FLM BK DN M12 DI8 M12 - Onlinecomponents.com
FLM BK DN M12 DI8 M12 - Onlinecomponents.com 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
- Page 2 and 3: FLM BK DN M12 DI8 M12 Pin Assignmen
- Page 4 and 5: FLM BK DN M12 DI8 M12 Pin Assignmen
- Page 6 and 7: FLM BK DN M12 DI8 M12 Des. Color Me
- Page 8 and 9: FLM BK DN M12 DI8 M12 Internal Circ
- Page 10 and 11: FLM BK DN M12 DI8 M12 Configuration
- Page 12 and 13: FLM BK DN M12 DI8 M12 Example I/O D
- Page 14 and 15: FLM BK DN M12 DI8 M12 Diagnostic Da
- Page 16 and 17: FLM BK DN M12 DI8 M12 Autoconfigura
- Page 18 and 19: FLM BK DN M12 DI8 M12 Mechanical Re
- Page 20 and 21: FLM BK DN M12 DI8 M12 Interface Bus
- Page 22: FLM BK DN M12 DI8 M12 Ordering Data
<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
Fieldline Modular Bus Coupler for<br />
DeviceNet With 8 Digital Inputs<br />
Data Sheet<br />
Function<br />
01/2005<br />
This data sheet is only valid in<br />
association with the<br />
FLS <strong>FLM</strong> SYS INST UM E<br />
(Order No. 26 98 97 3) and<br />
FLS <strong>FLM</strong> <strong>DN</strong> SYS PRO UM E<br />
(Order No. 26 99 082) user manuals.<br />
The device connects a Fieldline modular station<br />
to DeviceNet and is also used to acquire digital<br />
signals.<br />
Fieldline Features<br />
– Connection to DeviceNet using <strong>M12</strong> connectors<br />
(A-encoded)<br />
– Opens the Fieldline modular local bus using<br />
<strong>M12</strong> connectors (B-encoded)<br />
– Connection of up to 16 local bus<br />
I/O devices<br />
– 500 kBaud in the local bus<br />
– Connection of digital sensors to <strong>M12</strong> connectors<br />
(A-encoded)<br />
– Flexible voltage supply concept<br />
– LED diagnostic and status indicators for<br />
bus operation and voltage supply<br />
– IP65/IP67 protection<br />
– Short-circuit and overload protection of the<br />
sensor supply<br />
DeviceNet Features<br />
– I/O peer-to-peer <strong>com</strong>munication<br />
– Eplicit messages<br />
– Consistent configuration<br />
– Faulted node recovery<br />
– Automatic baud rate detection<br />
(125 kBaud, 250 kBaud, 500 kBaud)<br />
– I/O slave messages with the following transmission<br />
modes:<br />
Polling, cyclic transmission,<br />
change-of-state (COS), bit strobing<br />
– Configuration via rotary encoding switch,<br />
EDS files as well as tools<br />
– Certified acc. to ODVA<br />
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Figure 1<br />
% = <br />
<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
7111_en_00 1
<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
Pin Assignment<br />
* 7 5 1<br />
* 7 5 7 6<br />
7 5<br />
1<br />
Figure 2<br />
* 7 5 7 <br />
1<br />
7 6<br />
1<br />
7 5<br />
* , <br />
7 5<br />
5 *<br />
5 4 7 <br />
. <br />
-<br />
,<br />
"<br />
7 6 * 7 6<br />
$<br />
'<br />
&<br />
: <br />
<br />
+<br />
"<br />
*<br />
) $<br />
' &<br />
7<br />
: <br />
5 7 5<br />
7 6<br />
1 1<br />
1! 1"<br />
1# 1$<br />
1% 1&<br />
Connections of the device<br />
<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
1 > EI 1 &<br />
% ) <br />
Des.<br />
FE<br />
BUS IN<br />
BUS OUT<br />
LB OUT<br />
U LS IN<br />
Meaning<br />
Functional earth ground<br />
DeviceNet IN<br />
DeviceNet OUT<br />
Local bus OUT (<strong>FLM</strong> local bus)<br />
Power supply IN<br />
(logic and sensor supply)<br />
U LS OUT Voltage supply OUT (logic and<br />
sensor supply) for additional devices<br />
IN1 to IN8 Inputs 1 to 8<br />
In general, the maximum current load<br />
of 4 A per contact must not be exceeded.<br />
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<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
Pin Assignment DeviceNet<br />
Pin Assignment of the Local Bus<br />
* 7 5 1<br />
* 7 5 7 6<br />
* 7 6<br />
Figure 3<br />
DeviceNet pin assignment<br />
(<strong>M12</strong> A-encoded)<br />
Pin IN OUT<br />
1 CAN_SHLD CAN_SHLD<br />
2 V+ V+<br />
3 V– V–<br />
4 CAN_High CAN_High<br />
