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If the connection is terminated (for example, due to a line break), the active partner attempts
to re-establish the configured connection. You do not have to execute the communication
instruction again.The CPU can communicate with other CPUs, with programming devices, with HMI devices,
and with non- devices using standard TCP communications protocols.
Programming device connected to the
CPU
HMI connected to the CPU
A CPU connected to another CPU
The PROFINET port on the CPU 1211C, 1212C, and 1214C does not contain an Ethernet
switching device. A direct connection between a programming device or HMI and a CPU
does not require an Ethernet switch. However, a network with more than two CPUs or HMI
devices requires an Ethernet switch. The CPU 1215C does have a 2-port Ethernet switch built into it. You can have a network
with a CPU 1215C and two other CPUs. You can also use the rack-mounted
CSM1277 4-port Ethernet switch for connecting multiple CPUs and HMI devices. When you insert the TSEND_C, TRCV_C or TCON PROFINET instructions into your user
program, STEP 7 creates an instance DB to configure the communications channel (or
connection) between the devices. Use the "Properties" of the instruction to configure the
parameters for the connection. Among the parameters is the connection ID for that
connection.
● The connection ID must be unique for the CPU. Each connection that you create must
have a different DB and connection ID.
● Both the local CPU and the partner CPU can use the same connection ID number for the
same connection, but the connection ID numbers are not required to match. The

connection ID number is relevant only for the PROFINET instructions within the user
program of the individual CPU.
● You can use any number for the connection ID of the CPU. However, configuring the
connection IDs sequentially from "1" provides an easy method for tracking the number of
connections in use for a specific CPU.
Note
Each TSEND_C, TRCV_C or TCON instruction in your user program creates a new
connection. It is important to use the correct connection ID for each connection. The following example shows the communication between two CPUs that utilize 2 separate
connections for sending and receiving the data.
● The TSEND_C instruction in CPU_1 links to the TRCV_V in CPU_2 over the first
connection ("connection ID 1" on both CPU_1 and CPU_2).
● The TRCV_C instruction in CPU_1 links to the TSEND_C in CPU_2 over the second
connection ("connection ID 2" on both CPU_1 and CPU_2). ① TSEND_C on CPU_1 creates a
connection and assigns a connection
ID to that connection (connection ID 1
for CPU_1).
② TRCV_C on CPU_2 creates the
connection for CPU_2 and assigns the
connection ID (connection ID 1 for
CPU_2).
③ TRCV_C on CPU_1 creates a second
connection for CPU_1 and assigns a
different connection ID for that
connection (connection ID 2 for
CPU_1).

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