FLM BK DN M12 DI8 M12 - Onlinecomponents.com

FLM BK DN M12 DI8 M12
Fieldline Modular Bus Coupler for
DeviceNet With 8 Digital Inputs
Data Sheet
Function
01/2005
This data sheet is only valid in
association with the
FLS FLM SYS INST UM E
(Order No. 26 98 97 3) and
FLS FLM DN SYS PRO UM E
(Order No. 26 99 082) user manuals.
The device connects a Fieldline modular station
to DeviceNet and is also used to acquire digital
signals.
Fieldline Features
– Connection to DeviceNet using M12 connectors
(A-encoded)
– Opens the Fieldline modular local bus using
M12 connectors (B-encoded)
– Connection of up to 16 local bus
I/O devices
– 500 kBaud in the local bus
– Connection of digital sensors to M12 connectors
(A-encoded)
– Flexible voltage supply concept
– LED diagnostic and status indicators for
bus operation and voltage supply
– IP65/IP67 protection
– Short-circuit and overload protection of the
sensor supply
DeviceNet Features
– I/O peer-to-peer communication
– Eplicit messages
– Consistent configuration
– Faulted node recovery
– Automatic baud rate detection
(125 kBaud, 250 kBaud, 500 kBaud)
– I/O slave messages with the following transmission
modes:
Polling, cyclic transmission,
change-of-state (COS), bit strobing
– Configuration via rotary encoding switch,
EDS files as well as tools
– Certified acc. to ODVA
onlinecomponents.com
Figure 1
% =
FLM BK DN M12 DI8 M12
7111_en_00 1

FLM BK DN M12 DI8 M12
Pin Assignment
* 7 5 1
* 7 5 7 6
7 5
1
Figure 2
* 7 5 7
1
7 6
1
7 5
* ,
7 5
5 *
5 4 7
.
-
,
"
7 6 * 7 6
$
'
&
:
+
"
*
) $
' &
7
:
5 7 5
7 6
1 1
1! 1"
1# 1$
1% 1&
Connections of the device
FLM BK DN M12 DI8 M12
1 > EI 1 &
% )
Des.
FE
BUS IN
BUS OUT
LB OUT
U LS IN
Meaning
Functional earth ground
DeviceNet IN
DeviceNet OUT
Local bus OUT (FLM local bus)
Power supply IN
(logic and sensor supply)
U LS OUT Voltage supply OUT (logic and
sensor supply) for additional devices
IN1 to IN8 Inputs 1 to 8
In general, the maximum current load
of 4 A per contact must not be exceeded.
onlinecomponents.com
2 7111_en_00

FLM BK DN M12 DI8 M12
Pin Assignment DeviceNet
Pin Assignment of the Local Bus
* 7 5 1
* 7 5 7 6
* 7 6
Figure 3
DeviceNet pin assignment
(M12 A-encoded)
Pin IN OUT
1 CAN_SHLD CAN_SHLD
2 V+ V+
3 V– V–
4 CAN_High CAN_High
5 CAN_Low CAN_Low
$ $ " ! ) "
The thread and, if required, pin 1 are
used for shielding.
The shield is connected to FE in the
device.
For information on bus cables, please
refer to the
FLS FLM DN SYS PRO UM E
user manual
Figure 4
Pin LB OUT
1 DO
2 DO
3 DI
4 DI
5 GND
% & ) #
Pin assignment of the local bus
(LB OUT) (M12 B-encoded)
onlinecomponents.com
7111_en_00 3

FLM BK DN M12 DI8 M12
Pin Assignment of the Voltage Supply U LS Pin Assignment of the Inputs
1
7 6
% ) #
$ $ # ) $
Figure 5 Pin assignment U LS Figure 6 Pin assignment of the inputs
* The 24 V communications power supply U L
is only used for test purposes. For the operation
of the DeviceNet network, the communications
power supply V+/V– must be
fed from the bus cable.
Pin IN OUT
1 U L +24 V U L +24 V
2 U S GND U S GND
3 U L GND U L GND
4 U S +24 V U S +24 V
Voltages U L and U S at female connector
U LS OUT can each only carry
a maximum current of 2 A.
Assignment of the Input Sockets
onlinecomponents.com
For the following FLM local bus devices
it is absolutely necessary to feed
U LS .
Pin
Input Socket
1 U S +24 V
2 See Figure 7
3 GND
4 Input
5 FE
Figure 7
1 N
"
" 8
#
!
1 N
$ ' # " * #
Assignment of the input socket
Two input signals can be connected
to each input socket.
4 7111_en_00

