I 2 C 4/6/ 120 26MHz/3.0 5.5V -40C 75C 144-QFP DF2552FC26DV-ND 34.66 29.47 27.30
512K — 32K 16-ch. 10-it 2-ch. 8-bit
5 USART,
Smart Card, 2 I 2 C, 1 CAN
4/6/ 120 20MHz/3.0 5.5V -40C 75C 144-QFP DF2556FC20DV-ND 34.66 29.47 27.30
128K — 4K 12-ch. 10-it — 3 USART, Smart Card, 1 CAN /6/ 56 20MHz/4.5 5.5V -20C 75C 80-QFP DF2612FA20V-ND 21.34 18.14 16.81
256K — 12K 16-ch. 10-it — 3 USART, Smart Card, 1 CAN /6/ 70 20MHz/4.5 5.5V -40C 85C 100-QFP DF2623FA20JV-ND 38.62 32.83 30.42
256K — 12K 16-ch. 10-it — 3 USART, Smart Card, 1 CAN /6/ 70 20MHz/4.5 5.5V -20C 75C 100-QFP DF2623FA20V-ND 32.00 27.20 25.20
128K — 8K 16-ch. 10-it —
2 USART, 2 SSU*,
Smart Card, 1 CAN
4/6/ 76 24MHz/4.5 5.5V -20C 75C 100-QFP DF2628FA24V-ND 21.34 18.14 16.81
384K — 16K 12-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card, 2 CAN /6/ 84 20MHz/4.5 5.5V -20C 75C 128-QFP DF2630F20V-ND 44.64 38.61 36.20
384K — 16K 12-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card, 2 CAN /6/ 84 20MHz/4.5 5.5V -20C 75C 128-QFP DF2630UF20JV-ND 46.27 40.02 37.52
384K — 16K 12-ch. 10-it 2-ch. 8-bit
3 USART,
Smart Card, 2 I 2 C, 2 CAN
/6/ 84 20MHz/4.5 5.5V -20C 75C 128-QFP DF2630WF20V-ND 47.45 41.04 38.48
256K — 16K 16-ch. 10-it 4-ch. 8-bit
4/6/ 89 16MHz/3.0 3.6V -20C 75C 128-QFP DF2633F16V-ND 29.20 24.82 23.00
256K — 16K 16-ch. 10-it 4-ch. 8-bit 4/6/ 89 25MHz/3.0 3.6V -20C 75C 128-QFP DF2633F25V-ND 29.20 24.82 23.00
256K — 16K 16-ch. 10-it 4-ch. 8-bit 5 USART,
4/6/ 89 25MHz/3.0 3.6V -20C 75C 120-TQFP DF2633TE25V-ND 32.00 27.20 25.20
256K — 16K 16-ch. 10-it 4-ch. 8-bit IrDA, Smart Card, 2 I 2 C 4/6/ 89 28MHz/4.5 5.5V -20C 75C 128-QFP DF2633RF28V-ND 25.34 21.54 19.96
256K — 16K 16-ch. 10-it 4-ch. 8-bit 4/6/ 89 28MHz/4.5 5.5V -20C 75C 120-TQFP DF2633RTE28V-ND 26.14 22.22 20.59
256K — 16K 16-ch. 10-it 4-ch. 8-bit 4/6/ 89 16MHz/3.0 3.6V -20C 75C 120-TQFP DF2633TE16V-ND 31.74 26.98 25.00
128K — 4K 12-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card, 2 CAN /6/ 84 20MHz/4.5 5.5V -20C 75C 128-QFP DF2636F20V-ND 29.70 25.25 23.39
128K — 4K 12-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card, 2 CAN /6/ 84 20MHz/4.5 5.5V -20C 75C 128-QFP DF2636UF20V-ND 31.50 26.78 24.81
256K — 16K 12-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card, 2 CAN /6/ 84 20MHz/4.5 5.5V -20C 75C 128-QFP DF2638F20V-ND 33.52 28.50 26.40
256K — 16K 12-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card, 2 CAN /6/ 84 20MHz/4.5 5.5V -20C 75C 128-QFP DF2638UF20V-ND 35.04 29.79 27.60
256K — 16K 12-ch. 10-it 2-ch. 8-bit 3 USART,
/6/ 84 20MHz/4.5 5.5V -20C 75C 128-QFP DF2638WF20V-ND 36.56 31.08 28.80
256K — 16K 12-ch. 10-it 2-ch. 8-bit Smart Card, 2 I 2 C, 2 CAN /6/ 84 20MHz/4.5 5.5V -40C 85C 128-QFP DF2638WF20JV-ND 41.05 35.51 33.29
256K — 16K 12-ch. 10-it 2-ch. 8-bit 3 USART, Smart Card, 2 CAN /6/ 84 20MHz/4.5 5.5V -20C 75C 128-QFP DF2639UF20V-ND 37.06 31.51 29.19
256K — 16K 12-ch. 10-it 2-ch. 8-bit
3 USART,
Smart Card, 2 I 2 C, 2 CAN
/6/ 84 20MHz/4.5 5.5V -20C 75C 128-QFP DF2639WF20V-ND 38.34 32.59 30.20
256K — 16K 16-ch. 10-it 4-ch. 8-bit 5 USART,
4/6/ 111 16MHz/3.0 3.6V -20C 75C 144-QFP DF2643FC16V-ND 30.72 26.12 24.20
256K — 16K 16-ch. 10-it 4-ch. 8-bit IrDA, Smart Card, 2 I 2 C 4/6/ 111 25MHz/3.0 3.6V -20C 75C 144-QFP DF2643FC25V-ND 30.72 26.12 24.20
128K — 4K 12-ch. 10-it — 2 USART, Smart Card, 1 CAN /6/ 108 20MHz/4.5 5.5V -40C 85C 144-QFP DF2646RFC20JV-ND 37.35 32.31 30.29
128K — 4K 12-ch. 10-it — 2 USART, Smart Card, 1 CAN /6/ 108 20MHz/4.5 5.5V -20C 75C 144-QFP DF2646RFC20V-ND 33.52 28.50 26.40
128K — 4K 12-ch. 10-it — 3 USART, Smart Card, 1 CAN /6/ 108 20MHz/4.5 5.5V -40C 85C 144-QFP DF2648RFC20JV-ND 39.00 33.73 31.62
128K — 4K 12-ch. 10-it — 3 USART, Smart Card, 1 CAN /6/ 108 20MHz/4.5 5.5V -20C 75C 144-QFP DF2648RFC20V-ND 35.04 29.79 27.60
384K — 16K 12-ch. 10-it 4-ch. 8-bit 3 USART, IrDA, Smart Card 2/6/ 115 33MHz/3.0 3.6V -20C 75C 144-LQFP DF2667VFQ33V-ND 24.88 21.15 19.60
256K — 8K 12-ch. 10-it 4-ch. 8-bit 3 USART, IrDA, Smart Card 2/6/ 115 33MHz/3.0 3.6V -20C 75C 144-QFP DF2676VFC33V-ND 26.66 22.67 21.00
C
◆ RoHS Compliant * SSU SPI ®
H8SX Series
Memory
Type
ROM
Bytes
Data Flash
Bytes
RAM
Bytes A/D D/A
Serial
Communication
Timers
8/16/32 GPIO
Operating Frequency/
Supply Voltage Temperature Package
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Digi-Key
Part No.
Price Each
1 25 100
Flash
256K — 12K 16-ch. 10-it — 2 USART, 3 SSU*, Smart Card /12/ 99 48MHz/4.5 5.5V -20C 85C 120-LQFP DF61582N48FPV-ND 30.48 25.91 24.01
256K — 24K 8-ch. 10-it 2-ch. 8-bit I 2 C, SCI 8/12/14 81 50MHz/3.0 3.6V -20C 75C 120-LQFP R5F61632N50FPV-ND 16.74 14.08 12.94
— — 24K 8-ch. 10-it 2-ch. 8-bi Smart Card, SCI 4/6/2 50 50MHz/3.0 3.6V -20C 75C 120-LQFP DS61650CN50FPV-ND 11.68 9.58 8.64
ROMless
— — 24K 8-ch. 10-it 2-ch. 8-bi Smart Card, SCI 4/6/2 50 50MHz/3.0 3.6V -20C 75C 120-LQFP DS61650CW50FPV-ND 11.31 9.51 8.74
— — 40K 8-ch. 10-it 2-ch. 8-bit 5 USART, Smart Card 4/6/2 50 50MHz/3.0 3.6V -20C 75C 120-LQFP DS61651CN50FPV-ND 12.61 10.61 9.75
— — 40K 8-ch. 10-it 2-ch. 8-bit 4 USART, IrDA, Smart Card 4/6/ 90 50MHz/3 3.6V -20C 75C 120-LQFP DS61651N50FPV-ND 12.76 10.73 9.86
384K — 40K 8-ch. 10-it 2-ch. 8-bit
6 USART, IrDA, USB FS,
Smart Card, 2 I 2 C
8/6/ 75 50MHz/3.0 3.6V -20C 75C 120-TQFP DF61653N50FTV-ND 22.86 19.44 18.01
512K — 40K 8-ch. 10-it 2-ch. 8-bit
6 USART, IrDA,
Smart Card, 2 I 2 C
8/6/ 84 50MHz/3.0 3.6V -20C 75C 120-TQFP DF61654N50FTV-ND 24.78 21.07 19.52
512K — 24K 8-ch. 10-it 2-ch. 8-bit SCI 4/6/2 82 50MHz/3.0 3.6V -20C 75C 120-TQFP DF61656CN35FTV-ND 23.36 19.86 18.40
512K — 24K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card 4/6/ 90 35MHz/3.0 3.6V -20C 75C 120-TQFP DF61656N35FTV-ND 23.36 19.86 18.40
Flash 768K — 24K 8-ch. 10-it 2-ch. 8-bit 4 USART, Smart Card 4/6/ 90 35MHz/3.0 3.6V -20C 75C 120-TQFP DF61657BN35FTV-ND 25.34 21.54 19.96
768K — 24K 8-ch. 10-it 2-ch. 8-bit SCI 4/6/2 82 50MHz/3.0 3.6V -20C 75C 120-TQFP DF61657CN35FTV-ND 25.34 21.54 19.96
384K — 40K 8-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 2 I 2 C 8/6/ 101 50MHz/3.0 3.6V -20C 75C 144-LQFP DF61663N50FPV-ND 23.36 19.86 18.40
384K — 40K 8-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 2 I 2 C 8/6/ 101 50MHz/3.0 3.6V -40C 85C 144-LQFP DF61663W50FPV-ND 25.70 21.85 20.24
512K — 40K 8-ch. 10-it 2-ch. 8-bit I 2 C, SCI, USB 8/12/4 92 50MHz/3.0 3.6V -20C 75C 144-LQFP R5F61664RN50FPV-ND 20.94 17.62 16.19
512K — 40K 8-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 2 I 2 C 8/6/ 101 50MHz/3.0 3.6V -40C 85C 144-LQFP DF61664W50FPV-ND 27.80 23.63 21.90
1024K — 56K 8-ch. 10-it 2-ch. 8-bit I 2 C, SCI, USB 8/12/4 92 50MHz/3.0 3.6V -20C 75C 144-LQFP R5F61668RN50FPV-ND 25.70 21.85 20.24
* SSU SPI ®
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
209
209

C
M16C Family
The M16C family offers the industry’s broadcast multi-purpose microcontroller platform, with seamless code and pin compatibility – all the way from 8-bit ~ 32-bit functionality. A robust platform of 16/32-bit CISC microcontrollers
with speeds from 16MHz ~ 64MHz, up to 512K on-chip flash memory, high ROM code efficiency, extensive EMI/EMS noise immunity and very low power consumption. It also features a broad choice of standard on-chip
peripheral options and the highest pin-to-pin compatibility (up to 144 pins) in the industry.
M16C Platform Series
Memory
Type
Flash
ROMless
Flash
ROMless
Flash
ROMless
Flash
ROM
Bytes
Data Flash
Bytes
RAM
Bytes A/D D/A
Microcontrollers
Serial
Communication
Timers
8/16/32 GPIO
Operating Frequency/
Supply Voltage Temperature Package
Digi-Key
Part No.
Price Each
1 25 100
64K — 3K 14-ch. 10-it 1-ch. 8-bit 2 USART, 1 CAN 4/1/ 37 16MHz/4.2 5.5V -40C 85C 48-LQFP M301N2F8TFPU3-ND 21.30 17.91 16.46
128K — 10K 8-ch. 10-it — 4 USART, 1 I 2 C /5/ 85 16MHz/3.0 3.6V -20C 85C 100-LQFP M30245FCGPU1-ND 20.00 17.00 15.75
96K — 8K 24-ch. 10-it — UART, CAN, IEBus, SIO, I 2 C /9/ 71 20MHz/4.2 5.5V -20C 85C 85-TFLGA M30280FAWGU7B-ND 16.19 13.62 12.52
96K 4K 5K 18-ch. 10-it — 3 USART, 3 I 2 C /6/ 88 16MHz/2.7 5.5V -40C 85C 100-QFP M30302FAPFPU3-ND 7.88 6.46 5.83
96K 4K 5K 18-ch. 10-it — 3 USART, 3 I 2 C /6/ 88 16MHz/2.7 5.5V -20C 85C 100-QFP M30302FAPFPU5-ND 7.50 6.15 5.55
96K 4K 5K 18-ch. 10-it — 3 USART, 3 I 2 C /6/ 88 16MHz/2.7 5.5V -40C 85C 100-LQFP M30302FAPGPU3-ND 7.35 6.03 5.44
96K 4K 5K 18-ch. 10-it — 3 USART, 3 I 2 C /6/ 88 16MHz/2.7 5.5V -20C 85C 100-LQFP M30302FAPGPU5-ND 7.00 5.74 5.18
128K 4K 5K 18-ch. 10-it — 3 USART, 3 I 2 C /6/ 88 16MHz/2.7 5.5V -40C 85C 100-QFP M30302FCPFPU3-ND 8.15 6.69 6.04
128K 4K 5K 18-ch. 10-it — 3 USART, 3 I 2 C /6/ 88 16MHz/2.7 5.5V -20C 85C 100-QFP M30302FCPFPU5-ND 7.75 6.36 5.74
128K 4K 5K 18-ch. 10-it — 3 USART, 3 I 2 C /6/ 88 16MHz/2.7 5.5V -40C 85C 100-LQFP M30302FCPGPU3-ND 7.63 6.26 5.65
128K 4K 5K 18-ch. 10-it — 3 USART, 3 I 2 C /6/ 88 16MHz/2.7 5.5V -20C 85C 100-LQFP M30302FCPGPU5-ND 7.25 5.95 5.37
192K 4K 6K 18-ch. 10-it — 3 USART, 3 I 2 C /6/ 88 16MHz/2.7 5.5V -40C 85C 100-QFP M30302FEPFPU3-ND 8.68 7.12 6.42
192K 4K 6K 18-ch. 10-it — 3 USART, 3 I 2 C /6/ 88 16MHz/2.7 5.5V -20C 85C 100-QFP M30302FEPFPU5-ND 8.25 6.77 6.11
192K 4K 6K 18-ch. 10-it — 3 USART, 3 I 2 C /6/ 88 16MHz/2.7 5.5V -40C 85C 100-LQFP M30302FEPGPU3-ND 8.15 6.69 6.04
192K 4K 6K 18-ch. 10-it — 3 USART, 3 I 2 C /6/ 88 16MHz/2.7 5.5V -20C 85C 100-LQFP M30302FEPGPU5-ND 7.75 6.36 5.74
— — 6K 18-ch. 10-it — 3 USART, 3 I 2 C /6/ 88 16MHz/2.7 5.5V -40C 85C 100-QFP M30302SPFPU3-ND 7.63 6.26 5.65
— — 6K 18-ch. 10-it — 3 USART, 3 I 2 C /6/ 88 16MHz/2.7 5.5V -40C 85C 100-LQFP M30302SPGPU3-ND 7.30 5.99 5.41
— — 6K 18-ch. 10-it — 3 USART, 3 I 2 C /6/ 88 16MHz/2.7 5.5V -20C 85C 100-LQFP M30302SPGPU5-ND 6.33 5.19 4.69
384K — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C, 1 CAN /11/ 88 24MHz/3 5.5V -40C 85C 100-LQFP M306NLFHGPU3-ND 28.00 23.80 22.05
512K — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C, 1 CAN /11/ 88 24MHz/3 5.5V -40C 85C 100-LQFP M306NLFJGPU3-ND 30.66 26.07 24.15
384K — 31K 26-ch. 10-it 2-ch. 8-bit 7 USART, 3 I 2 C, 1 CAN /11/ 114 24MHz/3 5.5V -40C 85C 128-LQFP M306NNFHGPU3-ND 29.34 24.94 23.11
512K — 31K 26-ch. 10-it 2-ch. 8-bit 7 USART, 3 I 2 C, 1 CAN /11/ 114 24MHz/3 5.5V -40C 85C 128-LQFP M306NNFJGPU3-ND 32.00 27.20 25.20
256K 4K 10K 26-ch. 10-it 2-ch. 8-bit UART, CAN, IEBus, SIO, I 2 C /11/ 87 24MHz/3.0 5.5V -40C 85C 100-QFP M306N4FGTFPUKJ-ND 37.13 32.12 30.11
128K — 5K 26-ch. 10-it 2-ch. 8-bit 4 USART, 3 I 2 C, 1 CAN /11/ 88 20MHz/4.2 5.5V -40C 85C 100-QFP M306N5FCTFPU0-ND 33.02 28.07 26.01
128K 4K 5K 26-ch. 10-it 2-ch. 8-bit UART, CAN, IEBus, SIO, I 2 C /11/ 87 20MHz/4.2 5.5V -40C 85C 100-QFP M306N5FCTFPUK-ND 33.02 28.07 26.01
128K 4K 5K 26-ch. 10-it 2-ch. 8-bit UART, CAN, IEBus, SIO, I 2 C /11/ 87 20MHz/4.2 5.5V -40C 85C 100-QFP M306N5FCTFPUKJ-ND 33.02 28.07 26.01
96K — 24K — — 5 USART, 3 I 2 C /5/ 22 15.36MHz/3 3.6V -40C 85C 64-LQFP M306S0FAGPU3-ND 20.00 17.00 15.75
96K — 24K — — 5 USART, 3 I 2 C /5/ 22 15.36MHz/3 3.6V -20C 85C 64-LQFP M306S0FAGPU5-ND 20.94 17.62 16.19
512K — 10K — 2-ch. 8-bit 2 USART, 3 I 2 C /8/ 76 16MHz/4.75 5.25V -20C 85C 100-QFP M306V7FJFPU0-ND 38.28 33.11 31.04
256K — 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-QFP M3062LFGPFPU3C-ND 20.16 17.14 15.88
256K — 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-QFP M3062LFGPFPU5C-ND 21.12 17.76 16.32
256K 4K 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-QFP M3062LFGPFPU9C-ND 21.41 18.01 16.55
256K — 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-LQFP M3062LFGPGPU3C-ND 21.56 18.13 16.66
256K — 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-LQFP M3062LFGPGPU5C-ND 20.53 17.27 15.87
256K 4K 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-LQFP M3062LFGPGPU7C-ND 21.85 18.38 16.89
256K 4K 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-LQFP M3062LFGPGPU9C-ND 20.83 17.52 16.10
128K — 10K 26-ch. 10-it 2-ch. 8-bit 5 USART. 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-QFP M30620FCPFPU3C-ND 20.68 17.39 15.98
128K — 10K 26-ch. 10-it 2-ch. 8-bit 5 USART. 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-QFP M30620FCPFPU5C-ND 19.69 16.56 15.22
128K 4K 10K 26-ch. 10-it 2-ch. 8-bit 5 USART. 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-QFP M30620FCPFPU7C-ND 20.97 17.64 16.21
128K 4K 10K 26-ch. 10-it 2-ch. 8-bit 5 USART. 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-QFP M30620FCPFPU9C-ND 19.98 16.80 15.44
128K — 10K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-LQFP M30620FCPGPU3C-ND 20.79 17.49 16.07
128K — 10K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-LQFP M30620FCPGPU5C-ND 19.80 16.65 15.30
128K 4K 10K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-LQFP M30620FCPGPU7C-ND 21.10 17.75 16.31
128K 4K 10K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-LQFP M30620FCPGPU9C-ND 20.09 16.90 15.53
— — 10K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-QFP M30620SPFPU3C-ND 13.88 11.68 10.73
— — 10K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-QFP M30620SPFPU5C-ND 12.61 10.61 9.75
— — 10K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-LQFP M30620SPGPU3C-ND 12.91 10.86 9.98
— — 10K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-LQFP M30620SPGPU5C-ND 11.73 9.87 9.07
128K — 10K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 71 24MHz/2.7 5.5V -40C 85C 80-LQFP M30621FCPGPU3C-ND 19.56 16.45 15.12
128K — 10K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 71 24MHz/2.7 5.5V -20C 85C 80-QFP M30621FCPGPU5C-ND 18.63 15.67 14.40
128K 4K 10K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 71 24MHz/2.7 5.5V -20C 85C 80-QFP M30621FCPGPU9C-ND 18.92 15.91 14.62
64K — 4K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-QFP M30622F8PFPU3C-ND 20.17 16.97 15.59
64K — 4K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-QFP M30622F8PFPU5C-ND 19.21 16.16 14.85
64K 4K 4K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-QFP M30622F8PFPU7C-ND 20.48 17.23 15.83
64K 4K 4K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-QFP M30622F8PFPU9C-ND 19.51 16.41 15.08
64K — 4K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-LQFP M30622F8PGPU3C-ND 18.33 15.42 14.17
64K — 4K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-LQFP M30622F8PGPU5C-ND 17.45 14.68 13.49
64K 4K 4K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-LQFP M30622F8PGPU7C-ND 18.63 15.67 14.40
— — 3K 10-ch. 10-it 2-ch. 8-bit 5 USART, 1 I 2 C /11/ 88 16MHz/2.7 5.5V -20C 85C 100-QFP M30622SAFPU5-ND 12.33 10.11 9.13
— — 4K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-QFP M30622SPFPU3C-ND 12.25 10.31 9.47
— — 4K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-QFP M30622SPFPU5C-ND 11.15 9.38 8.62
— — 4K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100 -LQFP M30622SPGPU3C-ND 11.29 9.50 8.73
— — 4K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-LQFP M30622SPGPU5C-ND 11.68 9.58 8.64
64K — 4K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 71 24MHz/2.7 5.5V -20C 85C 80-QFP M30623F8PGPU5C-ND 18.33 15.42 14.17
256K — 20K 10-ch. 10-it 2-ch. 8-bit 5 USART, 1 I 2 C /11/ 88 16MHz/2.7 5.5V -40C 85C 100-QFP M30624FGAFPU3-ND 46.47 40.20 37.68
256K — 20K 10-ch. 10-it 2-ch. 8-bit 5 USART, 1 I 2 C /11/ 88 16MHz/2.7 5.5V -20C 85C 100-QFP M30624FGAFPU5-ND 44.23 38.26 35.87
256K — 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-QFP M30624FGPFPU3C-ND 21.84 18.57 17.20
*SSU SPI ®
(Continued)
210 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Microcontrollers
M16C Family M16C Platform Series (Cont.)
