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HUAWEI NIP6800 Series V500 Hardware Guide

This document of the NIP6800 Series describes hardware structure, installation guide, and hardware maintenance. The content of this document includes the appearance and specifications of the product, the supported expansion cards, preparation before the installation, installation, cabling, and hardware replacement.
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Huawei uses machine translation combined with human proofreading to translate this document to different languages in order to help you better understand the content of this document. Note: Even the most advanced machine translation cannot match the quality of professional translators. Huawei shall not bear any responsibility for translation accuracy and it is recommended that you refer to the English document (a link for which has been provided).
Powering On the NIP6860 - AC Power Distribution

Powering On the NIP6860 - AC Power Distribution

Check whether the NIP6860 is operating properly with the AC power supply. To prevent damage, power on the NIP6860 according to the instructions in this section.

Context

Before performing a power-on check, switch all circuit breakers to the OFF position.

Before you power on the , ensure that:

  • The power cable and PGND cable are properly connected.
  • The power switch in the equipment room is easy to locate so that you can quickly power off devices in case of any problems.

Procedure

  1. Turn on external AC power supplies A and B.
  2. Measure the input voltage of the AC power chassis with a multimeter to ensure that the voltage falls between 90 V AC and 264 V AC.
  3. Turn on the circuit breakers of external AC power supplies A and B and check the status of the indicators on the AC power chassis.
  4. Measure the input voltage of the device with a multimeter to ensure that the voltage falls between -72 V DC and -38 V DC.
  5. Measure the input voltage of the device with a multimeter to ensure that the voltage falls between -72 V DC and -38 V DC.
  6. Wait three minutes and then check the status of the indicators.

    Figure 2-42 and Figure 2-43 show the indicator status of main parts when the device is operating properly. Table 2-8 and Table 2-7 describe all indicators.

    Figure 2-42  Indicator status when the AC power chassis is working properly
    Figure 2-43  Indicator status when the NIP6860 is operating properly

Result

Table 2-7  Indicators on the AC power chassis

Item

Color

Status Description

Possible Exception Causes

Operation indicator

Green

If the indicator is steady green, the AC power chassis is running properly. If the indicator is off, an exception occurs.

There is no main AC power input, the AC input voltage is higher or lower than the normal range, or the AC power chassis has no output.

Protection indicator

Yellow

If the indicator is off, the AC power chassis is running properly. If the indicator is on, an exception occurs.

A temperature alarm is generated (if the temperature exceeds 65°C, the AC power chassis will be powered off), or the AC power chassis is in the dormant state (the indicator is on and no alarm is generated).

Fault indicator

Red

If the indicator is off, the AC power chassis is running properly. If the indicator is on, an exception has occurred.

The AC power chassis is powered off due to over-voltage or over-temperature, or fans are faulty, or the AC power chassis has no output due to its internal faults.

DC output voltage

-

The normal voltage ranges from -43.2 V DC to -57 V DC

-

Table 2-8  Device indicators

Item

Indicator

Color

Status Description

PEM

RUN

Green

If the indicator is steady green, the PEM has normal output.

ALM

Red

Alarm indicator. If the indicator is steady red:

  • The lightning protection circuit of the PEM is faulty.

  • There is no power input.

FAN

STATUS

Green

If the indicator blinks once every two seconds (0.5 Hz), the FAN is working properly.

Red

If the indicator blinks once every two seconds (0.5 Hz), the fan module or PEM is faulty, or not all PEMs are powered on.

MPU/SRU

RUN

Green

From the time the MPU/SRU is powered on until it is registered, the indicator status changes from off, blink once every 250 ms (4 Hz), off, steady on, and then to blink once every two seconds (0.5 Hz).

After the MPU/SRU is registered, the MPU/SRU is working properly if the indicator blinks at 0.5 Hz.

NOTE:

Possible causes for an off indicator include:

  • The BootROM is damaged.

  • The MPU cannot be powered on.

Possible causes for the indicator blinking quickly include:

  • The CF card is faulty.

  • The other control chips on the MPU/SRU are faulty, preventing the MPU/SRU from initializing.

ALM

Red

If the indicator is steady off, the MPU/SRU is in the normal state. If the indicator is steady red, an alarm is generated.

SFU

RUN

Green

From the time the SFU is powered on until it is registered, the indicator status changes from off, blink once every 250 ms (4 Hz), off, steady on, and then to blink once every two seconds (0.5 Hz).

After the SFU is registered, the SFU is working properly if the indicator blinks at 0.5 Hz.

ACT

Green

If the indicator is steady green, the SFU is working properly; if the indicator is off, the SFU is faulty.

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Updated: 2019-01-04

Document ID: EDOC1100059253

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