85446716 Customer Preparation Guide to iManager M2000 and PRS NASTAR VNP Installation 20110425 B 5 24

Area OverseasProduct Name

iManager M2000/PRS/NASTAR/VNP

Intended Reader

Customers/Engineers/Business partners

Document Version

V5.24

ProductiManager M2000/PRS/NASTAR/VNP

Updated Date

2011-04-25

Customer Preparation Guide to iManager M2000/PRS/NASTAR/VNP Installation

Draftted by. Du yuguo Date 2009-8-6

Reviewed by. Date

Reviewed by. Date

Approved by. Date

Huawei Technologies Co., Ltd.

All rights reserved.

Customer Preparation Guide to iManager M2000 and PRS Installation

Revision Record

Date Revision Description Author

2006-7-26 V1.0 Du Yuguo

2007-5-10 V5.3 Du Yuguo

2008-3-24 V5.61, Replacement of N68E-22

2, Added the SLS SystemDu Yuguo

2008-10-20 V5.7Added the HP rx2660, HP rx7640 and ATAE servers

Du Yuguo

2008-12-22 V5.8 Replacement of N610E-22 Du Yuguo

2009-03-04 V5.9

Sun SE T5220/M4000/M5000 Server is added

Sun Netra 240, Fire V890 and Fire E4900 are deleted

Du Yuguo

2009-3-27 V5.101. Added the iManager PRS product

2. Fixed some bugs in chapter 4.1Du Yuguo

2009-8-6 V5.11

1. Added Sun SE M4000/M5000 with Sun Rack

2. Added Sun SE M4000/M5000 remote-HA system

3. Added the Sun SE M4000/M5000 SLS system

Du Yuguo

2010-8-2 V5.12 1. Add ATAE Cluster Wangying

2010-11-04 V5.131、modify ‘Cabinet Power input (V)’ in chapter 4 for HP RX2660 and ATAE Server cabinet.

Mao Yanqing

2011-04-25 V5.24 Rectify some errors. Yang Youjiang

2009-8-6 HUAWEI Confidential 2/61


Table of Contents

Chapter 1 Preface ...................................................................................................................... 6

Chapter 2 Installation Flow ....................................................................................................... 8

Chapter 3 Introduction to M2000 ............................................................................................. 10 3.1 Overview of Product ..................................................................................................... 10

3.1.1 Overview of M2000 ............................................................................................ 10 3.1.2 Position of the M2000 in Network ....................................................................... 11 3.1.3 Managed NEs of M2000 ..................................................................................... 12 3.1.4 Overview of Trace Server ................................................................................... 14 3.1.5 M2000 Emergency System Overview ................................................................. 15

3.2 Introduction to M2000 .................................................................................................. 15 3.3 Physical Structure ........................................................................................................ 16

3.3.1 Overview Physical Structure .............................................................................. 16 3.3.2 Physical Structure of the Single Server System .................................................. 16 3.3.3 Physical Structure of the Local HA System ......................................................... 17 3.3.4 Physical Structure of the SLS System ................................................................ 17 3.3.5 Physical Structure of the ATAE Cluster System .................................................. 19 3.3.6 Physical Structure of the Remote HA System ..................................................... 20

3.4 Typical M2000 Server Configuration ............................................................................. 21 3.4.1 M2000 ................................................................................................................ 21 3.4.2 Trace Server ...................................................................................................... 21 3.4.3 M2000 Emergency System ................................................................................ 21

3.5 Layout of Cabinet ........................................................................................................ 21 3.5.1 Sun SE T5220 Single Server & Local Dual Server ............................................. 21 3.5.2 Sun SE M4000&M5000 Single Server ................................................................ 23 3.5.3 Sun SE M4000&M5000 Local HA system ........................................................... 25 3.5.4 Sun SE M4000/M5000 Remote HA system ........................................................ 28 3.5.5 Sun SE M4000/M5000 SLS System(Huawei cabinet) ......................................... 28 3.5.6 Sun SE M4000/M5000 SLS system(SUN RACK) ............................................... 29 3.5.7 ATAE cluster System .......................................................................................... 29

Chapter 4 Product Instruction of PRS .................................................................................... 30 4.1 PRS Overview .............................................................................................................. 30 4.2 The deployment of the PRS .......................................................................................... 31 4.3 Physical structure ......................................................................................................... 31 4.4 Typical configuration ..................................................................................................... 31 4.5 Layout of cabinet .......................................................................................................... 33

4.5.1 HP DL580 G7 ..................................................................................................... 33 4.5.2 HP DL785/DL980 ............................................................................................... 33

Chapter 5 Product Instruction of NASTAR ............................................................................. 33 5.1 NASTAR Overview ....................................................................................................... 33 5.2 The deployment of the NASTAR ................................................................................... 33 5.3 Physical structure ......................................................................................................... 33 5.4 Typical configuration ..................................................................................................... 34 5.5 Layout of cabinet .......................................................................................................... 35

5.5.1 HP DL580 G7 ..................................................................................................... 35 5.5.2 HP DL785/DL980 ............................................................................................... 35

Chapter 6 Product Instruction of DAMS ................................................................................. 36 6.1 DAMS Overview ........................................................................................................... 36 6.2 The deployment of the DAMS ....................................................................................... 36



6.3 Physical structure ......................................................................................................... 36 6.4 Typical configuration ..................................................................................................... 36 6.5 Layout of cabinet .......................................................................................................... 37

6.5.1 HP DL580 G7 ..................................................................................................... 37

Chapter 7 Product Instruction of VNP .................................................................................... 38 7.1 VNP Overview .............................................................................................................. 38 7.2 The deployment of the VNP .......................................................................................... 38 7.3 Physical structure ......................................................................................................... 38 7.4 Typical configuration ..................................................................................................... 39 7.5 Layout of cabinet .......................................................................................................... 39

7.5.1 HP DL580 G7 ..................................................................................................... 39

Chapter 8 Physical and Electric Indexes ................................................................................ 40 8.1 Engineering Specifications of M2000 ............................................................................ 40

8.1.1 The specifications of M2000 servers and cabinets ............................................. 40 8.1.2 The specifications of Trace Server and cabinet .................................................. 41

8.2 PRS Server Engineering Specifications ........................................................................ 41 8.2.1 The specifications of PRS server and cabinet .................................................... 41

8.3 NASTAR Server Engineering Specifications ................................................................. 42 8.3.1 The specifications of NASTAR server and cabinet .............................................. 42

8.4 DAMS Server Engineering Specifications ..................................................................... 42 8.4.1 The specifications of DAMS server and cabinet .................................................. 42

8.5 VNP Server Engineering Specifications ........................................................................ 43 8.5.1 The specifications of VNP servers and cabinets ................................................. 43

8.6 Power consumption of all the equipment ...................................................................... 43

Chapter 9 Equipment Room Environment .............................................................................. 45 9.1 Storage Requirements .................................................................................................. 45

9.1.1 Climatic Requirements ....................................................................................... 45 9.1.2 Waterproof Requirements .................................................................................. 45 9.1.3 Biological Requirements ..................................................................................... 46 9.1.4 Air Purity Requirements ..................................................................................... 46 9.1.5 Mechanical Stress Requirements ....................................................................... 47