Memory
Type
ROM
Bytes
Data Flash
Bytes
RAM
Bytes A/D D/A
Serial
Communication
Timers
8/16/32 GPIO
Operating Frequency/
Supply Voltage Temperature Package
Digi-Key
Part No.
Price Each
1 25 100
256K 4K 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-QFP M30624FGPFPU7C-ND 22.10 18.79 17.41
256K 4K 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-QFP M30624FGPFPU9C-ND 21.06 17.91 16.59
Flash
256K — 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-LQFP M30624FGPGPU3C-ND 20.98 17.84 16.53
256K — 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-LQFP M30624FGPGPU5C-ND 20.00 17.00 15.75
256K 4K 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-LQFP M30624FGPGPU7C-ND 21.26 18.08 16.75
256K 4K 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-LQFP M30624FGPGPU9C-ND 20.26 17.23 15.96
— — 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-QFP M30624SPFPU3C-ND 16.30 13.71 12.60
ROMless
— — 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-QFP M30624SPFPU5C-ND 14.81 12.46 11.45
— — 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-LQFP M30624SPGPU3C-ND 14.59 12.27 11.28
— — 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-LQFP M30624SPGPU5C-ND 13.27 11.16 10.26
256K — 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 114 24MHz/2.7 5.5V -40C 85C 128-LQFP M30625FGPGPU3C-ND 22.40 19.04 17.64
256K — 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 114 24MHz/2.7 5.5V -20C 85C 128-LQFP M30625FGPGPU5C-ND 21.34 18.14 16.81
256K 4K 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 114 24MHz/2.7 5.5V -40C 85C 128-LQFP M30625FGPGPU7C-ND 22.66 19.27 17.85
256K 4K 20K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 114 24MHz/2.7 5.5V -20C 85C 128-LQFP M30625FGPGPU9C-ND 21.60 18.36 17.01
384K — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-QFP M30626FHPFPU3C-ND 24.64 20.95 19.41
384K — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-QFP M30626FHPFPU5C-ND 23.46 19.95 18.48
384K 4K 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-QFP M30626FHPFPU7C-ND 24.90 21.17 19.61
384K 4K 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-QFP M30626FHPFPU9C-ND 23.74 20.18 18.70
Flash
384K — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-LQFP M30626FHPGPU3C-ND 23.78 20.22 18.73
384K — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-LQFP M30626FHPGPU5C-ND 22.66 19.27 17.85
384K 4K 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-LQFP M30626FHPGPU7C-ND 24.06 20.46 18.95
384K 4K 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-LQFP M30626FHPGPU9C-ND 22.94 19.50 18.07
512K — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-QFP M30626FJPFPU3C-ND 27.44 23.33 21.61
512K — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-QFP M30626FJPFPU5C-ND 26.14 22.22 20.59
512K 4K 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-QFP M30626FJPFPU7C-ND 27.70 23.55 21.82
512K — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-LQFP M30626FJPGPU3C-ND 26.62 22.63 20.97
512K — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-LQFP M30626FJPGPU5C-ND 25.34 21.54 19.96
512K 4K 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-LQFP M30626FJPGPU7C-ND 26.88 22.85 21.17
— — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-QFP M30626SPFPU3C-ND 16.28 13.69 12.58
ROMless
— — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-QFP M30626SPFPU5C-ND 15.42 12.97 11.92
— — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART 3 I 2 C /11/ 88 24MHz/2.7 5.5V -40C 85C 100-LQFP M30626SPGPU3C-ND 15.03 12.64 11.62
— — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART 3 I 2 C /11/ 88 24MHz/2.7 5.5V -20C 85C 100-LQFP M30626SPGPU5C-ND 13.64 11.47 10.54
384K — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 114 24MHz/2.7 5.5V -40C 85C 128-LQFP M30627FHPGPU3C-ND 25.20 21.42 19.85
384K 4K 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 114 24MHz/2.7 5.5V -40C 85C 128-LQFP M30627FHPGPU7C-ND 25.46 21.65 20.05
384K 4K 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 114 24MHz/2.7 5.5V -20C 85C 128-LQFP M30627FHPGPU9C-ND 24.26 20.63 19.11
512K — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 114 24MHz/2.7 5.5V -40C 85C 128-LQFP M30627FJPGPU3C-ND 28.00 23.80 22.05
512K — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 114 24MHz/2.7 5.5V -20C 85C 128-LQFP M30627FJPGPU5C-ND 26.66 22.67 21.00
512K 4K 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 114 24MHz/2.7 5.5V -40C 85C 128-LQFP M30627FJPGPU7C-ND 28.26 24.03 22.26
512K 4K 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C /11/ 114 24MHz/2.7 5.5V -20C 85C 128-LQFP M30627FJPGPU9C-ND 26.94 22.90 21.22
256K — 10K 26-ch. 10-it 2-ch. 8-bit 4 USART, 3 I 2 C, 2 CAN /11/ 88 24MHz/3.0 5.5V -40C 85C 100-LQFP M306N4FGGPU3-ND 25.34 21.54 19.96
Flash 384K — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C, 2 CAN /11/ 88 24MHz/3.0 5.5V -40C 85C 100-LQFP M306NKFHGPU3-ND 29.34 24.94 23.11
512K — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 3 I 2 C, 2 CAN /11/ 88 24MHz/3.0 5.5V -40C 85C 100-LQFP M306NKFJGPU3-ND 32.00 27.20 25.20
512K — 31K 26-ch. 10-it 2-ch. 8-bit 7 USART, 3 I 2 C, 2 CAN /11/ 114 24MHz/3.0 5.5V -40C 85C 128-LQFP M306NMFJGPU3-ND 33.34 28.34 26.26
256K — 20K 10-ch. 10-it 2-ch. 8-bit 5 USART /11/ 88 20MHz/2.7 5.5V -40C 85C 100-LQFP M30803FGGPU3-ND 48.91 42.31 39.66
256K — 20K 10-ch. 10-it 2-ch. 8-bit 5 USART /11/ 124 20MHz/2.7 5.5V -20C 85C 144-LQFP M30805FGGPU5-ND 51.08 44.18 41.42
256K 8K 512K 26-ch. 10-it 2-ch. 8-bit UART, I 2 C, Smart Card, SSU* /11/ 88 25MHz/2.7 5.5V -40C 85C 100-QFP R5F3640DDFAU0-ND 15.47 13.01 11.96
256K 8K 512K 26-ch. 10-it 2-ch. 8-bit UART, I 2 C, Smart Card, SSU* /11/ 88 25MHz/2.7 5.5V -40C 85C 100-LQFP R5F3640DDFBU0-ND 13.46 11.33 10.41
256K 8K 512K 26-ch. 10-it 2-ch. 8-bit UART, I 2 C, Smart Card, SSU* /11/ 88 25MHz/2.7 5.5V -40C 85C 100-QFP R5F3640DNFAU0-ND 12.80 10.77 9.90
256K 8K 512K 26-ch. 10-it 2-ch. 8-bit UART, I 2 C, Smart Card, SSU* /11/ 88 25MHz/2.7 5.5V -40C 85C 100-LQFP R5F3640DNFBU0-ND 12.28 10.33 9.49
*SSU SPI ®
C
M16C Tiny Series
Memory
Type
Flash
*SSU SPI ®
ROM
Bytes
Data Flash
Bytes
RAM
Bytes A/D D/A
Serial
Communication
Timers Operating Frequency/
8/16/32 GPIO Supply Voltage Temperature Package
Digi-Key
Part No.
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Price Each
1 25 100
24K — 1K 12-ch. 10-it — 3 USART, 1 I 2 C /8/ 39 20MHz/2.7 5.5V -40C 85C 48-LQFP M30260F3AGPU3-ND 11.73 10.32 8.92
24K — 1K 12-ch. 10-it — 3 USART, 1 I 2 C /8/ 39 20MHz/2.7 5.5V -40C 85C 48-LQFP M30260F3AGPU3A-ND 11.73 9.62 8.68
24K — 1K 12-ch. 10-it — 3 USART, 1 I 2 C /8/ 39 20MHz/2.7 5.5V -20C 85C 48-LQFP M30260F3AGPU5A-ND 11.10 9.11 8.22
24K 4K 1K 12-ch. 10-it — 3 USART, 1 I 2 C /8/ 39 20MHz/2.7 5.5V -40C 85C 48-LQFP M30260F3AGPU7A-ND 12.08 9.91 8.94
24K 4K 1K 12-ch. 10-it — 3 USART, 1 I 2 C /8/ 39 20MHz/2.7 5.5V -20C 85C 48-LQFP M30260F3AGPU9A-ND 11.43 9.37 8.46
48K — 2K 12-ch. 10-it — 3 USART, 1 I 2 C /8/ 39 20MHz/2.7 5.5V -40C 85C 48-LQFP M30260F6AGPU3A-ND 11.18 9.40 8.64
48K — 2K 12-ch. 10-it — 3 USART, 1 I 2 C /8/ 39 20MHz/2.7 5.5V -20C 85C 48-LQFP M30260F6AGPU5A-ND 12.08 9.91 8.94
48K 4K 2K 12-ch. 10-it — 3 USART, 1 I 2 C /8/ 39 20MHz/2.7 5.5V -40C 85C 48-LQFP M30260F6AGPU7A-ND 11.46 9.64 8.86
48K 4K 2K 12-ch. 10-it — 3 USART, 1 I 2 C /8/ 39 20MHz/2.7 5.5V -20C 85C 48-LQFP M30260F6AGPU9A-ND 12.40 10.17 9.18
64K — 2K 12-ch. 10-it — 3 USART, 1 I 2 C /8/ 39 20MHz/2.7 5.5V -40C 85C 48-LQFP M30260F8AGPU3A-ND 11.73 9.87 9.07
64K — 2K 12-ch. 10-it — 3 USART, 1 I 2 C /8/ 39 20MHz/2.7 5.5V -20C 85C 48-LQFP M30260F8AGPU5A-ND 11.18 9.40 8.64
64K 4K 2K 12-ch. 10-it — 3 USART, 1 I 2 C /8/ 39 20MHz/2.7 5.5V -40C 85C 48-LQFP M30260F8AGPU7A-ND 12.03 10.12 9.30
64K 4K 2K 12-ch. 10-it — 3 USART, 1 I 2 C /8/ 39 20MHz/2.7 5.5V -20C 85C 48-LQFP M30260F8AGPU9A-ND 11.46 9.64 8.86
24K 4K 1K 8-ch. 10-it — 3 USART, 1 I 2 C /8/ 38 20MHz/2.7 5.5V -40C 85C 48-LQFP M30262F3GPU7-ND 9.66 7.73 6.53
24K — 1K 10-ch. 10-it — 2 USART, 1 I 2 C /8/ 33 20MHz/2.7 5.5V -20C 85C 42-SSOP M30263F3AFPU5A-ND 11.10 9.11 8.22
48K — 2K 10-ch. 10-it — 2 USART, 1 I 2 C /8/ 33 20MHz/2.7 5.5V -20C 85C 42-SSOP M30263F6AFPU5A-ND 12.08 9.91 8.94
64K — 2K 10-ch. 10-it — 2 USART, 1 I 2 C /8/ 33 20MHz/2.7 5.5V -20C 85C 42-SSOP M30263F8AFPU5A-ND 11.18 9.40 8.64
48K — 4K 24-ch. 10-it — 5 USART, 2 I 2 C /9/ 71 20MHz/2.7 5.5V -40C 85C 80-LQFP M30280F6HPU3B-ND 13.13 11.05 10.15
48K — 4K 24-ch. 10-it — 5 USART, 2 I 2 C /9/ 71 20MHz/2.7 5.5V -20C 85C 80-LQFP M30280F6HPU5B-ND 12.58 10.59 9.73
48K 4K 4K 24-ch. 10-it — 5 USART, 2 I 2 C /9/ 71 20MHz/2.7 5.5V -40C 85C 80-LQFP M30280F6HPU7B-ND 13.44 11.31 10.39
(Continued)
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
211
211

C
Memory
Type
Flash
*SSU SPI ®
ROM
Bytes
Data Flash
Bytes
Microcontrollers
M16C Family M16C Tiny Series (Cont.)
RAM
Bytes A/D D/A
Serial
Communication
Timers Operating Frequency/
8/16/32 GPIO Supply Voltage Temperature Package
Digi-Key
Part No.
