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Introduction to the SINAUT ST7 system
2.3 SINAUT TIM communication modules
2.3.10
Technical specifications of the TIM 3 variants
Technical specifications of the TIM 32
TIM 32
General
Interfaces
•
•
Power supply
Current consumption
•
•
Power loss
Permitted ambient conditions
•
•
•
Construction
•
•
•
Degree of protection
Configuration
•
•
•
TIM can be operated in the role
•
•
•
No. of TIM 32 modules per S7-300
Local communication in the rack of an S7-300
•
•
•
Work memory required on the S7 CPU
Message memory on TIM
•
•
36
Attachment to dedicated line
Connection to power supply
From backplane bus
From 24 V DC
Operating temperature
Transport/storage temperature
Relative humidity
Module format
Dimensions (W x H x D) in mm
Weight
Software for PG
Software for CPU (optional)
Storage of TIM configuration data
Station
Node station
Master station
Over backplane bus with the S7-300-CPU
Over backplane bus with other TIMs in the
rack
Over MPI port of the S7-300-CPU
CPUs, TIMs, and/or PCs
Number of messages
Buffered
RJ-12
•
4-pin terminal strip
•
24 V DC; min. 20.4 V; max. 28.8 V
60 mA
•
300 mA
•
7.5 W
0 °C through +60°C
•
-40 °C through +70 °C
•
Max. 95 % at +25 °C
•
Compact module for S7-300, double width
•
80 x 125 x 120
•
Approx. 300 g
•
IP 20
SINAUT ST7 configuration software
•
for PG
SINAUT TD7 block library for CPU
•
on internal TIM flash memory
•
Yes
•
Yes
•
Yes
•
Several, number depends on the communication
resources of the S7-300 CPU
Possible using TD7onCPU
•
Possible
•
with other
Possible over TD7onCPU (for S7-300 and
2)
•
S7-400) and S7 communication (for
ST7cc/ST7sc and TIMs)
At least 20 KB; actual requirements depend on
the amounts of data and range of functions
Approx. 10,000 messages
•
No
•
SINAUT ST7 Station control system - System Manual
System Manual, 05/2007, C79000-G8976-C178-06
1)
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