9.2 Transportation Requirements ........................................................................................ 47 9.2.1 Climatic Requirements ....................................................................................... 47 9.2.2 Waterproof Requirements .................................................................................. 48 9.2.3 Biological Requirements ..................................................................................... 48 9.2.4 Air Purity Requirements ..................................................................................... 48 9.2.5 Mechanical Stress Requirements ....................................................................... 49

9.3 Working Environment Requirements ............................................................................. 50 9.3.1 Climatic Requirements ....................................................................................... 50 9.3.2 Biological Requirements ..................................................................................... 51 9.3.3 Air Purity Requirements ..................................................................................... 51 9.3.4 Mechanical Stress Requirements ....................................................................... 51

Chapter 10 Arrangement Principles ........................................................................................ 53 10.1 Common arrangement principles: ............................................................................... 53 10.2 The space requirement of the N68E-22 and N610E-22 cabinet .................................. 53 10.3 The space requirement of the SUN cabinet ................................................................ 54

Chapter 11 External Cables ..................................................................................................... 55

Chapter 12 Cabling Rack and Support ................................................................................... 57 12.1 Cabling Rack .............................................................................................................. 57 12.2 Support ...................................................................................................................... 57

12.2.1 Installing an N68E-22 Cabinet on the Cement Floor ......................................... 57 12.2.2 Installing an N610E-22 Cabinet on the Cement Floor ....................................... 58 12.2.3 Installing an N68E-22 Cabinet on the Antistatic Floor ....................................... 58



12.2.4 Installing an N610E-22 Cabinet on the Antistatic Floor ..................................... 59 12.2.5 Installing an Sun Cabinet on the Antistatic Floor ............................................... 60

Chapter 13 Air Conditioning .................................................................................................... 61



Chapter 1 Preface

Dear user:

Thank you for using Huawei’s iManager M2000 product.

This M2000 Installation Preparation Guide is intended for you to get well prepared for installing the M2000 equipment. It describes the M2000’s physical and electrical parameters and requirements for its smooth operation, operation environment, power supply, grounding system, other related equipment, equipment room layout and other requirements for the equipment room.

You can refer to the Engineering Liability Interface Diagram specified in the contract and the On-site Engineering Survey Design Drawings provided by the design institute as well as this guide to make preparations for the equipment installation.

Before Huawei’s engineers kick off on-site, you are expected to make all related preparations by abiding by the instructions in this guide to facilitate the installation work.

You must know the following points before making the installation preparations.

1. During the preparation, you can contact Huawei’s representative office (in this province or region) whenever you have problems. Huawei will do everything possible to help .

2. Upon completion of the installation preparation work, please inform Huawei’s local representative office so that Huawei can assign engineers to install the equipment on-site.

3. If the equipment installation work starts before the completion of the installation preparations for some reasons, the customer should finish the rest preparation work as soon as possible during the equipment installation work.

4. If the equipment installation work starts before the completion of the installation preparations for some reasons, Huawei can stop the installation work temporarily because it cannot proceed due to the incomplete preparations by the customer, and resume the installation work when all preparations have been done .

Address of Huawei’s local representative office (maintenance):

Phone (fax) of Huawei local office (maintenance):

Manager of Huawei’s local representative office (maintenance):

Huawei’s person in charge of this project:

Phone of Huawei’s person in charge of this project:

Note: The information above can be obtained when Huawei’s engineers go to the site to perform engineering survey.

Huawei will provide you with all-around technical support. You can also contact Huawei’s local representative office or Huawei headquarters in Shenzhen directly for solutions.

Website of Huawei:http://www.huawei.com

Website of technical support: http://support.huawei.com



We expect your support to facilitate the engineering work and Are delighted to have such an honor to work with you!

Global Technical Service Deportment,

Huawei Technologies Co., Ltd.



Chapter 2 Installation Flow

Firstly, see Huawei engineering installation flow please:

Figure 1.1 Equipment installation flowchart

The completion of the project requires the cooperation between customer and Huawei. We hope the project completes successfully.

If you are not very clear about the flow above, please contact local Huawei representative office


Contract is signed; project starts

Customer prepaidHuawei survey on site

Customer preparations Huawei produces and delivers goods

Customer informs preparation conditionsHuawei checks and gives instructions on

customer’s preparations

Equipment is delivered to site. Huawei and customer negotiate the deployment date and responsible persons of both parties

Customer helps install and debug equipmentHuawei installs and debugs

equipment

Equipment installation and debugging is finished. Two parties checks and accepts the system

Two parties work out the cutover and equipment access to network scheme

Start maintenance


(for maintenance). We will provide comprehensive and sincere service for you.

The following is instructions for the preparations of engineering installation. Please read them carefully. If you have any questions, please contact local Huawei representative office (customer service) in time.



Chapter 3 Introduction to M2000

3.1 Overview of Product

3.1.1 Overview of M2000

The iManager M2000 Mobile Element Management System (referred to as the M2000 in the following sections) is a centralized mobile network management platform of Huawei. With this platform, you can manage the E-UTRAN, UTRAN, GSM, CDMA, Core Network, uBro, Wimax, IMS network equipment and so on, also called network elements (NEs), manufactured by Huawei.

The M2000 provides the following powerful O&M functions:

Topology Management (TM)

Configuration Management (CM)

Fault Management (FM)

Performance Management (PM)

Security Management (SM)

Network Time Synchronization Solution

Data Backup and Restore Solution

Remote and Centralized NE Upgrade

Inventory Information Query

Based on new features of services after the introduction of soft switch in the CN, the M2000 provides the following functions:

Dual-homing management

MSC Pool management

SGSN Pool

Local network management

NGN Test Management

Signaling Link Management

Authority-Based and Domain-Based Management on a Large Local Network



NGN Service Management

With regard to the configuration complexity of the UTRAN and GBSS, and the large number of parameters, the M2000 provides the following functions:

CME configuration tools

Software management

Network integration monitoring

License management

Base Station Auto-Deployment

Automatic Network Planning

NE Health Check

Automatic Network Optimization

Power-Saving Management

MBTS Dynamic Power Sharing

…

3.1.2 Position of the M2000 in Network

In a Telecommunication Management Network (TMN), the M2000 is at the Element Management-layer (EM-layer). It provides a network management interface for the Network Management System (NMS).

3.1.2 shows the position of the M2000 in a mobile network.

Figure 1.2 Position of the M2000 in a mobile network



3.1.3 Managed NEs of M2000

I. Overview

The NE in 3.1.2 can be the E-UTRAN, UTRAN, GBSS, CDMA, CN, uBro, IMS, Wimax and the IP devices.