5 CAN_Low CAN_Low<br />
$ $ " ! ) "<br />
The thread and, if required, pin 1 are<br />
used for shielding.<br />
The shield is connected to FE in the<br />
device.<br />
For information on bus cables, please<br />
refer to the<br />
FLS <strong>FLM</strong> <strong>DN</strong> SYS PRO UM E<br />
user manual<br />
Figure 4<br />
Pin LB OUT<br />
1 DO<br />
2 DO<br />
3 DI<br />
4 DI<br />
5 GND<br />
% & ) #<br />
Pin assignment of the local bus<br />
(LB OUT) (<strong>M12</strong> B-encoded)<br />
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<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
Pin Assignment of the Voltage Supply U LS Pin Assignment of the Inputs<br />
1<br />
7 6<br />
% ) #<br />
$ $ # ) $<br />
Figure 5 Pin assignment U LS Figure 6 Pin assignment of the inputs<br />
* The 24 V <strong>com</strong>munications power supply U L<br />
is only used for test purposes. For the operation<br />
of the DeviceNet network, the <strong>com</strong>munications<br />
power supply V+/V– must be<br />
fed from the bus cable.<br />
Pin IN OUT<br />
1 U L +24 V U L +24 V<br />
2 U S GND U S GND<br />
3 U L GND U L GND<br />
4 U S +24 V U S +24 V<br />
Voltages U L and U S at female connector<br />
U LS OUT can each only carry<br />
a maximum current of 2 A.<br />
Assignment of the Input Sockets<br />
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For the following <strong>FLM</strong> local bus devices<br />
it is absolutely necessary to feed<br />
U LS .<br />
Pin<br />
Input Socket<br />
1 U S +24 V<br />
2 See Figure 7<br />
3 GND<br />
4 Input<br />
5 FE<br />
Figure 7<br />
1 N<br />
<br />
"<br />
" 8<br />
#<br />
!<br />
1 N <br />
$ ' # " * #<br />
Assignment of the input socket<br />
Two input signals can be connected<br />
to each input socket.<br />
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<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
Local Diagnostic and Status Indicators<br />
7 <br />
5<br />
7 5<br />
Figure 8<br />
* 7 5<br />
1<br />
7 6<br />
1<br />
7 5<br />
* , <br />
7 <br />
5<br />
,<br />
-<br />
+<br />
*<br />
)<br />
7 5<br />
.<br />
<br />
'<br />
&<br />
N <br />
<br />
' &<br />
N <br />
5 *<br />
4 7 <br />
"<br />
$<br />
"<br />
$<br />
1 1<br />
1! 1"<br />
1# 1$<br />
1% 1&<br />
7 6<br />
7 5<br />
5<br />
: :<br />
: :<br />
: :<br />
: :<br />
% ) !<br />
4 7 <br />
Diagnostic and status indicators of<br />
the <strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
Rotary Encoding Switches<br />
Use the rotary encoding switches X10 and X1 to<br />
– Set the device ID and<br />
– Set the baud rate manually, if required<br />
The valid value range for the device ID is between<br />
0 dec and 63 dec . A <strong>com</strong>munication fault is<br />
triggered for all values outside this value range.<br />
For information on setting the device<br />
ID and setting the baud rate manually,<br />
please refer to page 14 and<br />
page 15.<br />
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Des. Color Meaning<br />
UL Green LED Communications power<br />
ON:<br />
Communications power present.<br />
OFF:<br />
Communications power too low.<br />
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<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
Des. Color Meaning<br />
NS Green/red LED Network status<br />
Green ON: Device is online, connection has been reestablished.<br />
Green, flashing: Device is online, no connection has been reestablished.<br />
Red ON: Critical connection error<br />
Red flashing: Connection timeout<br />
Flashing red/ Network access error<br />
green<br />
OFF:<br />
Missing device supply (In this state the UL LED is also off because of<br />
the missing 24 V <strong>com</strong>munications power.) or device is offline.<br />
MS LED<br />
Device status<br />
Green/red<br />
Green ON: Device ready to operate<br />
Green, OFF Voltage not present.<br />
Green, flashing: Standby or faulty configuration<br />
Red ON: A critical error is present.<br />
