SJ-20100510160815-010-ZXSDR BTS&Node B (V4[1].09.21) LMT Operation Guide
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Transcript of SJ-20100510160815-010-ZXSDR BTS&Node B (V4[1].09.21) LMT Operation Guide
ZXSDR BTS/Node BGSM/UMTS Base Station
Local Maintenance Terminal Operation Guide
Version 4.09.21
ZTE CORPORATIONNO. 55, Hi-tech Road South, ShenZhen, P.R.ChinaPostcode: 518057Tel: +86-755-26771900Fax: +86-755-26770801URL: http://ensupport.zte.com.cnE-mail: [email protected]
LEGAL INFORMATIONCopyright © 2011 ZTE CORPORATION.
The contents of this document are protected by copyright laws and international treaties. Any reproduction or
distribution of this document or any portion of this document, in any form by any means, without the prior written
consent of ZTE CORPORATION is prohibited. Additionally, the contents of this document are protected by
contractual confidentiality obligations.
All company, brand and product names are trade or service marks, or registered trade or service marks, of ZTE
CORPORATION or of their respective owners.
This document is provided “as is”, and all express, implied, or statutory warranties, representations or conditions
are disclaimed, including without limitation any implied warranty of merchantability, fitness for a particular purpose,
title or non-infringement. ZTE CORPORATION and its licensors shall not be liable for damages resulting from the
use of or reliance on the information contained herein.
ZTE CORPORATION or its licensors may have current or pending intellectual property rights or applications
covering the subject matter of this document. Except as expressly provided in any written license between ZTE
CORPORATION and its licensee, the user of this document shall not acquire any license to the subject matter
herein.
ZTE CORPORATION reserves the right to upgrade or make technical change to this product without further notice.
Users may visit ZTE technical support website http://ensupport.zte.com.cn to inquire related information.
The ultimate right to interpret this product resides in ZTE CORPORATION.
Revision History
Revision No. Revision Date Revision Reason
R1.0 2010–06–09 The First Edition (V4.09.21.01)
R2.0 2010–08–03 The Second Edition (V4.09.21.02) (1. Configuring Ethernet
OAM Parameter, Configuring User Plane Bearer, Configuring RF
Receiving Extended Connection, Configuring Duplex Carrier Cell
Relationship, Configuring GSM multi-carrier combination have
been added. 2. All figures have been modified due to version
updating.)
R3.0 2010–11–08 The Third Edition (V4.09.21.05) (1. Visit LMT via LMT
Start,Configuring Local Switch, Configuring Ethernet Switching
Device and Configuring Divide the Vlan Group of Ethernet
Switching have been added. 2. All figures have been modified
due to version updating. )
R4.0 2011–01–27 The Fourth Edition (V4.09.21.08)(1. Configuring Serial Port Cable
has been added. 2. All figures have been modified due to version
updating. )
Serial Number: SJ-20100510160815-010
Publishing Date: 2011–01–27(R4.0)
ContentsPreface............................................................................................................. I
Chapter 1 Software Overview.................................................................... 1-11.1 LMT Software Overview...................................................................................... 1-1
1.2 Version Overview ............................................................................................... 1-1
1.3 LMT Application Scenario ................................................................................... 1-1
1.4 LMT Subsystem Overview .................................................................................. 1-1
Chapter 2 Operation Environment Requirement ..................................... 2-12.1 Hardware Environment ....................................................................................... 2-1
2.2 Software Environment ........................................................................................ 2-1
Chapter 3 LMT Software Installation ........................................................ 3-13.1 Visit LMT via LMT Start....................................................................................... 3-1
Chapter 4 BS Commissioning Flow.......................................................... 4-14.1 BS Commissioning Flow ..................................................................................... 4-1
4.2 Base Station Configuration Example.................................................................... 4-1
Chapter 5 EOMS-Offline Configuration .................................................... 5-15.1 Offline Configuration Overview ............................................................................ 5-1
5.2 Logging on EOMS in Offline Mode....................................................................... 5-1
5.3 Base Station Configuration ................................................................................. 5-5
5.3.1 Configuring Rack and Board ..................................................................... 5-5
5.3.2 Configuring Radio Model .......................................................................... 5-7
5.3.3 Configuring Basic Attributes of Base Station .............................................. 5-8
5.3.4 Configuring Clock Reference Priority ......................................................... 5-9
5.4 Ground Resource Management ........................................................................ 5-10
5.4.1 Configuring Environment Monitoring ........................................................ 5-10
5.4.2 Configuring TAC Management ................................................................ 5-12
5.4.3 Configuring TMA Feeder......................................................................... 5-14
5.4.4 Configuring Rack Topology ..................................................................... 5-16
5.4.5 Configuring AISG Device ........................................................................ 5-17
5.4.6 Configuring Dry Contact.......................................................................... 5-19
5.4.7 Configuring IP Clock Reference Source ................................................... 5-21
5.4.8 Configuring Embedded Power Equipment................................................ 5-22
5.4.9 Configuring Local Switch ........................................................................ 5-23
5.4.10 Configuring TAM Control Parameter ...................................................... 5-25
I
5.4.11 Configuring Ethernet Switching Device................................................... 5-26
5.4.12 Configuring Divide the Vlan Group of Ethernet Switching ........................ 5-28
5.4.13 Configuring Serial Port Cable ................................................................ 5-29
5.5 Transmission Resource Management ................................................................ 5-31
5.5.1 Overview of Full IP Transmission Configuration ....................................... 5-31
5.5.2 Overview of ATM Transmission Configuration .......................................... 5-31
5.5.3 Physical Media Configuration .................................................................. 5-32
5.5.4 IP Transmission ..................................................................................... 5-35
5.5.5 ATM transmission Configuration .............................................................. 5-48
5.5.6 Mixed Bearing Configuration ................................................................... 5-57
5.5.7 Iub Channel Maintenance ....................................................................... 5-59
5.6 Wireless Resource Management....................................................................... 5-64
5.6.1 Configuring RF Receiving Extended Connection ...................................... 5-64
5.6.2 Operator Configuration ........................................................................... 5-65
5.6.3 UMTS Cell Configuration ........................................................................ 5-67
5.6.4 GSM Cell Configuration .......................................................................... 5-74
5.7 Saving Offline Configuration Data...................................................................... 5-80
Chapter 6 EOMS-Online Configuration .................................................... 6-16.1 Online Configuration Overview............................................................................ 6-1
6.2 Logging in Base Station ...................................................................................... 6-1
6.3 Overview of Online Configuration Operations ....................................................... 6-5
6.4 AISG Device Scan.............................................................................................. 6-5
6.5 AISG Device Operations..................................................................................... 6-7
6.6 Software Management........................................................................................ 6-8
6.6.1 Software Management Operations ............................................................ 6-8
6.6.2 Upgrading base station Software............................................................... 6-8
6.7 A Guide to EOMS Quick Update.........................................................................6-11
Chapter 7 EOMS-General Operations and Realtime View ...................... 7-17.1 Logging Out ....................................................................................................... 7-1
7.2 Modifying Password ........................................................................................... 7-1
7.3 Log Management ............................................................................................... 7-2
7.3.1 Viewing Log ............................................................................................. 7-2
7.3.2 Exporting Log........................................................................................... 7-3
7.3.3 Clearing Log ............................................................................................ 7-4
7.4 BS Configuration Data Management.................................................................... 7-5
7.4.1 Synchronizing Configuration Data to BS .................................................... 7-5
7.4.2 Exporting Configuration Data .................................................................... 7-6
II
7.5 Viewing LMT Software Version............................................................................ 7-7
7.6 Realtime View.................................................................................................... 7-7
7.6.1 Viewing Cell Information ........................................................................... 7-7
7.6.2 Viewing UE Configuration Information........................................................ 7-8
Chapter 8 EDMS.......................................................................................... 8-18.1 EDMS Subsystem Overview ............................................................................... 8-1
8.2 Starting EDMS Subsystem.................................................................................. 8-1
8.3 Observe Signaling .............................................................................................. 8-2
8.3.1 Trace NBAP Signaling .............................................................................. 8-2
8.3.2 Trace SSCOP Signaling ........................................................................... 8-4
8.3.3 Trace ALCAP Signaling ............................................................................ 8-6
8.3.4 Trace SCTP Signaling .............................................................................. 8-8
8.3.5 Trace PPP Signaling .............................................................................. 8-10
8.4 System Monitor ................................................................................................ 8-12
8.4.1 View CPU&RAM Usage Rate.................................................................. 8-12
8.4.2 View VME Running Information............................................................... 8-13
8.5 Diagnosis Query .............................................................................................. 8-14
8.5.1 Query Common Physical Channel ........................................................... 8-14
8.5.2 Query Common Transport Channel ......................................................... 8-15
8.5.3 Board Link State Test ............................................................................. 8-16
8.5.4 Checking Base Station Health................................................................. 8-17
8.5.5 GPS Satellite Info Query......................................................................... 8-18
8.5.6 Ir Interface Query ................................................................................... 8-19
8.5.7 Querying Ir BER..................................................................................... 8-20
8.5.8 Ethernet OAM Session Parameter Query................................................. 8-21
8.5.9 GSM Carrier Frequency Query................................................................ 8-22
8.5.10 Board Diagnose Test ............................................................................ 8-23
8.5.11 Board Read and Write Test.................................................................... 8-24
8.6 Diaognosis Test................................................................................................ 8-25
8.6.1 Site-opening Wave Ratio Inspection ........................................................ 8-25
8.6.2 RSSI Test .............................................................................................. 8-26
8.6.3 Clock State Query .................................................................................. 8-27
8.6.4 Foreboard Clock Manager ...................................................................... 8-28
8.6.5 Set RRU Full-Loop Back......................................................................... 8-29
8.6.6 Simulated cell test .................................................................................. 8-30
8.6.7 BS Check .............................................................................................. 8-31
8.6.8 TOC Total Power Measurement .............................................................. 8-32
III
Chapter 9 EFMS.......................................................................................... 9-19.1 Starting EFMS Subsystem .................................................................................. 9-1
9.2 Viewing Current Alarm........................................................................................ 9-2
9.3 Viewing History Alarm......................................................................................... 9-2
9.4 Viewing Alarm Event .......................................................................................... 9-3
9.5 Synchronizing Alarm........................................................................................... 9-3
9.6 Alarm Solution ................................................................................................... 9-4
9.6.1 Viewing Single Alarm Solution................................................................... 9-4
9.6.2 Viewing All Alarm Solutions....................................................................... 9-5
Chapter 10 EPMS...................................................................................... 10-110.1 Performance Management Overview ............................................................... 10-1
10.2 Sampling Period and Measurement Condition .................................................. 10-1
10.3 Starting EPMS Subsystem .............................................................................. 10-1
10.4 Creating Measurement Task............................................................................ 10-2
10.5 Starting Measurement Task............................................................................. 10-6
10.6 Saving Measurement Data.............................................................................. 10-7
10.7 Stopping Saving Measurement Data................................................................ 10-8
10.8 Stopping Measurement Task ........................................................................... 10-9
Appendix A Reference Knowledge.......................................................... A-1A.1 LMT Online Access Operation Guide ..................................................................A-1
A.2 2G/3G Shared Transmission...............................................................................A-1
A.3 Iub Transmission Protocol Model ........................................................................A-4
A.3.1 Iub interface ............................................................................................A-4
A.3.2 O&M Interfaces........................................................................................A-5
A.4 LMT IP Address of ZXSDR BTS/Node B .............................................................A-7
A.5 Iub Interface Bearer Type ...................................................................................A-7
A.6 RF Connection...................................................................................................A-8
Figures............................................................................................................. I
Tables ............................................................................................................IX
Glossary ........................................................................................................XI
IV
PrefacePurpose
LMT is the local maintenance terminal software of ZXSDR BTS/Node B. This manualintroduces the operation method of LMT software and LMT operations during ZXSDRBTS/Node B commissioning.
