Displaying transceiver module information, Solving system faults – H3C Technologies H3C SR6600 User Manual

40

Transceiver module type

Application scenarios

Whether can

be an optical

transceiver

Whether can

be an

electrical

transceiver

XFP(10-Gigabit small Form-factor
Pluggable)

Generally used for 10G
interfaces

Yes No

Displaying transceiver module information

To identify transceivers, you can use the following commands to view the key parameters of the

transceiver modules, including transceiver module type, connector type, central wavelength of the laser
sent, transfer distance and vendor name or name of the vendor who customizes the transceiver modules.
Follow these steps to display transceiver module information:

To do…

Use the command…

Remarks

Display key parameters of the
transceiver module in a specified

interface

display transceiver interface
[ interface-type interface-number ]

Available for all
transceiver modules

Displaying the alarming information or fault detection parameters of a transceiver module

The system outputs alarm information for you to locate and troubleshoot faults of transceiver modules. For
the H3C-customized transceiver modules, the system can also monitor the key parameters, such as

temperature, voltage, laser bias current, TX power, and RX power. When these parameters are abnormal,

you can take corresponding measures to prevent transceiver module faults.
Follow these steps to display the alarming information or fault detection parameters of a transceiver

module:

To do…

Use the command…

Remarks

Display the current alarm
information of the transceiver

module in a specified

interface

display transceiver alarm interface [ interface-type
interface-number ]

Available for all
transceiver modules

NOTE:

For more information about the transceiver module displaying commands, see the

H3C SR6600 Routers

Command References.

Solving system faults

Solving system faults

When the system detects faults (such as system instruction faults, invalid addresses, data overflow, null

pointers, and division by zero operations) during the system operation, you can solve the problem by

using one of the following methods:

•

Rebooting the router so that the router restores to normal operational status.

•

Maintaining the current status so that the system does not take any restoration measures. Some
software faults are hard to reproduce, and the printed information will be lost after the router

reboots. In this case, you can maintain the current status of the router, facilitating fault location.