Price Each
1 25 100
48K 4K 4K 24-ch. 10-it — 5 USART, 2 I 2 C /9/ 71 20MHz/2.7 5.5V -20C 85C 80-LQFP M30280F6HPU9-ND 12.87 10.83 9.95
48K 4K 4K 24-ch. 10-it — 5 USART, 2 I 2 C /9/ 71 20MHz/2.7 5.5V -20C 85C 80-LQFP M30280F6HPU9B-ND 12.87 10.83 9.95
64K — 4K 24-ch. 10-it — 5 USART, 2 I 2 C /9/ 71 20MHz/2.7 5.5V -40C 85C 80-LQFP M30280F8HPU3B-ND 13.71 11.53 10.60
64K — 4K 24-ch. 10-it — 5 USART, 2 I 2 C /9/ 71 20MHz/2.7 5.5V -20C 85C 80-LQFP M30280F8HPU5B-ND 13.13 11.05 10.15
64K 4K 4K 24-ch. 10-it — 5 USART, 2 I 2 C /9/ 71 20MHz/2.7 5.5V -40C 85C 80-LQFP M30280F8HPU7-ND 13.99 11.77 10.82
64K 4K 4K 24-ch. 10-it — 5 USART, 2 I 2 C /9/ 71 20MHz/2.7 5.5V -40C 85C 80-LQFP M30280F8HPU7B-ND 13.99 11.77 10.82
64K 4K 4K 24-ch. 10-it — 5 USART, 2 I 2 C /9/ 71 20MHz/2.7 5.5V -20C 85C 80-LQFP M30280F8HPU9B-ND 13.44 11.31 10.39
96K — 8K 24-ch. 10-it — 5 USART, 2 I 2 C /9/ 71 20MHz/2.7 5.5V -40C 85C 80-LQFP M30280FAHPU3B-ND 14.81 12.46 11.45
96K — 8K 24-ch. 10-it — 5 USART, 2 I 2 C /9/ 71 20MHz/2.7 5.5V -20C 85C 80-LQFP M30280FAHPU5B-ND 14.26 11.99 11.02
96K 4K 8K 24-ch. 10-it — 5 USART, 2 I 2 C /9/ 71 20MHz/2.7 5.5V -40C 85C 80-LQFP M30280FAHPU7B-ND 15.11 12.71 11.68
96K 4K 8K 24-ch. 10-it — 5 USART, 2 I 2 C /9/ 71 20MHz/2.7 5.5V -20C 85C 80-LQFP M30280FAHPU9B-ND 14.54 12.23 11.24
128K — 12K 24-ch. 10-it — 5 USART, 2 I 2 C /9/ 71 20MHz/2.7 5.5V -40C 85C 80-LQFP M30280FCHPU3B-ND 16.15 13.58 12.48
128K — 12K 24-ch. 10-it — 5 USART, 2 I 2 C /9/ 71 20MHz/2.7 5.5V -20C 85C 80-LQFP M30280FCHPU5B-ND 15.38 12.94 11.89
128K 4K 12K 24-ch. 10-it — 5 USART, 2 I 2 C /9/ 71 20MHz/2.7 5.5V -40C 85C 80-LQFP M30280FCHPU7B-ND 16.43 13.82 12.70
128K 4K 12K 24-ch. 10-it — 5 USART, 2 I 2 C /9/ 71 20MHz/2.7 5.5V -20C 85C 80-LQFP M30280FCHPU9B-ND 15.66 13.18 12.11
48K — 4K 13-ch. 10-it — 4 USART, 2 I 2 C /9/ 55 20MHz/2.7 5.5V -40C 85C 64-LQFP M30281F6HPU3-ND 12.58 10.59 9.73
48K — 4K 13-ch. 10-it — 4 USART, 2 I 2 C /9/ 55 20MHz/2.7 5.5V -40C 85C 64-LQFP M30281F6HPU3B-ND 12.58 10.59 9.73
48K — 4K 13-ch. 10-it — 4 USART, 2 I 2 C /9/ 55 20MHz/2.7 5.5V -20C 85C 64-LQFP M30281F6HPU5-ND 12.03 10.12 9.30
48K — 4K 13-ch. 10-it — 4 USART, 2 I 2 C /9/ 55 20MHz/2.7 5.5V -20C 85C 64-LQFP M30281F6HPU5B-ND 12.03 10.12 9.30
48K 4K 4K 13-ch. 10-it — 4 USART, 2 I 2 C /9/ 55 20MHz/2.7 5.5V -40C 85C 64-LQFP M30281F6HPU7-ND 12.87 10.83 9.95
48K 4K 4K 13-ch. 10-it — 4 USART, 2 I 2 C /9/ 55 20MHz/2.7 5.5V -40C 85C 64-LQFP M30281F6HPU7B-ND 12.87 10.83 9.95
48K 4K 4K 13-ch. 10-it — 4 USART, 2 I 2 C /9/ 55 20MHz/2.7 5.5V -20C 85C 64-LQFP M30281F6HPU9B-ND 12.32 10.36 9.52
64K — 4K 13-ch. 10-it — 4 USART, 2 I 2 C /9/ 55 20MHz/2.7 5.5V -40C 85C 64-LQFP M30281F8HPU3B-ND 13.13 11.05 10.15
64K — 4K 13-ch. 10-it — 4 USART, 2 I 2 C /9/ 55 20MHz/2.7 5.5V -20C 85C 64-LQFP M30281F8HPU5B-ND 12.58 10.59 9.73
64K 4K 4K 13-ch. 10-it — 4 USART, 2 I 2 C /9/ 55 20MHz/2.7 5.5V -40C 85C 64-LQFP M30281F8HPU7B-ND 13.44 11.31 10.39
64K 4K 4K 13-ch. 10-it — 4 USART, 2 I 2 C /9/ 55 20MHz/2.7 5.5V -20C 85C 64-LQFP M30281F8HPU9B-ND 12.87 10.83 9.95
96K — 8K 13-ch. 10-it — 4 USART, 2 I 2 C /9/ 55 20MHz/2.7 5.5V -40C 85C 64-LQFP M30281FAHPU3-ND 14.26 11.99 11.02
96K — 8K 13-ch. 10-it — 4 USART, 2 I 2 C /9/ 55 20MHz/2.7 5.5V -40C 85C 64-LQFP M30281FAHPU3B-ND 14.26 11.99 11.02
96K 4K 8K 13-ch. 10-it — 4 USART, 2 I 2 C /9/ 55 20MHz/2.7 5.5V -40C 85C 64-LQFP M30281FAHPU7B-ND 14.54 12.23 11.24
96K 4K 8K 13-ch. 10-it — 4 USART, 2 I 2 C /9/ 55 20MHz/2.7 5.5V -20C 85C 64-LQFP M30281FAHPU9B-ND 13.99 11.77 10.82
96K — 8K 13-ch. 10-it — 4 USART, 2 I 2 C /9/ 55 20MHz/2.7 5.5V -40C 85C 64-LQFP M30281FATHPU3A-ND 18.85 15.86 14.57
128K — 12K 13-ch. 10-it — 4 USART, 2 I 2 C /9/ 55 20MHz/2.7 5.5V -40C 85C 64-LQFP M30281FCHPU3B-ND 15.55 13.08 12.02
128K 4K 12K 13-ch. 10-it — 4 USART, 2 I 2 C /9/ 55 20MHz/2.7 5.5V -40C 85C 64-LQFP M30281FCHPU7B-ND 15.84 13.32 12.24
128K 4K 12K 13-ch. 10-it — 4 USART, 2 I 2 C /9/ 55 20MHz/2.7 5.5V -20C 85C 64-LQFP M30281FCHPU9B-ND 15.11 12.71 11.68
96K — 8K 27-ch. 10-it — 5 USART, 2 I 2 C, 1CAN /9/ 71 20MHz/2.7 5.5V -40C 85C 80-LQFP M30290FAHPU3A-ND 17.05 14.34 13.18
96K — 8K 27-ch. 10-it — 5 USART, 2 I 2 C, 1CAN /9/ 71 20MHz/2.7 5.5V -20C 85C 80-LQFP M30290FAHPU5A-ND 16.19 13.62 12.52
96K 4K 8K 27-ch. 10-it — 5 USART, 2 I 2 C, 1CAN /9/ 71 20MHz/2.7 5.5V -40C 85C 80-LQFP M30290FAHPU7A-ND 17.34 14.58 13.40
96K 4K 8K 27-ch. 10-it — 5 USART, 2 I 2 C, 1CAN /9/ 71 20MHz/2.7 5.5V -20C 85C 80-LQFP M30290FAHPU9A-ND 16.48 13.86 12.74
128K — 12K 27-ch. 10-it — 5 USART, 2 I 2 C, 1 CAN /9/ 71 20MHz/2.7 5.5V -40C 85C 80-LQFP M30290FCHPU3A-ND 18.46 15.53 14.27
128K — 12K 27-ch. 10-it — 5 USART, 2 I 2 C, 1 CAN /9/ 71 20MHz/2.7 5.5V -20C 85C 80-LQFP M30290FCHPU5A-ND 17.60 14.80 13.60
128K 4K 12K 27-ch. 10-it — 5 USART, 2 I 2 C, 1 CAN /9/ 71 20MHz/2.7 5.5V -40C 85C 80-LQFP M30290FCHPU7A-ND 18.74 15.77 14.49
128K 4K 12K 27-ch. 10-it — 5 USART, 2 I 2 C, 1 CAN /9/ 71 20MHz/2.7 5.5V -20C 85C 80-LQFP M30290FCHPU9A-ND 17.89 15.05 13.83
96K — 8K 16-ch. 10-it — 4 USART, 2 I 2 C, 1 CAN /9/ 55 20MHz/2.7 5.5V -40C 85C 64-LQFP M30291FAHPU3A-ND 16.48 13.86 12.74
96K — 8K 16-ch. 10-it — 4 USART, 2 I 2 C, 1 CAN /9/ 55 20MHz/2.7 5.5V -20C 85C 64-LQFP M30291FAHPU5A-ND 15.64 13.16 12.09
96K 4K 8K 16-ch. 10-it — 4 USART, 2 I 2 C, 1 CAN /9/ 55 20MHz/2.7 5.5V -40C 85C 64-LQFP M30291FAHPU7A-ND 16.79 14.12 12.98
96K 4K 8K 16-ch. 10-it — 4 USART, 2 I 2 C, 1 CAN /9/ 55 20MHz/2.7 5.5V -20C 85C 64-LQFP M30291FAHPU9A-ND 15.93 13.40 12.31
96K — 8K 16-ch. 10-it — 4 USART, 2 I 2 C, 1 CAN /9/ 55 20MHz/2.7 5.5V -40C 125C 64-LQFP M30291FAVHPU3A-ND 20.26 17.23 15.96
128K — 12K 16-ch. 10-it — 4 USART, 2 I 2 C, 1 CAN /9/ 55 20MHz/2.7 5.5V -40C 85C 64-LQFP M30291FCHPU3A-ND 17.89 15.05 13.83
128K — 12K 16-ch. 10-it — 4 USART, 2 I 2 C, 1 CAN /9/ 55 20MHz/2.7 5.5V -20C 85C 64-LQFP M30291FCHPU5A-ND 17.05 14.34 13.18
128K 4K 12K 16-ch. 10-it — 4 USART, 2 I 2 C, 1 CAN /9/ 55 20MHz/2.7 5.5V -40C 85C 64-LQFP M30291FCHPU7A-ND 18.19 15.30 14.06
128K 4K 12K 16-ch. 10-it — 4 USART, 2 I 2 C, 1 CAN /9/ 55 20MHz/2.7 5.5V -20C 85C 64-LQFP M30291FCHPU9A-ND 17.34 14.58 13.40
M32 Series
Memory
Type
ROMless
Flash
ROMless
Flash
ROM
Bytes
Data Flash
Bytes
◆ RoHS Compliant *SSU SPI ®
RAM
Bytes A/D D/A
Serial
Communication
Timers Operating Frequency/
8/16/32 GPIO Supply Voltage Temperature Package
Digi-Key
Part No.
Price Each
1 25 100
— — 8K 10-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C /11/ 48 32MHz/3.0 5.5V -20C 85C 100-QFP M30800SAFPU5-ND 12.61 10.61 9.75
— — 8K 10-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C /11/ 48 32MHz/3.0 5.5V -20C 85C 100-QFP M30800SAFP-BLU5-ND 13.20 11.10 10.20
— — 8K 10-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C /11/ 48 32MHz/3.0 5.5V -20C 85C 100-LQFP M30800SAGPU5-ND 11.73 9.87 9.07
— — 8K 10-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C /11/ 48 32MHz/3.0 5.5V -20C 85C 100-LQFP M30800SAGP-BLU5-ND 12.32 10.36 9.52
512K — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -40C 85C 100-QFP M30833FJFPU3-ND 49.56 42.87 40.19
512K — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-QFP M30833FJFPU5-ND 47.19 40.82 38.27
512K — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -40C 85C 100-LQFP M30833FJGPU3-ND 49.27 42.61 39.95
512K — 31K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-LQFP M30833FJGPU5-ND 46.86 40.53 38.00
512K — 31K 34-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 124 32MHz/3.0 5.5V -20C 85C 144-LQFP M30835FJGPU5-ND 48.93 42.32 39.68
— — 10K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-LQFP M30840SGPU5-ND 13.00 10.94 10.05
— — 10K 34-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 124 32MHz/3.0 5.5V -20C 85C 144-LQFP M30842SGPU5-ND 14.37 12.09 11.11
384K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -40C 85C 100-QFP M30843FHFPU3-ND 33.14 28.17 26.10
384K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-QFP M30843FHFPU5-ND 30.14 25.62 23.74
384K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -40C 85C 100-LQFP M30843FHGPU3-ND 32.26 27.43 25.41
384K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-LQFP M30843FHGPU5-ND 29.34 24.94 23.11
(Continued)
212 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Memory
Type
Flash
ROM
Bytes
Data Flash
Bytes
◆ RoHS Compliant *SSU SPI ®
Microcontrollers
M32 Series (Cont.)
RAM
Bytes A/D D/A
Serial
Communication
Timers Operating Frequency/
8/16/32 GPIO Supply Voltage Temperature Package
Digi-Key
Part No.
Price Each
1 25 100
512K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -40C 85C 100-LQFP M30843FJFPU3-ND 36.08 30.67 28.42
512K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-QFP M30843FJFPU5-ND 32.80 27.88 25.83
512K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -40C 85C 100-LQFP M30843FJGPU3-ND 35.20 29.92 27.72
512K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-LQFP M30843FJGPU5-ND 32.00 27.20 25.20
320K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -40C 85C 100-LQFP M30843FWGPU3-ND 30.80 26.18 24.26
320K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-LQFP M30843FWGPU5-ND 28.00 23.80 22.05
384K — 24K 34-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 124 32MHz/3.0 5.5V -40C 85C 144-LQFP M30845FHGPU3-ND 36.66 31.17 28.87
384K — 24K 34-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 124 32MHz/3.0 5.5V -20C 85C 144-LQFP M30845FHGPU5-ND 33.34 28.34 26.26
512K — 24K 34-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 124 32MHz/3.0 5.5V -40C 85C 144-LQFP M30845FJGPU3-ND 39.60 33.66 31.19
512K — 24K 34-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 124 32MHz/3.0 5.5V -20C 85C 144-LQFP M30845FJGPU5-ND 36.00 30.60 28.35
320K — 24K 34-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 124 32MHz/3.0 5.5V -40C 85C 144-LQFP M30845FWGPU3-ND 35.20 29.92 27.72
320K — 24K 34-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 1 CAN /11/ 124 32MHz/3.0 5.5V -20C 85C 144-LQFP M30845FWGPU5-ND 32.00 27.20 25.20
384K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 2 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-QFP M30853FHFPD5-ND 31.46 26.75 24.78
384K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 2 CAN /11/ 88 32MHz/3.0 5.5V -40C 85C 100-QFP M30853FHFPU3-ND 34.62 29.43 27.27
384K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 2 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-QFP M30853FHFPU5-ND 31.46 26.75 24.78
384K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 2 CAN /11/ 88 32MHz/3.0 5.5V -40C 85C 100-LQFP M30853FHGPU3-ND 33.74 28.68 26.58
384K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 2 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-LQFP M30853FHGPU5-ND 30.66 26.07 24.15
512K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 2 CAN /11/ 88 32MHz/3.0 5.5V -40C 85C 100-QFP M30853FJFPU3-ND 37.56 31.93 29.58
512K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 2 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-QFP M30853FJFPU5-ND 34.14 29.02 26.89
512K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 2 CAN /11/ 88 32MHz/3.0 5.5V -40C 85C 100-LQFP M30853FJGPU3-ND 36.66 31.17 28.87
512K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 2 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-LQFP M30853FJGPD5-ND 33.34 28.34 26.26
320K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 2 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-QFP M30853FWFPU5-ND 38.94 33.68 31.58
320K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 2 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-LQFP M30853FWGPU5-ND 38.65 33.43 31.34
320K — 24K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 2 CAN /11/ 88 32MHz/3.0 5.5V -40C 85C 100-LQFP M30853FWGPU3-ND 40.57 35.09 32.90
384K — 24K 34-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 2 CAN /11/ 124 32MHz/3.0 5.5V -40C 85C 144-LQFP M30855FHGPU3-ND 38.14 32.42 30.04
384K — 24K 34-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 2 CAN /11/ 124 32MHz/3.0 5.5V -20C 85C 144-LQFP M30855FHGPU5-ND 34.66 29.47 27.30
320K — 24K 34-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 2 CAN /11/ 124 32MHz/3.0 5.5V -40C 85C 144-LQFP M30855FWGPU3-ND 42.72 36.95 34.64
320K — 24K 34-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 2 CAN /11/ 124 32MHz/3.0 5.5V -20C 85C 144-LQFP M30855FWGPU5-ND 40.70 35.20 33.00
512K — 24K 34-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 2 CAN /11/ 124 32MHz/3.0 5.5V -40C 85C 144-LQFP M30855FJGPU3-ND 37.98 32.85 30.80
512K — 24K 34-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 2 CAN /11/ 124 32MHz/3.0 5.5V -20C 85C 144-LQFP M30855FJGPU5-ND 37.34 31.74 29.41
384K — 24K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -40C 85C 100-LQFP M30873FHAGPU3-ND 26.94 22.90 21.22
384K — 24K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -20C - 85C 100-LQFP M30873FHAGPU5-ND 24.48 20.81 19.28
384K — 24K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C /11/ 88 32MHz/3.0 5.5V -40C 85C 100-LQFP M30873FHBGPU3-ND 26.14 22.22 20.59
384K — 24K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C /11/ 88 32MHz/3.0 5.5V -20C - 85C 100-LQFP M30873FHBGPU5-ND 23.76 20.20 18.72
384K — 24K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C, 2 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-LQFP M30873FHGPU5-ND 25.20 21.42 19.85
384K — 24K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C, 1 CAN /11/ 124 32MHz/3.0 5.5V -40C 85C 144-LQFP M30875FHAGPU3-ND 29.36 24.96 23.13
384K — 24K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C, 1 CAN /11/ 124 32MHz/3.0 5.5V -20C 85C 144-LQFP M30875FHAGPU5-ND 26.90 22.87 21.19
384K — 24K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C /11/ 124 32MHz/3.0 5.5V -40C 85C 144-LQFP M30875FHBGPU3-ND 28.56 24.28 22.50
384K — 24K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C /11/ 124 32MHz/3.0 5.5V -20C 85C 144-LQFP M30875FHBGPU5-ND 26.18 22.26 20.62
384K — 24K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C, 2 CAN /11/ 124 32MHz/3.0 5.5V -40C 85C 144-LQFP M30875FHGPU3-ND 30.16 25.64 23.76
384K — 24K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C, 2 CAN /11/ 124 32MHz/3.0 5.5V -20C 85C 144-LQFP M30875FHGPU5-ND 27.62 23.48 21.76
512K — 31K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -40C 85C 100-LQFP M30876FJAGPU3-ND 29.86 25.39 23.52