II. E-UTRAN NEs

eNodeB

IP Clock Server

III. UTRAN NEs

The M2000 manages the following NEs in the Universal Terrestrial Radio Access Network (UTRAN):

Multi-Mode Base Station Controller (BSC6900 UMTS)

NodeB

Radio Network Controller (RNC)

Transmission Gateway (TGW1000)

IP Clock Server

IV. GBSS NEs

The M2000 manages the following NEs in the GSM Base Station Subsystem (GBSS):

Multi-Mode Base Station Controller (BSC6900 GSM)

Base Station Controller (BSC6000)

Base Station Controller (BSC)

Base Station Controller (GT800BSC)

Base Transceiver Station (BTS)

Packet Controlling Unit (PCU35)



V. CDMA NEs

The M2000 manages the following NEs in the CDMA network:

Mobile Switching Center (MSC)

Mobile Switching Center Server (MSC Server)



Media Gateway (MGW)

Packet Data Serving Node (PDSN)

Home Location Register (HLR)

Base Station Controller (BSC)

Base Station Transceiver (BTS)

Radio Access Controller (RAC)

Radio Access Unit (RAU)

Group List Management Server (GLMS)

PoC server

Trunking Switching Center (TSC)

VI. CN NEs

The M2000 manages the following NEs in the Core Network (CN):

Serving GPRS Support Node (SGSN)

Gateway GPRS Support Node (GGSN)

Mobile Switching Center (2G MSC)

Mobile Service Switching Center Server (MSC Server)

Media Gate-Way (MGW)

Home Location Register (HLR36)

Home Location Register (HLR9820)

Home Location Register (HLR-DC)

Home Location Register (HLR-SC)

Charging Gateway (CG)

Shared Interworking Function (SIWF)

Signaling Gateway (SG7000)

VII. uBro NEs

Access Gateway (AG)

AP Home Register (AHR)

IP Clock Server



Authorization, Authentication and Accounting (AAA)

AP management server (APM)

VIII. IMS NEs

Calling Session Control Function (CSCF) (CSC3300)

Convergent Service Engine (CSE) (CSE9600)

Home Subscriber Server (HSS) (HSS9820)

Multimedia Exchange Server (MEDIAX) (MediaX3600)

IP Centrex (IPCTRX) (ETAS9960)

Multimedia Resource Function Controller (MRFC) (MRC6600)

Multimedia Resource Function Processor (MRFP) (MRP6600）

Resource and Policy Control System (RM) (RM9000)

Advanced Telephony Server (ATS) (ATS9900)

Charging Collection Function (CCF) (iCG9815)

Session Border Controller (SBC) (SE2300)

IX. Transmission and other devices

Routers of NE40E series

LAN switches of S series

Firewalls of Eudemon series

IPsec Gateway

Domain Name Server (DNS)

Dynamic Host Configuration Protocol Server (DHCP Server)

NE Bearing ServerThe servers that bear the SG7000, MSC Server and iGWB.

3.1.4 Overview of Trace Server

To support LTE network problem solving, system performance management and FARS function, another server is added to M2000 network, to provide trace data collection and storage for NE, and to provide data access interface for upper OSS system. This server is named Trace Server. The software M2000 Trace Server and NASTAR SAU can run on it.

Trace Server is installed in an independent cabinet, if there are any cabinets having enough space and input power, it can be installed in them too.



Figure 1.3 The position of M2000 Trace Server

3.1.5 M2000 Emergency System Overview

The M2000 emergency system has lower hardware requirements than typical local and remote HA systems. The emergency system is applicable to the M2000 single-server and SLS systems that are based on the Sun platform. The emergency system functions as a backup for the M2000 primary system. It provides basic network management services when the primary system fails to provide services properly. The emergency system and the primary system can be deployed on the same LAN. They can also be deployed on different LANs and in this case they communicate with each other through an IP network.

Figure 1.4 Physical structure of the M2000 emergency system when it backs up N (N ≤

4)M2000 single-server system

The installation of M2000 emergency system based on SUN platform is as same as M2000 single-sytem based on T5220 or M4000/M5000.

3.2 Introduction to M2000

The M2000 system works in the client/server mode.

The M2000 software consists of the client software, server software, and NE mediation



software, which is mutually independent. The client software runs on the client, and the server software and mediation software run on the server.

The hardware of an M2000 client refers to a PC. A M2000 system can have multiple clients and multiple servers. The two servers compose a High Availability (HA) system , and multiple servers compose a SLS system.

In addition to the server and the client, the M2000 system may also include the following equipment as required:

Router

Switch

Timeslot cross-multiplexer

3.3 Physical Structure

3.3.1 Overview Physical Structure

A typical M2000 system includes:

M2000 Server(s)

M2000 Client(s)

M2000 Alarm box

Other networking devices

Using a dial-up server, you can operate and maintain the M2000 system through the Public Switched Telephone Network (PSTN).

3.3.2 Physical Structure of the Single Server System

Figure 3-3 shows the physical structure of the M2000 single server system.

Figure 1.5 M2000 single server system



3.3.3 Physical Structure of the Local HA System

Figure 3-4 shows the physical structure of the M2000 local HA system.

Figure 1.6 M2000 local HA system

Error: Reference source not found describes the devices at the server side.

Devices at the server side (Local HA system)

Device Description

Active server

The active server works as the M2000 system server. It runs the M2000 server software. In conjunction with the standby server, the active server monitors and switches server resources through the Sun Cluster software.

Standby serverThe standby server provides redundancy for the master server. If the resources on the master server work improperly, you can use the Sun Cluster to switch the resources over to the standby server.

Disk arrayThe disk array provides highly available storage space for the master server. If the master server works improperly, the Sun Cluster mounts the disk array on the standby server.

Administration console

The administration console provides the single-point management of the cluster system and databases and handles the faults of the cluster.

.

3.3.4 Physical Structure of the SLS System

Figure 3-5 shows the physical structure of the M2000 SLS system.



Figure 1.7 Physical structure of the M2000 (SLS system)

Error: Reference source not found describes the devices at the server side.

Devices at the server side (SLS system)

Device Description

Master server

The master server acts as the M2000 system server and operates the M2000 server software. If the standby server exists, you can use the VCS scheme to implement the monitoring and switchover of the active and standby servers.

Slave server

The slave server collects and stores performance data. It can distribute the Med process and independently distribute configuration and alarm processes. The addition of slave servers can promote the processing capability of the M2000.If the standby server exists, you can use the VCS scheme to implement the monitoring and switchover of the slave and standby servers.

Standby server

The standby server acts as the redundancy of the master server or the slave server. The standby server uses the VCS scheme to implement the switchover between the active server and the standby server or the switchover between the slave server and the standby server. If the resources monitored by the VCS become abnormal, the standby server automatically takes over the services of the active server. One standby server is configured for the N+1 solution. Tow standby servers are configured for the N+2 solution.

Disk array

If a standby server exists, the disk array provides the active and standby servers with HA storage. If the active server or the standby server becomes abnormal, the VCS mounts the disk array on the standby server. The master and slave servers are inherently equipped with fiber disk arrays. These disk arrays are connected through a fiber switch.



Administration console

The administration console provides the single-point management of the cluster system and databases and handles the faults of the cluster.

3.3.5 Physical Structure of the ATAE Cluster System

Developed on the ATAE platform, the ATAE cluster system allows the deployment of multiple blades to provide powerful management capability.