FLM BK DN M12 DI8 M12
Local Diagnostic and Status Indicators
7
5
7 5
Figure 8
* 7 5
1
7 6
1
7 5
* ,
7
5
,
-
+
*
)
7 5
.
'
&
N
' &
N
5 *
4 7
"
$
"
$
1 1
1! 1"
1# 1$
1% 1&
7 6
7 5
5
: :
: :
: :
: :
% ) !
4 7
Diagnostic and status indicators of
the FLM BK DN M12 DI8 M12
Rotary Encoding Switches
Use the rotary encoding switches X10 and X1 to
– Set the device ID and
– Set the baud rate manually, if required
The valid value range for the device ID is between
0 dec and 63 dec . A communication fault is
triggered for all values outside this value range.
For information on setting the device
ID and setting the baud rate manually,
please refer to page 14 and
page 15.
onlinecomponents.com
Des. Color Meaning
UL Green LED Communications power
ON:
Communications power present.
OFF:
Communications power too low.
7111_en_00 5

FLM BK DN M12 DI8 M12
Des. Color Meaning
NS Green/red LED Network status
Green ON: Device is online, connection has been reestablished.
Green, flashing: Device is online, no connection has been reestablished.
Red ON: Critical connection error
Red flashing: Connection timeout
Flashing red/ Network access error
green
OFF:
Missing device supply (In this state the UL LED is also off because of
the missing 24 V communications power.) or device is offline.
MS LED
Device status
Green/red
Green ON: Device ready to operate
Green, OFF Voltage not present.
Green, flashing: Standby or faulty configuration
Red ON: A critical error is present.
Red flashing: A minor error is present.
Flashing red/ Selftest
green
RUN LED
Status of local bus communication
green/red/yellow
Green ON Local bus is running data cycles.
Green, flashing: I/O error present.
1 Hz
Red ON: Local bus stopped.
Red flashing: Local bus diagnostics is running (troubleshooting).
1 Hz
ON yellow After power up, the local bus is connected with the bus coupler. However,
it does not run any data cycles yet.
Green/yellow Preprogrammed error values are written to the outputs.
Flashing: 1 Hz
Red/yellow There are differences between specified and current configuration.
Flashing: 1 Hz
OFF:
Voltage not present.
onlinecomponents.com
6 7111_en_00

FLM BK DN M12 DI8 M12
Des. Color Meaning
US Green/red LED Voltage supply for inputs IN1 to IN8
Green ON: Voltage supply present.
Red ON: Overload or voltage supply too low.
OFF:
Voltage supply not present.
XX Yellow LED Status indicators for the inputs
ON:
Input active
OFF:
Input not active
During manual baud rate setting as well as autoconfiguration of the local bus, the RUN
LED only has one sinlge meaning, see page 15 and page 16.
onlinecomponents.com
7111_en_00 7

FLM BK DN M12 DI8 M12
Internal Circuit Diagram
Key:
* 7 5 1
8 8
* 7 5 7 6
8 8
7 5
1
Figure 9
# 8
" 8
# 8
" 8
8 8
, *
+
&
* 7 6
7 5
7 6
% ) %
Internal wiring of the connection
points
onlinecomponents.com
,
*
Functional earth ground
Optocoupler
Protocol chip
Local bus/protocol unit
Power supply unit with electrical
isolation
Input
LED
Electrically isolated area
For information on electrically
isolated areas, please refer to
page 20.
8 7111_en_00

FLM BK DN M12 DI8 M12
Connection Example
Figure 10
Typical sensor connections
Connection Notes
1 1
1! 1"
Meet noise immunity requirements
Connect FE using a mounting screw
or a cable connection to the FE connection
latch (when mounting on a
non-conductive surface).
Ensure degree of protection
To ensure IP65/IP67 protection, cover
unused sockets with protective
caps.
$ ' # " ) &
onlinecomponents.com
Avoid damage to the electronics
Make sure you only supply the sensors
with the voltage U S provided at
the connection points.
" 8
" 8
1
1 !
1
1 "
Avoid polarity reversal
Avoid polarity reversal of the supply
voltages U L and U S in order to prevent
damage to the device.
Observe connection point assignment
When connecting the sensors, observe
the assignment of the connection
points to the DeviceNet
IN process data.
7111_en_00 9