512K — 31K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-LQFP M30876FJAGPU5-ND 27.14 23.07 21.38
512K — 31K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C /11/ 88 32MHz/3.0 5.5V -40C 85C 100-LQFP M30876FJBGPU3-ND 29.06 24.71 22.89
512K — 31K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C /11/ 88 32MHz/3.0 5.5V -20C 85C 100-LQFP M30876FJBGPU5-ND 26.42 22.46 20.81
512K — 31K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C, 2 CAN /11/ 88 32MHz/3.0 5.5V -40C 85C 100-LQFP M30876FJGPU3-ND 30.66 26.07 24.15
512K — 31K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C, 2 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-LQFP M30876FJGPU5-ND 27.86 23.69 21.94
512K — 31K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C, 1 CAN /11/ 124 32MHz/3.0 5.5V -40C 85C 144-LQFP M30878FJAGPU3-ND 32.30 27.46 25.44
512K — 31K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C, 1 CAN /11/ 124 32MHz/3.0 5.5V -20C 85C 144-LQFP M30878FJAGPU5-ND 29.58 25.15 23.30
512K — 31K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C /11/ 124 32MHz/3.0 5.5V -40C 85C 144-LQFP M30878FJBGPU3-ND 31.74 26.98 25.00
512K — 31K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C /11/ 124 32MHz/3.0 5.5V -20C 85C 144-LQFP M30878FJBGPU5-ND 28.86 24.54 22.73
512K — 31K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C, 2 CAN /11/ 124 32MHz/3.0 5.5V -40C 85C 144-LQFP M30878FJGPU3-ND 33.10 28.14 26.07
512K — 31K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C, 2 CAN /11/ 124 32MHz/3.0 5.5V -20C 85C 144-LQFP M30878FJGPU5-ND 30.30 25.76 23.87
768K — 48K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -40C 85C 100-LQFP M30879FKAGPU3-ND 33.52 28.50 26.40
768K — 48K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-LQFP M30879FKAGPU5-ND 30.48 25.91 24.01
768K — 48K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C /11/ 88 32MHz/3.0 5.5V -40C 85C 100-LQFP M30879FKBGPU3-ND 32.12 27.31 25.30
768K — 48K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C /11/ 88 32MHz/3.0 5.5V -20C 85C 100-LQFP M30879FKBGPU5-ND 29.10 24.74 22.92
768K — 48K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C, 2 CAN /11/ 88 32MHz/3.0 5.5V -40C 85C 100-LQFP M30879FKGPU3-ND 33.60 28.56 26.46
768K — 48K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C, 2 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-LQFP M30879FKGPU5-ND 30.54 25.96 24.06
1M — 48K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -40C 85C 100-QFP M30879FLAFPU3-ND 35.76 30.40 28.17
1M — 48K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -40C 85C 100-LQFP M30879FLAGPU3-ND 35.74 30.38 28.15
1M — 48K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C, 1 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-LQFP M30879FLAGPU5-ND 32.48 27.61 25.58
1M — 48K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C /11/ 88 32MHz/3.0 5.5V -40C 85C 100-QFP M30879FLBFPU3-ND 34.34 29.19 27.05
1M — 48K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C /11/ 88 32MHz/3.0 5.5V -20C 85C 100-QFP M30879FLBFPU5-ND 31.22 26.54 24.59
1M — 48K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C /11/ 88 32MHz/3.0 5.5V -40C 85C 100-LQFP M30879FLBGPU3-ND 34.94 29.70 27.52
1M — 48K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C /11/ 88 32MHz/3.0 5.5V -20C 85C 100-LQFP M30879FLBGPU5-ND 31.76 27.00 25.02
1M — 48K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C, 2 CAN /11/ 88 32MHz/3.0 5.5V -40C 85C 100-QFP M30879FLFPU3-ND 37.02 31.47 29.16
1M — 48K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C, 2 CAN /11/ 88 32MHz/3.0 5.5V -40C 85C 100-LQFP M30879FLGPU3-ND 36.54 31.06 28.78
1M — 48K 26-ch. 10-it 2-ch. 8-bit 6 USART, IrDA, 5 I 2 C, 2 CAN /11/ 88 32MHz/3.0 5.5V -20C 85C 100-LQFP M30879FLGPU5-ND 33.20 28.22 26.15
768K — 48K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C, 1 CAN /11/ 124 32MHz/3.0 5.5V -40C 85C 144-LQFP M3087BFKAGPU3-ND 36.32 30.88 28.61
768K — 48K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C, 1 CAN /11/ 124 32MHz/3.0 5.5V -20C 85C 144-LQFP M3087BFKAGPU5-ND 33.02 28.07 26.01
768K — 48K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C /11/ 124 32MHz/3.0 5.5V -40C 85C 144-LQFP M3087BFKBGPU3-ND 33.52 28.50 26.40
768K — 48K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C /11/ 124 32MHz/3.0 5.5V -20C 85C 144-LQFP M3087BFKBGPU5-ND 30.48 25.91 24.01
768K — 48K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C, 2 CAN /11/ 124 32MHz/3.0 5.5V -40C 85C 144-LQFP M3087BFKGPU3-ND 36.26 30.83 28.56
1M — 48K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C, 1,CAN /11/ 124 32MHz/3.0 5.5V -40C 85C 144-LQFP M3087BFLAGPU3-ND 38.40 32.64 30.24
1M — 48K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C, 1,CAN /11/ 124 32MHz/3.0 5.5V -20C 85C 144-LQFP M3087BFLAGPU5-ND 34.90 29.67 27.49
1M — 48K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C /11/ 124 32MHz/3.0 5.5V -40C 85C 144-LQFP M3087BFLBGPU3-ND 37.36 31.76 29.43
1M — 48K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C /11/ 124 32MHz/3.0 5.5V -20C 85C 144-LQFP M3087BFLBGPU5-ND 34.18 29.06 26.92
1M — 48K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C, 2 CAN /11/ 124 32MHz/3.0 5.5V -40C 85C 144-LQFP M3087BFLGPU3-ND 17.82 14.99 13.77
1M — 48K 34-ch. 10-it 2-ch. 8-bit 7 USART, IrDA, 5 I 2 C, 2 CAN /11/ 124 32MHz/3.0 5.5V -20C 85C 144-LQFP M3087BFLGPU5-ND 35.62 30.28 28.06
320K — 18K 26-ch. 10-it 2-ch. 8-bit 5 USART, 5 I 2 C, 3 CAN /11/ 88 32MHz/4.2 5.5V -40C 85C 100-LQFP M30880FWTGPU0-ND 47.21 40.84 38.28
C
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213
213

R8C Tiny Series
Microcontrollers
The R8C 16-bit microcontrollers are small in size, yet big in performance and value. They excel for 8-bit embedded system applications that need low-cost devices and deliver high performance, yet save space with small,
low-pin count packages. These microcontrollers for general purpose applications deliver up to 20MHz speed, up to 96K of on-chip flash memory, offer versatile peripherals, and are packaged with 80 pins or less. Based on the
MC16 family of 16-bit microcontrollers, the R8C Tiny inherits the same features of high performance, ROM code efficiency, low power consumption, and low noise, while its instruction compatibility allows the use of existing
M16C family software resources.
C
Memory
Type
Flash
*SSU SPI ®
ROM
Bytes
Data Flash
Bytes
RAM
Bytes A/D D/A
Serial
Communication
Timers
8/16/32 GPIO
Operating Frequency/
Supply Voltage Temperature Package
Digi-Key
Part No.
Price Each
1 25 100
4K — 375 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SDIP R5F211A1DDU0-ND 4.62 3.72 3.39
4K — 375 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F211A1DSPU0-ND 4.28 3.45 3.14
4K — 375 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-LSSOP R5F211A1SPU0-ND 3.92 3.15 2.87
8K — 500 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SDIP R5F211A2DDU0-ND 4.96 3.99 3.63
8K — 500 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F211A2DSPU0-ND 4.62 3.72 3.39
8K — 500 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -20C 85C 28-HWQFN R5F211A2NPU0-ND 5.15 4.14 3.78
8K — 500 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-LSSOP R5F211A2SPU0-ND 4.26 3.42 3.12
12K — 750 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -40C 85C 20-SDIP R5F211A3DDU0-ND 5.35 4.30 3.92
12K — 750 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F211A3DSPU0-ND 4.96 3.99 3.63
12K — 750 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -40C 85C 28-HWQFN R5F211A3NPU0-ND 5.52 4.44 4.04
12K — 750 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F211A3SPU0-ND 4.62 3.72 3.39
16K — 1K 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SDIP R5F211A4DDU0-ND 5.68 4.57 4.17
16K — 1K 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F211A4DSPU0-ND 5.35 4.30 3.92
16K — 1K 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -20C 85C 28-HWQFN R5F211A4NPU0-ND 5.85 4.71 4.29
16K — 1K 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-LSSOP R5F211A4SPU0-ND 4.96 3.99 3.63
4K 2K 375 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SDIP R5F211B1DDU0-ND 5.15 4.14 3.78
4K 2K 375 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F211B1DSPU0-ND 4.82 3.87 3.53
4K 2K 375 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-LSSOP R5F211B1SPU0-ND 4.45 3.58 3.26
8K 2K 500 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SDIP R5F211B2DDU0-ND 5.52 4.44 4.04
8K 2K 500 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F211B2DSPU0-ND 5.18 4.17 3.80
8K 2K 500 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -20C 85C 28-HWQFN R5F211B2NPU0-ND 5.68 4.57 4.17
8K 2K 500 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-LSSOP R5F211B2SPU0-ND 4.82 3.87 3.53
12K 2K 750 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SDIP R5F211B3DDU0-ND 5.85 4.71 4.29
12K 2K 750 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F211B3DSPU0-ND 5.52 4.44 4.04
12K 2K 750 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -20C 85C 28-HWQFN R5F211B3NPU0-ND 6.05 4.86 4.43
12K 2K 750 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-LSSOP R5F211B3SPU0-ND 5.15 4.14 3.78
16K 2K 1K 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SDIP R5F211B4DDU0-ND 6.24 5.02 4.58
16K 2K 1K 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F211B4DSPU0-ND 5.91 4.75 4.33
16K 2K 1K 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -20C 85C 28-HWQFN R5F211B4NPU0-ND 6.38 5.13 4.68
16K 2K 1K 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-LSSOP R5F211B4SPU0-ND 5.52 4.44 4.04
8K — 500 8-ch. 10-it — 2 USART 2/1/ 24 16MHz/2.7 5.5V -40C 85C 32-LQFP R5F21102DFPU0-ND 5.68 4.57 4.17
8K — 500 8-ch. 10-it — 2 USART 2/1/ 24 16MHz/2.7 5.5V -20C 85C 32-LQFP R5F21102FPU0-ND 5.35 4.30 3.92
12K — 750 8-ch. 10-it — 2 USART 3/1/ 24 16MHz/2.7 5.5V -20C 85C 32-LQFP R5F21103DFPU0-ND 6.05 4.86 4.43
12K — 750 8-ch. 10-it — 2 USART 3/1/ 24 16MHz/2.7 5.5V -20C 85C 32-LQFP R5F21103FPU0-ND 5.68 4.57 4.17
16K — 1K 8-ch. 10-it — 2 USART 3/1/ 24 16MHz/2.7 5.5V -40C 85C 32-LQFP R5F21104DFPU0-ND 6.38 5.13 4.68
16K — 1K 8-ch. 10-it — 2 USART 3/1/ 24 16MHz/2.7 5.5V -20C 85C 32-LQFP R5F21104FPU0-ND 6.05 4.86 4.43
8K — 500 12-ch. 10-it — 2 USART 3/1/ 24 20MHz/2.7 5.5V -40C 85C 32-LQFP R5F21112DFPU0-ND 5.91 4.75 4.33
8K — 500 12-ch. 10-it — 2 USART 3/1/ 24 20MHz/2.7 5.5V -20C 85C 32-LQFP R5F21112FPU0-ND 5.52 4.44 4.04
12K — 750 12-ch. 10-it — 2 USART 3/1/ 24 20MHz/2.7 5.5V -40C 85C 32-LQFP R5F21113DFPU0-ND 6.24 5.02 4.58
12K — 750 12-ch. 10-it — 2 USART 3/1/ 24 20MHz/2.7 5.5V -20C 85C 32-LQFP R5F21113FPU0-ND 5.85 4.71 4.29
16K — 1K 12-ch. 10-it — 2 USART 3/1/ 24 20MHz/2.7 5.5V -40C 85C 32-LQFP R5F21114DFPU0-ND 6.61 5.31 4.84
16K — 1K 12-ch. 10-it — 2 USART 3/1/ 24 20MHz/2.7 5.5V -20C 85C 32-LQFP R5F21114FPU0-ND 6.24 5.02 4.58
8K 4K 500 8-ch. 10-it — 2 USART 3/1/ 24 16MHz/2.7 5.5V -40C 85C 32-LQFP R5F21122DFPU0-ND 6.24 5.02 4.58
8K 4K 500 8-ch. 10-it — 2 USART 3/1/ 24 16MHz/2.7 5.5V -20C 85C 32-LQFP R5F21122FPU0-ND 5.85 4.71 4.29
12K 4K 750 8-ch. 10-it — 2 USART 3/1/ 24 16MHz/2.7 5.5V -40C 85C 32-LQFP R5F21123DFPU0-ND 6.58 5.29 4.82
12K 4K 750 8-ch. 10-it — 2 USART 3/1/ 24 16MHz/2.7 5.5V -20C 85C 32-LQFP R5F21123FPU0-ND 6.24 5.02 4.58
16K 4K 1K 8-ch. 10-it — 2 USART 3/1/ 24 16MHz/2.7 5.5V -40C 85C 32-LQFP R5F21124DFPU0-ND 6.94 5.58 5.09
16K 4K 1K 8-ch. 10-it — 2 USART 3/1/ 24 16MHz/2.7 5.5V -20C 85C 32-LQFP R5F21124FPU0-ND 6.58 5.29 4.82
8K 4K 500 12-ch. 10-it — 2 USART 3/1/ 24 20MHz/2.7 5.5V -40C 85C 32-LQFP R5F21132DFPU0-ND 6.41 5.16 4.70
8K 4K 500 12-ch. 10-it — 2 USART 3/1/ 24 20MHz/2.7 5.5V -20C 85C 32-LQFP R5F21132FPU0-ND 6.05 4.86 4.43
12K 4K 750 12-ch. 10-it — 2 USART 3/1/ 24 20MHz/2.7 5.5V -40C 85C 32-LQFP R5F21133DFPU0-ND 6.75 5.43 4.95
12K 4K 750 12-ch. 10-it — 2 USART 3/1/ 24 20MHz/2.7 5.5V -20C 85C 32-LQFP R5F21133FPU0-ND 6.38 5.13 4.68
16K 4K 1K 12-ch. 10-it — 2 USART 3/1/ 24 20MHz/2.7 5.5V -20C 85C 32-LQFP R5F21134FPU0-ND 6.75 5.43 4.95
16K 4K 1K 12-ch. 10-it — 2 USART 3/1/ 24 20MHz/2.7 5.5V -40C 85C 32-LQFP R5F21134DFPU0-ND 6.38 5.23 4.72
8K — 500 4-ch. 10-it — 1 USART, 1 SSU* 3/1/ 15 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F21142DSPU0-ND 4.96 3.99 3.63
8K — 500 4-ch. 10-it — 1 USART, 1 SSU* 3/1/ 15 20MHz/2.7 5.5V -20C 85C 20-SSOP R5F21142SPU0-ND 4.62 3.72 3.39
12K — 750 4-ch. 10-it — 1 USART, 1 SSU* 3/1/ 15 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F21143DSPU0-ND 5.35 4.30 3.92
16K — 1K 4-ch. 10-it — 1 USART, 1 SSU* 3/1/ 15 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F21144DSPU0-ND 5.68 4.57 4.17
16K — 1K 4-ch. 10-it — 1 USART, 1 SSU* 3/1/ 15 20MHz/2.7 5.5V -20C 85C 20-SSOP R5F21144SPU0-ND 5.35 4.30 3.92
8K 2K 500 4-ch. 10-it — 1 USART, 1 SSU* 2/1/ 15 20MHz/2.7 5.5V -40C 85C 20-SSOP R5F21152DSPU0-ND 5.52 4.44 4.04
8K 2K 500 4-ch. 10-it — 1 USART, 1 SSU* 2/1/ 15 20MHz/2.7 5.5V -20C 85C 20-SSOP R5F21152SPU0-ND 5.15 4.14 3.78
12K 2K 750 4-ch. 10-it — 1 USART, 1 SSU* 2/1/ 15 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F21153DSPU0-ND 5.85 4.71 4.29
16K 2K 1K 4-ch. 10-it — 1 USART, 1 SSU* 2/1/ 15 20MHz/2.7 5.5V -20C 85C 20-SSOP R5F21154SPU0-ND 5.85 4.71 4.29
16K 2K 1K 4-ch. 10-it — 1 USART, 1 SSU* 2/1/ 15 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F21154DSPU0-ND 6.24 5.02 4.58
8K — 500 4-ch. 10-it — 1 USART, 1 I 2 C 2/1/ 15 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F21162DSPU0-ND 5.15 4.14 3.78
12K — 750 4-ch. 10-it — 1 USART, 1 I 2 C 2/1/ 15 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F21163DSPU0-ND 5.52 4.44 4.04
16K — 1K 4-ch. 10-it — 1 USART, 1 I 2 C 2/1/ 15 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F21164DSPU0-ND 5.85 4.71 4.29
12K 2K 750 4-ch. 10-it — 1 USART, 1 I 2 C 2/1/ 15 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F21173DSPU0-ND 6.05 4.86 4.43
16K 2K 1K 4-ch. 10-it — 1 USART, 1 I 2 C 2/1/ 15 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F21174DSPU0-ND 6.38 5.13 4.68
(Continued)
214 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Memory
Type
Flash
*SSU SPI ®
ROM
Bytes
Data Flash
Bytes
Microcontrollers
R8C Tiny Series (Cont.)
RAM
Bytes A/D D/A
Serial
Communication
Timers
8/16/32 GPIO
Operating Frequency/
Supply Voltage Temperature Package
Digi-Key
Part No.