Consisting of multiple server blades, switching blades, OSS self management unit (OSMU), and disk arrays, the ATAE cluster system has the following features:

High integration

high performance

N:1 redundancy

hardware redundancy

blade plug-and-play

OSMU intelligent management

With the increasing demand of enhanced management capability, users can implement capacity expansion by adding blades. In addition, multiple OSS products, such as the M2000 and the PRS, can be deployed on the ATAE cluster system in a centralized manner. This enables telecom operators to use multiple OSS products at the same time. Figure 3-6 shows the physical structure of the ATAE cluster system.

Figure 1.8 Physical structure of the ATAE cluster system

Error: Reference source not found describes the devices on the server side in the ATAE cluster system.



The typical configuration on the server side takes the scenario where the M2000 and the PRS are both deployed in an ATAE subrack as an example. If only the M2000 is deployed, the blades related to the PRS need not be configured.

Devices at the server side (ATAE Cluster)

Device Description

ATAE subrack

An ATAE subrack can be configured with 14 blades. The typical configurations in the scenario where the M2000 and the PRS are both deployed in an ATAE subrack are as follows:

The OSMU monitors and manages the entire ATAE cluster system and can be accessed through a Web browser.

Two switching blades provide the functions of a switch.

One master service blade, one slave service blade, one standby blade, and one database blade form the M2000 system.

One service blade, one standby blade, and one database blade form the PRS system.

One standby database blade provides the hot backup service for the database blades of the M2000 and the PRS.

Three reserved blades are used for capacity expansion.

Disk arrayOther server blades except the OSMU use the disk array as a storage device.

3.3.6 Physical Structure of the Remote HA System

Using the cluster software, the M2000 makes active and standby servers in different locations constitute a remote HA system. The active and standby servers communicate with each other through the operation and maintenance network and gain access to disk arrays of different groups. Figure 3-7 shows the physical structure of the remote HA system.

Figure 1.9 Physical structure of the remote HA system



Error: Reference source not found describes the devices at the server side in the remote HA system.

Devices at the server side in the remote HA system

Device Description

Server

The active server works as the M2000 system server. It runs the M2000 server software. The servers in the telecommunications rooms I and II monitor and switch server resources through the cluster software.

Disk arrayThe disk array provides highly available storage space for the servers. If the active server works improperly, the cluster software mounts the disk array on the standby server.

3.4 Typical M2000 Server Configuration

3.4.1 M2000

According to managed equivalent NEs, the M2000 server may be:

Sun SE(SPARC Enterprise) T5220

Sun SE(SPARC Enterprise) M4000

Sun SE(SPARC Enterprise) M5000

ATAE system

3.4.2 Trace Server

HP DL580 acts as M2000 Trace Server in M2000 system.

3.4.3 M2000 Emergency System

SUN T5220 or M4000 Server acts as M2000 emergency system and its installation is as same as a M2000 single-system.

3.5 Layout of Cabinet

3.5.1 Sun SE T5220 Single Server & Local Dual Server

M2000 single or HA system composing with T5220 Server only needs one Huawei N610E-22 cabinet. If there is M2000 Trace Server for new project, Trace Server can be installed with T5220 server in one N610E-22 cabinet. But for existent M2000, it recommends that Trace server should be installed in other new cabinet, or any one having enough space and input power.



Figure 1.10 M2000 HA system and Trace Server co-deployed in one cabinet (New project)



Figure 1.11 M2000 HA system and Trace Server deployed in different cabinet (Expansion)

3.5.2 Sun SE M4000&M5000 Single Server

M2000 single system composing with M4000/M5000 Server needs one N610E-22 cabinet, or one SUN rack (It’s not recommended, only for meeting customer’s special requirements, and SUN Rack II 1042 has maxmum 6 AC power inputs.). If there are some IP network devices or M2000 Trace server，another N610E-22 cabinet should be configured.



Figure 1.12 M2000 single system and Trace Server (N610E-22 Cabinet)



Figure 1.13 M2000 single system (SUN cabinet)

3.5.3 Sun SE M4000&M5000 Local HA system

M2000 Local HA system composing with M4000 servers only needs one Huawei N610E-22 cabinet, and with M5000 servers needs two N610E-22 cabinets. If there are some IP network devices such as routers or M2000 Trace server, another N610E-22 cabinet should be added.

In order to meet customer’s specical requirements, M4000/M5000 server have to be installed in SUN rack. One SUN rack II can hold two M4000/M5000 servers, so M2000 local HA system needs one SUN rack and one network cabinet.



Figure 1.14 M2000 HA system with M4000 ( Huawei cabinet , excluding Trace Server)



Figure 1.15 M2000 HA system with M5000 ( Huawei cabinet, excluding Trace server)



Figure 1.16 M2000 HA system with M4000/M5000 ( SUN Rack )

3.5.4 Sun SE M4000/M5000 Remote HA system

It is similar to the two single Server systems at different offices

3.5.5 Sun SE M4000/M5000 SLS System(Huawei cabinet)

Figure 1.17 M2000 SLS system with M4000/M5000 server ( Huawei cabinet)

If there is M2000 Trace Server, it should be installed in network cabinet or another one who has enough space and input power.



3.5.6 Sun SE M4000/M5000 SLS system(SUN RACK)

Figure 1.18 M2000 SLS system with M4000/M5000 ( SUN rack )

If there is M2000 Trace Server, it should be installed in network cabinet or another one which has enough space and input power.

3.5.7 ATAE cluster System

For DC power input, there are two N68E-22 cabinets, one is M2000 ATAE cabinet, and the other is IP network cabinet (optional);

For AC Power input, one N68E-22 cabinet is used to install M2000 ATAE sub rack, another N610E-22 is used as network cabinet (optional).



Figure 1.19 M2000 ATAE System

Chapter 4 Product Instruction of PRS

4.1 PRS Overview

The iManager PRS, developed by Huawei, is a platform for displaying performance reports and analysis data and is integrated with the prime of Huawei's experience on network management. The PRS provides efficient and various methods of storing and displaying data. For ease of network problem localization, the PRS enables users to customize a network monitoring report for monitoring the operational status of the network in real time, and thus meeting operators' requirements for various, timely, and quick services.



4.2 The deployment of the PRS

There are three scenarios about the deployment of the PRS.

PRS server (PC server) is installed in a independent N610E-22 cabinet;

PRS server (PC server) is installed in any M2000/NASTAR/Trace Server cabinets which have enough space and input power.

PRS software is deployed on ATAE board, which is installed in ATAE sub rack in M2000 cabinet.

4.3 Physical structure

The PRS is composed of the server and the client. Currently, all the services are deployed on one server, and multiple clients can be deployed in the system.

Figure 4-1 shows the hardware architecture of the PRS.