Red flashing: A minor error is present.<br />
Flashing red/ Selftest<br />
green<br />
RUN LED<br />
Status of local bus <strong>com</strong>munication<br />
green/red/yellow<br />
Green ON Local bus is running data cycles.<br />
Green, flashing: I/O error present.<br />
1 Hz<br />
Red ON: Local bus stopped.<br />
Red flashing: Local bus diagnostics is running (troubleshooting).<br />
1 Hz<br />
ON yellow After power up, the local bus is connected with the bus coupler. However,<br />
it does not run any data cycles yet.<br />
Green/yellow Preprogrammed error values are written to the outputs.<br />
Flashing: 1 Hz<br />
Red/yellow There are differences between specified and current configuration.<br />
Flashing: 1 Hz<br />
OFF:<br />
Voltage not present.<br />
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<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
Des. Color Meaning<br />
US Green/red LED Voltage supply for inputs IN1 to IN8<br />
Green ON: Voltage supply present.<br />
Red ON: Overload or voltage supply too low.<br />
OFF:<br />
Voltage supply not present.<br />
XX Yellow LED Status indicators for the inputs<br />
ON:<br />
Input active<br />
OFF:<br />
Input not active<br />
During manual baud rate setting as well as autoconfiguration of the local bus, the RUN<br />
LED only has one sinlge meaning, see page 15 and page 16.<br />
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<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
Internal Circuit Diagram<br />
Key:<br />
* 7 5 1 <br />
8 8 <br />
* 7 5 7 6<br />
8 8 <br />
7 5<br />
1<br />
Figure 9<br />
# 8<br />
" 8<br />
# 8<br />
" 8<br />
8 8 <br />
, *<br />
+<br />
&<br />
<br />
<br />
<br />
<br />
* 7 6<br />
7 5<br />
7 6<br />
% ) %<br />
Internal wiring of the connection<br />
points<br />
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, <br />
*<br />
Functional earth ground<br />
Optocoupler<br />
Protocol chip<br />
Local bus/protocol unit<br />
Power supply unit with electrical<br />
isolation<br />
Input<br />
LED<br />
Electrically isolated area<br />
For information on electrically<br />
isolated areas, please refer to<br />
page 20.<br />
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<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
Connection Example<br />
Figure 10<br />
Typical sensor connections<br />
Connection Notes<br />
1 1<br />
1! 1"<br />
Meet noise immunity requirements<br />
Connect FE using a mounting screw<br />
or a cable connection to the FE connection<br />
latch (when mounting on a<br />
non-conductive surface).<br />
Ensure degree of protection<br />
To ensure IP65/IP67 protection, cover<br />
unused sockets with protective<br />
caps.<br />
$ ' # " ) &<br />
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Avoid damage to the electronics<br />
Make sure you only supply the sensors<br />
with the voltage U S provided at<br />
the connection points.<br />
" 8<br />
" 8<br />
1 <br />
1 !<br />
1<br />
1 "<br />
Avoid polarity reversal<br />
Avoid polarity reversal of the supply<br />
voltages U L and U S in order to prevent<br />
damage to the device.<br />
Observe connection point assignment<br />
When connecting the sensors, observe<br />
the assignment of the connection<br />
points to the DeviceNet<br />
IN process data.<br />
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<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
Configuration Data<br />
The configuration data depend on the connected local bus devices.<br />
Input address area<br />
(produced process data)<br />
Output address area<br />
(consumed process data)<br />
ID code<br />
Vendor code<br />
2 bytes for status information of the bus coupler<br />
+ 1 byte for digital inputs of the bus coupler<br />
+ n byte for input data of the connected local bus devices<br />
1001 dec<br />
562 dec<br />
n bytes for input data of the connected local bus devices<br />
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<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
