Figure 3-11
Architecture of the CX600-X16 AC power supply system
AC1
AC1”
AC2”
AC3”
AC4”
AC2
AC3
AC4
DCa
DCb
PEM A1
PEM B4
PEM A4
PEM A2
PEM A3
PEM B2
PEM B1
PEM B3
DC a1
DC b1
DC b4
DC a4
DC a3
DC a2
DC b3
DC b2
LPU
LPU
LPU
MPU
MPU
LPU
LPU
LPU
LPU
SFU
SFU
SFU
SFU
LPU
LPU
LPU
LPU
LPU
LPU
LPU
LPU
LPU
FAN
FAN
FAN
FAN
FAN
FAN
area 2
area 1
area 3
area 4
Boards
Boards
Boards
Backplane
Power module
Installing the EPS200-4850A in the same cabinet as the chassis is recommended. If the
EPS200-4850A cannot be installed in the same cabinet as the chassis, it should be placed near
the cabinet and careful attention needs to be paid to the cabling. Two EPS200-4850A work in
1+1 backup mode. Each power module provides four circuit breakers and eight AC power inputs.
Each circuit breaker is 20 A.
NOTE
PEM A1 and PEM B1 work in 1+1 backup mode, PEM A2 and PEM B2 work in 1+1 backup mode, PEM
A3 and PEM B3 work in 1+1 backup mode, PEM A4 and PEM B4 work in 1+1 backup mode.
3.3 Heat Dissipation System
This section describes the appearance, functions, and specifications of the heat dissipation
system.
3.3.1 System Air Channel
This section describes the CX600-X16's system air channel.
The CX600-X16 is divided into an upper chassis and a lower chassis; it draws in air from the
front and exhausts air from the rear. The air intake vent on the upper chassis is located above
the board area on the front chassis; the air exhaust vent is located above the board area on the
rear chassis. The lower chassis and the upper chassis are opposites. The upper chassis and the
lower chassis also have separate heat dissipation systems.
HUAWEI CX600-8/16/X3/X8/X16 Metro Service Platform
Hardware Description
3 CX600-X16
Issue 03 (2013-11-30)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
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