Figure 1.20 Hardware Architecture of the PRS

4.4 Typical configuration

The PRS server may be:

HP DL580 G7

HP DL785

HP DL980

ATAE system

Typical PRS server Configurations are following:



Typical configuration of PRS server (HP)

Item HP DL580 G7 HP DL785 HP DL580 G7

Number of CPUs

6*E7540 6c2.0GHz or faster

8×2.8GHz AMD 8439 SE


Main frequency of the CPU (GHz)

2.0GHz 2.8GHz 2.0GHz

Memory (GB) 32G(8*4G) 64G 64G(16*4G)

Hard disk 8×146GB/300GB 2×146GB/300GB 2×300GB

Disk array (GB)

NoneS2600 （12×450GB）

S2600（12×450GB）

Accessories

DVDRW/ LTO4 Tape driver/Ethernet adapter/English documentation

DVD/ Ethernet adapter/English documentation /Tape Driver LTO4


Operating system

SUSE Linux Enterprise Server 10/ English documentation

Novell SuSE LINUX Enterprise Server -v10.0 -for x86-32/64


DatabaseOracle Database Standard Edition 11g

Oracle Database Standard Edition 11g


Application software

PRS Server application software

Recommended hardware configuration of the PRS

Configuration Object Configuration Requirement

Client of the PRS

Client type: common PC

CPU: Pentium IV, 1.8 GHz or faster

Memory: 1GB

Hard disk: 80 GB

Attachment: DVD-RW/Network adapter/17" LCD display



4.5 Layout of cabinet

4.5.1 HP DL580 G7

Only one N610E-22 cabinet is needed for the HP DL580 server, it can be shared with the M2000 device or be occupied alone by the HP DL 580. Because DL580 has no disk array, maxmum 3 DL580 severs can be installed in one N610E-22 cabinet.

4.5.2 HP DL785/DL980

Only one N610E-22 cabinet is needed for the HP DL785 or DL980 server, it can be shared with the M2000 device or be occupied alone by the HP DL 785.

DL785 and DL980 has S2600 and D120S (optional) disk arrays, so one N610E-22 cabinet only can hold one DL980 and its disk arrays,or DL785 and its disk arrays.

Chapter 5 Product Instruction of NASTAR

5.1 NASTAR Overview

The NASTAR (hereinafter referred to as NASTAR) is a system that performs localization and analysis of quality-related problems on the radio network, for example, GSM/GNASTAR/EDGE, CDMA/1xDO/EVDO, and UMTS/HSUPA/HSDPA. This system supports multi-user operations and multiple types of radio performance analysis. It provides a basic supporting platform for thorough radio network analysis and problem localization.

5.2 The deployment of the NASTAR

NASTAR can be deployed in two situations:

NASTAR server is located in M2000/PRS/DAMS/VNP cabinet which has enough space and input power.

NASTAR server is located in unique cabinet.


The NASTAR is composed of the server and the client. Currently, all the services are deployed on one server, and multiple clients can be deployed in the system.



Figure 1.21 Hardware Architecture of the NASTAR


The NASTAR server may be:

HP DL580 G7

HP DL785

HP DL980

Typical NASTAR Server Configurations are following:

Typical configuration of NASTAR server (HP)

Item HP DL580 G7 HP DL785 HP DL980 G7

Number of CPUs


8×2.8GHz AMD 8439 SE



2.0GHz 2.8GHz 2.0GHz

Memory (GB) 32G(8*4G) 64G 64G(16*4G)

Hard disk 8×146GB/300GB 2×146GB/300GB 2×300GB

Disk array (GB)

NoneS2600 （12×450GB） S2600 (12×450GB)



Accessories


DVD/ Ethernet adapter/English documentation /Tape Driver LTO4


Operating system


Novell SuSE LINUX Enterprise Server -v10.0 -for x86-32/64


DatabaseOracle Database Standard Edition 11g




NASTAR Server application software

Recommended hardware configuration of the NASTAR client


Client of the NASTAR



Memory: 1GB

Hard disk: 80 GB



5.5.1 HP DL580 G7

Only one N610E-22 cabinet is needed for the HP DL580 server, it can be shared with the M2000 device or be occupied alone by the HP DL 580. Because DL580 has no disk array, maxmum 3 DL580 severs can be installed in one N610E-22 cabinet.

5.5.2 HP DL785/DL980

Only one N610E-22 cabinet is needed for the HP DL785 or DL980 server, it can be shared with the M2000 device or be occupied alone by the HP DL 785.

DL785 and DL980 has S2600 and D120S (optional) disk arrays, so one N610E-22 cabinet only can hold one DL980 and its disk arrays,or DL785 and its disk arrays.



Chapter 6 Product Instruction of DAMS

6.1 DAMS Overview

iManager DAMS provides the wireless network parameters solution, which support GSM,UMTS and TD-SCDMA. DAMS can map NE parameters of different versions to the same parameters, it makes the differences between versions transparent for users, finally improves the parameters management efficiency.

6.2 The deployment of the DAMS

DAMS can be deployed in two situations:

DAMS server is located in M2000/PRS/VNP cabinets which have enough space and input power.

DAMS server is located in unique cabinet.


The DAMS is composed of the server and the client. Currently, all the services are deployed on one server, and multiple clients can be deployed in the system.

Figure 1.22 Hardware Architecture of the DAMS


The DAMS server may be HP DL580, which typical server configuration as following:



Typical configuration of DAMS server (HP)

Item HP DL580 G7

Number of CPUs 6*E7540 6c2.0GHz or faster


2.0GHz

Memory (GB) 32G(8*4G)

Hard disk 8×146GB/300GB（RAID5）

Disk array (GB) None

Accessories DVD/ LTO4 Tape driver/Ethernet adapter/English documentation

Operating system SUSE Linux Enterprise Server 10/ English documentation

Database Oracle Database Standard Edition 11g


DAMS Server application software

Recommended hardware configuration of the DAMS


Client of the DAMS



Memory: 1GB

Hard disk: 80 GB



6.5.1 HP DL580 G7

Only one N610E-22 cabinet is needed for the HP DL580 server, it can be shared with the M2000 (only for T5220)/PRS/M2000 Trace Server device or be occupied alone by the HP DL 580.

Maxmum 3 DL580 servers can be installed in one N610E-22 cabinet.



Chapter 7 Product Instruction of VNP

7.1 VNP Overview

The Vendor Network Probe (VNP) is an MS event report system provided by Huawei for Vodafone. The VNP is applicable only to the GSM network and is not controlled by license.

7.2 The deployment of the VNP

VNP server can be deployed in two situations:

VNP server is located in M2000 Trace server/PRS/NASTAR cabinet which has enough space and input power.

VNP server is located in unique cabinet.


The VNP works as a standalone server without client. The server takes the responsibility of receiving and reporting NE events and UID synchronizing, which is a real-time message processing system.

VNP CU

M2000 BSC(OMU)

VNP

Interface 1 Interface 2

Interface 4 Interface 3

Figure 1.23 Hardware Architecture of the VNP




The VNP server may be HP DL580, which typical server configuration as following:

Typical configuration of VNP server (HP)

Item HP DL580 G7

Number of CPUs 6*E7540 6c2.0GHz or faster


2.0GHz

Memory (GB) 32G(8*4G)

Hard disk 8×146GB/300GB（RAID5）

Disk array (GB) None

Accessories DVD/ LTO4 Tape driver/Ethernet adapter/English documentation

Operating system SUSE Linux Enterprise Server 10/ English documentation

Database None


VNP Server application software

Recommended hardware configuration of the VNP Client


Client of the VNP



Memory: 1GB

Hard disk: 80 GB



7.5.1 HP DL580 G7

Only one N610E-22 cabinet is needed for the HP DL580 server, it can be shared with the PRS/NASTAR/M2000 Trace Server device or be occupied alone by the HP DL 580.