I/O Mapping<br />
The memory image maps the status bit that - per<br />
default - is contained in the generated data. In<br />
addition to the status word, input data for digital<br />
and analog input devices as well as function<br />
modules can be contained in the input memory<br />
image.<br />
The control byte that is not contained as per default<br />
is mapped in the output memory image. In<br />
addition to the control byte, the output memory<br />
image can contain output data for digital and analog<br />
output devices.<br />
During I/O mapping the order is determined by<br />
the type and the position of the I/O device. The<br />
devices next to the bus coupler are mapped first.<br />
The digital points are mapped first. Then the analog<br />
channels and function modules are<br />
mapped, independent of their physical position<br />
in the station. The analog channels are mapped<br />
in front of the function data words.<br />
Function modules or modules with PCP are not<br />
supported by FW.101.<br />
If the generated data contain diagnostic<br />
status data, i.e. the status<br />
word, this data type appears in the input<br />
image in front of the digital and<br />
analog input data. If the received data<br />
contain the <strong>com</strong>mand byte, the output<br />
image appears in front of the digital<br />
and analog output data.<br />
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If the overall number of digital points of the same<br />
image is not 8, unused bits are present between<br />
the digital and the analog (or functional) data<br />
area.<br />
The start of analog data on an even or<br />
uneven byte depends on the I/O data<br />
that are connected to the bus coupler.<br />
In the event of a start on an uneven<br />
byte, analog data in the master scanner<br />
might <strong>com</strong>prise two words. If the<br />
analog data are to begin on an even<br />
byte, the optional I/O filling function<br />
"Pad I/O" can be enabled. In this way,<br />
analog data and functional data are<br />
beginning on an even-byte limit. This<br />
function can be enabled by an EDS<br />
file or by sending an explicit message.<br />
7111_en_00 11
<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
Example I/O Data Table (Memory Image)<br />
The following table shows an example memory<br />
image for mixed input/output device configurations.<br />
The entire amount of input bytes (including the<br />
status word) is 14. The entire amount of output<br />
bytes is 10. The example consists of the following<br />
I/O devices:<br />
– 1 <strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>DI8</strong> with 8 input data bits<br />
– 1 <strong>FLM</strong> DIO 4/4 with 4 input data bits and 4<br />
output data bits<br />
– 1 <strong>FLM</strong> AO4 with 8 bytes (4 words)<br />
– 1 <strong>FLM</strong> DO8 with 1 byte<br />
– 1 <strong>FLM</strong> <strong>DI8</strong> with 1 byte<br />
– 1 <strong>FLM</strong> AI4 with 8 bytes (4 words)<br />
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Byte 0<br />
Byte 1<br />
Byte 2<br />
Byte 3<br />
Byte 4<br />
Byte 5<br />
Byte 6<br />
Byte 7<br />
Byte 8<br />
Byte 9<br />
Byte 10<br />
Byte 11<br />
Byte 12<br />
Byte 13<br />
Input Data<br />
Output Data<br />
Bit 7
<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
Diagnostic Data<br />
For more information on the diagnostic<br />
data of the <strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong><br />
<strong>M12</strong>, please refer to the<br />
FLS <strong>FLM</strong> <strong>DN</strong> SYS PRO UM E user<br />
manual.<br />
Setting the Device ID<br />
You must set the device ID directly after<br />
installation and before connecting<br />
the supply voltages.<br />
The device ID is set in the range from 0 dec to<br />
63 dec using the two rotary encoding switches<br />
X10 and X1. A <strong>com</strong>munication fault is triggered<br />