Price Each
1 25 100
4K — 375 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SDIP R5F21181DDU0-ND 4.45 3.58 3.26
4K — 375 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F21181DSPU0-ND 4.28 3.45 3.14
4K — 375 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SSOP R5F21181SPU0-ND 3.72 3.00 2.73
8K — 500 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SDIP R5F21182DDU0-ND 4.82 3.87 3.53
8K — 500 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F21182DSPU0-ND 4.48 3.60 3.28
8K — 500 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 28-HWQFN R5F21182NPU0-ND 4.96 3.99 3.63
8K — 500 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SSOP R5F21182SPU0-ND 4.28 3.45 3.14
12K — 750 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SDIP R5F21183DDU0-ND 5.15 4.14 3.78
12K — 750 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F21183DSPU0-ND 4.82 3.87 3.53
12K — 750 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 28-HWQFN R5F21183NPU0-ND 5.35 4.30 3.92
12K — 750 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SSOP R5F21183SPU0-ND 4.45 3.58 3.26
16K — 1K 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SDIP R5F21184DDU0-ND 5.52 4.44 4.04
16K — 1K 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F21184DSPU0-ND 5.18 4.17 3.80
16K — 1K 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 28-HWQFN R5F21184NPU0-ND 5.68 4.57 4.17
16K — 1K 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SSOP R5F21184SPU0-ND 4.82 3.87 3.53
4K 2K 375 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SDIP R5F21191DDU0-ND 4.96 3.99 3.63
4K 2K 375 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SSOP R5F21191SPU0-ND 4.26 3.42 3.12
4K 2K 375 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F21191DSPU0-ND 4.62 3.72 3.39
8K 2K 500 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SDIP R5F21192DDU0-ND 5.35 4.30 3.92
8K 2K 500 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F21192DSPU0-ND 5.01 4.03 3.67
8K 2K 500 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 28-HWQFN R5F21192NPU0-ND 5.52 4.44 4.04
8K 2K 500 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SSOP R5F21192SPU0-ND 4.62 3.72 3.39
12K 2K 750 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SDIP R5F21193DDU0-ND 5.68 4.57 4.17
12K 2K 750 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F21193DSPU0-ND 5.35 4.30 3.92
12K 2K 750 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 28-HWQFN R5F21193NPU0-ND 5.85 4.71 4.29
12K 2K 750 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SSOP R5F21193SPU0-ND 4.96 3.99 3.63
16K 2K 1K 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-SDIP R5F21194DDU0-ND 6.05 4.86 4.43
16K 2K 1K 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -40C 85C 20-LSSOP R5F21194DSPU0-ND 5.71 4.59 4.19
16K 2K 1K 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 28-HWQFN R5F21194NPU0-ND 6.24 5.02 4.58
16K 2K 1K 4-ch. Comparator — 2 USART 2/1/ 16 20MHz/2.7 5.5V -20C 85C 20-LSSOP R5F21194SPU0-ND 5.35 4.30 3.92
96K — 7K 12-ch. 10-it 2-ch. 8-bit 3 USART, 1 I 2 C 3/4/ 57 20MHz/2.2 5.5V -20C 85C 64-LQFP R5F212AASDFAU0-ND 8.68 7.12 6.42
96K — 7K 12-ch. 10-it 2-ch. 8-bit 3 USART, 1 I 2 C 3/4/ 57 20MHz/2.2 5.5V -20C 85C 64-LQFP R5F212AASDFPU0-ND 8.68 7.12 6.42
128K — 7.5K 12-ch. 10-it 2-ch. 8-bit UART, SSU, SIO, I 2 C 3/4/ 55 20MHz/2.2 5.5V -20C 85C 64-TFLGA R5F212ACSNLGU0-ND 11.00 9.02 8.14
48K — 2.5K 12-ch. 10-it 2-ch. 8-bit 3 USART, 1 SSU*, 1 I 2 C 3/4/ 57 20MHz/2.2 5.5V -40C 85C 64-LQFP R5F212A7SDFPU0-ND 7.68 6.30 5.68
48K — 2.5K 12-ch. 10-it 2-ch. 8-bit 3 USART, 1 SSU*, 1 I 2 C 3/2/ 57 20MHz/2.2 5.5V -20C 85C 64-LQFP R5F212A7SNFPU0-ND 7.33 6.01 5.43
48K — 2.5K 12-ch. 10-it 2-ch. 8-bit 3 USART, 1 SSU*, 1 I 2 C 3/2/ 57 20MHz/2.2 5.5V -20C 85C 64-LQFP R5F212A7SNFAU0-ND 7.33 6.01 5.43
64K — 3K 12-ch. 10-it 2-ch. 8-bit 3 USART, 1 SSU*, 1 I 2 C 3/2/ 57 20MHz/2.2 5.5V -20C 85C 64-LQFP R5F212A8SNFPU0-ND 7.68 6.30 5.68
64K — 3K 12-ch. 10-it 2-ch. 8-bit 3 USART, 1 SSU*, 1 I 2 C 3/2/ 57 20MHz/2.2 5.5V -20C 85C 64-LQFP R5F212A8SNFAU0-ND 7.68 6.30 5.68
96K 1K 7K 12-ch. 10-it 2-ch. 8-bit UART, SSU, SIO, I 2 C 3/4/ 55 20MHz/2.2 5.5V -40C 85C 64-LQFP R5F212BASDFAU0-ND 9.18 7.53 6.79
128K 1K 7.5K 12-ch. 10-it 2-ch. 8-bit UART, SSU, SIO, I 2 C 3/4/ 55 20MHz/2.2 5.5V -40C 85C 64-LQFP R5F212BCSDFAU0-ND 9.83 8.06 7.28
128K 1K 7.5K 12-ch. 10-it 2-ch. 8-bit UART, SSU, SIO, I 2 C 3/4/ 55 20MHz/2.2 5.5V -40C 85C 64-LQFP R5F212BCSDFPU0-ND 9.83 8.06 7.28
128K 1K 7.5K 12-ch. 10-it 2-ch. 8-bit UART, SSU, SIO, I 2 C 3/4/ 55 20MHz/2.2 5.5V -20C 85C 64-LQFP R5F212BCSNFAU0-ND 9.50 7.79 7.03
128K 2K 7.5K 12-ch. 10-it 2-ch. 8-bit 3 USART, 1 I 2 C 3/4/ 57 20MHz/2.2 5.5V -20C 85C 64-LQFP R5F212BCSNFPU0-ND 9.50 7.79 7.03
48K 1K 2.5K 12-ch. 10-it 2-ch. 8-bit UART, SSU, SIO, I 2 C 3/4/ 55 20MHz/2.2 5.5V -40C 85C 64-LQFP R5F212B7SDFAU0-ND 8.18 6.71 6.05
48K 1K 2.5K 12-ch. 10-it 2-ch. 8-bit UART, SSU, SIO, I 2 C 3/4/ 55 20MHz/2.2 5.5V -40C 85C 64-LQFP R5F212B7SDFPU0-ND 8.18 6.71 6.05
48K 1K 2.5K 12-ch. 10-it 2-ch. 8-bit UART, SSU, SIO, I 2 C 3/4/ 55 20MHz/2.2 5.5V -20C 85C 64-LQFP R5F212B7SNFAU0-ND 7.83 6.42 5.80
48K 2K 2.5K 12-ch. 10-it 2-ch. 8-bit 3 USART, 1 SSU*, 1 I 2 C 3/2/ 57 20MHz/2.2 5.5V -20C 85C 64-LQFP R5F212B7SNFPU0-ND 6.35 5.21 4.70
64K 1K 3K 12-ch. 10-it 2-ch. 8-bit UART, SSU, SIO, I 2 C 3/4/ 55 20MHz/2.2 5.5V -40C 85C 64-LQFP R5F212B8SDFAU0-ND 8.50 6.97 6.29
64K 1K 3K 12-ch. 10-it 2-ch. 8-bit UART, SSU, SIO, I 2 C 3/4/ 55 20MHz/2.2 5.5V -20C 85C 64-LQFP R5F212B8SNFAU0-ND 8.18 6.71 6.05
64K 2K 3K 12-ch. 10-it 2-ch. 8-bit 3 USART, 1 SSU*, 1 I 2 C 3/2/ 57 20MHz/2.2 5.5V -20C 85C 64-LQFP R5F212B8SNFPU0-ND 8.18 6.71 6.05
128K 2K 7.5K 20-ch. 10-it 2-ch. 8-bit 3 USART, I 2 C 3/4/ 73 20MHz/2.2 5.5V -20C 85C 80-LQFP R5F212DCSNFPU0-ND 10.18 8.35 7.53
48K 2K 2.5K 20-ch. 10-it 2-ch. 8-bit 3 USART, 1 SSU*, 1 I 2 C 3/4/ 73 20MHz/2.2 5.5V -20C 85C 80-LQFP R5F212D7SNFPU0-ND 8.50 6.97 6.29
64K 2K 3K 20-ch. 10-it 2-ch. 8-bit 3 USART, 1 SSU*, 1 I 2 C 3/4/ 73 20MHz/2.2 5.5V -20C 85C 80-LQFP R5F212D8SNFPU0-ND 8.83 7.24 6.54
16K 16K 512 — — 2 UART 3/1/ 27 8MHz/2.7 5.5V -40C 85C 32-LQFP R5F212G4SDFPU0-ND 3.56 2.86 2.61
16K 16K 512 — — 2 UART 3/1/ 27 8MHz/2.7 5.5V -20C 85C 32-LQFP R5F212G4SNFPU0-ND 3.16 2.55 2.32
24K 24K 1K — — UART 3/1/ 27 8MHz/2.7 5.5V -40C 85C 32-LQFP R5F212G5SDFPU0-ND 5.04 4.05 3.69
24K 24K 1K — — UART 3/1/ 27 8MHz/2.7 5.5V -20C 85C 32-LQFP R5F212G5SNFPU0-ND 3.56 2.86 2.61
32K 32K 1K — — 2 UART 3/1/ 27 8MHz/2.7 5.5V -40°C 85°C 32-LQFP R5F212G6SDFPU0-ND 4.28 3.45 3.14
32K 32K 1K — — 2 UART 3/1/ 27 8MHz/2.7 5.5V -20C 85C 32-LQFP R5F212G6SNFPU0-ND 3.92 3.15 2.87
4K 4K 256 — — 2 UART 3/1/ 15 8MHz/2.7 5.5V -40°C 85°C 20-SSOP R5F212H1SDSPU0-ND 3.01 2.43 2.19
4K 4K 256 — — 2 UART 3/1/ 15 8MHz/2.7 5.5V -20C 85C 20-SSOP R5F212H1SNSPU0-ND 2.57 2.08 1.87
8K 8K 384 — — 2 UART 3/1/ 15 8MHz/2.7 5.5V -40C 85C 20-SSOP R5F212H2SDSPU0-ND 3.08 2.48 2.26
8K 8K 384 — — 2 UART 3/1/ 15 8MHz/2.7 5.5V -20C 85C 20-SSOP R5F212H2SNSPU0-ND 3.01 2.43 2.19
2K 2K 256 — — UART 2/1/ 12 8MHz/2.7 5.5V -40C 85C 20-SSOP R5F212J0SDSPU0-ND 2.57 2.08 1.87
2K 2K 256 — — 1 UART 2/1/ 12 8MHz/2.7 5.5V -20C 85C 20-SSOP R5F212J0SNSPU0-ND 2.17 1.75 1.58
4K 4K 384 — — 2 UART 2/1/2 12 8MHz/2.7 5.5V -40°C 85°C 20-SSOP R5F212J1SDSPU0-ND 2.79 2.25 2.03
4K 4K 384 — — 2 UART 2/1/ 12 8MHz/2.7 5.5V -20°C 85°C 20-SSOP R5F212J1SNSPU0-ND 2.39 1.93 1.74
8K 1K 1K 9-ch., 10-it — UART, SSI 2/3/ 25 20MHz/2.2 5.5V -20C 85C 32-LQFP R5F212K2SNFPU0-ND 5.96 4.80 4.37
8K 1K 1K 9-ch. 10-it — UART, SSI 2/3/ 25 20MHz/3.0 5.5V -20C 85C 32-LQFP R5F212L2SNFPU0-ND 6.52 5.25 4.78
16K 1K 1.5K 9-ch. 10-it — UART, SSI 2/3/ 25 20MHz/3.0 5.5V -20C 85C 32-LQFP R5F212L4SNFPU0-ND 6.92 5.56 5.07
(Continued)
C
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
215
215

C
Memory
Type
ROM
Bytes
Data Flash
Bytes
Microcontrollers
R8C Tiny Series (Cont.)
RAM
Bytes A/D D/A
Serial
Communication
Timers
8/16/32 GPIO
Operating Frequency/
Supply Voltage Temperature Package
Digi-Key
Part No.
Price Each
1 25 100
32K — 2K 12-ch. 10-it — UART, SIO, I 2 C 3/2/ 41 20MHz/3.0 5.5V -40C 85C 48-LQFP R5F21206JFPU1-ND 6.68 5.48 4.94
32K — 2K 12-ch. 10-it — UART, SIO, I 2 C 3/2/ 41 16MHz/3.0 5.5V -40C 125C 48-LQFP R5F21206KFPU1-ND 7.30 5.99 5.41
48K — 2.5K 12-ch. 10-it — UART, SIO, I 2 C 3/2/ 41 20MHz/3.0 5.5V -40C 85C 48-LQFP R5F21207JFPU1-ND 7.30 5.99 5.41
32K 1K 2K 12-ch. 10-it — UART, SIO, I 2 C 3/2/ 41 16MHz/3.0 5.5V -40C 125C 48-LQFP R5F21207KFPU1-ND 7.93 6.50 5.87
64K — 3K 12-ch. 10-it — UART, SIO, I 2 C 3/2/ 41 20MHz/3.0 5.5V -40C 85C 48-LQFP R5F21208JFPU1-ND 7.93 6.50 5.87
32K 1K 2K 12-ch. 10-it — UART, SIO, I 2 C 3/2/ 41 16MHz/3.0 5.5V -40C 125C 48-LQFP R5F21208KFPU1-ND 8.58 7.04 6.35
32K 1K 2K 12-ch. 10-it — UART, SIO, I 2 C 3/2/ 41 20MHz/3.0 5.5V -40C 85C 48-LQFP R5F21216JFPU1-ND 7.93 6.50 5.87
32K 1K 2K 12-ch. 10-it — UART, SIO, I 2 C 3/2/ 41 16MHz/3.0 5.5V -40C 125C 48-LQFP R5F21216KFPU1-ND 8.58 7.04 6.35
48K 1K 2.5K 12-ch. 10-it — UART, SIO, I 2 C 3/2/ 41 16MHz/3.0 5.5V -40C 125C 48-LQFP R5F21217KFPU1-ND 9.20 7.55 6.81
64K 1K 3K 12-ch. 10-it — UART, SIO, I 2 C 3/2/ 41 20MHz/3.0 5.5V -40C 85C 48-LQFP R5F21218JFPU1-ND 9.20 7.55 6.81
64K 1K 3K 12-ch. 10-it — UART, SIO, I 2 C 3/2/ 41 16MHz/3.0 5.5V -40C 125C 48-LQFP R5F21218KFPU1-ND 9.83 8.06 7.28
96K — 5K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 20MHz/3.0 5.5V -40C 85C 48-LQFP R5F2122AJFPU0-ND 9.40 7.71 6.96
96K — 5K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 16MHz/3.0 5.5V -40C 125C 48-LQFP R5F2122AKFPU0-ND 10.00 8.20 7.40
128K — 6K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 20MHz/3.0 5.5V -40C 85C 48-LQFP R5F2122CJFPU0-ND 10.00 8.20 7.40
128K — 6K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 16MHz/3.0 5.5V -40C 125C 48-LQFP R5F2122CKFPU0-ND 10.60 8.70 7.85
32K — 2K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 20MHz/3.0 5.5V -40C 85C 48-LQFP R5F21226DFPU0-ND 7.68 6.30 5.68
32K — 2K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 20MHz/3.0 5.5V -40C 85C 48-LQFP R5F21226JFPU1-ND 7.93 6.50 5.87
32K — 2K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 16MHz/3.0 5.5V -40C 125C 48-LQFP R5F21226KFPU1-ND 8.58 7.04 6.35
48K — 2.5K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 20MHz/3.0 5.5V -40C 85C 48-LQFP R5F21227JFPU1-ND 8.58 7.04 6.35
48K — 2.5K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 16MHz/3.0 5.5V -40C 125C 48-LQFP R5F21227KFPU1-ND 9.20 7.55 6.81
64K — 3K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 20MHz/3.0 5.5V -40C 85C 48-LQFP R5F21228DFPU0-ND 8.33 6.83 6.17
64K — 3K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 20MHz/3.0 5.5V -40C 85C 48-LQFP R5F21228JFPU1-ND 9.20 7.55 6.81
64K — 3K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 16MHz/3.0 5.5V -40C 125C 48-LQFP R5F21228KFPU1-ND 9.83 8.06 7.28
96K 1K 5K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 20MHz/3.0 5.5V -40C 85C 48-LQFP R5F2123AJFPU0-ND 10.60 8.70 7.85
96K 1K 5K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 16MHz/3.0 5.5V -40C 85C 48-LQFP R5F2123AKFPU0-ND 11.20 9.19 8.29
128K 1K 6K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 20MHz/3.0 5.5V -40C 85C 48-LQFP R5F2123CJFPU0-ND 11.20 9.19 8.29
128K 1K 6K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 16MHz/3.0 5.5V -40C 85C 48-LQFP R5F2123CKFPU0-ND 11.83 9.70 8.76
32K 1K 2K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 20MHz/3.0 5.5V -40C 85C 48-LQFP R5F21236DFPU0-ND 8.18 6.71 6.05
32K 1K 2K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 20MHz/3.0 5.5V -40C 85C 48-LQFP R5F21236JFPU1-ND 9.20 7.55 6.81
32K 1K 2K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 16MHz/3.0 5.5V -40C 125C 48-LQFP R5F21236KFPU1-ND 9.83 8.06 7.28
48K 1K 2.5K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 20MHz/3.0 5.5V -40C 85C 48-LQFP R5F21237DFPU0-ND 8.50 6.97 6.29
48K 1K 2.5K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 16MHz/3.0 5.5V -40C 125C 48-LQFP R5F21237KFPU1-ND 10.48 8.59 7.76
64K 1K 3K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 20MHz/3.0 5.5V -40C 85C 48-LQFP R5F21238DFPU0-ND 8.83 7.24 6.54
64K 1K 3K 12-ch. 10-it — UART, SIO, I 2 C, CAN 3/2/ 41 20MHz/3.0 5.5V -40C 85C 48-LQFP R5F21238JFPU1-ND 10.48 8.59 7.76
16K — 1K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/2/ 44 20MHz/2.2 5.5V -40C 85C 52-LQFP R5F21244SDFPU0-ND 6.75 5.43 4.95
Flash
16K — 1K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/2/ 44 20MHz/2.2 5.5V -20C 85C 52-LQFP R5F21244SNFPU0-ND 6.38 5.13 4.68
32K — 2K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/2/ 44 20MHz/2.2 5.5V -40C 85C 52-LQFP R5F21246SDFPU0-ND 6.38 5.23 4.72
32K — 2K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/2/ 44 20MHz/2.2 5.5V -20C 85C 52-LQFP R5F21246SNFPU0-ND 6.75 5.43 4.95
48K — 2.5K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/2/ 44 20MHz/2.2 5.5V -40C 85C 52-LQFP R5F21247SDFPU0-ND 7.00 5.74 5.18
48K — 2.5K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/2/ 44 20MHz/2.2 5.5V -20C 85C 52-LQFP R5F21247SNFPU0-ND 6.68 5.48 4.94