Chapter 8 Physical and Electric Indexes

8.1 Engineering Specifications of M2000

The engineering specifications include size, weight, power input range and power consumption.

8.1.1 The specifications of M2000 servers and cabinets

The Specifications of SUN servers and cabinets

Item Specifications

Server model Sun SE T5220 Sun SE M4000 Sun SE M5000

Server dimensions

(W × D × H)

425 mm x 714 mm x 88 mm

444 mm x 810 mm x 263 mm

444 mm x 810 mm x 440 mm

Server weight 23.58 kg 84 kg 125 kg

Cabinet N610E-22N610E-22

Sun Rack 1000-42

N610E-22

Sun Rack 1000-42

Cabinet dimensions

(W × D × H)

600 mm × 1000 mm × 2200 mm

N610E-22: 600 mm × 1000 mm × 2200 mm

Sun Rack 1000-42: 600mm x 1000mm x 2057mm

N610E-22: 600 mm × 1000 mm × 2200 mm

Sun Rack 1000-42: 600mm x 1000mm x 2057mm

Server Power input (V)AC: 220 (200 to 240), 2-ways inputs

AC: 220 (200 to 240), 2-ways inputs

AC: 220 (200 to 240)

4-ways inputs

The Specifications of ATAE servers and cabinets

Item Specifications

Subrack model AT8223 / AT 8261

Subrack dimensions (W x D x H)

436 mm x 619.5 mm x 450 mm

Subrack weight (kg) 127kg (full configuration)

Subrack power consumption

2250W (full configuration)

Cabinet N68E-22



Item Specifications

Cabinet dimensions (W x D x H)

600 mm x 800 mm x 2,200 mm

Server Power input (V)-48 VDC(-40 VDC～-57 VDC), 4-ways inputs

220 VAC(90 VAC～260 VDC), 4-ways inputs

8.1.2 The specifications of Trace Server and cabinet

Item Specifications

Server model HP DL580 G7

Server dimensions (W x D x H)

483mm x 700mm x 176mm

Server weight (kg) 45.4kg

Cabinet N610E-22


2200mm x600mm x1000mm

Server Power input (V) 220V AC(90V～260V),4-ways inputs

8.2 PRS Server Engineering Specifications

8.2.1 The specifications of PRS server and cabinet

Item Specifications

Server model HP DL580 G7 HP DL785 HP DL980 G7


483mm x 700mm x 176mm

440mm x 696mm x 305.8mm

483mm x 876mm x 354mm

Server weight (kg)

45.4kg 72kg 75~93kg

Cabinet N610E-22 N610E-22 N610E-22


600mm x 1000mm x 2200mm

600mm x 1000mm x 2200mm

600mm x 1000mm x 2200mm

Server Power input (V)

220V AC(90V～260V),4-ways inputs

110V AC（90V～132V）/

220V AC(200V～240V)，6-ways inputs




8.3 NASTAR Server Engineering Specifications

8.3.1 The specifications of NASTAR server and cabinet

Item Specifications

Server model HP DL580 G7 HP DL785 HP DL980 G7


483mm x 700mm x 176mm

440mm x 696mm x 305.8mm

483mm x 876mm x 354mm

Server weight (kg)

45.4kg 72kg 75~93kg

Cabinet N610E-22 N610E-22 N610E-22


600mm x 1000mm x 2200mm

600mm x 1000mm x 2200mm

600mm x 1000mm x 2200mm

Server Power input (V)


110V AC（90V～132V）/

220V AC(200V～240V)，6-ways inputs


8.4 DAMS Server Engineering Specifications

8.4.1 The specifications of DAMS server and cabinet

Item Specifications


Server dimensions (W x D x H) 483mm x 700mm x 176mm


Cabinet N610E-22

Cabinet dimensions (W x D x H) 2200mm x600mm x1000mm




8.5 VNP Server Engineering Specifications

8.5.1 The specifications of VNP servers and cabinets

Item Specifications



483mm x 700mm x 176mm


Cabinet N610E-22


2200mm x600mm x1000mm


8.6 Power consumption of all the equipment

Equipment Weight (kg)Power

consumption(W)

M2000 Clent

HP Compaq DC7900(without display device)

11.89

365

Sun Netra 24018.6 DC: 570

AC: 550

Sun Fire V890 130.6 3200

Sun Fire E4900 131.1 4180

Sun SE(Sparc Enterprise ) T5220 23.6 795

Sun SE(Sparc Enterprise ) M4000 84 2350

Sun SE(Sparc Enterprise ) M5000 125 4590

HP rx2660 28 798

HP rx7640 101.6 2128

HP DL580 (G5 and G7) 45.4 1300

HP DL785 72 1237

HP DL980 75~93 4200

HP DL380G5 27.2 1000



ATAE subrack (full configuration) 127 2250

ATAE front board 170

ATAE back board 14.2

ATAE front switching board 80

ATAE back switching board 15

Quidway AR46-20 18 86

Quidway AR46-80 28 213

Quidway AR28-10/AR28-11 60

Quidway S2016HI 12

Quidway S3928EI 3.5 40

Quidway S3328TP 2.5 20

Quidway S5328C 7.8 60

Quidway S5624 7.5 170

Bracade 200E 4.9 70

SilkWorm 4140 210

KVM

13.4 AC(120V): 25

AC(230V):54.6

DC:75

Mercury 3600 3 20

StorageTek 6140 40 800

OceanStor S3100/S3200 39.5 446

Tape library: Scalar 24 30.2 76

Tape driver: Sun StorageTek 1U 9.07 140

Tape Array 5300 23 192

StorEdge D240 22.68 130

N68E-22 100

N610E-22 120

Sun Rack 900 380

Sun Rack 1000 375



Chapter 9 Equipment Room Environment

9.1 Storage Requirements

The M2000 and PRS has storage requirements in terms of the climate, waterproof condition, biological environment, air purity, and mechanical stress.

9.1.1 Climatic Requirements

9.1.1 lists the climatic requirements for the equipment storage.

Climatic requirements for the equipment storage

Item Range

Altitude ≤ 5,000 m

Air pressure 70 kPa to 106 kPa

Temperature 0 to +40℃ ℃

Temperature change rate ≤ 1 /min ℃

Relative humidity (%) 10% to 100%

Solar radiation (W/s2) ≤ 1,120

Heat radiation (W/s2) ≤ 600

Wind speed ≤ 30 m/s

9.1.2 Waterproof Requirements

9.1.2 lists waterproof requirements for the equipment storage.

Waterproof requirements

If... Requirements

The equipment is stored in a room

No water accumulates on the ground or falls on the package.

The equipment is kept away from water sources such as a hydrant and air-conditioner.



The equipment is placed outdoors

Ensure that:

The package is intact.

Waterproof measures are applied to prevent entry of water.

No water accumulates on the ground or falls on the package.

The package is not exposed directly to sunlight.