What is in This Manual
Table 1 Chapter Summary
Chapter Summary
Chapter 1 Software Overview Introduces LMT software.
Chapter 2 Operation Environment Requirement Covers the LMT operation environment
requirement.
Chapter 3 Visit LMT via LMT Start Covers the basic functions of LMT Start.
Chapter 4 BS Commissioning Flow Introduces BS commissioning flow.
Chapter 5 EMOS-Offline Configuration Introduces offline configuration items and method
during BS commissioning.
Chapter 6 EOMS-Online Configuration Introduces online BS configuration items and
method
Chapter 7 EOMS-General Operations and
Realtime View
Covers the general functions of LMT software.
Chapter 8 EDMS Covers the functions and operations of EDMS
subsysem.
Chapter 9 EFMS Covers the functions and operations of EFMS
subsysem.
Chapter 10 EPMS Covers the functions and operations of EPMS
subsysem.
Appendix A Reference Knowledge Introduces some configuration-related concept
and knowledge.
Intended Audience
l BS commissioning engineerl BS maintenance engineerl BS R&D engineer
I
Conventions
Table 2 Mouse Operation Conventions
Typeface Meaning
Click Refers to clicking the primary mouse button
(usually the left mouse button) once.
Double-Click Refers to quickly clicking the primary mouse
button (usually the left mouse button) twice.
Right-Click Refers to clicking the secondary mouse button
(usually the right mouse button) once.
Drag Refers to pressing and holding a mouse button
and moving the mouse.
II
Chapter 1Software OverviewTable of Contents
LMT Software Overview .............................................................................................1-1Version Overview .......................................................................................................1-1LMT Application Scenario...........................................................................................1-1LMT Subsystem Overview..........................................................................................1-1
1.1 LMT Software OverviewLocal Maintenance Terminal (LMT) is a network management tool that operates on a singlemachine and performs operation and maintenance on a single BS.
1.2 Version OverviewThis manual introduces LMT version 4.09.21, which is one of the supporting software forZXSDR BTS/Node B(4.09.21) GSM&UMTS dual mode distributed base station.
1.3 LMT Application ScenarioThe LMT (Local Maintenance Terminal) application scenarios include:l On-Site commissioning and debugging by engineering personnell Routine maintenancel Debugging by development and test personnel
1.4 LMT Subsystem OverviewLMT software consists of four subsystems:l EOMS (Embedded Operation and Maintenance Subsystem): performing BS
configuration, software version management.l EFMS (Embedded Fault Management Subsystem): performing fault managementl EPMS (Performance Management Subsystem): collecting performance
measurement data.l EDMS (Diagnostic Management Subsystem): performing system diagnosis & test,
and assistant functions.
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Chapter 2Operation EnvironmentRequirementTable of Contents
Hardware Environment...............................................................................................2-1Software Environment ................................................................................................2-1
2.1 Hardware EnvironmentHardware Typical Configuration Minimum Configuration
CPU 2.0 G 1.8 G
Memory 1 G 512 M
Hard Disk 160 G 1 G (minimum available space)
Display Resolution 1024×768 800×600
CD-ROM Drive CD-ROM CD-ROM
Network card 10 M/100 M 10 M/100 M
Other optional configuration
items
Modem, sound card, sound box —
2.2 Software EnvironmentItem Environment
Operation system Windows 2000 or Windows XP
Operation system default language English or Chinese (Simplified)
Operation system appearance and style Windows XP style or Windows standard style
(recommended)
JRE (Java operation environment) JRE version 6.0 or higher
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Note:
The JRE installation directory should not contain Chinese characters or space.
Please ensure that the variable value of “Path”contain the bin directory of JRE, otherwise the program
operation might be abnormal. To check the “Path” value, first double-Click on System in ControlPanel; then click on Advanced Environment Variables > System Variables.
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Chapter 3LMT Software InstallationTable of Contents
Visit LMT via LMT Start ..............................................................................................3-1
3.1 Visit LMT via LMT StartShort Description
LMT Start provides four basic functions: add version, delete appointed version, run versionand site management.
Prerequisites
l One PC (laptop is recommended).l One LMT (Local Maintenance Terminal) software installation package
ContextInstallation of LMT involves the installation of:
l LMT softwarel JRE software
Steps1. Double-Click LMTTools_setup.exe in LMT installation package. Install LMT version
package according to installation wizard.
2. If JRE has never been installed in PC, double-click jre-6u2-windows-i586-p.exe under the JRE directory of LMT installation package. Finish installation according tothe setup wizard.
3. After installation, click Start > All Programs > ZTE LMTTools > LMT Start inWindows, as shown in Figure 3-1.
Figure 3-1 Path of LMT Start
4. The logon interface is shown in Figure 3-2.
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ZXSDR BTS/Node B Local Maintenance Terminal Operation Guide
Figure 3-2 Logon Interface
– End of Steps –
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Chapter 4BS Commissioning FlowTable of Contents
BS Commissioning Flow.............................................................................................4-1Base Station Configuration Example ..........................................................................4-1
4.1 BS Commissioning FlowThe procedure of commissioning a BS via LMT is listed below.1. Create BS configuration data in offline mode; then save configuration data.2. Log in BS; then refresh BS software and configuration data.3. Observe alarms and test services.
Step 3 is not described in this manual.
4.2 Base Station Configuration ExampleShort Description
This section gives an example to illustrate the complete process of base stationconfiguration.
Application Scenario
Base station configuration is applied in a specified context. The following describes thecontext related to the base station configuration to be implemented, such as base stationequipments, transmission configuration, and radio configuration.
l The base station is used together with one R8840 (RRU), it is configured as 1C1S(UMTSmode, transmitting without diversity, receiving diversity); Iub/Abis transmissionis based on Ethernet full-IP transmission, and is within the same LAN as RNC.
l Basic Parameters
Parameter Value
NodeB ID 123
Power-sharing ratio 0
Software version V4.09.21
l Transmission Configuration
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ZXSDR BTS/Node B Local Maintenance Terminal Operation Guide
Parameter Value
Iub transmission mode Fast Ethernet
Fiber connection with RRU Port 0 on FS of ZXSDR BTS/Node B <=> Port 0 on RTR
of R8840
Configurations Related to UMTS Service
IP Port/VLAN No./IP/Mask/Gate-
way/Bandwidth
1 /2 /12.1.1.123 /255.255.255.0 /12.1.1.254 /10 M
SCTP target IP 131.1.1.1
SCTP local port 123
SCTP remote port 123
Number of SCTP in-and-out
streams
2
SCTP stream parameter
configuration (stream ID)
0
Configurations Related to Clock Reference Source
Clock server IP/Gateway/Used IP 15.1.1.1 /15.1.1.254 /12.1.1.123
l Radio Network Parameters
Parameter Value
Uplink frequency 1922.6 MHz
Downlink frequency 2112.6 MHz
Cell radius 5km
Configuration Process
1. Start LMT, select 4.09.21.08P02 version, select the Offline configuration login type,
and double-click to start EOMS.
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Figure 4-1 Running Version
2. Select an appropriate template file, here, ZXSDR BS8700.xml is selected in thisexample, then click Open.
Figure 4-2 Selecting Configuration Template
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3. On the left Configuration Management tree, right-click the Base Station node andthen select Set Base Station Attribute to set basic properties for the base station.
Figure 4-3 Setting Basic Properties for the Base Station
4. On the left Configuration Management tree, right-click the Base Station node andthen select Add Rack to add RRU shelf ZXSDR R8840 for base station, and click theZXSDR R8840 node to configure board for RRU rack.
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Figure 4-4 Configuring RRU shelf, Board and antenna
5. Create topology structure for the main rack and RRU rack.
Figure 4-5 Creating Rack Topology Structure
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Caution!
Optical module types of fibre cables connecting with two devices include 1.25G and 2.5G.
6. Configure IP Port Management.
Figure 4-6 Configuring IP Port Management
7. Configure IP parameters.
Figure 4-7 Configuring IP Parameters
8. Configure SCTP parameters (WCDMA mode).
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Figure 4-8 Configuring SCTP Parameters
9. Configure IP clock reference source.
Figure 4-9 Configuring IP Clock Reference Source
10. On the left Configuration Management tree, right-click the Base Station node andthen select Set Base Station Attribute to set clock reference source for the basestation.