64K — 3K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/2/ 44 20MHz/2.2 5.5V -40C 85C 52-LQFP R5F21248SDFPU0-ND 7.25 5.95 5.37
64K — 3K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/2/ 44 20MHz/2.2 5.5V -20C 85C 52-LQFP R5F21248SNFPU0-ND 7.00 5.74 5.18
16K 2K 1K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/2/ 44 20MHz/2.2 5.5V -40C 85C 52-LQFP R5F21254SDFPU0-ND 6.53 5.36 4.83
16K 2K 1K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/2/ 44 20MHz/2.2 5.5V -20C 85C 52-LQFP R5F21254SNFPU0-ND 6.94 5.58 5.09
32K 2K 2K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/2/ 44 20MHz/2.2 5.5V -40C 85C 52-LQFP R5F21256SDFPU0-ND 6.83 5.60 5.06
32K 2K 2K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/2/ 44 20MHz/2.2 5.5V -20C 85C 52-LQFP R5F21256SNFPU0-ND 6.50 5.33 4.81
48K 2K 2.5K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/2/ 44 20MHz/2.2 5.5V -40C 85C 52-LQFP R5F21257SDFPU0-ND 7.50 6.15 5.55
48K 2K 2.5K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/2/ 44 20MHz/2.2 5.5V -20C 85C 52-LQFP R5F21257SNFPU0-ND 7.18 5.89 5.31
64K 2K 3K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/2/ 44 20MHz/2.2 5.5V -40C 85C 52-LQFP R5F21258SDFPU0-ND 7.83 6.42 5.80
64K 2K 3K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/2/ 44 20MHz/2.2 5.5V -20C 85C 52-LQFP R5F21258SNFPU0-ND 7.50 6.15 5.55
8K — 500 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/1/ 28 20MHz/2.2 5.5V -40C 85C 32-LQFP R5F21262SDFPU0-ND 5.96 4.80 4.37
8K — 500 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/1/ 28 20MHz/2.2 5.5V -20C 85C 32-LQFP R5F21262SNFPU0-ND 5.60 4.50 4.10
16K — 1K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/1/ 28 20MHz/2.2 5.5V -40C 85C 32-LQFP R5F21264SDFPU0-ND 6.36 5.11 4.66
16K — 1K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/1/ 28 20MHz/2.2 5.5V -20C 85C 32-LQFP R5F21264SNFPU0-ND 5.96 4.80 4.37
24K — 1.5K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/1/ 28 20MHz/2.2 5.5V -40C 85C 32-LQFP R5F21265SDFPU0-ND 6.72 5.40 4.92
24K — 1.5K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/1/ 28 20MHz/2.2 5.5V -20C 85C 32-LQFP R5F21265SNFPU0-ND 6.36 5.11 4.66
32K — 1.5K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/1/ 28 20MHz/2.2 5.5V -40C 85C 32-LQFP R5F21266SDFPU0-ND 6.33 5.19 4.69
32K — 1.5K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/1/ 28 20MHz/2.2 5.5V -20C 85C 32-LQFP R5F21266SNFPU0-ND 6.72 5.40 4.92
8K 2K 500 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/1/ 28 20MHz/2.2 5.5V -40C 85C 32-LQFP R5F21272SDFPU0-ND 6.52 5.25 4.78
8K 2K 500 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/1/ 28 20MHz/2.2 5.5V -20C 85C 32-LQFP R5F21272SNFPU0-ND 6.16 4.95 4.51
16K 2K 1K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/1/ 28 20MHz/2.2 5.5V -40C 85C 32-LQFP R5F21274SDFPU0-ND 6.92 5.56 5.07
16K 2K 1K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/1/ 28 20MHz/2.2 5.5V -20C 85C 32-LQFP R5F21274SNFPU0-ND 6.52 5.25 4.78
24K 2K 1.5K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/1/ 28 20MHz/2.2 5.5V -40C 85C 32-LQFP R5F21275SDFPU0-ND 6.50 5.33 4.81
24K 2K 1.5K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/1/ 28 20MHz/2.2 5.5V -20C 85C 32-LQFP R5F21275SNFPU0-ND 6.92 5.56 5.07
32K 2K 1.5K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/1/ 28 20MHz/2.2 5.5V -40C 85C 32-LQFP R5F21276SDFPU0-ND 6.83 5.60 5.06
32K 2K 1.5K 12-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/1/ 28 20MHz/2.2 5.5V -20C 85C 32-LQFP R5F21276SNFPU0-ND 6.50 5.33 4.81
32K 1K 1.5K 12-ch. 10-it — UART, SIO, I 2 C 3/1/ 25 20MHz/2.2 5.5V -40C 85C 32-LQFP R5F21276SFPU0-ND 7.25 5.95 5.37
8K — 500 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/1/ 16 20MHz/2.2 5.5V -40C 85C 20-LSSOP R5F21282SDSPU0-ND 5.24 4.21 3.84
16K 1K 1K 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/1/ 16 20MHz/2.2 5.5V -40C 85C 20-LSSOP R5F21284SDSPU0-ND 5.60 4.50 4.10
16K 2K 1K 4-ch. 10-it — 2 USART, 1 SSU*, 1 I 2 C 3/1/ 16 20MHz/2.2 5.5V -40C 85C 20-LSSOP R5F21294SDSPU0-ND 4.95 3.96 3.08
*SSU SPI ®
216 (US2011)
(TZM112.US)
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740 Family
Microcontrollers
Memory ROM RAM
Serial
Timers Operating Frequency/
Digi-Key
Price Each
Type Bytes Bytes A/D D/A
Communication 8/16/32 GPIO Supply Voltage Temperature Package Part No.
1 25 100
36K 1K 8-ch. 10-it — 2 USART 2/2/ 29 8MHz/2.2 5.5V -20C 85C 36-SSOP M37542F8FPU0-ND 10.80 8.86 8.00
Flash 16K 512 8-ch. 8-bit — CAN, SSIO, UART 3/2/ 35 10MHz/4.0 5.5V -20C 85C 44-QFP M37630E4FPU3-ND 20.94 17.80 16.50
32K 1K — — 3 USART, 1 USB 3/2/ 66 24MHz/3.0 5.25V -20C 70C 80-LQFP M37641F8HPU0-ND 14.26 11.99 11.02
OTP 24K 512 8-ch. 8-bit — 1 USART 3/2/ 38 8MHz/1.8 5.5V -20C 85C 64-LQFP M38C13E6HPU0-ND 8.50 6.97 6.29
Flash 60K 2K 8-ch. 10-it — 2 USART 4/2/ 51 8MHz/1.8 5.5V -20C 85C 64-LQFP M38C29FFAFPU0-ND 12.38 10.15 9.16
16K 625 8-ch. 10-it — 2 USART 4/6/ 51 12.5MHz/1.8 5.5V -20C 85C 64-LQFP M38D24G4FPU0-ND 5.96 4.80 4.37
16K 625 8-ch. 10-it — 2 USART 4/6/ 51 12.5MHz/1.8 5.5V -20C 85C 64-LQFP M38D24G4HPU0-ND 5.96 4.80 4.37
24K 625 8-ch. 10-it — 2 USART 4/2/ 51 12.5MHz/1.8 5.5V -20C 85C 64-LQFP M38D24G6FPU0-ND 6.36 5.11 4.66
24K 625 8-ch. 10-it — 2 USART 4/2/ 51 12.5MHz/1.8 5.5V -20C 85C 64-LQFP M38D24G6HPU0-ND 6.36 5.11 4.66
QzROM
32K 1.5K 8-ch. 10-it — 2 USART 4/2/ 59 12.5MHz/1.8 5.5V -20C 85C 80-QFP M38D58G8FPU0-ND 6.68 5.48 4.94
32K 1.5K 8-ch. 10-it — 2 USART 4/2/ 59 12.5MHz/1.8 5.5V -20C 85C 80-LQFP M38D58G8HPU0-ND 6.68 5.48 4.94
48K 2K 8-ch. 10-it — 2 USART 4/2/ 59 12.5MHz/1.8 5.5V -20C 85C 80-QFP M38D59GCFPU0-ND 7.00 5.74 5.18
48K 2K 8-ch. 10-it — 2 USART 4/2/ 59 12.5MHz/1.8 5.5V -20C 85C 80-LQFP M38D59GCHPU0-ND 7.00 5.74 5.18
60K 2K 8-ch. 10-it — 2 USART 4/2/ 59 12.5MHz/1.8 5.5V -20C 85C 80-QFP M38D59GFFPU0-ND 7.30 5.99 5.41
60K 2K 8-ch. 10-it — 2 USART 4/2/ 59 12.5MHz/1.8 5.5V -20C 85C 80-LQFP M38D59GFHPU0-ND 7.30 5.99 5.41
Flash
32K 2K 8-ch. 10-it — 1 USART 3// 44 8MHz/3.0 5.2V -20C 85C 64-LQFP M38K29F8LHPU0-ND 12.91 10.86 9.98
60K 2048 16-ch. 10-it 2-ch. 8-bit SIO, UART 4/1/ 56 16.8MHz/2.7 5.5V -20C 85C 64-LQFP M38039FFLHPU0-ND 12.00 9.84 8.88
60K 2048 16 ch. 10-it 2-ch. 8-bit SIO, UART 4/1/ 56 16MHz/1.8 5.5V -20C 85C 64-LQFP M38039G4HKPU0-ND 5.80 4.66 4.25
48K 2K 16-ch. 10-it 2-ch. 8-bit 3 UART 4/1/ 56 16.8MHz/2.0 5.5V -20C 85C 64-LQFP M38039GCHHPU0-ND 6.72 5.40 4.92
16K 2K 16-ch. 10-it 2-ch. 8-bit 3 USART 4/1/ 56 16.8MHz/2.0 5.5V -20C 85C 64-LQFP M38039G4HHPU0-ND 4.93 3.96 3.61
16K 2K 16-ch. 10-it 2-ch. 8-bit 3 USART 4/1/ 56 16.8MHz/2.0 5.5V -20C 85C 64-SDIP M38039G4HSPU0-ND 6.86 5.52 5.03
24K 2K 16-ch. 10-it 2-ch. 8-bit 3 USART 4/1/ 56 16.8MHz/2.0 5.5V -20C 85C 64-LQFP M38039G6HHPU0-ND 5.24 4.21 3.84
24K 2K 16-ch. 10-it 2-ch. 8-bit 3 USART 4/1/ 56 16.8MHz/2.0 5.5V -20C 85C 64-LQFP M38039G6HKPU0-ND 5.38 4.32 3.94
QzROM
24K 2K 16-ch. 10-it 2-ch. 8-bit 3 USART 4/1/ 56 16.8MHz/2.0 5.5V -20C 85C 64-SDIP M38039G6HSPU0-ND 6.43 5.27 4.76
32K 2K 16-ch. 10-it 2-ch. 8-bit 3 USART 4/1/ 56 16.8MHz/2.0 5.5V -20C 85C 64-LQFP M38039G8HHPU0-ND 5.57 4.48 4.08
32K 2K 16-ch. 10-it 2-ch. 8-bit 3 USART 4/1/ 56 16.8MHz/2.0 5.5V -20C 85C 64-LQFP M38039G8HKPU0-ND 5.71 4.59 4.19
32K 2K 16-ch. 10-it 2-ch. 8-bit 3 USART 4/1/ 56 16.8MHz/2.0 5.5V -20C 85C 64-SDIP M38039G8HSPU0-ND 6.73 5.52 4.98
48K 2K 16-ch. 10-it 2-ch. 8-bit 3 USART 4/1/ 56 16.8MHz/2.0 5.5V -20C 85C 64-LQFP M38039GCHKPU0-ND 6.92 5.56 5.07
48K 2K 16-ch. 10-it 2-ch. 8-bit 3 USART 4/1/ 56 16.8MHz/2.0 5.5V -20C 85C 64-SDIP M38039GCHSPU0-ND 8.00 6.56 5.92
16K 512 9-ch. 10-it 2-ch. 8-bit 2 UART 4/1/ 34 12.5MHz/1.8 5.5V -20C 85C 42-SSOP M38503G4AFPU1-ND 4.84 3.90 3.55
16K 512 9-ch. 10-it 2-ch. 8-bit 2 UART 4// 34 12.5MHz/1.8 5.5V -20C 85C 42-DIP M38503G4ASPU1-ND 6.36 5.11 4.66
Flash 32K 1K 9-ch. 10-it — 2 USART 4// 34 12.5MHz/2.7 5.5V -20C 85C 42-SSOP M38507F8AFPU1-ND 11.00 9.02 8.14
QzROM
48K 1.5K — — 2 USART 4/1/ 34 12.5MHz/2.7 5.5V -20C 85C 42-SSOP M38588GCFPU0-ND 6.68 5.48 4.94
48K 1.5K — — 2 USART 4/1/ 34 12.5MHz/2.7 5.5V -20C 85C 42-SDIP M38588GCSPU0-ND 7.63 6.26 5.65
Flash
60K 2K 8-ch. 10-it 2-ch. 8-bit 2 USART 4// 72 10MHz/2.7 5.5V -20C 85C 80-QFP M38869FFAGPU0-ND 11.97 10.07 9.25
60K 2K 8-ch. 10-it 2-ch. 8-bit 2 USART 4// 72 10MHz/2.7 5.5V -20C 85C 80-LQFP M38869FFAHPUU-ND 21.23 17.86 16.41
ROMless — 148K — — 3 UART, 1 USART, 1 I 2 C /4/4 132 266MHz/1.2V -20C 70C 449-BGA R8A77220AC266BGV-ND 42.43 37.72 34.18
C
SuperH Family
SuperH is an embedded RISC developed for high performance, miniaturization and performance per power
consumption (MIPS/W). Renesas is developing CPU cores for a wide range of applications and functions and
have many products. These product lines include the series with SH-2 as the CPU core with on-chip large
capacity flash memory and peripheral functions such as timer, serial and AD converter, and the series with
SH-3 and SH-4 as the CPU core which enable high-speed data processing and come equipped with cache
SH Series
Memory
Type
ROM
Bytes
SH-2 Series
RAM
Bytes A/D D/A
Serial
Communication
Timers
8/16/32 GPIO
and MMU. Additionally, there is lineup of series with SH2-DSP and SH3-DSP as the CPU core, which have full
DSP functions and an emphasis on multimedia processing and communications processing. Currently available
series (products) also have lots of features such as low power mode, contributing to low power consumption and
miniaturization for application hardware. Various versatile operating systems and development tools have been
improved and, crucially, more efficient development can be achieved.
Operating Frequency/
Supply Voltage Temperature Package
Digi-Key
Part No.
More Product Available Online: www.digikey.com
www.digikey.com/microcontroller
Price Each
1 25 100
— 8K 8-ch. 10-it — 4 USART, IrDA, Smart Card, 1 I 2 C /5/ 106 50MHz/3.0 3.6V -20C 75C 114-LQFP HD6417145F50V-ND 14.52 12.21 11.22
ROMless — — 8-ch. 10-it 2-ch. 10-it UART /1/3 96 100MHz/3.3V -20C 75C 208-QFP D6417709SF100BV-ND 28.76 24.45 22.65
— — 8-ch. 10-it 2-ch. 10-it UART /1/3 96 137MHz/3.3V -20C 75C 208-QFP D6417709SF133BV-ND 31.62 26.88 24.91
Flash 256K 12K 16-ch. 10-it — 3 USART, IrDA, 1 CAN /5/ 69 50MHz/4.5 5.5V -20C 75C 100-QFP HD64F7047F50V-ND 25.38 21.58 19.99
— 16K 8 ch. 10-it — SCI, SSU, I 2 C /11/ 65 80MHz/4.5 5.5V -20C 85C 100-TQFP DS70830AN80FTV-ND 14.32 12.05 11.07
ROMless
— 16K 8 ch. 10-it — SCI, SSU, I 2 C /11/ 100 80MHz/4.5 5.5V -20C 85C 144-LQFP DS70850AD80FPV-ND 20.06 16.88 15.51
— 16K — — 4 USART, IrDA /2/ 78 125MHz/1.71 1.89V -20C 70C 176-LFBGA DS76190B125BGV-ND 24.12 20.51 19.00
— 16K — — 4 USART, IrDA /2/ 78 125MHz/1.71 1.89V -20C 70C 176-LFBGA DS76190N125BGV-ND 25.34 21.54 19.96
*SSU SPI ®
Memory
Type
ROMless
*SSU SPI ®
ROM
Bytes
RAM
Bytes A/D D/A
Serial
Communication
Timers
8/16/32 GPIO
Operating Frequency/
Supply Voltage Temperature Package
— 3K 8-ch. 10-it — 2 USART, IrDA /3/ 43 28.7MHz/4.5 5.5V -20C 75C 112-QFP HD6417014F28V-ND 18.46 15.53 14.27
— 3K 8-ch. 10-it — 2 USART, IrDA /3/ 43 28.7MHz/4.5 5.5V -20C 75C 112-QFP HD6417014RF28V-ND 18.46 15.53 14.27
— 4K 8-ch. 10-it — 2 USART, IrDA /5/ 82 16.7MHz/3.0 3.6V -20C 75C 112-QFP HD6417040AVCF16V-ND 24.88 21.15 19.60
— 4K 8-ch. 10-it — 2 USART, IrDA /5/ 82 28.7MHz/4.5 5.5V -20C 75C 112-QFP HD6417040ACF28V-ND 29.00 24.65 22.84
— 4K 8-ch. 10-it — 2 USART, IrDA /5/ 82 28.7MHz/4.5 5.5V -20C 75C 144-QFP HD6417041ACF28V-ND 24.64 20.95 19.41
— 4K 8-ch. 10-it — 2 USART, IrDA /5/ 82 28.7MHz/4.5 5.5V -20C 75C 144-QFP HD6417041AF28V-ND 24.64 20.95 19.41
— 4K 8-ch. 10-it — 2 USART, IrDA /5/ 82 16.7MHz/3.0 3.6V -20C 75C 144-QFP HD6417041AVF16V-ND 25.66 21.82 20.21
— 8K 8-ch. 10-it — 4 USART, IrDA, /5/ 82 50MHz/3.0 3.6V -20C 75C 112-QFP HD6417144F50V-ND 13.71 11.53 10.60
— 8K 8-ch. 10-it — Smart Card, 1 I 2 C /5/ 82 50MHz/3.0 3.6V -40C 85C 112-QFP HD6417144FW50V-ND 14.52 12.21 11.22
— 8K 8-ch. 10-it — 4 USART, IrDA, Smart Card, 1 I 2 C /5/ 106 50MHz/3.0 3.6V -40C 85C 114-LQFP HD6417145FW50V-ND 15.38 12.94 11.89
— 4K — — 3 USART, IrDA // 78 100MHz/3.0 3.6V -20C 75C 176-LFBGA D17606BG100V-ND 19.56 16.45 15.12
— 4K — — 3 USART, IrDA // 78 100MHz/3.0 3.6V -20C 75C 176-LFBGA D17606BGN100V-ND 19.56 16.45 15.12
— 4K — — 3 USART, IrDA // 78 100MHz/3.0 3.6V -40C 85C 176-LFBGA D17606BGW100V-ND 21.49 18.08 16.61
— 8K — — 5 USART, IrDA /4/ 30 62.5MHz/3.0 3.6V -20C 75C 240-LFBGA HD6417615ARBPV-ND 33.02 28.07 26.01
— 8K — — 5 USART, IrDA /4/ 30 62.5MHz/3.0 3.6V -20C 75C 208-LQFP HD6417615ARFV-ND 29.20 24.82 23.00
— 8K — — 5 USART, IrDA /4/ 30 62.5MHz/3.0 3.6V -20C 75C 208-LQFP HD6417616SFV-ND 33.02 28.07 26.01
— 4K — — 3 USART IrDA /2/ 78 100MHz/1.4 1.6V -20C 75C 176-LFBGA D17618ABG100V-ND 31.80 27.03 25.05
— 4K — — 3 USART IrDA /2/ 78 100MHz/1.4 1.6V -20C 75C 176-LFBGA D17618ABGN100V-ND 50.69 43.84 41.10
— 4K — — 3 USART IrDA /2/ 78 100MHz/1.4 1.6V -40C 85C 176-LFBGA D17618ABGW100V-ND 51.00 45.00 42.75
— 4K — — 3 USART IrDA /2/ 78 100MHz/1.4 1.6V -40C 85C 176-LFBGA D17618RBGW100V-ND 21.49 18.08 16.61
— 4K — — 3 USART, IrDA /2/ 71 100MHz/3.0 3.6V -20C 75C 176-LFBGA D17618RBG100V-ND 19.56 16.45 15.12
— 4K — — 3 USART, IrDA /2/ 71 100MHz/3.0 3.6V -20C 75C 176-LFBGA D17618RBGN100V-ND 19.56 16.45 15.12
(Continued)
Digi-Key
Part No.
