5 processor module diagnostics, 1 powerćup diagnostics, 2 runćtime diagnostics – Rockwell Automation 57C435 Processor Module, AutoMax User Manual

3Ć5

3.5

Processor Module Diagnostics

This section describes the Processor module powerĆup and runĆtime

diagnostics.

3.5.1

PowerĆUp Diagnostics

When you first turn on power to the Processor module or cycle

power, it will run diagnostics on the Eprom and RAM memory,

memory management unit, watchdog timer, parity, interrupts, and

SIO.
If morethan oneProcessor is located in therack, theleftmost

Processor will also run diagnostics on the Common Memory module.

While running diagnostics, which take approximately 5-15 seconds,

theProcessor modules in therack will display thecodedd". When a

module has completed its diagnostics, the LED on the faceplate

labeled OK" will be turned on.
Should a malfunction be detected, all Processors in the rack will be

shut down and thestatus codeindicating which diagnostic failed will

remain on the LED display of the Processor at fault. See Appendix D

for a list of powerĆup diagnostic error codes.
After diagnostics are complete, the Processor begins periodically

resetting its watchdog to indicate that it is functioning correctly. In a

multiple Processor configuration, all of the Processors in the rack will

begin resetting the system watchdog located on the Common

Memory module in addition to resetting their own watchdogs. The

Processor module will reset its own watchdog regardless of whether

the operating system is loaded or not.
Should any watchdog beallowed to expireat any timeafter

powerĆup diagnostics are complete, all Processors in the rack will be

shut down. If application tasks arecurrently running in therack, they

will be stopped. The green LED labeled OK" on the faceplate of the

module at fault will be turned off. This Processor will assert a signal

on the backplane to reset (set 0, FALSE, or OFF) all local and remote

I/O modules.

3.5.2

RunĆTime Diagnostics

During runĆtime, i.e., while executing application tasks, the Processor

continuously performs realĆtime checking of byte parity on the RAM.

The memory management unit (MMU) checks for errors such as

writing to locations that arereadĆonly. Should any malfunction be

detected, an error code will be displayed on the LEDs and the

Processors in the rack will be either stopped or completely shut

down, depending upon the severity of the error. See Appendix E for

a list of runĆtime error codes.
Serious hardware malfunctions, however, can result in application

tasks that are currently running being stopped, the OK" indicator

being turned off, and the Processor being shut down. Once a

Processor module has shut down, it will not execute any instructions

or respond to commands from the personal computer until it is reset

by cycling power.