9.1.3 Biological Requirements

Ensure that the place for equipment storage is free from:

Fungus or mildew

Rodents

9.1.4 Air Purity Requirements

The air must be free of explosive, conductive, magnetic conductive or corrosive dust.

The density of physically active materials must comply with the requirements listed in 9.1.4.

Storage requirements for physically active materials

Physically active material Unit Density

Suspended dust mg/m3 ≤ 5.00

Falling dust mg/m2・h ≤ 20.0

Sand mg/m3 ≤ 300

NOTE:

Suspended dust: Diameter ≤ 75 μm

Falling dust: 75 μm ≤ Diameter ≤ 150 μm

Sand: 150 μm ≤ Diameter ≤ 1000 μm

The density of chemically active materials must comply with the requirements listed in 9.1.4

Storage requirements for chemically active materials

Chemically active Material Unit Density

SO2 mg/m3 ≤ 0.30

H2S mg/m3 ≤ 0.10



NO2 mg/m3 ≤ 0.50

NH3 mg/m3 ≤ 1.00

Cl2 mg/m3 ≤ 0.10

HCL mg/m3 ≤ 0.10

HF mg/m3 ≤ 0.01

O3 mg/m3 ≤ 0.05

9.1.5 Mechanical Stress Requirements

9.1.5 lists the mechanical stress that the equipment can endure during the storage.

Storage requirements related to mechanical stress

Item Sub-item Range

Sinusoidal vibration

Offset (mm) ≤ 7.0 None

Accelerated speed (m/s2) None ≤ 20.0

Frequency range (Hz) 2 to 9 9 to 200

Unsteady impactImpact response spectrum II (m/s2) ≤ 250

Static payload (kPa) ≤ 5

NOTE:

Impact response spectrum: The maximum acceleration response curve generated by the equipment under specified impact excitation. Impact response spectrum II means that the duration of semi-sine impact response spectrum is 6 ms.

Static payload: The capability of the equipment to bear the pressure from the top when it is packed in the normal pile-up method.

9.2 Transportation Requirements

The M2000 and PRS have transportation requirements in terms of the climate, waterproof condition, biological environment, air purity, and mechanical stress.


9.2.1 lists the climatic requirements for the transportation of the equipment.

Climatic requirements for transporting the equipment

Item Range




Air pressure 70 kPa to 106 kPa

Temperature 0 to +40℃ ℃

Temperature change rate ( /min)℃ ≤ 3

Humidity (%) 5% to 100%

Solar radiation (W/s2) ≤ 1,120

Heat radiation (W/s2) ≤ 600


9.2.2 Waterproof Requirements

Before transporting the equipment, make sure that:

The package is intact.

Waterproof measures are adopted to prevent entry of water.

There is no water in the vehicle used for transporting.


Make sure that the vehicle is free from:

Fungus or mildew

Rodents


The air must be free of explosive, conductive, magnetic conductive or corrosive dust.


Requirements for physically active materials in the transportation environment

Physically active material Unit Density

Suspended dust mg/m3 -

Falling dust mg/m2・h ≤ 3.0

Sand mg/m3 ≤ 100



NOTE:

Suspended dust: Diameter ≤ 75 μm

Falling dust: 75 μm ≤ Diameter ≤ 150 μm

Sand: 150 μm ≤ Diameter ≤ 1000 μm

The density of chemically active materials must comply with the requirements listed in 9.2.4.

Transportation requirements for physically active materials

Chemically active material Unit Density

SO2 mg/m3 ≤ 0.30

H2S mg/m3 ≤ 0.10

NO2 mg/m3 ≤ 0.50

NH3 mg/m3 ≤ 1.00

Cl2 mg/m3 ≤ 0.10

HCL mg/m3 ≤ 0.10

HF mg/m3 ≤ 0.01

O3 mg/m3 ≤ 0.05


9.2.5 lists the mechanical stress that the equipment can endure during the transportation.

Transportation requirements related to mechanical stress

Item Sub-item Range

Sinusoidal vibration

Offset (mm) ≤ 7.5 - -

Accelerated speed (m/s2) - ≤ 20.0 ≤ 40.0

Frequency range (Hz) 2 to 9 9 to 200200 to 500

Random vibration

Spectrum density of accelerated speed (m2/s3)

10 3 1

Frequency range (Hz) 2 to 9 9 to 200200 to 500

Unsteady impact

Impact response spectrum II (m/s2)

≤ 300

Static payload (kPa) ≤ 10



NOTE:



9.3 Working Environment Requirements

The M2000 and PRS have working environment requirements in terms of the climate, waterproof condition, biological environment, air purity, and mechanical stress.


9.3.1 and 9.3.1 list the climatic requirements for the operation of the equipment.

Temperature and humidity requirements for the operation

Temperature ( )℃ Relative humidity (%)

Normal Safe Normal Safe

15 to 30℃ ℃ 0 to +40℃ ℃ 20% to 80% 20% to 90%

NOTE:

The values are measured 1.5 m [59 ft]above the floor and 0.4 m [15.7 ft] in front of the equipment, without protective panels in front of or behind the cabinet.

Safe operation refers to continuous operation for no more than 48 hours or accumulated operation of no more than 15 days in a year.

Other climatic requirements for the operation

Item Range


Air pressure (kPa) 70 to 106

Temperature change rate ≤ 3 /min℃

Solar radiation (W/m2) ≤ 700

Heat radiation (W/m2) ≤ 600





Make sure that the place for storing the equipment is free from:

Fungus or mildew

Rodents


The air must be free of explosive, conductive, magnetic, conductive, or corrosive dust.


Operation requirements for physically active materials

Physically active material

Unit Density

Dust particles Particles/m3 ≤ 3 x 104(Visible dust must not accumulate on the desktop within three days.)

NOTE:

Dust particles: Diameter ≥ 5 μm

The density of chemically active materials must comply with the requirements listed in 9.3.3.

Operation requirements for chemically active materials

Chemically active material Unit Density

SO2 mg/m3 ≤ 0.20

H2S mg/m3 ≤ 0.006

NH3 mg/m3 ≤ 0.05

Cl2 mg/m3 ≤ 0.01


9.3.4 lists the mechanical stress that the equipment can endure during its operation.

Operation requirements related to mechanical stress

Item Sub-item Range

Sinusoidal vibration Offset (mm) ≤ 3.5 -

Accelerated speed (m/s2) - ≤ 10.0



Frequency range (Hz) 2 to 9 9 to 200

Unsteady impactImpact response spectrum II (m/s2) ≤ 100

Static payload 0

NOTE:





Chapter 10 Arrangement Principles

To make the system of M2000 and PRS run stably, we provide you the reference of arrangement principles according to national standard and our actual experience.

10.1 Common arrangement principles:

Main passage ≥ 1500mm, secondary passage ≥ 800 mm.

Expansion positions in the future should be reserved.

Cabling should be rational. Collision between AC, DC power and signal cables should be avoided.

Rational design, feasible installation, and aesthetic layout should be taken into consideration.