Price Each
1 25 100
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
217
217

Microcontrollers
SuperH Family SH-2 Series (Cont.)
C
Memory
Type
*SSU SPI ®
ROM
Bytes
SH-2A Series
RAM
Bytes A/D D/A
Serial
Communication
Timers
8/16/32 GPIO
Operating Frequency/
Supply Voltage Temperature Package
Digi-Key
Part No.
Price Each
1 25 100
128K 4K 8-ch. 10-it — 2 USART, IrDA WDT, MTU, CMT 82 28.7MHz/4.5 5.5V -20C 75C 112-QFP HD64F7017F28V-ND 32.00 27.20 25.20
256K 4K 8-ch. 10-it — 2 USART, IrDA WDT, MTU, CMT 82 28.7MHz/4.5 5.5V -20C 75C 112-QFP HD64F7044F28V-ND 48.62 42.05 39.42
256K 4K 8-ch. 10-it — 2 USART WDT, MTU, CMT 106 28.7MHz/4.5 5.5V -20C 75C 144-QFP HD64F7045F28V-ND 51.21 44.29 41.52
256K 12K 12-ch. 10-it — 2 USART, IrDA WDT, MTU, CMT 54 50MHz/4.0 5.5V -20C 75C 80-QFP HD64F7046F50V-ND 24.14 20.52 19.02
256K 16K 8-ch. 10-it — 4 USART, 1 SSU, 1 I 2 C
73 80MHz/3.0 5.5V -40C 85C 100-TQFP DF70834AD80FTV-ND 22.86 19.44 18.01
256K 16K 8-ch. 10-it — 4 USART, 1 SSU, 1 I 2 C 73 80MHz/3.0 5.5V -20C 85C 100-TQFP DF70834AN80FTV-ND 21.82 18.55 17.19
512 32K 8-ch. 10-it — 4 USART, 1 SSU, 1 I 2 C 73 80MHz/3.0 5.5V 0C 50C 100-TQFP DE70835RN80FTV-ND 117.03 105.52 102.07
512 32K 8-ch. 10-it — 4 USART, 1 SSU, 1 I 2 C 73 80MHz/3.0 5.5V -40C 85C 100-TQFP DF70835AD80FTV-ND 29.34 24.94 23.11
512 32K 8-ch. 10-it — 4 USART, 1 SSU, 1 I 2 C 73 80MHz/3.0 5.5V -20C 85C 100-TQFP DF70835AN80FTV-ND 26.66 22.67 21.00
256K 16K 8-ch. 10-it — 4 USART, 1 SSU, 1 I 2 C 84 80MHz/3.0 5.5V -40C 85C 112-LQFP DF70844AD80FPV-ND 24.80 21.08 19.53
256K 16K 8-ch. 10-it — 4 USART, 1 SSU, 1 I 2 C 84 80MHz/3.0 5.5V -20C 85C 112-LQFP DF70844AN80FPV-ND 22.54 19.16 17.76
512K 32K 8-ch. 10-it — 4 USART, 1 SSU, 1 I 2 C 84 80MHz/3.0 5.5V 0C 50C 112-LQFP DE70845RN80FPV-ND 117.03 105.52 102.07
512K 32K 8-ch. 10-it — 4 USART, 1 SSU, 1 I 2 C 84 80MHz/3.0 5.5V -40C 85C 112-LQFP DF70845AD80FPV-ND 30.14 25.62 23.74
512K 32K 8-ch. 10-it — 4 USART, 1 SSU, 1 I 2 C
WDT, MTU2,
MTU2S, CMT
84 80MHz/3.0 5.5V -20C 85C 112-LQFP DF70845AN80FPV-ND 27.38 23.28 21.57
256K 16K 8-ch. 10-it — 4 USART, 1 SSU, 1 I 2 C 108 80MHz/3.0 5.5V -40C 85C 144-LQFP DF70854AD80FPV-ND 26.66 22.67 21.00
256K 16K 8-ch. 10-it — 4 USART, 1 SSU, 1 I 2 C 108 80MHz/3.0 5.5V -20C 85C 144-LQFP DF70854AN80FPV-ND 24.24 20.61 19.09
512K 32K 8-ch. 10-it — 4 USART, 1 SSU, 1 I 2 C 108 80MHz/3.0 5.5V 0C 50C 144-LQFP DE70855RN80FPV-ND 116.11 104.70 101.27
512K 32K 8-ch. 10-it — 4 USART, 1 SSU, 1 I 2 C 108 80MHz/3.0 5.5V -40C 85C 144-LQFP DF70855AD80FPV-ND 30.48 25.91 24.01
512K 32K 8-ch. 10-it — 4 USART, 1 SSU, 1 I 2 C 108 80MHz/3.0 5.5V -20C 85C 144-LQFP DF70855AN80FPV-ND 29.00 24.65 22.84
512K 32K 8-ch. 10-it — 4 USART, 1 SSU, 1 I 2 C 108 80MHz/3.0 5.5V -20C 85C 144-LQFP DF70855RN80FPV-ND 88.00 78.38 74.25
Flash
512K 32K 16-ch. 10-it — 4 USART, 1 SSU, 1 I 2 C 134 80MHz/3.0 5.5V 0C 50C 176-LQFP DE70865RN80FPV-ND 117.03 105.52 102.07
512K 32K 16-ch. 10-it — 4 USART, 1 SSU, 1 I 2 C 134 80MHz/3.0 5.5V -40C 85C 176-LQFP DF70865AD80FPV-ND 33.02 28.07 26.01
512K 32K 16-ch. 10-it — 4 USART, 1 SSU, 1 I 2 C 134 80MHz/3.0 5.5V -20C 85C 176-LQFP DF70865AN80FPV-ND 31.52 26.80 24.83
128K 8K 8-ch. 10-it — 3 USART WDT, MTU2, CMT 31 50MHz/4.5 5.5V -40C 85C 48-LQFP DF71243D50FPV-ND 17.75 14.93 13.72
128K 8K 8-ch. 10-it — 3 USART WDT, MTU2, CMT 31 50MHz/4.5 5.5V -20C 85C 48-LQFP DF71243N50FPV-ND 17.45 14.68 13.49
64K 8K 8-ch. 10-it — 3 USART WDT, MTU2, CMT 45 50MHz/4.5 5.5V -40C 85C 64-QFP DF71252D50FAV-ND 17.60 14.80 13.60
64K 8K 8-ch. 10-it — 3 USART WDT, MTU2, CMT 45 50MHz/4.5 5.5V -40C 85C 64-LQFP DF71252D50FPV-ND 17.05 14.34 13.18
64K 8K 8-ch. 10-it — 3 USART WDT, MTU2, CMT 45 50MHz/4.5 5.5V -20C 85C 64-LQFP DF71252N50FPV-ND 16.74 14.08 12.94
128K 8K 8-ch. 10-it — 3 USART WDT, MTU2, CMT 45 50MHz/4.5 5.5V -40C 85C 64-QFP DF71253D50FAV-ND 18.46 15.53 14.27
128K 8K 8-ch. 10-it — 3 USART WDT, MTU2, CMT 45 50MHz/4.5 5.5V -20C 85C 64-QFP DF71253N50FAV-ND 18.15 15.27 14.03
128K 8K 8-ch. 10-it — 3 USART WDT, MTU2, CMT 45 50MHz/4.5 5.5V -20C 85C 64-LQFP DF71253N50FPV-ND 18.15 15.27 14.03
256K 16K 12-ch. 12-bit — I 2 C, CAN, SCI, SSI /11/ 44 80MHz/3.0 5.5V -40C 85C 80-LQFP DF71364AD80FPV-ND 24.88 21.15 19.60
256K 16K 12-ch. 12-bit — I 2 C, CAN, SCI, SSI /11/ 57 80MHz/3.0 5.5V -40C 85C 100-LQFP DF71374AD80FPV-ND 25.38 21.58 19.99
256K 16K 12-ch. 12-bit — I 2 C, CAN, SCI, SSI /11/ 57 80MHz/3.0 5.5V -20C 85C 100-LQFP DF71374AN80FPV-ND 25.38 21.58 19.99
256K 8K 8-ch. 10-it — 4 USART, WDT, MTU, CMT 82 50MHz/3.0 3.6V -20C 75C 112-QFP HD64F7144F50V-ND 24.14 20.52 19.02
256K 8K 8-ch. 10-it — Smart Card, 1 I 2 C WDT, MTU, CMT 82 50MHz/3.0 3.6V -40C 85C 112-QFP HD64F7144FW50V-ND 25.90 22.02 20.40
256K 8K 8-ch. 10-it — 4 USART, Smart Card, 1 I 2 C WDT, MTU, CMT 106 50MHz/3.0 3.6V -20C 75C 144-QFP HD64F7145F50V-ND 24.88 21.15 19.60
256K 8K 8-ch. 10-it — 4 USART, Smart Card, 1 I 2 C WDT, MTU, CMT 106 50MHz/3.0 3.6V -40C 85C 114-LQFP HD64F7145FW50V-ND 26.16 22.24 20.61
256K 12K — — 3 USART, 1 SSU*, 1 CAN
WDT, MTU2,
MTU2S, CMT
73 64MHz/3.0 3.6V -40C 125C 100-LQFP DF71474AK64FPV-ND 66.13 58.35 55.44
512K 16K 16-ch. 12-it — CAN, SCI, SSU /8/0 57 64MHz/3.3 5.0V -40C 125C 100-LQFP DF71476AK64FPV-ND 60.69 53.55 50.88
ROMless — 16K — — 4 USART /2/ 78 125MHz/1.71 1.89V -20C 85C 176-LFBGA DS76190W125BGV-ND 26.54 22.56 20.91
Memory
Type
SH-3/SH-4/SH-4A Series
Memory
Type
ROMless
ROM
Bytes
RAM
Bytes A/D D/A
RAM
Bytes A/D D/A
◆ RoHS Compliant *SSU SPI ®
Serial
Communication
Serial
Communication
Timers
8/16/32 GPIO
Timers
8/16/32 GPIO
Operating Frequency/
Supply Voltage Temperature Package
Operating Frequency/
Supply Voltage Temperature Package
Digi-Key
Part No.
Price Each
1 25 100
16K 8-ch. 10-it 2-ch. 8-bit 2 UART, Smart Card, IrDA /1/3 96 167MHz/1.9 3.3V -20C 75C 240-BGA D6417709SBP167BV-ND 39.38 33.48 31.02
16K 8-ch. 10-it 2-ch. 8-bit 2 UART, Smart Card, IrDA /1/3 96 167MHz/1.9 3.3V -20C 75C 208-LQFP D6417709SF167BV-ND 35.76 30.40 28.17
16K 8-ch. 10-it 2-ch. 8-bit 2 UART, Smart Card, IrDA /1/3 96 200MHz/2.0 3.3V -20C 75C 208-LQFP D6417709SHF200BV-ND 38.63 33.41 31.32
16K 6-ch. 10-it 2-ch. 8-bit 2 USART, 1 UART, Smart Card, USB /1/3 104 160MHz/1.9 3.3V -20C 75C 240-BGA HD6417727BP100CV-ND 48.47 41.92 39.30
16K 8-ch. 10-it 2-ch. 8-bit 1 UART, Smart Card, IrDA /1/3 96 133MHz/1.8 3.3V -20C 75C 208-LQFP D6417729RF133BV-ND 35.76 30.40 28.17
16K 8-ch. 10-it 2-ch. 8-bit 1 UART, Smart Card, IrDA /1/3 96 200MHz/2.0 3.3V -20C 75C 208-QFP D6417729RHF200BV-ND 42.44 36.71 34.41
— — — 1 UART, Smart Card //5 29 240MHz/1.5 3.3V -20C 75C 256-BGA D6417750RBP240DV-ND 52.53 46.35 44.04
— — — 1 UART, Smart Card //5 39 200MHz/2.0 3.3V -20C 75C 256-BGA D6417751RBP200DV-ND 55.78 49.22 46.76
— 4-ch. 10-it — 3 UART, 2 I 2 C, Smart Card, 2 CAN, USB //3 69 200MHz/2.0 3.3V -20C 75C 256-BGA D6417760BP200ADV-ND 56.53 49.88 47.39
32K — — I 2 C, SCI, USB /2/ 86 200MHz/2.0 3.3V -20C 70C 256-BGA R5S76700B200BG-ND 24.40 20.74 19.22
16K 4-ch. 10-it 2-ch. 8-bit I 2 C, SCI, SIO, SSI, USB /4/6 107 133MHz/1.5 3.3V -20C 75C 499-BGA R5S77631266BGV-ND 59.48 52.49 49.87
Digi-Key
Part No.
Price Each
1 25 100
512K 32K 8-ch. 12-bit 2-ch. 8-bit 4 USART, 1 I 2 C WDT/MTU2/MTU2S/CMT 75 160MHz/1.4 1.6V -40C 85C 144-LQFP DF72115D160FPV-ND 39.72 34.36 32.21
Flash
1 CAN, 1 Ethernet, 1 SSU,
1MB 128K 8-ch. 12-bit —
1 I 2 C, 1 USB
/11/ 100 200MHz/3 3.6V -40C 85C 176-LQFP R5F72167ADFAV0-ND NEW! 42.27 36.56 34.28
— 128K 8-ch. 10-it 2-ch. 8-bit 4 USART, IrDA, 1 I 2 C /11/ 79 200MHz/1.15 1.35V -20C 85C 176-LQFP DS72060W200FPV-ND 34.00 28.90 26.78
ROMless — 32K 8-ch. 10-it 2-ch. 8-bit 8 USART, 3 I 2 C, 2CAN 2/6/ 123 100MHz/3.0 3.6V -40C 85C 176-LQFP DS72611RP100FPV-ND 38.76 33.52 31.43
— 32K 8-ch. 10-it 2-ch. 8-bit 8 USART, 3 I 2 C, 2CAN 2/6/ 123 120MHz/3.0 3.6V -20C 70C 176-LQFP DS72613RB120FPV-ND 37.60 31.96 29.61
(Continued)
218 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

Memory
Type
ROMless
RAM
Bytes A/D D/A
Microcontrollers
SuperH Family SH-3/SH-4/SH-4A Series (Cont.)
Serial
Communication
Timers
8/16/32 GPIO
Operating Frequency/
Supply Voltage Temperature Package
Digi-Key
Part No.
Price Each
1 25 100
16K — — I 2 C, SSU, Ethernet/USB //6 77 324MHz/3.3V -20C 75C 404-BGA R5S77640N300BG-ND 55.68 49.13 46.67
16K 4-ch. 10-it 2-ch. 8-bit I 2 C, SCI, SIO, SSI, USB /4/6 107 133MHz/1.5 3.3V -20C 75C 256-CSP R8A77210C133BAV-ND 37.19 32.16 30.15
16K 4 ch. 10-it — SCI, SSU, USB, IrDA /4/6 162 400MHz/3.0 3.6V -20C 70C 449-BGA R8A77230C400BGU0-ND 80.53 71.73 67.95
16K — — SCI, SIO, SPI, SSI /4/6 75 400MHz/1.25 3.3V -20C 75C 449-BGA R8A77800BNBGV-ND 94.00 83.72 79.32
◆ RoHS Compliant *SSU SPI ® QSK62P Plus
Tools
Description
Digi-Key
Part No.