FLM BK DN M12 DI8 M12
Configuration Data
The configuration data depend on the connected local bus devices.
Input address area
(produced process data)
Output address area
(consumed process data)
ID code
Vendor code
2 bytes for status information of the bus coupler
+ 1 byte for digital inputs of the bus coupler
+ n byte for input data of the connected local bus devices
1001 dec
562 dec
n bytes for input data of the connected local bus devices
onlinecomponents.com
10 7111_en_00

FLM BK DN M12 DI8 M12
I/O Mapping
The memory image maps the status bit that - per
default - is contained in the generated data. In
addition to the status word, input data for digital
and analog input devices as well as function
modules can be contained in the input memory
image.
The control byte that is not contained as per default
is mapped in the output memory image. In
addition to the control byte, the output memory
image can contain output data for digital and analog
output devices.
During I/O mapping the order is determined by
the type and the position of the I/O device. The
devices next to the bus coupler are mapped first.
The digital points are mapped first. Then the analog
channels and function modules are
mapped, independent of their physical position
in the station. The analog channels are mapped
in front of the function data words.
Function modules or modules with PCP are not
supported by FW.101.
If the generated data contain diagnostic
status data, i.e. the status
word, this data type appears in the input
image in front of the digital and
analog input data. If the received data
contain the command byte, the output
image appears in front of the digital
and analog output data.
onlinecomponents.com
If the overall number of digital points of the same
image is not 8, unused bits are present between
the digital and the analog (or functional) data
area.
The start of analog data on an even or
uneven byte depends on the I/O data
that are connected to the bus coupler.
In the event of a start on an uneven
byte, analog data in the master scanner
might comprise two words. If the
analog data are to begin on an even
byte, the optional I/O filling function
"Pad I/O" can be enabled. In this way,
analog data and functional data are
beginning on an even-byte limit. This
function can be enabled by an EDS
file or by sending an explicit message.
7111_en_00 11

FLM BK DN M12 DI8 M12
Example I/O Data Table (Memory Image)
The following table shows an example memory
image for mixed input/output device configurations.
The entire amount of input bytes (including the
status word) is 14. The entire amount of output
bytes is 10. The example consists of the following
I/O devices:
– 1 FLM BK DN DI8 with 8 input data bits
– 1 FLM DIO 4/4 with 4 input data bits and 4
output data bits
– 1 FLM AO4 with 8 bytes (4 words)
– 1 FLM DO8 with 1 byte
– 1 FLM DI8 with 1 byte
– 1 FLM AI4 with 8 bytes (4 words)
onlinecomponents.com
12 7111_en_00

FLM BK DN M12 DI8 M12
Byte 0
Byte 1
Byte 2
Byte 3
Byte 4
Byte 5
Byte 6
Byte 7
Byte 8
Byte 9
Byte 10
Byte 11
Byte 12
Byte 13
Input Data
Output Data
Bit 7

FLM BK DN M12 DI8 M12
Diagnostic Data
For more information on the diagnostic
data of the FLM BK DN M12 DI8
M12, please refer to the
FLS FLM DN SYS PRO UM E user
manual.
Setting the Device ID
You must set the device ID directly after
installation and before connecting
the supply voltages.
The device ID is set in the range from 0 dec to
63 dec using the two rotary encoding switches
X10 and X1. A communication fault is triggered
for all values outside this value range.
The device ID set is read upon system startup
and accepted in the device settings. Changing
the switch positions during operation has no effect
on the address settings. Only a system restart
will change the address settings.
Dynamic address changing via DeviceNet is
not supported.
onlinecomponents.com
14 7111_en_00

FLM BK DN M12 DI8 M12
Setting the Baud Rate Manually
The baud rate is set automatically. If there is no communication between the bus and the
device you must set the baud rate manually.
The baud rate is stored in the non-volatile memory
of the device and read upon system startup.
Changing the baud rate manually during operation
only takes effect upon the next system initialization
(done by the DeviceNet master or
by switching the device off and on again).
To set the baud rate, proceed as follows:
• Select the desired setting using the X1 rotary
encoding switch:
0: 125 kbaud
1: 250 kbaud
2: 500 kbaud
3: Automatic baud rate recognition
A: Setting the baud rate using the software
• Set the X10 rotary encoding switch to position
"D".
• Wait for five seconds.
If the switch position is not changed within
these five seconds the value of the X1 rotary
encoding switch is directly latched in a
buffer.
The RUN LED starts to flash red and then remains
red.
• Set the X10 rotary encoding switch to position
"E".
• Wait for five seconds.
The RUN LED flashes yellow and then its
yellow light indicates valid data transmission
into the non-volatile memory.
The baud rate is programmed.
• Set the X10 rotary encoding switch to position
"F".
• Wait for five seconds.
The RUN LED flashes green and then its
green light indicates the successful termination
of the programming process.
You can stop the programming procedure at any
time by setting the X10 rotary encoding switch to
position "F".
The programming mode is automatically
stopped after ten minutes, if the rotary encoding
switch positions are not changed during this
time. In this case the device will not store any
data.
Set the original device ID again.
onlinecomponents.com
The order of settings for the X10 rotary encoding switch during programming can be remembered
easily as you can see here: "D" like "Do", "E" like "Enter", "F" like "Finished"
7111_en_00 15

