User Manual
Logical I/O blo
cks
Addressing the I/O blocks
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CM110664en_07 269 | 351
[PrVal] Addr1 Addr2 Addr3 Addr4 Comment / Text
group
2
0 0 0 0 On
1 1
0 0 0 Off
5
0
1
0 0 Comfort
7
0 0
1
0 Eco
9
0 0 0
1
StandBy
UpDown Mapping (Multistate Input and Output)
Syntax:
Application: Connecting/disconnecting further stages.
Example: Electric heating registers, multi-stage burners.
T=Module I/O point
C=Module.channel;Module.channel;Module.channel;Module.channel (signal type, UPDOWN)
Example: T=2.1
For the TX I/O addressing no additional information in the address string is added. All information (signal
type, mapping table, mapping rules, e.g., up-down, etc.) is configured in the I/O Address Editor and loaded
in the automation station with the IOC file.
Example: C=5.1;5.2;5.3;5.4(Q250,UPDOWN)
Example: C=2.1;2.2;2.3;2.4(D20,UPDOWN)
[PrVal] Addr1 Addr2 Addr3 Addr4 Comment / Text
group
1
0 0 0 0 Off
2 1
0 0 0 Stage 1
3 1 1
0 0 Stage 2
4 1 1 1
0 Stage 3
5 1 1 1 1
Stage 4
With Up/Down mapping, more than one hardware input or output may be active.
Binary Mapping (Multistate Input and Output)
Application: Output of an integer in binary form.
Example: Binary electric heating coil.
Syntax: C=Module.channel;Module.channel;Module.channel;Module.channel (signal type, BINARY)
Example: C=5.1;5.2;5.3;5.4(Q250,BINARY)
Example: C=2.1;2.2;2.3;2.4(D20,BINARY)
[PrVal] Addr1 Addr2 Addr3 Addr4 Comment / Text
group
1
0 0 0 0 Off
2 1
0 0 0 Stage 1
3
0
1
0 0 Stage 2
4 1 1
0 0 Stage 3
5
0 0
1
0 Stage 4
6 1
0
1
0 Stage 5
...
16 1 1 1 1
Stage 15
With binary mapping, more than one hardware input or output may be active.