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Figure 4-10 Configuring Clock Source Priority
11. Create Operator Config.
Figure 4-11 Creating Operator Config
12. Create baseband resource pool (WCDMA mode).
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Figure 4-12 Creating Baseband Resource Pool
13. Create UMTS sector (transmitting without diversity, receiving diversity).
Figure 4-13 Creating UMTS Sector
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14. Create local cell.
Figure 4-14 Creating Local Cell
15. Export the configuration data to local hard disk.16. Log on the system again. Enter the IP address of the base station and select the
Online configuration logon mode.17. Open Version Management. If the running version is inconsistent with the expected
version, then add the expected software to the library, download software, associatethe configuration file (that is, the configuration file saved in 15.), and activate it. Afterthe software is activated, restart the base station, load the new software version andconfiguration data.
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Chapter 5EOMS-Offline ConfigurationTable of Contents
Offline Configuration Overview ...................................................................................5-1Logging on EOMS in Offline Mode .............................................................................5-1Base Station Configuration.........................................................................................5-5Ground Resource Management ...............................................................................5-10Transmission Resource Management ......................................................................5-31Wireless Resource Management..............................................................................5-64Saving Offline Configuration Data.............................................................................5-80
5.1 Offline Configuration OverviewOffline configuration is to perform offline configuration via EMOS. The configuration datacan be saved in local hard disk.
5.2 Logging on EOMS in Offline ModeShort Description
This task is performed to log on EOMS in the offline mode.
Prerequisites
l The LMT software is installed successfully.l The software package of base station is saved in the local hard disk.
Steps
1. ClickStart > All Programs > ZTE LMTTools > LMTStart, the logon interface is shownin Figure 5-1.
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Figure 5-1 Logon Interface
2. Click Add Version to enter the interface as shown in Figure 5-2 .
Figure 5-2 Add Version
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3. Browse local hard disk to select base station software package. Open it to return theinterface as shown in Figure 5-3.
Figure 5-3 Add Version successfully
4. Select "English" for Language, select the added software version for Version, select
"Offline configuration" for Login Type, and double-click to open the interfaceas shown in Figure 5-4.
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Figure 5-4 Selecting Configuration Template
5. Select a template file or a configuration file saved in the local hard disk, and clickOpen.
– End of Steps –
Result
The EOMS interface is opened, as shown in Figure 5-5.
Figure 5-5 EOMS Main Rack Interface
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5.3 Base Station Configuration
5.3.1 Configuring Rack and Board
Short Description
This task is performed to configure rack and board for the base station in EOMS.
Prerequisites
l The EOMS interface is opened.
Context
The ZXSDR BTS/Node B base station rack includes main rack (BBU) and remote rack(RRU). The main rack is the default existing rack, which needs not be created. The remoterack can be configured according to actual configuration.
Steps
1. Configure board on the main rack.
a. On the left Configuration Management tree, click the Base Station > ZXSDRBS8200 node, the pop-up main rack interface is shown in Figure 5-6.
Figure 5-6 Main Rack
b. Right-click on the blank slot and click Add Board, the pop-up interface is shownin Figure 5-7. Click Board Type and the list of boards that can be configured atthis slot will be displayed. Select the board and click OK.
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Figure 5-7 Adding Board
c. Create board for the main rack according to the base station's actual configuration.
2. Configure the remote rack.
a. On the leftConfigurationManagement tree, right-click on theBase Station nodeand click Add Rack, the pop-up interface is shown in Figure 5-8.
Figure 5-8 Adding Remote Rack
b. Select RRU Shelf Type and click OK.
3. Configure board and antenna for the remote rack.
a. On the left Configuration Management tree, right-click on the RRU node, theremote rack view appears, as shown in Figure 5-9.
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Figure 5-9 RRU Rack
b. Right-click on the blank slot and click Add Board, the pop-up interface is shownin Figure 5-10.
Figure 5-10 Adding Board
– End of Steps –
5.3.2 Configuring Radio Model
Short Description
This task is performed to configure the radio model for the base station in EOMS.
Prerequisites
The EOMS interface is opened.
Context
There are two radio modes for BTS: UMTS mode and GSM mode.
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Steps1. On Configuration Management, right-click Base Station and click Set Base Station
Attribute. The interface appears, as shown in Figure 5-11.
Figure 5-11 Configure Radio Model
2. In Radio Mode, choose the radio mode supported by the BTS (In UMTS Model andGSM Model drop-down box, select Yes/No), as shown in Figure 5-12. When youfinish the configuration, click OK.
Figure 5-12 Select Radio Model
– End of Steps –
5.3.3 Configuring Basic Attributes of Base Station
Short Description
This task is performed to configure the basic attributes of base station.
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Prerequisites
l The EOMS interface is opened.
Context
The basic attributes of base station involve global information such as NodeB ID,transmission and clock.
Steps
1. On Configuration Management, right-click Base Station and click Set Base StationAttribute. The Base Station Attribute interface appears, as shown in Figure 5-13.
Figure 5-13 Setting Basic Attributes
2. Based on the radio mode and transportation type supported by BTS, fill in thenecessary information in Radio Mode, ATM address and Time property tabs. Thenclick OK.
– End of Steps –
5.3.4 Configuring Clock Reference Priority
Short Description
This task is performed to set the priority of the clock reference source.
Prerequisites
l The EOMS interface is opened.
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Context
The base station selects a clock reference source from the available sources according totheir priorities.
Steps
1. On Configuration Management, right-click Base Station and click Set Base StationAttribute. The Base Station Attribute interface appears.
2. Choose the clock reference source in sequence. If you choose GPS, switch to GPSclock and set the GPS Sync Mode and GPS Cable Type, as shown in Figure 5-14.When you finish the configuration, click OK.
Figure 5-14 Setting GPS clock parameter
– End of Steps –
5.4 Ground Resource Management
5.4.1 Configuring Environment Monitoring
Short Description
To configure the environment supervision items for ZXSDR BTS/Node B
Prerequisites
l LMT has been logged in and EOMS interface is open.l The board (for example, SA board) with environment monitoring functions has been
created.
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Steps
1. Click on Ground Resource Management > Environment Monitoring onConfiguration Management. Environment Monitoring interface appears, asshown in Figure 5-15.
Figure 5-15 Environment Monitoring Interface
2. Right-click the environment monitoring item that needs to be modified on the interface.A shortcut menu appears. Select Modify, and an interface appears, as shown inFigure 5-16.
Figure 5-16 Environment Monitoring Management
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3. Select rack, board, and environment monitoring type. Fill in environment monitoringthreshold. Click OK.
– End of Steps –
Result
Environment monitoring configuration is successful, and the configured item appears onEnvironment Monitoring interface.
5.4.2 Configuring TAC Management
Short Description
This task is performed to create the tower amplifier unit for the ZXSDR BTS/Node B BTS.
Prerequisites
l The EOMS interface is opened after you log in LMT.
Context
Tower mounted amplifier is the optional in antenna feeder subsystem. You can set the typeof the amplifier, uplink and downlink gaining and amplifier noise coefficient for the toweramplifier unit.
Steps
1. On Maintenance Navigation Tree, click Ground Resource Management > TACManagement. The TAC Management interface appears, as shown in Figure 5-17.
Figure 5-17 TAC Management
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2. Right-click on the blank area in the interface and click Add. The TAC parametersconfiguration appears, as shown in Figure 5-18.
Figure 5-18 Parameter configuration of TA
3. Choose the type of amplifier and modify the parameters of amplifier. Click OK.
– End of Steps –
Result
The tower amplifier unit is successfully created in TAC Management.
Note:
Right-click the new tower amplifier unit in TAC Management. In the pop-up menu, you can do otheroperations by clicking Add, Delete, Modify and MO Explorer, as shown in . You can do similar oper-ations to add a new object or record in the tasks stated in following chapters.
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Operations on New Object
5.4.3 Configuring TMA Feeder
Short Description
This task is performed to create the TMA feeder cable for ZXSDR BTS/Node B.
Prerequisites
l The EOMS interface is opened after you log in LMT.l The RF board, antenna and the TMA unit have been created.
Context
For the practical operation on a base station, the TMA feeder loss should be the value ofthe gross feeder loss calculated with the actual feeder length. If the feeder loss is not setcorrectly, RTWP alarm will be impacted.
Steps
1. On Maintenance Navigation Tree, click Ground Resource Management > TMAFeeder. The TMA Feeder interface appears, as shown in Figure 5-19.
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Figure 5-19 Creating TMA Feeder Loss Object
2. Right-click on the blank area in the interface and click Add. The Basic Parameter tabappears, as shown in Figure 5-20.
Figure 5-20 Configuring TMA Feeder Loss Object
3. Choose a board and TMA unit and modify TMA feeder parameters. Click OK.
– End of Steps –
Result
The tower amplifier feeder is successfully created in TMA Feeder.
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5.4.4 Configuring Rack Topology
Short Description
To create topology relationship between BS racks.
Prerequisites
l BBU rack and RRU rack have been created. At least on BBU rack must exist. MultipleRRU racks may exist.
l The interface boards that are related to topology connection have been created.
Context
On ZXSDR BTS/Node B BBU rack, the interface board that is responsible for topologyconnection is FS. One FS has at most six interfaces.
Steps
1. Click on Ground Resource Management > Topology on Maintenance NavigationTree. Topology interface appears, as shown in Figure 5-21.
Figure 5-21 Topology Interface
2. Right-click the blank space on Topology interface. The shortcut menu appears. Clickon Add and Topology Setting interface is shown in Figure 5-22. Select the properparameter value according to networking connection mode and the board/interfacewhere the fiber link interconnecting racks is located. Click OK.
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Figure 5-22 Topology Setting Interface
3. Configure topology relationship in order based on the actual station situation.
– End of Steps –
Result
Topology is successfully configured. The configured topology appears on Topologyinterface.
