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The OSN3500 GSCC single board is an intelligent system control board, which manages the single boards of the equipment in cooperation with the network management system and realizes the mutual communication among the equipment. There are several functional versions of the single board, and the functions provided by different functional versions are different.SSN3GSCC supports CF card.SSN1GSCC does not support CF card.SSN4GSCC and SSN6GSCC do not support CF card. There is no direct substitution relationship. If you need a higher version of board to replace a lower version of board, the host software version needs to be upgraded. The single board supports functions and features such as main control, official business, communication and system power monitoring. The board consists of a communication and control module, an overhead processing module, and a power supply module. The single board has jumpers for setting the input voltage of the equipment and the operating status of the single board. The single board needs to be inserted in the corresponding slot of the subrack according to the requirement, otherwise the single board can not work properly. GSCC single board can be inserted in the slot 17, slot 18 of the subrack.Default slot 18 is the main board slot, slot 17 is the backup board slot.
Fault Description
Failure of the OSN3500 motherboard causes the main control board to operate abnormally and continuously report HARD_BAD alarms, and the failure is eliminated by replacing the subrack.
OptiX OSN 3500
OptiX OSN 3500
Failure Category
HARD_BAD
Phenomenon Description
The main control board has been reporting HARD_BAD alarm for a long time.
Cause analysis
Analyzing the HARD_BAD alarm parameter, when parameter 5 is 0x04, it shows that the Ethernet communication port between the single boards has failed. From this, analyze the following three possible causes:
- The main control board is faulty.
- Auxiliary interface board failure.
- Motherboard failure.
Operation Procedure
- Pull out the backup master board and keep only the master board, the HARD_BAD alarm does not disappear. Then locate the failure of the main master board, the auxiliary interface board, or one of slot 17.
- If the HARD_BAD alarm still does not disappear after replacing the master control board in slot 17, the possibility of a faulty master control board is ruled out.
- Insert the main control board into slot 18 of the backup main control board and the backup main control board into slot 17 of the main control board. After switching the slots, slot 17 still reports the HARD_BAD alarm. Then locate one of the failures of the standby master board, the auxiliary interface board, or slot 17.
- After switching slots, the backup master board is in slot 17. If the HARD_BAD alarm still does not go away after replacing the backup master board in slot 17, rule out the possibility that the backup master board has failed.
- After replacing the auxiliary interface board, the HARD_BAD alarm still does not disappear, so the possibility of auxiliary interface board failure is ruled out, and the fault is localized in slot 17.
- Observe that the motherboard is not inverted, then exclude the possibility of motherboard failure caused by motherboard inverted pin.
- Replace the subrack and the HARD_BAD alarm disappears.
The technical information in this chapter and the related SDH equipment troubleshooting procedures are provided by Shenzhen Optical Transmission Network Technology Co. Huawei SDH optical transmission equipment, SDH transmission equipment sales phone: 13430988088 Welcome to call!
