TAMAGAWA TS5213N551 TS5213N551 TS5213N551 TS5213N551 TS5213N551 TS5213N551

TS5213N551

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TS3692N41

TS3653N13E9

TS2014N18E32

TS2014N312E32the pre-wiring position, you can easily wire the front connectorFigure 6-9 Wiring

TS3617N3E10

TS4509N7000E100

TS3153N15E18

TS1567N132

TS3692N42

TS3653N2E6

TS2014N43E31

TS2018N303E51

TS3617N3E8

TS4514N1021E200

TS3602N213E8

TS3699N112

TS3653N3E7

TS2058N21E1-A

TS20E12

TS3617N13E8

TS4514N1407E200

TS3602N233E8

TS1857N16

TS4603N1532E200

TS2058N21EAA

TS20N2E11

TS3617N376

TS4514N1828E200

TS3602N31E8

TS-1905N146E6

TS4603N1700E200

front connectors for I/O modules without shield contact element
5. Begin to completely wire the front connector. Put the strain relief around the cable harness, and pull the strain relief for the cable
harness tight.

I/O addresses (input/output addresses) are required in the user program to read inputs and
set outputs.
STEP 7 automatically assigns input and output addresses when modules are configured.
Each module uses a continuous range of input and/or output addresses corresponding to its
volume of input and output data.STEP 7 assigns the address areas of the modules by default to the process image partition 0
("Automatic updating"). This process image partition is updated in the main cycle of the CPU.
Device address (e.g., Ethernet address)
Device addresses are addresses of modules with interfaces to a subnet (e.g., IP address or
PROFIBUS address). They are required to address the various devices on a subnet, for
example, to download a user program.STEP 7 automatically assigns a hardware identifier (HW identifier) for identification and
addressing of modules and submodules. The HW identifier is used, for example, for
diagnostics alarms or for instructions, to identify the faulty module or the addressed module.Figure 7-6 Example of a Hardware identifier from STEP 7
The "System constants" tab contains all hardware identifiers and their symbolic names (of

HW identifier) for the selected module.
The HW identifiers and names of all modules of a device are also available in the default tag
table on the "System constants" tab.The following section describes the addressing of the digital modules. In your user program,
you require the addresses of the channels of the digital module.
Digital module addresses
The address of a digital module's input or output is composed of the byte address and the bit
address. The channels of the digital module are assigned bit addresses.
Example: I 1.2
The example consists of:
I Input -
1 Byte address The byte address depends on the module start address
2 Bit address You read the bit address from the module
When you insert a digital module into a free slot, STEP 7 assigns a default address. You can
change the proposed default address in STEP 7.The following figure shows how the addresses of the individual channels of the digital input
module (e.g., 6E521-1BL00-0AB0) are determined.Additional information on addressing and address allocation with value status can be found
in the manuals of the digital modules, and in the online help for STEP 7. An example of the
evaluation of the value status in the user program is available in the function manual
DiagnosticThe following section describes the addressing of the analog modules. In your user program,
you require the addresses of the channels of the analog module.
Analog module addresses
The address of an analog channel is always a word address. The channel address depends
on the module start address. STEP 7 automatically assigns the channel addresses during
configuration. Based on the module start addresses, STEP 7 assigns the channel addresses
in increasing sequence (in the following figure, the module start address is 256).
When you insert an analog module into a free slot, STEP 7 assigns a default address. You
can change the assigned default address in STEP 7The following figure shows how the addresses of the individual channels of the analog input