5.4.5 Configuring AISG Device
Short Description
This task is performed to add the AISG device for ZXSDR BTS/Node B.
Prerequisites
l The EOMS interface is opened after you log in LMT.l The RET and TMA devices for connection have been created.
Context
To add an AISG device is to set up the corresponding relations between RET and ANT,and between TMA and ANT. The link is also established. Thus the command form AISGdevice can be delivered to other devices.
Steps
1. On Maintenance Navigation Tree, click Ground Resource Management > AISGDevice. The AISG Device interface appears, as shown in Figure 5-23.
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Figure 5-23 AISG Device
2. Right-click on the blank area on the interface and click Active Configure. The AISGDevice Management interface appears, as shown in Figure 5-24.
Figure 5-24 AISG Device Management
3. Finish the configuration and click OK.
– End of Steps –
Result
The AISG device is successfully created in the AISG Device interface.
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5.4.6 Configuring Dry Contact
Short Description
This task is performed to configure the circuit status and the signal input ports.
Prerequisites
l The board for dry contact signal input has been configured.
Context
You can input dry contact alarm signals of external devices into the BS and display them inBS network management system. The dry contact is a passive electrical signal. If circuitnormal status is open, alarms will be generated in the situation of closet circuit. If circuitnormal status is closed, alarms will be generated in the situation of open circuit.
Steps
1. On Maintain Navigation Tree, click Ground Resource Management > Dry contact. The Dry contact interface appears, as shown in Figure 5-25.
Figure 5-25 Dry Contact Interface
2. Right-click on the blank area onDry contact interface and clickAdd. TheDry ContactManagement interface appears, as shown in Figure 5-26. Select the board name towhich the dry contact is connected. Select alarm status, content and necessary items.Click OK.
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Figure 5-26 Configure Dry Contact
3. Configure other dry contacts if necessary.You can also use import function to configure a dry contact, as shown in Figure 5-27.The dry contact configuration file in xml format can be batch imported.
Figure 5-27
– End of Steps –
Result
Dry contact is successfully configured in the Dry contact interface.
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5.4.7 Configuring IP Clock Reference Source
Short Description
This section describes how to set IP clock as clock reference source.
Prerequisites
l Ethernet-based IP parameters are configured.
Steps
1. On the left Configuration Management tree, click the Ground ResourceManagement > IP Clock Parameter node, the pop-up interface is shown in Figure5-28.
Figure 5-28 IP Clock Parameter
2. Right-click on the blank area in the pop-up window and click Add, the pop-up interfaceis shown in Figure 5-29. Set parameters and click OK.
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Figure 5-29 Adding IP Clock Parameters
– End of Steps –
Result
IP Clock is successfully configured, and the configured item appears on IP ClockParameter interface.
5.4.8 Configuring Embedded Power Equipment
Short Description
This task is performed to create the embedded power equipment for ZXSDR BTS/Node BBTS.
Prerequisites
The EOMS interface is opened after you log in LMT.
Context
The embedded power is embedded in the integrated cabinet to provide basic power supplyfor the communication and data devices.
Steps
1. On Configuration Management, click Ground Resource Management >Embedded Power Equipment. The Embedded Power Equipment interfaceappears, as shown in Figure 5-30.
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Figure 5-30 Embedded Power Equipment
2. Right-click on the blank area in the interface and click Add. The Basic Parameter tabappears, as shown in Figure 5-31. Fill in the information and click OK.
Figure 5-31 Embedded Power Equipment
– End of Steps –
ResultThe embedded power equipment is successfully created in the Embedded Powerequipment interface.
5.4.9 Configuring Local Switch
Short Description
This task is performed to create the local switch for ZXSDR BTS/Node B.
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Prerequisites
l The EOMS interface is opened after you log in LMT.l PPP link has been created.
Context
Steps
1. On Maintenance Navigation Tree, click Ground Resource Management > LocalSwitch. The Local Switch interface appears, as shown in Figure 5-32.
Figure 5-32 Local Switch interface
2. Right-click on the blank area in the interface and click Add. The Basic Informationtab appears, as shown in Figure 5-33.
Figure 5-33 Local Switch Management
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3. Choose used PPP and direction, and fill in destination address parameters. Click OK.
– End of Steps –
Result
The local switch is successfully created in Local Switch.
5.4.10 Configuring TAM Control Parameter
Short Description
This task is performed to create TAM control parameter for ZXSDR BTS/Node B.
Prerequisites
l The EOMS interface is opened after you log in LMT.l At least one TAM serial board has been created.
Context
TAM control parameters: Port ID, Work current value, Switch state.
Steps
1. On Maintenance Navigation Tree, click Ground Resource Management > TAMControl Parameter. The TAM Control Parameter interface appears, as shown inFigure 5-34.
Figure 5-34 Creating TAM Control Parameter
2. Right-click on the blank area in the interface and click Add. The TAM ControlParameter tab appears, as shown in Figure 5-35.
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Figure 5-35 Configuring TAM Control Parameter
3. Set parameters and click OK.
– End of Steps –
Result
The configured item is successfully created in TAM Control Parameter.
5.4.11 Configuring Ethernet Switching Device
Short Description
To configure the basic properties of ethernet switching device for ZXSDR BTS/Node B.
Prerequisites
l LMT has been logged in and EOMS interface is open.l The board (for example, UES board) with ethernet switching functions has been
created.
Steps
1. Click on Ground Resource Management > Ethernet Switching Device onConfiguration Management. Ethernet Switching Device interface appears, asshown in Figure 5-36.
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Figure 5-36 Ethernet Switching Device Interface
2. Right-click the ethernet switching device item that needs to be modified on theinterface. A shortcut menu appears. Select Modify, and an interface appears, asshown in Figure 5-37.
Figure 5-37 Ethernet Switching Device Management
3. Modify relative parameters of the ethernet switching device. Click OK.
– End of Steps –
Result
Ethernet switching device configuration is successful, and the configured item appears onEthernet Switching Device interface.
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5.4.12 Configuring Divide the Vlan Group of Ethernet Switching
Short Description
To configure the basic properties of divide vlan group of ethernet switching for ZXSDRBTS/Node B.
Prerequisites
l LMT has been logged in and EOMS interface is open.l The board (for example, UES board) with ethernet switching functions has been
created.
Steps
1. Click on Ground Resource Management > Divide the Vlan Group of EthernetSwitching on Configuration Management. Divide the Vlan Group of EthernetSwitching interface appears, as shown in Figure 5-38.
Figure 5-38 Divide the Vlan Group of Ethernet Switching Interface
2. Right-click the divide vlan group of ethernet switching item that needs to be modifiedon the interface. A shortcut menu appears. Select Modify, and an interface appears,as shown in Figure 5-39.
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Figure 5-39 Divide the Vlan Group of Ethernet Switching Interface Management
3. Modify relative parameters and click OK.
– End of Steps –
Result
Divide the VlanGroup of Ethernet Switching configuration is successful, and the configureditem appears on Divide the Vlan Group of Ethernet Switching interface.
5.4.13 Configuring Serial Port Cable
Short Description
This task is performed to create serial port cable for ZXSDR BTS/Node B.
Prerequisites
l The EOMS interface is opened after you log in LMT.l Two different serial port connectors need to be connected.
Context
Steps
1. On Maintenance Navigation Tree, click Ground Resource Management > SerialPort Cable. The Serial Port Cable interface appears, as shown in Figure 5-40.
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Figure 5-40 Configure Serial Port Cable
2. Right-click on the blank area in the interface and click Add. The Basic Informationtab appears, as shown in Figure 5-41.
Figure 5-41 Select end of serial port connector
3. Choose ends of Serial Port and click OK.
– End of Steps –
Result
The serial port cable is successfully created in Serial Port Cable.
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5.5 Transmission Resource Management
5.5.1 Overview of Full IP Transmission ConfigurationTransmission configuration should be performed in line with the protocol stack of thetransmission interface. The configuration order is from bottom up.
Please refer to the Iub interface protocol stack designed by ZTE when configuring Iubtransmission. The protocol stack is shown in Figure 5-42.
Figure 5-42 Iub Interface Protocol Stack (ZTE)
5.5.2 Overview of ATM Transmission ConfigurationThe Iub interface supports ATM transmission mode. The protocol stack of ATMtransmission is shown in Figure 5-43.
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Figure 5-43 ATM Transmission Protocol Stack
5.5.3 Physical Media Configuration
5.5.3.1 Configuring ATM port
Short Description
This task is performed to create the ATM port management for the ZXSDR BTS/Node BBTS.
Prerequisites
The EOMS interface is opened after you log in LMT.
Context
ATM is an asynchronous transfer mode. ATM port usually adopts store-and-forwardmechanism, which transparently transmitted the ATM signals from the node B side toRNC via E1 transmission network.
Steps
1. On Configuration Management, click Transmission Resource > Physical MediaConfiguration > ATM Port. The ATM Port interface appears, as shown in Figure5-44.
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Figure 5-44 ATM Port
2. Right-click on the blank area in the interface and click Add. The ATM PortManagement interface appears, as shown in Figure 5-45. Fill in the information andclick OK.
Figure 5-45 ATM Port Management
– End of Steps –
ResultAn ATM port is successfully created in the ATM Port interface.
5.5.3.2 Configuring IP Port
Short Description
This task is performed to create the IP port management for the ZXSDR BTS/Node B BTS.
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Prerequisites
The EOMS interface is opened after you log in LMT.
Context
IP port is the further specified IP address. By recognizing the unique port number that isgiven when the connection is established, the processing device receiving data packetscan retrieval the destination address.
Steps
1. On Configuration Management, click Transmission Resource > Physical MediaConfiguration > IP Port. The IP Port interface appears, as shown in Figure 5-46.
Figure 5-46 IP Port
2. Right-click on the blank area in the interface and click Add. The IP Port Managementinterface appears, as shown in Figure 5-47. Fill in the information and click OK.
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Figure 5-47 IP Port Management
– End of Steps –
Result
An IP port is successfully created in the IP Port interface.