10.2 The space requirement of the N68E-22 and N610E-22 cabinet

Sidewall

Face of the cabinets

Back of the cabinets

Front wall

≥800mm

≥ 1000mm

≥ 1000mm

≥ 1000mm

Back wall



Figure 1.24 The Space requirements of Huawei cabinets



Note

1. The front of the first cabinet row shall be at least 1000 mm (better not less than 1200 mm) to the wall.2. The back of the last cabinet row shall be at least 1000 mm to the wall.3. The side of the cabinet shall be at leat 800 mm to the wall.4. There shall be at least 800 mm (better not less than 1000 mm) between two cabinet rows.

10.3 The space requirement of the SUN cabinetSide

wall



Front wall

Back wall



≥ 1200mm

≥ 1000mm ≥ 800mm

≥ 1200mm

Figure 1.25 The space requirements of SUN racks.



Chapter 11 External Cables

The external cables of M2000 and PRS include alarm cable, network cable, power cable, grounding cable and trunk cable for PCM cross-multiplex networking. See the following table for the exact needs of them:

External cables and connectors

Cable name

Cable type

Leading-out position Lead-in positionCabling modeEquipment

nameConnector

typeEquipment

nameConnector

type

E1 trunk cable

SYFVZP75-1-1

Mercury 3600

BNC

DDFProvided by customer

Upward cabling Downward cabling

Router BNC

120 ohm

Mercury 3600

RJ45

Router DB15

Network cable

Standard Category-5 network cable

Lanswitch RJ45 Lanswitch/Router RJ45


Alarm cable

Alarm cableM2000 Client

RS232 serial port

GM12 alarm box RJ45

DC Power supply cable

Power busbar PDFOT terminal

Power DC distributor

Provided by customer


Grounding cable

PDFOT terminal

Indoor grounding bar



Power distribution cable

PDFOT terminal

N68E-22 DC Cabinet

Cold end terminal


AC Power Supply Cable

AC Power Supply Cable

N68E-22 AC Cabinet

N610E-22 Cabinet

Cold end terminal

Power AC distributor



External cables provided by customers:



Power bus cable: It is provided by customers and connected to the copper bus bar on the PDF supplied by Huawei.

Protection grounding bus cable: It is provided by customers and connected to the PGND bar on the PDF supplied by Huawei.

Trunk cable on the transmission equipment side: It is provided by customers and is connected to the DDF on the switching side.

Important note: Practical division of work with individual responsibility is determined by the engineering interface defined in the commercial contract.



Chapter 12 Cabling Rack and Support

12.1 Cabling Rack

The M2000 and PRS support upward cabling and downward cabling. When the upward cabling mode is adopted, we suggest:

To use suspender

Cabling rack width: 400mm , and installation height: 2400mm

12.2 Support

Huawei provides the Support[by default]. Customers need to give the height of antistatic floor in the equipment room so that a base with the related height can be installed. [Note: The height of floor refers to the distance between the upper surface of the antistatic floor and the cement flooring]

12.2.1 Installing an N68E-22 Cabinet on the Cement Floor

The N68E-22 cabinet is installed on cement floor, fastened with expansion bolt. You need to arrange the available space before installing cabinet. Enough space should be left at the front and back doors for maintenance. There must be 800mm space around the N68E-22 cabinet. 12.2.1 shows the mounting holes of expansion bolts.

Figure 1.26 Mounting holes of expansion bolts for N68E-22 cabinet



12.2.2 Installing an N610E-22 Cabinet on the Cement Floor

The N610E-22 cabinet is installed on cement floor, fastened with expansion bolt. You need to arrange the available space before installing cabinet. Enough space should be left at the front and back doors for maintenance. There must be 800mm space around the N610E-22 cabinet.

Figure 1.27 Mounting holes of expansion bolts for N610E-22 cabinet

12.2.3 Installing an N68E-22 Cabinet on the Antistatic Floor

Install N68E-22 cabinet support N6X series in the equipment room paved with anti-static floor. Each cabinet needs two supports and a support cannot be shared by two adjacent cabinets. Each cabinet needs 2 N6X supports. When cabinets are combined, the 2N mode of supports are used, that is, 2N supports for N cabinets.

Among N6X family, two members are height-adjustable and one member’s height is fixedly configured. See the 12.2.3 for the detail information.

Height of N6X support series

Components Applicable

antistatic floor height (mm)

Remarks

I 296–465 It can be adjusted in this range.

IILess than 295 or

more than 465

These are fixed height support and need to make a customization. the height can not be adjusted; You should measure the height of antistatic floor in field and filled it in the Survey Report.

Notes: The error value of the height should

less than ±5mm。

Notes ： Floor height is the distance from upper plan of antistatic to cement floor.



For exact support installation, see the installation manual.

Install N6X support according to the size of construction design layout. 12.2.3 shows the mounting holes of the supports

Figure 1.28 Mounting holes of the supports for N68E-22 cabinet

12.2.4 Installing an N610E-22 Cabinet on the Antistatic Floor

Install N610E-22 cabinet support N6X series in the equipment room paved with anti-static floor. Each cabinet needs two supports and a support cannot be shared by two adjacent cabinets. Each cabinet needs 2 N6X supports. When cabinets are combined, the 2N mode of supports are used, that is, 2N supports for N cabinets.

Among N6X family, two members are height-adjustable and one member’s height is fixedly configured. See the 12.2.3 for the detail information.

Figure 1.29 Mounting holes of the supports for one cabinet for N610E-22 cabinet



12.2.5 Installing an Sun Cabinet on the Antistatic Floor

Before installing a SUN cabinet on the antistatic floor in the equipment room, you must install Huawei-customized supports. The SUN rack is installed on Huawei-customized supports.



Chapter 13 Air Conditioning

Attachment: Air conditioning capacity calculation

The capacity of air conditioner depends on:

1. Area of the equipment room

2. Heat generated by the equipment (Qe)

The refrigeration value of air conditioner (approximately): 250W/m2 – 300W/m2 of the area of the equipment room.

Note: This value should be varied with countries. If the temperature is too high in some region, the value should be larger.

The refrigeration value of air conditioner (exact calculation) = (Qe + Qt) × 1.2 (considering an allowance of 20%)

Heat generated by the equipment: Qe = 0.82 × V × A

Q: Heat (kilocalorie/ hour)

V: DC power voltage (V)

A: mean current of the running equipment (A)

0.82 = 0.86 (coefficient for conversion from a watt of electric energy into heat energy) x 0.95 (coefficient for conversion from electricity into heat energy)

Heat transmitted in the equipment room: Qt = F*(Tout–Tin) ×λ/h

Q: heat generated (W)

F: area of heat transmission (m2)

Tout: local highest outdoor temperature ( )℃

Tin: required indoor temperature ( )℃

λ: coefficient of wall heat-conduction (brick structure: λ= 0.87; concrete structure: λ=0.79)

h: Thickness of the wall (m)

Here, the conversion between units:

1kW = 860 kilocalories

The actual capacity of air conditioner must be calculated based on the area of equipment room and the heat quantity of equipment. For the calculation method, see the related engineering design specifications.


Documents

85446716 Customer Preparation Guide to iManager M2000 and PRS NASTAR VNP Installation 20110425 B 5 24