Price
Each
Kits — Evaluation, Development and Starter
Reerence Platorm Motor Control or R8C/25 MCRPR8C25-ND 979.50
Demo Platorm H8/300H 10MHz H8SPB-ND 89.80
Demo Platorm M16C 20MHz M16CSPB-ND 89.80
Development Evaluation Kit H8S/2218 3DK2218-SS-ND 850.00
Development Evaluation Kit H8/38076R 3DK38076-ND 239.00
Development Evaluation Kit H8/38086R 3DK38086R-ND 210.00
Development Evaluation Kit H8S/2215 EDK2215-ND 366.24
Development Evaluation Kit H8S/2215 EDK2215R-ND 360.00
Development Evaluation Kit H8S/2239 EDK2239-ND 327.00
Development Evaluation Kit H8S/2282 EDK2282-ND 327.00
Development Evaluation Kit H8S/2329 EDK2329-ND 285.00
Development Evaluation Kit H8S/2378 EDK2378-ND 420.00
Development Evaluation Kit H8S/2674 EDOSK2674-ND 233.75
Flash Programmer FDM-ND 420.00
Development H8 HEW and E10A HEWH8E10A-ND 1229.75
Development E10A-USB 14-pin Cale HS0005ECU01H-ND 130.66
Development Add-On Board RSK38347 R0K0APPBDB010BE-ND 225.00
Development RSK Add-On Board Ethernet and USB R0K0APPBDB020BE-ND 487.50
Development Evaluation Kit M16C/26A R0K33026AS000BE-ND 225.00
Development Evaluation Kit M16C/29 R0K330290S000BE-ND 225.00
Development Evaluation Kit M16C/6NK R0K3306NKS001BE-ND 225.00
Starter Kit or H8S/2215R R0K42215RS001BE-ND◆ 585.00
Development Evaluation Kit H8/38099 R0K438099S000BE-ND 225.00
Development Evaluation Kit H8/38347 R0K438347S000BE-ND 225.00
Development Evaluation Kit R8C/1B R0K5211B4S000BE-ND 225.00
Development Evaluation Kit R8C/25 R0K521256S000BE-ND 225.00
Starter Kit H8S/2472 R0K52472VS000BE-ND◆ 712.50
Development Evaluation Kit H8SX/1582F R0K561582S000BE-ND 225.00
Starter Kit H8SX/1622 R0K561622S000BE-ND◆ 585.00
Development Evaluation Kit H8S/1664F R0K561664S000BE-ND 225.00
Development Evaluation Kit SH7086 R0K570865S000BE-ND 300.00
Development Evaluation Kit SH7124 R0K571242S000BE-ND 225.00
Starter Kit or SH7124 R0K571242S001BE-ND 585.00
Development Evaluation Kit SH7203 R0K572030S000BE-ND 1332.00
Starter Kit or SH7286 R0K572867S000BE-ND◆ 585.00
Development Evaluation Kit CAN R8C/23 RCDK8C-ND 525.00
Development Evaluation Kit iBee 2.46Hz RB-CC28FC-BRD-ND 239.06
Development Evaluation Kit H8/38024 SKP38024-ND 113.05
Development Evaluation Kit H8/38602R SKP38602-ND 113.05
Development Evaluation Kit R8C/SPB R8CSPB-ND 89.80
Starter Kit M32C/87 R0K330879S001BE-ND 225.00
Development Programmable Board, 3823 Group R0K303823A000BR-ND 300.00
Evaluation Kit or SH7216 R0K572167S000BE-ND NEW! 810.00
Development Board or SH7216 RDKSH7216-ND◆ NEW! 211.44
Evaluation Kit or SH7264 R0K572643S000BE-L-ND NEW! 1300.50
Starter Kit H8S/2456 LCDRSK2456S-ND NEW! 825.00
Description
Digi-Key
Part No.
Price
Each
NEW! Software — RoHS Compliant NEW!
C Compiler H8 1 User RTA-HEWH8-1U-ND 1230.00
C Compiler H8 1 User LAN RTA-HEWH8-1UL-ND 1565.22
C Compiler 1 User RTA-HEWNC-1U-ND 1230.00
C Compiler 1 User LAN RTA-HEWNC-1UL-ND 1565.22
C Compiler SH 1 User RTA-HEWSH-1U-ND 2430.00
C Compiler SH 1 User LAN RTA-HEWSH-1UL-ND 2608.69
Emulators
Development Emulator Base Unit H8S/2100 E62140-ND 7812.00
Development Emulator Base Unit H8S/2300 E62339-ND 7923.60
Development Emulator Base Unit H8S/2633 E62633R-ND 8424.00
Development Emulator Base Unit H8S/2678 E62678R-ND 9039.60
Development Emulator Base Unit H8/3064 E63064B-ND 8704.80
Development Emulator Base Unit H8/300L E63800-ND 6978.24
On Chip Debug Emulator HS0005KCU01H-ND 1225.00
On Chip Debug Emulator with Trace HS0005KCU02H-ND 1944.00
On Chip Deu Emulator E10A Lite HS0005KCU11H-ND 750.00
Emulator Base Unit H8S/2168 HS2168EPI61H-ND 7488.00
Compact Emulator or M16C/26A/28/29 M30290T2-CPE-ND 1296.00
Compact Emulator or M16C/Tiny M30290T2-CPE-HP-ND 1567.91
Compact Emulator or M16C/26A/28/29 M3062PT3-CPE-3-ND 1488.00
Emulator Base Unit M16C/60 M3062PT3-RPD-E-ND 3408.00
Compact Emulator or M16C/62P R0K1SN003001R-ND 3241.92
Emulator Personality Kit R8C/13 R0E521000EPB00-ND 1012.50
Emulator Base E8A or H8 and M16C R0E00008AKCE00-ND 156.25
Emulator Personality Kit R8C/13 R0E521134CPE00-ND 1548.00
Emulator Personality Kit R8C/10-13 R0E521134EPB00-ND 1380.00
Emulator Personality Kit R8C/17 R0E521174CPE00-ND 1548.00
Emulator or R8C/18/19/1A/1B R0E521174CPE10-ND 1440.00
Emulator Personality Kit R8C/20-23 R0E521237CPE00-ND 1548.00
On Chip Debug Emulator RTA-FOUSB-MON-ND 60.86
Accessories
Development Emulator Accessory E6EIOEXT-ND 330.00
Emulator PCB Adapter 128-QFP EHB2328Q128-ND 771.00
Emulator PCB Adapter 128-QFP EHB2633Q128-ND 1056.00
Emulator PCB Adaptor 100-QFP EHB3064BQ100B-ND 465.00
Emulator PCB Adaptor 120-TQFP HS1650ECN61H-ND 1095.00
Personality Kit H8SX/1650 HS1650EPH60H-ND 8544.00
Emulator PCB Adapter 100-QFP HS2148ECH61HE-ND 1428.42
Emulator PCB Adapter 64-QFP HS2212ECH61H-ND 2628.00
Emulator PCB Adapter 112-LFBGA HS2215ECB62H-ND 2696.69
Emulator PCB Adapter 120-TQFP HS2215ECN61H-ND 2491.20
Emulator PCB Adapter 120 TQFP HS2215RECN61H-ND 2496.00
Emulator PCB Adapter 100-QFP HS2218ECN61H-ND 2496.00
Emulator PCB Adapter 112-LFBGA HS2238RECB62H-ND 1944.00
Emulator PCB Adapter 144-QFP HS2338ECH61H-ND 1296.00
Emulator PCB Adapter 144-QFP HS2378ECH61H-ND 1644.00
Emulator Personality Kit H8S/2633 HS2633ECH61HE-ND 1288.80
Emulator Personality Kit M16C/28 M30291T-EPB-HP-ND 1227.00
Emulator Personality Kit M16C/62P M3062PT-EPB-ND 1359.00
Emulator PCB Adapter 100-LQFP M3T-F160-100NSD-ND 400.00
Emulator PCB Adapter 128-LQFP M3T-F160-128NRD-ND 475.00
◆ RoHS Compliant
C
The QSK62P Plus Quic Start Kit QSK is a low-cost development environment or evaluatin the M16C/60 series o
microcontrollers MCU and Renesas sotware development tools. The QSK62P Plus uses the M30620FC MCU, which
elons to the M16C/60P roup o the M16C/60 series. The M30620FC MCU has all o the on-chip peripheral unctions
o the M16C/30P roup MCUs plus some more, so it can e considered a superset suitale or evaluatin the
M16C/30P roup as well. The its come with a complete sotware development tool chain or Renesas MCUs, includin
the NC30WA C-compiler, assemler and liner a stripped down E8 Emulator and the Hih-perormance Emedded
Worshop HEW, which consists o Interated Development Environment IDE, Graphical User Interace GUI and
Sotware Deuer. The QSK62P Plus oards eature on-oard in-circuit deuin and prorammin support ICD,
eliminatin the need or an external ICD unit. All that is reuired or in-circuit deuin and prorammin with the
QSK62P Plus is a USB connection to a PC runnin the included development tool sotware.
867-1000-ND QSK-62P PLUS .........................................................................$69.97
NEW! STM8L1526-EVAL
Evaluation Board
The STM8L1526-EVAL evaluation board is a complete demonstration and development platform for
STMicroelectronic’s STM8 core-based STM8L152C6 microcontroller which supports I2C, SPI, USART,
12-bit ADC, 12-bit DAC, LCD driver, 2KB internal SRAM, 32KB EEPROM and SWIM debugging. The full
range of hardware features on the board helps you evaluate all peripherals (motor control, USART, audio
DAC, LCD, IR LED, IrDA, SPI Flash, MicroSD Card, temperature sensor and EEPROM… etc.) and develop
your own applications. Extension headers facilitate easy connection of a daughterboard or wrapping board
for specific applications. An ST-LINK is integrated on the board as the embedded in-circuit debugger and
programmer for the STM8 MCU.
497-10590-ND (STM8L1526-EVAL)..................................................................... $198.75
Development Kit for
ARM ® Processors
Digi-Key
Part No.
Price
Each
Cirrus Logic
Part No.
Description
Embedded Processor Development System
for EP9312/EP9315 598-1144-ND 312.50 EDB9315A-Z
ARM ® Processors
Digi-Key
Price Each Cirrus Logic
Description
Part No.
1 25 Part No.
200MHz ARM9 Processor 598-1137-ND◆ 23.31 19.69 EP9302-CQZ
166MHz ARM920T Processor 598-1250-ND◆ 22.75 19.21 EP9301-IQZ
200MHz ARM9 Processor 598-1254-ND 30.06 25.39 EP9307-CR
200MHz ARM9 Processor 598-1256-ND◆ 34.88 29.45 EP9307-IRZ
200MHz ARM9 Processor 598-1260-ND◆ 42.14 35.59 EP9312-IBZ
200MHz ARM9 Processor 598-1261-ND 41.72 35.23 EP9315-CB
200MHz ARM9 Processor 598-1262-ND 41.52 37.37 EP9315-IB
◆ RoHS Compliant
More Product Available Online: www.digikey.com
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Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380 (US2011)
(TZM112.US)
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C
MCS® 51
MICROCONTROLLERS
Intel
Digi-Key
Price Each★
Part No.
Part No. Description Pkg.
1 10 100
N80C51RA24 804579-ND 5V, 24MHz, 8-Bit MCU 44-PLCC 5.27 4.71 3.86
EE87C51RB1 864637-ND 5V, 16MHz, 8-Bit, 16K OTP EPROM* 44-PLCC 6.97 6.28 5.16
S80C51RA1 804523-ND 5V, 16MHz, 8-Bit MCU 44-MQFP 5.27 4.71 3.86
S80C51RA24 804592-ND 5V, 24MHz, 8-Bit MCU 44-MQFP 5.27 4.71 3.86
TS80C51RA1 804534-ND 5V, 16MHz, 8-Bit MCU Ext. Temp. 44-MQFP 5.61 5.01 4.11
TS80C51RA24 804603-ND 5V, 24MHz, 8-Bit MCU Ext. Temp. 44-MQFP 5.61 5.01 4.11
TS87C51FA1SF76 811518-ND 5V, 16MHz, 8-Bit, 8K OTP EPROM MCU, Extended Temp. 44-QFP 6.05 5.45 4.48
QX87C51FC20 863910-ND 5V, 20MHz, 8-Bit, 32K OTP MCU, Automotive* 44-PLCC 16.50 15.26 13.00
S87C51FA1SF76 804439-ND 5V, 16MHz, 8-Bit, 8K OTP MCU 44-MQFP 5.74 5.17 4.25
S87C51FA24SF76 810749-ND 5V, 24MHz, 8-Bit, 8K OTP MCU 44-MQFP 5.74 5.17 4.25
S87C51FB24SF76 811017-ND 5V, 24MHz, 8-Bit, 16K OTP MCU 44-MQFP 6.15 5.54 4.56
S87C51FB33SF76 811019-ND 5V, 33MHz, 8-Bit, 16K OTP MCU 44-MQFP 6.77 6.09 5.01
S87C51FC1SF76 806104-ND 5V, 16MHz, 8-Bit, 32K OTP MCU 44-MQFP 6.97 6.28 5.16
S87C51FC24SF76 811081-ND 5V, 24MHz, 8-Bit, 32K OTP MCU 44-MQFP 6.97 6.28 5.16
S87C51RA24 807154-ND 5V, 24MHz, 8-Bit, 8K OTP MCU 44-MQFP 6.15 5.54 4.56
S87C51RB1 807279-ND 5V, 16MHz, 8-Bit, 16K OTP MCU 44-MQFP 6.97 6.28 5.16
S87C51RB24 807314-ND 5V, 24MHz, 8-Bit, 16K OTP MCU 44-MQFP 6.97 6.28 5.16
S87C51RC1 800221-ND 5V, 16MHz, 8-Bit, 32K OTP MCU 44-MQFP 7.79 7.02 5.77
S87C51RC24 800375-ND 5V, 24MHz, 8-Bit, 32K OTP MCU 44-MQFP 6.23 5.61 4.62
TS87C51FA24SF76 810982-ND 5V, 24MHz, 8-Bit, 8K OTP MCU, Extended Temp. 44-MQFP 6.05 5.45 4.48
TS87C51RA1 807033-ND 5V, 16MHz, 8-Bit, 8K OTP MCU, Extended Temp. 44-MQFP 6.46 5.82 4.78
TS87C51RA24 807166-ND 5V, 24MHz, 8-Bit, 8K OTP MCU, Extended Temp. 44-MQFP 6.46 5.82 4.78
TS87C51RB1 807285-ND 5V, 16MHz, 8-Bit, 16K OTP MCU, Extended Temp. 44-MQFP 7.28 6.55 5.39
TS87C51RC24 800417-ND 5V, 24MHz, 8-Bit, 32K OTP MCU, Extended Temp. 44-MQFP 8.10 7.29 6.00
S87C521SF76 810770-ND 5V, 16MHz, 8-Bit, 8K OTP MCU 44-MQFP 4.81 4.30 3.53
TN87C5224SF76 819853-ND 5V, 24MHz, 8-Bit, 8K OTP MCU, Extended Temp. 44-PLCC 5.15 4.61 3.78
AN87C54F8 821116-ND 5V, 16MHz, 8-Bit, 16K OTP MCU 44-PLCC 11.18 10.16 8.64
N87C5433SF76 810721-ND 5V, 33MHz, 8-Bit, 16K OTP MCU 44-PLCC 6.31 5.69 4.68
S87C541SF76 810369-ND 5V, 16MHz, 8-Bit, 16K OTP MCU 44-MQFP 5.74 5.17 4.25
S87C5424SF76 810712-ND 5V, 24MHz, 8-Bit, 16K OTP MCU 44-MQFP 5.74 5.17 4.25
N87C581SF76 810724-ND 5V, 16MHz, 8-Bit, 32K OTP MCU 44-PLCC 5.33 4.80 3.95
N87C5833SF76 810725-ND 5V, 33MHz, 8-Bit, 32K OTP MCU 44-PLCC 5.86 5.28 4.34
P87C581SF76 823402-ND 5V, 16MHz, 8-Bit, 32K OTP MCU 40-Dip 5.33 4.80 3.95
P87C5820SF76 810728-ND 5V, 20MHz, 8-Bit, 32K OTP MCU 40-Dip 5.33 4.80 3.95
P87C5833SF76 810729-ND 5V, 33MHz, 8-Bit, 32K OTP MCU 40-Dip 5.86 5.28 4.34
S87C581SF76 810734-ND 5V, 16MHz, 8-Bit, 32K OTP MCU 44-MQFP 5.33 4.80 3.95
MCS® 96
MICROCONTROLLERS
Intel
Digi-Key
Price Each★
Part No.
Part No. Description Pkg.
1 10 100
S80C196NU40 804302-ND 5V, 40MHz, 16-Bit Event Processor Array MCU 100-QFP 13.02 11.84 10.07
AN87C196JRF8 821035-ND 5V, 16MHz, 16-Bit, 16K OTP MCU 52-PLCC 15.37 13.98 11.88
AN87C196JTWB20 828470-ND 5V, 20MHz, 16-Bit, 32K OTP MCU 52-PLCC 16.28 14.80 12.58
AN87C196JV20F8 821068-ND 5V, 20MHz, 16-Bit, 48K OTP MCU 52-PLCC 19.78 18.30 15.58
AN87C196LA20F8 821030-ND 5V, 20MHz, 16-Bit, 24K OTP MCU 52-PLCC 26.38 24.41 20.78
U87C196MC 803558-ND 5V, 16MHz, 16-Bit, 16K OTP MCU 64-SDip 16.28 14.80 12.58
Digi-Key
Part No. Description Pkg.
MICROCONTROLLERS
RoHS Compliant
Price Each★
1 25 100
COP8AME9EMW8-ND 8-Bit Microcontroller w/8K Flash, Temp. Sensor 10-Bit A/D 28-SOIC 14.96 12.58 11.56
COP8SAA716M8-ND 8-Bit Microcontroller with 1K Memory NEW! 16-SOIC 6.48 5.31 4.80
COP8SBR9HVA8-ND 8-Bit Microcontroller with 32K Memory NEW! 44-PLCC 19.49 16.40 15.07
COP8SBR9LVA8-ND 8-Bit Microcontroller with 32K Memory NEW! 68-PLCC 16.48 13.86 12.74
COP8SCR9HVA8-ND 8-Bit Microcontroller with 32K Memory NEW! 44-PLCC 16.48 13.86 12.74
COP8SGE728M8-ND 8-Bit OTP Microcontroller, 8K Memory, 2 Comp. USART 28-SOIC 10.36 8.50 7.67
COP8SGE728N8-ND 8-Bit OTP Microcontroller, 8K Memory, 2 Comp. USART 28-Dip 11.37 9.57 8.79
COP8SGR728M8-ND 8-Bit OTP Microcontroller, 32K Memory, 2 Comp. USART 28-SOIC 10.53 8.64 7.79
COP8SGR744V8-ND 8-Bit OTP Microcontroller, 32K Memory, 2 Comp. USART 44-PLCC 12.67 10.66 9.80
* RoHS Compliant ★ CALL FOR LOWER PRICING ON LARGER QUANTITIES! ★
220 (US2011)
(TZM112.US)
More Product Available Online: www.digikey.com
Toll-Free: 1-800-344-4539 • Phone 218-681-6674 • Fax: 218-681-3380

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