FLM BK DN M12 DI8 M12
Autoconfiguration of the Local Bus
Besides setting the baud rate and the address,
the following settings at the rotary encoding
switch are possible:
• You can stop the configuration procedure at
any time by setting the X10 rotary encoding
switch to position "F".
X1 = B
X1 = C
Read localbus
Clear: All settings are
set back to default upon delivery
The local bus configuration is stored in the nonvolatile
memory of the device is stored and the
system start is read out and compared to the real
configuration.
For autoconfiguration, proceed as follows :
• Select the autoconfiguration using the X1 rotary
encoding switch:
X1 = Read B localbus (autoconfiguration)
• Set the X10 rotary encoding switch to position
"D".
• Wait for five seconds.
The RUN LED starts to flash red and then remains
red.
• Set the X10 rotary encoding switch to position
"E".
• Wait for five seconds.
The green RUN LED flashes yellow and then its
yellow light indicates valid data transmission into
the non-volatile memory.
• Set the X10 rotary encoding switch to position
"F".
• Wait for five seconds.
The RUN LED flashes green and then its green
light indicates the successful termination of the
configuration process.
Set the original device ID again.
onlinecomponents.com
16 7111_en_00

FLM BK DN M12 DI8 M12
Technical Data
Device Dimensions
%
% # $
$ &
$ $ "
!
% &
% &
General Data
Order Designation
FLM BK DN M12 DI8 M12
Order No. 27 36 34 3
Housing dimensions (width x height x depth) 70 mm x 178 mm x 49.3 mm
Weight
290 g, approximately
Type of sensor connection
2, 3 or 4-wire technology
Permissible temperature (operation)
-25°C to +60°C
Permissible temperature (storage/transport) -25°C to +85°C
Permissible humidity (storage/transport) 95%
For a short period, slight condensation may appear on the housing.
% ) $
Permissible air pressure (operation)
80 kPa to 106 kPa
(up to 2,000 m above sea level)
Permissible air pressure (storage/transport) 70 kPa to 106 kPa
(up to 3,000 m above sea level)
Degree of protection IP65/IP67 according to IEC 60529
Class of protection Class 3 according to VDE 0106, IEC 60536
onlinecomponents.com
"
# % #
" ' !
' "
7111_en_00 17

FLM BK DN M12 DI8 M12
Mechanical Requirements
Vibration test
5g load in each space direction
Sinusoidal vibrations according to EN 60068-2-6
Shock test according to EN 60068-2-27 30g load, half sinusoidal wave positive and
negative in each space direction
For additional information on mechanical requirements and ambient conditions, please
contact Phoenix Contact.
Power Supply
Nominal value
Range
Current consumption at V+ at 24 V DC
Current consumption at U S at 24 V DC
24 V DC
11 V DC to 30 V DC
65 mA, typical (100 mA, maximum)
10 mA + sensor current, typical
(700 mA, maximum)
Digital Inputs
Number 8
Input design According to IEC 61131-2 type 1
Definition of switching thresholds
Maximum low-level voltage
Minimum high-level voltage
U Lmax < 5 V
U Hmin > 11 V
Nominal input voltage
24 V DC
Range
-30 V DC < U IN < + 30 V DC
Nominal input current
5 mA
Current flow
Linear in the range 1 V < U IN < 30 V
Delay time
t ON = 3.1 ms, typical
t OFF = 4.1 ms, typical
Permissible cable length to the sensor
< 30 m
onlinecomponents.com
18 7111_en_00

