Failure and replacement of components during redundant operation
11.2 Failure and replacement of components of the distributed I/Os
CPU 410-5H Process Automation
196 System Manual, 09/2014, A5E31622160-AB
How does the system react?
Plug the Profibus DP back in.
Turn on the power supply of the central rack.
7 Switch to the CPU with the modified configuration. The reserve CPU links up, is updated and becomes
the master. The previous master CPU switches to
STOP mode, the fault-tolerant system operates with
the new hardware configuration in single mode, see
chapter Step 5: Switch to CPU with modified configu-
Turn off the power supply of the second central rack.
9 Unplug the Profibus DP cable of the second DP
–
Plug the Profibus DP back in.
12 Turn on the power supply of the second central rack
-
13 Perform a "Warm restart". CPU performs a link-up and update and operates as
stand-by CPU, see chapter Step 6: Transition to
redundant system state (Page 161).
Failure and replacement of a redundant PROFIBUS DP interface module
Starting situation
How does the system react?
The S7-400H is in redundant system mode and a
PROFIBUS DP interface module (IM 153–2, IM
Both CPUs report the event in the diagnostic
buffer and via OB 70.
Proceed as follows to replace the PROFIBUS DP interface module:
How does the system react?
1 Turn off the supply for the affected DP
interface module.
–
Remove the bus connector.
3 Insert the new PROFIBUS DP interface
module and turn the power supply back on.
–
4 Plug the bus connector back in.
• The CPUs process the I/O redundancy
error OB 70 (outgoing event) synchro-
nized with each other.
• Redundant access to the station by the
system is now possible again.
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