5.5.4 IP Transmission
5.5.4.1 Configuring HDLC Link
Short Description
To create Iub interface HDLC link
Prerequisites
l IP Port has been created and available time slot exists.
Steps
1. Click on Transmission Resource > IP Transmission > HDLC Link on Maintenacenavigation tree. HDLC Link interface appears, as shown in Figure 5-48.
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Figure 5-48 HDLC Parameter Interface
2. Right-click the blank space on HDLC Link interface. The shortcut menu appears.Click on Add, and the interface that appears is shown in Figure 5-49.
Figure 5-49 Configure HDLC Link
3. Select IP port and time slot(s) used by HDLC link. Click OK.
4. Configure other HDLC links if necessary.
– End of Steps –
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Result
HDLC link is successfully configured, and the configured item appears on HDLC Linkinterface.
5.5.4.2 Configuring PPP Link
Short Description
This task is performed to configure PPP link at Iub interface.
Prerequisites
l HDLC link is configured.
Context
ZXSDR BTS/Node B supports PPP and ML-PPP, and ML-PPP can use multiple HDLClinks as bearer.
Steps
1. On the left Configuration Management tree, click the Transmission Resource > IPTransmission > PPP Link node, the pop-up interface is shown in Figure 5-50.
Figure 5-50 PPP Parameter Management Interface
2. Right-click on the blank area in the pop-up window and click Add, the pop-up interfaceis shown in Figure 5-51.
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Figure 5-51 Creating PPP Link
3. Select the PPP encapsulation type and the used HDLC link, enter the IP informationfor PPP link, and click OK.
Note:
If the IP address of PPP link is 0.0.0.0, then it indicates obtaining IP address automatically.
4. Create all PPP links according to actual configuration.
– End of Steps –
Result
The PPP link is configured successfully, and all configured PPP links are displayed in thePPP Link interface.
5.5.4.3 Configuring VLAN Parameter
Short Description
This task is performed to create the VLAN parameter.
Prerequisites
An IP port is created.
Steps
1. On Configuration Management, click Transmission Resource > IP Transmission> VLAN parameter. The VLAN Parameter interface appears, as shown in Figure5-52.
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Figure 5-52 VLAN Parameter
2. Right-click on the blank area in the interface and click Add. The VLAN ParameterManagement tab appears, as shown in Figure 5-53.
Figure 5-53 VLAN Parameter Management
3. Fill in the VLAN number and choose the IP port. Click OK.
– End of Steps –
ResultThe VLAN parameter is successfully created in the VLAN Parameter interface.
5.5.4.4 Configuring Ethernet OAM Parameter
Short Description
This task is performed to configure Ethernet OAM parameter for IP port (FE).
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Prerequisites
The IP port (FE) has been created.
Context
Configure an Ethernet OAM resource on the FE port. It monitors the status of the link layerconnection between Node B and the peer device, and reports it to the higher layer.
Steps
1. OnMaintenanceNavigation Tree, click TransmissionResource > IP Transmission> Ethernet Oam parameter. The Ethernet Oam Parameter interface appears, asshown in Figure 5-54.
Figure 5-54 Ethernet Oam Parameter
2. Right-click on the blank area in Ethernet Oam Parameter interface and click Add.The Ethernet Oam Parameter Management interface appears, as shown in Figure5-55.
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Figure 5-55 Ethernet Oam Parameter Management
3. Fill in all attributes. Click OK.
– End of Steps –
Result
The Ethernet Oam Parameter is successfully created in the Ethernet Oam Parameterinterface.
5.5.4.5 Configuring IP Parameter
Short Description
This task is performed to configure the IP parameters for global port.
Prerequisites
l The IP port has been created when the work mode is IP over Ethernet.l The PPP link has been created when the work mode is IP over PPP.l The VLAN parameter has been created when the work mode is IP over VLAN.
Steps
1. OnMaintenanceNavigation Tree, click TransmissionResource > IP Transmission> IP parameter. The IP Parameter interface appears, as shown in Figure 5-56.
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Figure 5-56 IP Parameter
2. Right-click on the blank area in IP Parameter interface and click Add. The IPParameter Management interface appears, as shown in Figure 5-57.
Figure 5-57 IP Parameter Management
3. Fill in all attributes. Click OK.
– End of Steps –
Result
The IP parameter is successfully created in the IP Parameter interface.
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5.5.4.6 Configuring IP route
Short Description
This task is performed to create the IP route.
Prerequisites
l The IP port is configured when the work mode is IP port.l The VALN parameter is configured when the work mode is VLAN.
Context
The route information and the destination where IP packets are sent should be configuredwhen BS and RNC are not directly connected.
Steps
1. On Maintenace Navigation Tree, click Transmission Resource > IP Transmission> IP route . The IP Route interface appears, as shown in Figure 5-58.
Figure 5-58 Static Route Parameter Interface
2. Right-click on the blank area in IP Route interface and click Add. The IP RouteManagement interface appears, as shown in Figure 5-59.
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Figure 5-59 Configure Static Route
3. Fill in all attributes. Click OK.
– End of Steps –
Result
The IP route is successfully created in IP Route interface.
5.5.4.7 Configuring SCTP Association
Short Description
To create Iub interface SCTP link.
Prerequisites
l IP parameter have been configured.
Steps
1. Click on Transmission Resource > IP Transmission > SCTP Association onMaintenace Navigation tree. SCTP Association interface appears, as shown inFigure 5-60.
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Figure 5-60 SCTP Association Interface
2. Right-click the blank space on SCTP Association interface. The shortcut menuappears. Click on Add, and the interface that appears is shown in Figure 5-61.
Figure 5-61 Configure SCTP Parameter
3. Fill in all attributes. Click OK.
– End of Steps –
Result
The configured SCTP item appears on SCTP Association interface.
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5.5.4.8 Configuring BFD parameter
Short Description
This task is performed to create the BFD parameter.
Context
The BFD configuration is utilized for IP path check. Being configured with BFD, Node B willcheck the accessibility of the remote IP and maintain the path status based on the result.
Steps
1. OnMaintenanceNavigation Tree, click TransmissionResource > IP Transmission> BFD parameter. The BFD Parameter interface appears, as shown in Figure 5-62.
Figure 5-62 BFD Parameter
2. Right-click on the blank area in the interface and click Add. The BFD ParameterManagement tab appears, as shown in Figure 5-63.
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Figure 5-63 BFD Parameter Management
3. Choose or fill in the specifications and click OK.
– End of Steps –
Result
The BFD parameter is created in the BFD parameter interface.
5.5.4.9 Configuring QoS Mapping Parameter
Short Description
This task is performed to create the QoS mapping parameter.
Context
Being a necessary measure of the network management, QoS bandwidth managementcan effectively improve the bandwidth utilization ratio.
Steps
1. OnMaintenanceNavigation Tree, click TransmissionResource > IP Transmission> QoS Mapping Parameter. The QoS Mapping Parameter interface appears, asshown in Figure 5-64.
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Figure 5-64 QoS Mapping Parameter
2. Right-click on the blank area on the interface and click Add.
3. Choose or fill in the specifications of the parameter and click OK.
– End of Steps –
Result
The QoS mapping parameter is created in the QoS Mapping Parameter interface.
5.5.5 ATM transmission Configuration
5.5.5.1 Configuring TC Link
Short Description
This task is performed to configure the TC link, which serves as the transmission bearerfor AAL layer.
Prerequisites
ATM port has been configured.
Context
An E1/T1 link has several time slots, which can be allocated one more. Some of the slotscan form a TC link.
Steps
1. On Maintenance Navigation Tree click Transmission Resource > ATMtransmission > TC Link. The TC Link interface appears, as shown in Figure 5-65.
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Figure 5-65 TC Link
2. Right-click on the blank area in the interface and clickAdd. The TC LinkManagementtab appears, as shown in Figure 5-66.
Figure 5-66 TC Link Management
3. Choose TC link number, link object and time slots. Click OK.
– End of Steps –
Result
The TC link is created in the TC Link interface.
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5.5.5.2 Configuring IMA Link
Short Description
This task is performed to create the IMA link, which serves as the transmission bearer forAAL layer.
Prerequisites
E1/T1 links has been created.
Context
The maximum bandwidth of a single E1/T1 link is 2 Mbps. IMA can combine the bandwidthof several E1/T1 links to increase the upper limit for the bandwidth.
Steps
1. On Maintenance Navigation Tree click Transmission Resource > ATMtransmission > IMA Link. The IMA Link interface appears, as shown in Figure 5-67.
Figure 5-67 IMA Link
2. Right-click on the blank area in the interface and click Add. The IMA LinkManagement tab appears, as shown in Figure 5-68.
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Figure 5-68 IMA Link management
3. Choose the options under the pull-down box for link0, link1 and so on. Click OK.
– End of Steps –
Result
The IMA link parameter is created in the IMA Link interface.
5.5.5.3 Configuring AAL2 Link
Short Description
This step creates an AAL2 link for the data transmission bearer of the radio network userplane.
Prerequisites
The TC or IMA link have been created.
Steps
1. Click Maintenance Navigation Tree and click Transmission Resource > ATMtransmission > AAL2 Link. A dialog box pops up as shown in Figure 5-69.
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Figure 5-69 AAL2 Link
2. Click in the blank area to bring up a shortcut menu. Click Add and a dialog box popsup as shown in Figure 5-70.
Figure 5-70 AAL2 Link Management Basic Information Tab
3. Then select or type the parameters in the bandwidth information tab, as shown inFigure 5-71. Click OK.
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Figure 5-71 AAL2 Link Management Bandwidth Information Tab
– End of Steps –
Result
AAL2 Link management dialog box shows the AAL2 link parameters been configured.
5.5.5.4 Configuring AAL5 Link
Short Description
This step creates AAL5 link for data transmission bearer of radio network control plane,transmission network control plane, or OMC.
Prerequisites
The TC or IMA link have been created.
Steps
1. Click Maintenance Navigation Tree and click Transmission Resource > ATMtransmission > AAL5 Link. A dialog box pops up as shown in Figure 5-72.