FLM BK DN M12 DI8 M12
Input Characteristic Curve
Input Voltage (V)
Sensor Supply
Minimum sensor voltage
Nominal current per channel
Nominal current per device
Overload protection
Short-circuit protection
Typical Input Current (mA)
-30 < U IN < 0.7 0
3 0.5
6 1.0
9 1.6
12 2.3
15 3.0
18 3.8
21 4.5
24 5.2
27 6.0
30 6.7
U S – 1 V
75 mA, typical
600 mA, maximum
Electronic per device
Electronic per device
Error Messages to the Higher-Level Control or Computer System
Sensor supply short-circuit
Yes
Sensor supply overload
Yes
If an error is triggered by an overload or short circuit of the sensor supply, the device
switches off the sensor supply of the channels and sends an I/O error message to the
master.
If the sensor supply U S is not sufficiently high, the device sends an I/O error message
to the master.
onlinecomponents.com
7111_en_00 19

FLM BK DN M12 DI8 M12
Interface
Bus system
Incoming and Outgoing Bus
Coupling of shield connection
Electrical isolation
Transmission speed
Local Bus
Bus system
Coupling of shield connection
Electrical isolation
Transmission speed
Electrical Isolation/Isolation of the Voltage Areas
DeviceNet
High resistance and a capacitance to FE
Incoming and outgoing bus are connected
Yes
125 kBaud, 250 kBaud, 500 kBaud
Fieldline modular local bus
Directly on FE
No
500 kbaud
For device connection, please note instructions and regulations in the "Installing the
Fieldline Product Range" user manual FLS FLM SYS INST UM E (Order
No.2698973).
Separate Potentials in the FLM BK DN M12 DI8 M12 Input Device
- Test Distance - Test Voltage
24 V supply (U L ) / FE 500 V AC, 50 Hz, 1 min
24 V supply (U L ) / digital inputs (sensor supply) 500 V AC, 50 Hz, 1 min
24 V supply (U L ) / bus logic 500 V AC, 50 Hz, 1 min
Bus logic / FE
500 V AC, 50 Hz, 1 min
Bus logic / digital inputs (sensor supply)
500 V AC, 50 Hz, 1 min
FE / digital inputs (sensor supply)
500 V AC, 50 Hz, 1 min
onlinecomponents.com
20 7111_en_00

FLM BK DN M12 DI8 M12
Ordering Data
Ordering Data Device and Accessories
Description Order Designation Order No.
Fieldline-stand-alone device for DeviceNet FLM BK DN M12 DI8 M12 27 36 34 3
with 8 digital inputs
Protective caps (for unused sockets) IBS IP PROT-IO 27 59 91 9
pack of 5
Protective cap
(for unused male connectors)
pack of 5
PROT-M12-M 27 36 19 4
Socket, metal, shielded, A-encoded, 5-pos., SACC-M12FSB-5SC SH 15 12 57 1
for the incoming network
Connector, metal, shielded, B-encoded, SACC-M12MSB-5SC SH 15 13 57 0
5-pos., for the outgoing local bus
Markers
ZBF 12:UNBEDRUCKT 08 09 73 5
pack of 10
Jumper cable for voltage supply, A-encoded, SAC-5P-MS/0,13-186 / FS 15 18 48 1
5-pos., unshielded
Data jumper for the local bus,
SAC-5P-MSB/0,13-PUR/FSB SCO SH 15 18 47 8
B-encoded, 5-pos., shielded
Assembly system for five devices FLM MP 5 27 36 66 0
Assembly system for seven devices FLM MP 7 27 36 67 3
Additional accessories for connecting the actuators can be found in the Phoenix Contact PLUSCON
catalog.
onlinecomponents.com
7111_en_00 21

FLM BK DN M12 DI8 M12
Ordering Data for Documentation
Description Order Designation Order No.
"Installing the Fieldline Product Range" FLSFLMSYSINSTUM E 2698973
user manual
"Configuring a DeviceNet TM System Using
Devices in the Fieldline Product Range"
user manual
FLS FLM DN SYS PRO UM E 26 99 08 2
Make sure you always use the latest documentation.
It can be downloaded at www.download.phoenixcontact.com.
A conversion table is available on the Internet at
www.download.phoenixcontact.com/general/7000_en_00.pdf.
PHOENIX CONTACT GmbH & Co. KG
Flachsmarktstr. 8
32825 Blomberg
Germany
+ 49 - (0) 52 35 - 3-00
+ 49 - (0) 52 35 - 3-4 12 00
www.phoenixcontact.com
Worldwide Locations:
www.phoenixcontact.com/salesnetwork
onlinecomponents.com
© PHOENIX CONTACT 01/2005 Technical modifications reserved. TNR 7111
22 7111_en_00