TAMAGAWA TS2650N11E78 TS2650N11E78 TS2650N11E78 TS2650N11E78 TS2650N11E78

TS3103N156

TS2650N11E78

OSE10243158

TS3667N3E8

TS5019N60

TS3653N11E2

TS5313N122

TS2228N33E1

TS4507N1002E200

TS3134N52

OSE5K-6-12-108

TS3667N13E8

TS5013N68

TS3653N12E5

TS5320N632

TS2640N141E172

TS4507N1202E200

OSE5KN-6-12-108

TS3674N37

TS5013N69

TS3653N13E8

TS5420

TS2640N181E100

Note
If you change the parameter assignment of the MPI/DP interface transmission rate,
the new transmission rate remains set even after memory reset, voltage failure or
removing/inserting the CPU.
Connectable Nodes
MPI PROFIBUS DP
Programming devices (PGs) Programming devices (PGs)
Operator interfaces (SIMATIC-OP),
WinCC
Operator panels (OPs)*
PROFIBUS-DP master, PROFIBUS-DP slaves
S7-300 PROFIBUS-DP slaves

127 127 *
(default: 32) of which: 1 master (reserved)
1 PG port (reserved) 1 PG port (reserved)
125 slaves or other masters
* Observe the CPU-specific maximum numbers in the Reference Manual CPU Data
MPI/PROFIBUS-DP Addresses
In order for all nodes to be able to communicate with one another, you must assign
them an address:
• In the MPI network, an MPI address
• A PROFIBUS-DP address in the PROFIBUS-DP network
Default MPI Addresses
The following table shows the default MPI address and the max. MPI address with
which the devices are shipped:
Node (Device) DefIf you change the parameter assignment of the highest MPI address of the MPI/DP
interface, the new address remains set even after memory reset, voltage failure or
removing/inserting the CPU.Observe the following rules before assigning MPI addresses:
• All MPI addresses in an MPI network must be different.
• The highest possible MPI address must be equal to or higher than the highest
actual MPI address and must be set to the same value for all nodes. (Exception:
connecting a programming device to two or more nodes.)
PG / OP -- Module communication without MPI
If one of the programming devices or operator panels connected to a multipoint
interface (MPI) communicates with an module which does not have an MPI
connection (for example, SIMATIC NET CPs, FM 456 etc.), this module can be
reached via the CPU to whose MPI the programming device or operator panel is
connected. In this case, the CPU simply acts as an intermediary for the transfer.
This type of connection between a programming device or operator panel and a
module only communicating via the communication bus occupies two connection
resources in the CPU.When configuring the connections of a CPU 41x via MPI, remembeA CPU exchanges data with other systems using communication mechanisms, for
example with other programmable controllers, with operator interface stations (OP,
OS) or with programming devices (see Figure 5-2).Figure 5-2 Data Exchange
Process communication, including communication services for data exchange
between programmable controllers (PLC - PLC) and between programmable
controllers and operator interface stations (PLC - OS/OP), has priority in CPUs
over communication between programming devices and CPUs.
The CPUs have different characteristics. One of these characteristics is their
communication performance. If the communication resources of a CPU are
occupied completely by process communication, this can severely hamper access
to the CPU from the programming device.Observe the following rules for connecting the nodes of a network: