Circuit Description
SD39EAM-1r4
4-6
September 2005
Board Problems
•
Backplane Power Failure
•
Internal Module Overtemperature
•
RAM
Checksum
•
ROM
Checksum
•
Redundancy
Switch-Over
An OK LED and an ACTIVE LED on the module’s bezel provide a local indication of the following
module status:
•
Module
OK
•
Channel(s)
Faulted
•
Module
Faulted
•
Module
Not
Configured
•
IOBUS Communication Fault
•
Module Active (Redundancy Primary)
•
Module Inactive (Redundancy Backup)
The OK LED is the principal error annunciator. At initial turn on, the EAM’s CPU uses a common start
up routine to perform certain self-diagnostics, such as ROM and RAM tests, and to setup specific board
functions. If the common start up routine is successful, the OK LED will be set to a solid green color and
the EAM begins to execute common I/O board diagnostics; if not successful, the OK LED will be set to a
flashing red color at a 1 second flash rate.
The ACTIVE LED lights to a solid Green if the module is enabled. A redundant EAM in the standby
mode will show a solid Green OK and Black (OFF) ACTIVE LEDs.
All errors generated by the diagnostics are reported to the control module (ACM), which maintains a
current error log that can be accessed by any APACS+ operator interface or the
4-mation
configuration
software. The
4-mation
software also provides additional diagnostic and status displays.
Summary of Contents for APACS+
Page 16: ......
Page 26: ...Installation SD39EAM 1r4 2 10 September 2005 Figure 2 3 EAM Marshalled Termination Assembly ...
Page 27: ...SD39EAM 1r4 Installation September 2005 2 11 Figure 2 4 Marshalling Termination Panel ...
Page 40: ...Installation SD39EAM 1r4 2 24 September 2005 Figure 2 9 Sample Input and Output Connections ...
Page 41: ...SD39EAM 1r4 Installation September 2005 2 25 Figure 2 10 I O Cable End Preparation ...
Page 42: ......
Page 47: ...SD39EAM 1r4 Maintenance September 2005 3 5 Figure 3 1 Cover Plate Securing Screws ...
Page 48: ...Maintenance SD39EAM 1r4 3 6 September 2005 Figure 3 2 User Replaceable Fuse ...