Communication With The Sicam I/O Unit 7Xv5673 Subdevice - Siemens SICAM MMU 7KG9663 Device Manual

9 Communication
9.3 IEC 60870-5-104
9.3.4

Communication with the SICAM I/O Unit 7XV5673 Subdevice

Principle of Data Exchange of the SICAM I/O Unit 7XV5673 with a Substation Controller via SICAM MMU with
IEC 60870-5-104 Protocol
To add 6 binary inputs and 6 binary outputs, you can connect the SICAM MMU to a SICAM I/O Unit 7XV5673
via the Ethernet interface. You can establish this connection as follows:
• Direct connection using a Y-cable when using the Ethernet switch implemented in the SICAM I/O Unit
• Connection via an external Ethernet switch
The following figure illustrates the interconnection of the SICAM MMU with a substation controller and the
SICAM I/O Unit. IEC 60870-5-104 is used as transmission protocol. Communication to both the Modbus TCP
master and the SICAM I/O Unit with the Modbus UDP protocol is accomplished via the same physical Ethernet
interface. Communication to the IEC 60870-5-104 master and to the SICAM I/O Unit 7XV5673 with Modbus
UDP protocol is performed via the same physical Ethernet interface.
Binary
Outputs
Indications
from Remote
Request telegram
(Modbus function 23)
to I/O Unit:
Binary Outputs
Indications
from Remote*
IEC 60870-5-104 Server/
IEC 60870-5-104 Mapping
IEC 60870-5-104
request
IEC 60870-5-104 Client
Fig. 9-4 SICAM MMU Connected to a Substation Controller and the SICAM I/O Unit – IEC 60870-5-104
192
Binary
Inputs
Modbus Server/
Modbus Mapping
Response telegram
(Modbus function 23)
Modbus Client
from I/O Unit:
Binary Inputs
Binary Input x
from I/O Unit
IEC 60870-5-104
response
SICAM I/O Unit 7XV5673
SICAM MMU 7KG9663
* Alternatively , a SICAM MMU
internal indication (e.g. Limit
Violation or Group indication ) can
be transmitted to the IO Unit .
Substation Controller
SICAM MMU 7KG9663, Device Manual
E50417-H1040-C514-A3, Edition 01.2016