for all values outside this value range.<br />
The device ID set is read upon system startup<br />
and accepted in the device settings. Changing<br />
the switch positions during operation has no effect<br />
on the address settings. Only a system restart<br />
will change the address settings.<br />
Dynamic address changing via DeviceNet is<br />
not supported.<br />
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<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
Setting the Baud Rate Manually<br />
The baud rate is set automatically. If there is no <strong>com</strong>munication between the bus and the<br />
device you must set the baud rate manually.<br />
The baud rate is stored in the non-volatile memory<br />
of the device and read upon system startup.<br />
Changing the baud rate manually during operation<br />
only takes effect upon the next system initialization<br />
(done by the DeviceNet master or<br />
by switching the device off and on again).<br />
To set the baud rate, proceed as follows:<br />
• Select the desired setting using the X1 rotary<br />
encoding switch:<br />
0: 125 kbaud<br />
1: 250 kbaud<br />
2: 500 kbaud<br />
3: Automatic baud rate recognition<br />
A: Setting the baud rate using the software<br />
• Set the X10 rotary encoding switch to position<br />
"D".<br />
• Wait for five seconds.<br />
If the switch position is not changed within<br />
these five seconds the value of the X1 rotary<br />
encoding switch is directly latched in a<br />
buffer.<br />
The RUN LED starts to flash red and then remains<br />
red.<br />
• Set the X10 rotary encoding switch to position<br />
"E".<br />
• Wait for five seconds.<br />
The RUN LED flashes yellow and then its<br />
yellow light indicates valid data transmission<br />
into the non-volatile memory.<br />
The baud rate is programmed.<br />
• Set the X10 rotary encoding switch to position<br />
"F".<br />
• Wait for five seconds.<br />
The RUN LED flashes green and then its<br />
green light indicates the successful termination<br />
of the programming process.<br />
You can stop the programming procedure at any<br />
time by setting the X10 rotary encoding switch to<br />
position "F".<br />
The programming mode is automatically<br />
stopped after ten minutes, if the rotary encoding<br />
switch positions are not changed during this<br />
time. In this case the device will not store any<br />
data.<br />
Set the original device ID again.<br />
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The order of settings for the X10 rotary encoding switch during programming can be remembered<br />
easily as you can see here: "D" like "Do", "E" like "Enter", "F" like "Finished"<br />
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<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
Autoconfiguration of the Local Bus<br />
Besides setting the baud rate and the address,<br />
the following settings at the rotary encoding<br />
switch are possible:<br />
• You can stop the configuration procedure at<br />
any time by setting the X10 rotary encoding<br />
switch to position "F".<br />
X1 = B<br />
X1 = C<br />
Read localbus<br />
Clear: All settings are<br />
set back to default upon delivery<br />
The local bus configuration is stored in the nonvolatile<br />
memory of the device is stored and the<br />
system start is read out and <strong>com</strong>pared to the real<br />
configuration.<br />
For autoconfiguration, proceed as follows :<br />
• Select the autoconfiguration using the X1 rotary<br />
encoding switch:<br />
X1 = Read B localbus (autoconfiguration)<br />
• Set the X10 rotary encoding switch to position<br />
"D".<br />
• Wait for five seconds.<br />
The RUN LED starts to flash red and then remains<br />
red.<br />
• Set the X10 rotary encoding switch to position<br />
"E".<br />
• Wait for five seconds.<br />
The green RUN LED flashes yellow and then its<br />
yellow light indicates valid data transmission into<br />
the non-volatile memory.<br />