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Figure 5-72 AAL5 Link
2. Click in the blank area to bring up a shortcut menu. ClickAdd and a dialog box pops upas shown in Figure 5-73. Select or type the parameters in the AAL5 basic informationtab in the link management window.
Figure 5-73 AAL5 Link Management Basic Information Tab
3. Then select or type the parameters in the bandwidth information tab, as shown inFigure 5-74. Click OK.
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Figure 5-74 AAL5 Link Management Bandwidth Information Tab
– End of Steps –
ResultAAL5 Link management dialog box shows the AAL5 link parameters been configured.
5.5.5.5 Configuring ATM Route
Short Description
This step creates ATM router. When a base station is cascaded, the local base stationsends ATM cell down to lower level base station through the router configuration.
Prerequisites
1. ATM transmission is used.2. Physical links have been created to the RNC and to the base station (IMA group or
TC link), and those links are not occupied by other resources.
ContextA router link must include board information, input information, output information and linkinformation for routing operation.
Board information includes:l Board supporting ATM routing function
Input information includes:l VPI/VCIl bearer type (STM-1 link,IMA group or TC link) and bearer ID( STM-1 link ID, IMA
group ID or TC link ID) of the type ATM link.
Output information includes:l VPI/VCI
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l bearer type (STM-1 link,IMA group or TC link) and bearer ID( STM-1 link ID, IMAgroup ID or TC link ID) of the output ATM link.
l Target Base Station ID
Link information includes:l ATM link bandwidth, QoS and other information.
Steps
1. Click Maintenance Navigation Tree and click Transmission Resource > ATMtransmission > ATM Route. A dialog box pops up as shown in Figure 5-75.
Figure 5-75 ATM Route
2. Right-click in the blank window to bring up the shortcut menu. Click Add to bring upan interface as shown in Figure 5-76.
Figure 5-76 ATM Route Management
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3. Then select or type the parameters in the bandwidth information tab, and click OK.
– End of Steps –
Result
ATM Route management dialog box shows the ATM Route parameters been configured.
5.5.6 Mixed Bearing Configuration
5.5.6.1 Configuring TSI Parameter
Short Description
The purpose of this task is to configure TSI parameter. The E1/T1 time slots not used bythis BS are forwarded to the next BS after being mapped.
Prerequisites
l The Transmission medium in BS basic attributes is configured as “E1”or“T1”.l At least two E1/T1 links have been created.l Available time slot exists on E1/T1 link.l No high-Level data link control (HDLC parameter) exists.
Context
When mapping time slots, in-E1 link and out-E1 link cannot be the same one. TS alreadyin use by other links (such as HDLC) can not be used here. The number of in-E1-link TSand that of out-E1-link TS must be the same. In-E1-link TS and out-E1-link TS are mappedin consecutive order and one by one. The mapping relationship of TS is shown in Figure5-77.
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Figure 5-77 TS Map
Steps1. Click on TSI Parameter on Maintenance Navigation tree. TSI Parameter interface
appears, as shown in Figure 5-78.
Figure 5-78 TSI Parameter Interface
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2. Right-click the blank space on TSI parameter interface. The shortcut menu appears.Click on Add, and the interface that appears is shown in Figure 5-79.
Figure 5-79 Configure TSI Parameter
3. Fill in all attributes. Click OK.
– End of Steps –
ResultThe created TSI appears on TSI Parameter interface.
5.5.7 Iub Channel Maintenance
5.5.7.1 Configuring NCP/CCP
Short Description
This step creates NCP/CCP of the base station.
PrerequisitesAAL5 link is available and free.
ContextOnly one NBAP public channel is allowed.
Steps1. Click the Maintenance Navigation Tree and click Transmission Resource >
Channel Maintenance > NCP/CCP . A window pops up as shown in Figure 5-80.
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Figure 5-80 NCP/CCP
2. Right-click in the blank window to bring up the shortcut menu. Click Add to bring upan interface as shown in Figure 5-81.
Figure 5-81 Configuring NCP/CCP
3. Select the target AAL5 link and click OK.
– End of Steps –
Result
NCP/CCP management interface shows the a list of the NCP/CCP been configured.
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5.5.7.2 Configuring User Plane Bearer
Short Description
This step creates user plane bearer of the base station.
Prerequisites
IP address has been configured.
Context
Configure the bearing parameter of the user plane. It serves as a standard in IP routingwhen the user plane bearer is set up. During a field application, one user plane bearerparameter is required for each user plane IP address. In consistence to the bearerstatus, the system generates the parameters in the relevant signalings and the user planeconfiguration. A bearer parameter selects an IP as the Node B IP of this bearer.
Steps
1. Open the Maintenance Navigation Tree and click Transmission Resource >Channel Maintenance > User Plane Bearer. A window pops up as shown in Figure5-82.
Figure 5-82 User Plane Bearer
2. Right-click in the blank window to bring up the shortcut menu. Click Add to bring upan interface as shown in Figure 5-83.
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Figure 5-83 Configuring User Plane Bearer
3. Select/type in all attributes and click OK.
– End of Steps –
Result
User Plane Bearer management interface shows the user plane bearer been configured.
5.5.7.3 Configuring OMC Channel
Short Description
This step creates the OMC link of the base station.
Prerequisites
IP link or AAL5 link is available and free.
Context
The information is transmitted by IPINIP or IPOA between the base station and the OMC.This step creates the target address and transmission link the base station uses for OMinformation transmission.
Steps
1. Click the Maintenance Navigation Tree and click Transmission Resource >Channel Maintenance > OMC Channel. A window pops up as shown in Figure 5-84.
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Figure 5-84 OMC Channel Management Interface
2. Right-click in the blank window to bring up the shortcut menu. Click Add to bring upan interface as shown in Figure 5-85.
Figure 5-85 Create OMC Channel Parameter
3. Select/type in all attributes and click OK.
– End of Steps –
Result
OMC Channel management interface shows the a list of the OMC channels beenconfigured.
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5.6 Wireless Resource Management
5.6.1 Configuring RF Receiving Extended Connection
Short Description
This step creates RF Receiving Extended Connection.
Prerequisites
l The topology relation has been configured.l The primary receiving equipment and the secondary receiving equipment share one
primary frequency.l The receiving equipment already connected to an antenna can not be configured.
Context
RRU sends and receives signal by an antenna, which by default, is connected to the RFboard on RRU. If RRU can transmit signal through a data cable, the number of antennascan then be reduced.
Steps
1. Click the Maintenance Navigation Tree and clickWireless Resource Management> RF Receiving Extended Connection. A window pops up as shown in Figure 5-86.
Figure 5-86 RF Receiving Extended Connection
2. Right-click in the blank window to bring up the shortcut menu. Click Add to bring upan interface as shown in Figure 5-87.
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Figure 5-87 Create RF Receiving Extended Connection
3. Select the main receiving device been referred to and the expansion receiving devicebeen referred to, and click OK.
– End of Steps –
Result
RF Receiving Extended Connection interface shows the RF Receiving ExtendedConnection been configured.
5.6.2 Operator Configuration
Short Description
This step adds the operator's configuration.
Prerequisites
New operator information is required.
Steps
1. Click the Maintenance Navigation Tree and clickWireless Resource Management> Operator Configuration. A window pops up as shown in Figure 5-88.
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Figure 5-88 Operation Configuration
2. Right-click in the blank window to bring up the shortcut menu. Click Add to bring upan interface as shown in Figure 5-89.
Figure 5-89 Operation Configuration Information
3. Input the operator information and click OK.
– End of Steps –
Result
Operator Configurationmanagement interface shows a list of the operator configurationsthat have been configured.
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5.6.3 UMTS Cell Configuration
5.6.3.1 Configuring Baseband Resource Pool
Short Description
This step creates the baseband resource pool of the base station.
Prerequisites
EOMS has been opened, the operator's information and the baseband board been usedhave been configured properly.
Context
The baseband resource is shared among the local cells in one baseband resource pool.
Steps
1. Click the Maintenance Navigation Tree and clickWireless Resource Management> Baseband Resource Pool. A window pops up as shown in Figure 5-90.
Figure 5-90 Baseband Resource Pool Management Interface
2. Right-click in the blank window to bring up the shortcut menu. Click Add to bring upan interface as shown in Figure 5-91.
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Figure 5-91 Creating Baseband Resource Pool
3. Fill in the Basic Information, as shown in Figure 5-92.Modify the SPI value in HSUPASchedule Alogorithm as needed.
Figure 5-92 Basic Information Tab
4. Switch to BPRes Options and slect baseband resource, as shown in Figure 5-93.Click OK.
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Figure 5-93 Baseband Resource Configuration Tab
– End of Steps –
Result
Baseband Resource Pool management interface shows a list of the baseband resourcepools that have been configured.
5.6.3.2 Configuring UMTS Sector
Short Description
This step creates UMTS sector.
Prerequisites
The RF connection of the WCDMA cell has been created, and the topology relationshipbetween BBU and RRU racks has been configured.
Steps
1. Click the Maintenance Navigation Tree and clickWireless Resource Management> UMTS Sector. A window pops up as shown in Figure 5-94.
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Figure 5-94 UMTS Sector Configuration Interface
2. Right-click in the blank window to bring up the shortcut menu. Click Add to bring upan UMTS Sector interface. Enter the sector number, select the transmission/receivingtype and the transmission cable, as shown in Figure 5-95. Then click OK.
Figure 5-95 Creating UMTS Sector
– End of Steps –
Result
UMTS Sector management interface shows a list of the UMTS cells that have beenconfigured.
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5.6.3.3 Configuring Local Cell
Short Description
This topic creates a local cell.
Prerequisites
The UMTS sector has been created.
Steps
1. Click the Maintenance Navigation Tree and clickWireless Resource Management> Local Cell. A window pops up as shown in Figure 5-96.
Figure 5-96 Local Cell Configuration
2. Right-click in the blank window to bring up the shortcut menu. Click Add to bring upan interface as shown in Figure 5-97.
