Device Connection - Pepperl+Fuchs IDENTControl IC-KP-B5-V23 Manual

IC-KP-B5-V23
Installation
Note!
If cables with double shields are used, e.g. wire mesh and metalized foil, the both
shields must be connected together, with low resistance, at the ends when
making up the cable.
Power supply cables are the source of much interference, e.g. from the supply
lines of 3-phase electric motors. For this reason, the parallel laying of power
supply cables with data and signal cables should be avoided, particularly in the
same cable duct.
The metal enclosure of the IDENTControl and the metal enclosure of the R/W
heads complete the consistent shielding concept.
The most important issue here is that the shields are connected to ground with
low resistance and low inductance. The metal enclosure ensures that the
shielding is not interrupted, i.e. the complete electronics system and all routed
cables are located within a Faraday cage.
5.4

Device connection

Electrical connection using plug connectors makes installation simple.
5.4.1 Power supply
Connect the power supply via an M12 connector with integrated voltage and
reverse polarity protection indicator (green: correct polarity, red: reverse polarity).
A plug with the following pin assignment is located on the housing:
1
1 + 24 V
2 NC
3
GND
4 NC
Compatible connecting cable see chapter 4.7.2.
5.4.2 R/W head and trigger sensors
You can connect a maximum of four R/W heads to the IDENTControl.
You can connect a maximum of two trigger sensors to sockets 3 and 4 instead of
the R/W heads. A trigger sensor can only be assigned to a R/W head. The trigger
sensors must be PNP.
The R/W heads and trigger sensors are connected to the top of the enclosure via
M12 connectors with sockets.
4
3
2
15