• Set the X10 rotary encoding switch to position<br />
"F".<br />
• Wait for five seconds.<br />
The RUN LED flashes green and then its green<br />
light indicates the successful termination of the<br />
configuration process.<br />
Set the original device ID again.<br />
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<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
Technical Data<br />
Device Dimensions<br />
% <br />
% # $ <br />
$ & <br />
$ $ " <br />
! <br />
<br />
% & <br />
% & <br />
General Data<br />
Order Designation<br />
<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
Order No. 27 36 34 3<br />
Housing dimensions (width x height x depth) 70 mm x 178 mm x 49.3 mm<br />
Weight<br />
290 g, approximately<br />
Type of sensor connection<br />
2, 3 or 4-wire technology<br />
Permissible temperature (operation)<br />
-25°C to +60°C<br />
Permissible temperature (storage/transport) -25°C to +85°C<br />
Permissible humidity (storage/transport) 95%<br />
For a short period, slight condensation may appear on the housing.<br />
% ) $<br />
Permissible air pressure (operation)<br />
80 kPa to 106 kPa<br />
(up to 2,000 m above sea level)<br />
Permissible air pressure (storage/transport) 70 kPa to 106 kPa<br />
(up to 3,000 m above sea level)<br />
Degree of protection IP65/IP67 according to IEC 60529<br />
Class of protection Class 3 according to VDE 0106, IEC 60536<br />
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" <br />
# % # <br />
" ' ! <br />
' " <br />
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<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
Mechanical Requirements<br />
Vibration test<br />
5g load in each space direction<br />
Sinusoidal vibrations according to EN 60068-2-6<br />
Shock test according to EN 60068-2-27 30g load, half sinusoidal wave positive and<br />
negative in each space direction<br />
For additional information on mechanical requirements and ambient conditions, please<br />
contact Phoenix Contact.<br />
Power Supply<br />
Nominal value<br />
Range<br />
Current consumption at V+ at 24 V DC<br />
Current consumption at U S at 24 V DC<br />
24 V DC<br />
11 V DC to 30 V DC<br />
65 mA, typical (100 mA, maximum)<br />
10 mA + sensor current, typical<br />
(700 mA, maximum)<br />
Digital Inputs<br />
Number 8<br />
Input design According to IEC 61131-2 type 1<br />
Definition of switching thresholds<br />
Maximum low-level voltage<br />
Minimum high-level voltage<br />
U Lmax < 5 V<br />
U Hmin > 11 V<br />
Nominal input voltage<br />
24 V DC<br />
Range<br />
-30 V DC < U IN < + 30 V DC<br />
Nominal input current<br />
5 mA<br />
Current flow<br />
Linear in the range 1 V < U IN < 30 V<br />
Delay time<br />
t ON = 3.1 ms, typical<br />
t OFF = 4.1 ms, typical<br />
Permissible cable length to the sensor<br />
< 30 m<br />
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<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
Input Characteristic Curve<br />
Input Voltage (V)<br />
Sensor Supply<br />
Minimum sensor voltage<br />
Nominal current per channel<br />
Nominal current per device<br />
Overload protection<br />
Short-circuit protection<br />
Typical Input Current (mA)<br />
-30 < U IN < 0.7 0<br />
3 0.5<br />
6 1.0<br />
9 1.6<br />
12 2.3<br />
15 3.0<br />
18 3.8<br />
21 4.5<br />
24 5.2<br />
27 6.0<br />
30 6.7<br />
U S – 1 V<br />
75 mA, typical<br />
600 mA, maximum<br />
Electronic per device<br />
Electronic per device<br />
Error Messages to the Higher-Level Control or Computer System<br />
Sensor supply short-circuit<br />
Yes<br />
Sensor supply overload<br />
Yes<br />
If an error is triggered by an overload or short circuit of the sensor supply, the device<br />
switches off the sensor supply of the channels and sends an I/O error message to the<br />
master.<br />
If the sensor supply U S is not sufficiently high, the device sends an I/O error message<br />
to the master.<br />
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<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