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Figure 5-97 Creating Local Cell
3. Finish the options or entries in the Basic Information tab, the Advanced Setting taband the HSDPA SPI tab and click OK.
– End of Steps –
Result
The Local Cell management interface shows a list of the local cells that have beenconfigured.
5.6.3.4 Configuring Duplex-carrier Cell Relation HSDPA
Short Description
This step creates a duplex carrier cell relationship.
Prerequisites
The primary cell and secondary cell have been created.
Context
DC stands for Dual Cell, or Dual Carrier.A DC supporting UE sets up one RL in the primarycell and the secondary cell respectively. The RL in the primary cell is the primary carrier.The RL in the secondary cell is the secondary carrier. UE accesses the network throughthe primary cell. DC UE downloads through both the primary cell and the secondary cell,so the theoretical maximum rate for a DC+64QAM scheduling is: R = 2*15*1.44Mbit/s =43.2Mbit/s.
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Steps1. Click the Maintenance Navigation Tree and clickWireless Resource Management
> Duplex-carrier Cell Relation HSDPA. A window pops up as shown in Figure 5-98.
Figure 5-98 Duplex Carrier Cell Relationship
2. Right-click in the blank window to bring up the shortcut menu. Click Add to bring upan interface Duplex-carrier Cell Relation HSDPA, as shown in Figure 5-99. Selectthe primary cell, the secondary cell and click OK.
Figure 5-99 Configuring Duplex Carrier Cell Relationship
The duplex carrier cell relationship is subject to the following limits:
a. The primary cell and the secondary cell can not be null or the same.
b. The primary cell can not be repeated.
c. Only the local cells referring to the same baseband resource could be configuredas the primary/secondary cell.
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d. Only the local cells under the same sector could be configured as theprimary/secondary cell.
e. The primary/secondary cells must use adjacent frequencies points, and the carrierfrequency must be adjacent too, such as 4.2<=|fre1-fre2|<=5, as shown in Figure5-100.
Figure 5-100 Duplex Carrier Cell
– End of Steps –
Result
Duplex-carrier Cell Relation HSDPA management interface shows a list of the duplexcarrier cell relationships that have been configured.
5.6.4 GSM Cell Configuration
5.6.4.1 Configuring GSM carrier
Short Description
This step creates the GSM carrier parameters.
Prerequisites
The base station radio mode is GSM or UMTS/GSM.
The RU device has been configured. When adding the RF board, set the Radio Modeoption in the RRU Common Parameter tab to GSM or UMTS/GSM, then the GSM RU tabwill be displayed.
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Steps
1. Click the Maintenance Navigation Tree and clickWireless Resource Management> GSM Carrier. A window pops up as shown in Figure 5-101.
Figure 5-101 GSM Carrier Management Interface
2. Right-click in the blank window to bring up the shortcut menu. Click Add to bring upan interface as shown in Figure 5-102.
Figure 5-102 Configuring GSM Carrier
3. Select/type in all attributes and click OK.
– End of Steps –
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Result
GSM Carrier management interface shows the GSM sector been configured.
5.6.4.2 Configuring GSM multi-carrier combination
Short Description
This step creates a GSM multi-carrier combination.
Prerequisites
The RU equipment has been created.
Context
GSM multi-carrier combination expands the range of signal coverage and reduces thenumber of handovers.
Steps
1. Click the Maintenance Navigation Tree and clickWireless Resource Management> GSM Multi-Carrier Combination. A window pops up as shown in Figure 5-103.
Figure 5-103 GSM multi-carrier combination
2. Right-click in the blank window to bring up the shortcut menu. Click Add to bring upan interface as shown in Figure 5-104.
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Figure 5-104 Configuring GSM multi-carrier combination
3. Select the target RU device and click OK.
GSM multi-carrier combination is subject to the following limits:
a. The main frequency of all the RU devices in one GSM multi-carrier combinationmust be the same.
b. One RU device can be referred to by one GSM multi-carrier combination only.
c. One GSM multi-carrier combination refers to up to 12 RU devices.
d. Repeated RU devices in one Gotsr is not allowed.
e. All RU devices being null is not allowed.
– End of Steps –
Result
GSM Multi-Carrier Combination management interface shows the GSM multi-carriercombination been configured.
5.6.4.3 Configuring GSM Sector
Short Description
This step creates a GSM sector.
Prerequisites
The base station radio mode is GSM or UMTS/GSM.
The RU device has been configured. When adding the RF board, set the Radio Modeoption in the RRU Common Parameter tab to GSM or UMTS/GSM, then the GSM RU tabwill be displayed.
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Steps
1. Click the Maintenance Navigation Tree and clickWireless Resource Management> GSM Sector. A window pops up as shown in Figure 5-105.
Figure 5-105 GSM Sector Management Interface
2. Right-click in the blank window to bring up the shortcut menu. Click Add to bring upan interface as shown in Figure 5-106.
Figure 5-106 Creating GSM Sector
3. Select/type in all attributes and click OK.
– End of Steps –
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Result
GSM Sector The management interface shows the GSM sector been configured.
5.6.4.4 Configuring GSM carrier frequency
Short Description
This step creates the GSM carrier configuration.
Prerequisites
The GSM sector has been created and the GSM sector subject is available for reference.
Steps
1. Click the Maintenance Navigation Tree and clickWireless Resource Management> GSM Carrier Frequency. A window pops up as shown in Figure 5-107.
Figure 5-107 GSM Carrier Frequency Management Interface
2. Right-click in the blank window to bring up the shortcut menu. Click Add to bring upan interface as shown in Figure 5-108.
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Figure 5-108 Creating GSM Carrier Frequency
3. Select/type in all attributes and click OK.
– End of Steps –
Result
GSM Carrier Frequency interface shows the GSM sector been configured.
5.7 Saving Offline Configuration DataShort Description
To save configuration data to local hard disk.
Prerequisites
l EOMS interface is open.
Context
Configuration data are saved in xml file form.
Steps
1. Click on System > Export Configuration Data on EMOS menu bar. The interfacethat appears is shown in Figure 5-109.
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Figure 5-109 Save Configuration Data
2. Define file name and select a local directory to save data. Click Save.
– End of Steps –
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Chapter 6EOMS-Online ConfigurationTable of Contents
Online Configuration Overview ...................................................................................6-1Logging in Base Station..............................................................................................6-1Overview of Online Configuration Operations .............................................................6-5AISG Device Scan......................................................................................................6-5AISG Device Operations ............................................................................................6-7Software Management ...............................................................................................6-8A Guide to EOMS Quick Update...............................................................................6-11
6.1 Online Configuration OverviewOnline configuration is to perform data configuration and modification after logging in theBS.
The functions of online configuration and offline configuration are mostly the same, exceptthat online configuration can perform such additional functions as:l AISG device configurationl Software management
6.2 Logging in Base StationShort Description
This task is performed to log on the base station in online configuration mode to startEOMS.
Prerequisites
l The LMT software is installed.l The IP link between LMT and the base station is normal.l The LMT port's IP address of the base station is obtained.
Context
The default LMT IP address of ZXSDR BTS/Node B is 192.254.1.16 upon delivery. Toaccess that IP address, the IP address of the LMT PC can be 192.254.1.1/255.255.255.0.
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Note:
Here, the base station's IP address is set to be 127.0.0.1, not the default 192.254.1.16.
Steps
1. Click Start > All Programs > ZTE LMTools > LMT Start, the logon interface is shownin Figure 6-1.
Figure 6-1 Logon Interface
2. Select the Online configuration logon mode, and click Station Manage to open theStation Manage interface as shown in Figure 6-2.
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Figure 6-2 Entering Station Manage Interface
3. Click Add. An interface appears, as shown in Figure 6-3.
Figure 6-3 Adding Base Station Information
4. Fill station name and station IP in Add base station information interface. Click Yesto return to the interface shown in Figure 6-4.
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Figure 6-4 Returning to Station Manage Interface
5. Click Yes to return to the interface shown in Figure 6-5.
Figure 6-5 Returning to Logon Interface
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6. Select "English" for Language, select “4.09.21.08P02” for Version, and click RunVersion.
– End of Steps –
Result
The EOMS interface appears, as shown in Figure 6-6.
Figure 6-6 EOMS Interface
6.3 Overview of Online Configuration OperationsThe online configuration is the same as the offline configuration, except for the AISG deviceconfiguration and software management. Refer to the related chapter.
6.4 AISG Device ScanShort Description
To scan AISG Device.
Prerequisites
l Connections between ZXSDR BTS/Node B and RRU device/RET antenna are right.l The BS has been logged in and EOMS interface is open.
Steps
1. Click on Ground Resource Management > AISG Device Scan on Maintainnavigation tree. The interface that appears is shown in Figure 6-7.
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Figure 6-7 AISG Device Scan Interface
2. Right-click the blank space on AISG Device Scan interface. The shortcut menuappears. Click on Scan AISG Device, and the interface that appears is shown inFigure 6-8.
Figure 6-8 Scan AISG Device
3. Select the rack to be scanned and click OK.
Note:
It takes a long time to scan all AISG devices. Therefore, all rack scan is not recommended.
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The scanned AISG devices are shown on AISG Device Scan interface.
– End of Steps –
6.5 AISG Device OperationsShort Description
To describe operations related to AISG device
AISG Device Type
AISG device is the RF component that can be electronically adjusted. It includes:
l AISG tower-mounted amplifier (ATMA)l AISG combiner (ACOM)l AISG antenna (RET)
Universal Operations on AISG Device
Operations applicable to all AISG Devices include:
l Query Device Datal Set device Datal Query Versionl Resetl AISG Device Selfcheck
Right-click on any device on AISG Device interface, and the shortcut menu appears.Operations listed above can be performed.
ATMA/ACOM Operations
ATMA/ACOM operations include:
l Query Gainl Query Model Set Mode
Right-click on an ATMA/ACOM device on AISG Device interface, and the shortcut menuappears. Operations listed above can be performed.
RET Operations
l Auto Adjustl Query Tiltl Set Tiltl Send Configuration Data
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Right-click on a RET device on AISG Device interface, and the shortcut menu appears.Operations listed above can be performed.