Interface<br />
Bus system<br />
In<strong>com</strong>ing and Outgoing Bus<br />
Coupling of shield connection<br />
Electrical isolation<br />
Transmission speed<br />
Local Bus<br />
Bus system<br />
Coupling of shield connection<br />
Electrical isolation<br />
Transmission speed<br />
Electrical Isolation/Isolation of the Voltage Areas<br />
DeviceNet<br />
High resistance and a capacitance to FE<br />
In<strong>com</strong>ing and outgoing bus are connected<br />
Yes<br />
125 kBaud, 250 kBaud, 500 kBaud<br />
Fieldline modular local bus<br />
Directly on FE<br />
No<br />
500 kbaud<br />
For device connection, please note instructions and regulations in the "Installing the<br />
Fieldline Product Range" user manual FLS <strong>FLM</strong> SYS INST UM E (Order<br />
No.2698973).<br />
Separate Potentials in the <strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong> Input Device<br />
- Test Distance - Test Voltage<br />
24 V supply (U L ) / FE 500 V AC, 50 Hz, 1 min<br />
24 V supply (U L ) / digital inputs (sensor supply) 500 V AC, 50 Hz, 1 min<br />
24 V supply (U L ) / bus logic 500 V AC, 50 Hz, 1 min<br />
Bus logic / FE<br />
500 V AC, 50 Hz, 1 min<br />
Bus logic / digital inputs (sensor supply)<br />
500 V AC, 50 Hz, 1 min<br />
FE / digital inputs (sensor supply)<br />
500 V AC, 50 Hz, 1 min<br />
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Ordering Data<br />
Ordering Data Device and Accessories<br />
Description Order Designation Order No.<br />
Fieldline-stand-alone device for DeviceNet <strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong> 27 36 34 3<br />
with 8 digital inputs<br />
Protective caps (for unused sockets) IBS IP PROT-IO 27 59 91 9<br />
pack of 5<br />
Protective cap<br />
(for unused male connectors)<br />
pack of 5<br />
PROT-<strong>M12</strong>-M 27 36 19 4<br />
Socket, metal, shielded, A-encoded, 5-pos., SACC-<strong>M12</strong>FSB-5SC SH 15 12 57 1<br />
for the in<strong>com</strong>ing network<br />
Connector, metal, shielded, B-encoded, SACC-<strong>M12</strong>MSB-5SC SH 15 13 57 0<br />
5-pos., for the outgoing local bus<br />
Markers<br />
ZBF 12:UNBEDRUCKT 08 09 73 5<br />
pack of 10<br />
Jumper cable for voltage supply, A-encoded, SAC-5P-MS/0,13-186 / FS 15 18 48 1<br />
5-pos., unshielded<br />
Data jumper for the local bus,<br />
SAC-5P-MSB/0,13-PUR/FSB SCO SH 15 18 47 8<br />
B-encoded, 5-pos., shielded<br />
Assembly system for five devices <strong>FLM</strong> MP 5 27 36 66 0<br />
Assembly system for seven devices <strong>FLM</strong> MP 7 27 36 67 3<br />
Additional accessories for connecting the actuators can be found in the Phoenix Contact PLUSCON<br />
catalog.<br />
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<strong>FLM</strong> <strong>BK</strong> <strong>DN</strong> <strong>M12</strong> <strong>DI8</strong> <strong>M12</strong><br />
Ordering Data for Documentation<br />
Description Order Designation Order No.<br />
"Installing the Fieldline Product Range" FLS<strong>FLM</strong>SYSINSTUM E 2698973<br />
user manual<br />
"Configuring a DeviceNet TM System Using<br />
Devices in the Fieldline Product Range"<br />
user manual<br />
FLS <strong>FLM</strong> <strong>DN</strong> SYS PRO UM E 26 99 08 2<br />
Make sure you always use the latest documentation.<br />
It can be downloaded at www.download.phoenixcontact.<strong>com</strong>.<br />
A conversion table is available on the Internet at<br />
www.download.phoenixcontact.<strong>com</strong>/general/7000_en_00.pdf.<br />
PHOENIX CONTACT GmbH & Co. KG<br />
Flachsmarktstr. 8<br />
32825 Blomberg<br />
Germany<br />
+ 49 - (0) 52 35 - 3-00<br />
+ 49 - (0) 52 35 - 3-4 12 00<br />
www.phoenixcontact.<strong>com</strong><br />
Worldwide Locations:<br />
www.phoenixcontact.<strong>com</strong>/salesnetwork<br />
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© PHOENIX CONTACT 01/2005 Technical modifications reserved. TNR 7111<br />
22 7111_en_00