6.6 Software Management
6.6.1 Software Management OperationsBS software management operations include:
l Bring the software package into the scope of LMT management. (Version into LIB)l Download the software package to BS CC board. (Package Download)l BS reboots and runs after loading the new software. (Package Activation)
6.6.2 Upgrading base station Software
Short Description
The purpose of the task is to upgrade the base station software.
Prerequisites
The user has logged onto the base station and the EOMS has been opened.
Steps
1. Click Maintenance Navigation Tree > Version Management to enter the interfaceshown in Figure 6-9.
Figure 6-9 Version Management Interface
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2. Right-click in the blank window of version management and click AddToLib to enterthe interface shown in Figure 6-10.
Figure 6-10 Importing Version
3. Browse the local hard disk and select the base station version package. Then clickOpen and return to the Version Management interface, as shown in Figure 6-11.
Figure 6-11 Version Importing Completed
4. Select the software version to import, right-click and select Download.
5. When the software downloading is completed, a dialog box pops up. Click Confirmas shown in Figure 6-12.
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Figure 6-12 Download Result
6. Then return to the Version Management interface, as shown in Figure 6-13.
Figure 6-13 Download Completed
– End of Steps –
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6.7 A Guide to EOMS Quick UpdateThe EOMS quick update could replace the image tool to perform the access operationwhich has no version or data format limits. The operation flow is as below:
1. Open the EOMS login interface and select Fast upgrade. Input the user name andpassword, as shown in Figure 6-14. Select the base station version available anddouble click icon.
Figure 6-14 Log onto the Base Station (Fast Upgrade)
2. 3. Select the version package to be updated, as shown in Figure 6-15. By defaultthe system selects and activates the related data in the version package. The OMCBchannel is automatically established after the base station has been updated. Selectthis method for base station deployment.
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Figure 6-15 Selecting Version Package
Note:
It also supports the manual update of certain data. Click the button Manual Select and Update
Data (not recommended) to select the related data. The data will be used after the base station
update is completed. The user must make sure the data selected is proper and correct, otherwise
the base station might fail to establish the OMCB channel.
3. Click the Upgrade button to display the Preparing to Update progress bar, as shownin Figure 6-16.
Figure 6-16 Upgrade Progress Bar
4. Then Downloading progress bar pops up as shown in Figure 6-17.
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Figure 6-17 Downloading Progress Bar
5. If the update version is different than the current version of the base station, anAttempting to Activate progress bar will pop up after the download is completed, asshown in Figure 6-18.
Figure 6-18 Activating Progress Bar
6. A message pops up after the progress is completed. Click Ok to complete the updateand log out EOMS.
7. If the update version is the same as the current version of the base station, a messagewill pop up after the download is completed, as shown in Figure 6-19. Click Ok to returnto the version package and template data selection interface.
Figure 6-19 Download Completed
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Chapter 7EOMS-General Operationsand Realtime ViewTable of Contents
Logging Out ...............................................................................................................7-1Modifying Password ...................................................................................................7-1Log Management .......................................................................................................7-2BS Configuration Data Management ..........................................................................7-5Viewing LMT Software Version...................................................................................7-7Realtime View ............................................................................................................7-7
7.1 Logging OutShort Description
To log out from the current LMT account
Prerequisites
l EOMS has been logged in.
Steps
1. Click on System > Logout on EOMS menu bar.
– End of Steps –
7.2 Modifying PasswordShort Description
To modify the password to log in the BS online
Prerequisites
l The BS has been logged in online and EMOS interface is open.
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Steps
1. Click onSystem>Change Password on EOMSmenu bar. The interface that appearsis shown in Figure 7-1.
Figure 7-1 Change Password
2. Input old password and new password. Confirm the new password. Click OK.
– End of Steps –
Result
Password modification is successful. Use the new password to log in the BS online.
7.3 Log Management
7.3.1 Viewing Log
Short Description
To view LMT operation log
Prerequisites
l EOMS has been logged in.
Context
Steps
1. Click on System > Log > View on EOMS menu bar.
– End of Steps –
Result
Log interface appears, as shown in Figure 7-2.
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Figure 7-2 Log Interface
7.3.2 Exporting Log
Short Description
To export LMT operation log and save it in local hard disk
Prerequisites
l EOMS has been logged in.
Steps
1. Click on System > Log > Export on EOMS menu bar. The interface that appears isshown in Figure 7-3.
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Figure 7-3 Export Log
2. Select destination folder, and input file name. Click on Save.
– End of Steps –
7.3.3 Clearing Log
Short Description
To clear LMT operation log
Prerequisites
l EOMS has been logged in.
Steps
1. Click on System > Log > Clear on EOMS menu bar. The interface that appears isshown in Figure 7-4.
Figure 7-4 Clear Log
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2. Click OK.
– End of Steps –
7.4 BS Configuration Data Management
7.4.1 Synchronizing Configuration Data to BS
Short Description
To download a new set of configuration data to the BS
Prerequisites
l The BS has been logged in and EMOS interface is open.
Context
Synchronizing configuration data to the BS is to upload the configuration data saved in localhard disk to the BS. BS will reboot and upload new data after successful synchronization.
Caution!
Since synchronizing configuration data will cause BS reboot, service interruption will occur then.
Steps
1. Click on System > Configuration Data Delivery on EOMS menu bar. The interfacethat appears is shown in Figure 7-5.
Figure 7-5 Prompt Dialog Box
2. Click OK. An interface appears, as shown in Figure 7-6.
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Figure 7-6 Selecting Configuration Data
3. Browse local hard disk to select configuration data file. Click Open.
– End of Steps –
Result
The system prompts successful entire table configuration, and the BS reboots.
7.4.2 Exporting Configuration Data
Short Description
To export BS configuration data to local hard disk
Prerequisites
l EOMS interface is open.
Steps
1. Click on System > Export Configuration Data on EOMS menu bar. The interfacethat appears is shown in Figure 7-7.
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Figure 7-7 Save Configuration Data
2. Select destination folder, and input file name. Click on Save.
– End of Steps –
7.5 Viewing LMT Software VersionShort Description
To view LMT software version information
Prerequisites
l LMT is running; EOMS/EFMS/EPMS/EDMS interface is open.
Steps
1. Click on Help > About EOMS/EFMS/EPMS/EDMS... on the menu bar.
– End of Steps –
7.6 Realtime View
7.6.1 Viewing Cell Information
Short Description
To view radio cell information and related functions.
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Preparation
l The BS has been logged in and EMOS interface is open.
Operation
Click onReal-time Information >Cell Information onMaintenace Navigation Tree. CellInformation interface appears, as shown in Figure 7-8.
Figure 7-8 Cell Information
l View cell details: Double-click a piece of cell information. The pop-up interfacedisplays detailed cell information.
l Block/unblock cell: Right-click on any cell information. A shortcut menu appears.Click on Block or Unblock.
7.6.2 Viewing UE Configuration Information
Short Description
To view information of the UE that has accessed the BS and related functions
Preparation
l The BS has been logged in and EOMS interface is open.l The BS is in normal running state; radio cell has been created.l There exists UE that has accessed the cell.
Operation
Click on Real-time Information > UE Configuration Information on MaintenaceNavigation Tree. UE Configuration Information interface appears, as shown in Figure7-9.
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Figure 7-9 UE Configuration Information
l Start UE reporting: Right-click on any blank space on UE Configuration Informationinterface. The shortcut menu appears. Click Start Report of UE.
l Stop UE reporting: This operation can be performed after starting UE reporting.Right-click on any blank space on UE Configuration Information interface. Theshortcut menu appears. Click Stop Report of UE.
l Query UE static configuration information: Right-click on an UE item and the shortcutmenu appears. Click on Query UE static configuration information.
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Chapter 8EDMSTable of Contents
EDMS Subsystem Overview.......................................................................................8-1Starting EDMS Subsystem .........................................................................................8-1Observe Signaling ......................................................................................................8-2System Monitor ........................................................................................................8-12Diagnosis Query.......................................................................................................8-14Diaognosis Test........................................................................................................8-25
8.1 EDMS Subsystem OverviewThe functions of EDMS subsystem include diagnosis & test and assistant functions. EDMSsubsystem implements functions of BS signaling trace, resource usage rate view, andindex test, helping engineers locate the BS faults.
8.2 Starting EDMS SubsystemShort Description
To run LMT software and start EDMS subsystem
Prerequisites
l LMT has been installed.l Link between LMT and the BS is normal.l BS IP address is known.
Steps
1. Double click on LMT Start interface or click on on EOMS tool bar.
– End of Steps –
Result
EDMS subsystem is started and EDMS interface is shown in Figure 8-1.
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Figure 8-1 EDMS Subsystem
8.3 Observe Signaling
8.3.1 Trace NBAP Signaling
Short Description
This topic introduces the EDMS NBAP signaling tracing function.
Preparation
l EDMS is in operation, and the BS has been logged in online.
Operation
Click on Observe Signaling > Trace NBAP signaling on Maintenace Navigation Tree.The interface that appears is shown in Figure 8-2.
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Figure 8-2 Trace NBAP Signaling Interface
l Set NBAP Signaling Tracing Parameters
Right-click the blank space in the left pane of TraceNBAP signaling interface, and theshortcut menu appears. Click on Setup. The interface that appears is shown in Figure8-3. Configure the parameters on NBAP Tracing Parameter Settings interface andClick OK.
Figure 8-3 NBAP Tracing Parameter Settings Interface
l Start NBAP Signaling Tracing
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Right-click the blank space in the left pane of TraceNBAP signaling interface, and theshortcut menu appears. Click on Start. The system begins to collect NBAP signalinginformation.
l Stop NBAP Signaling Tracing
After NBAP signaling tracing starts, right-click the blank space in the left pane of TraceNBAP signaling interface. The shortcut menu appears. Click on Stop.
l Save NBAP Signaling Information
Right-click the blank space in the left pane of TraceNBAP signaling interface, and theshortcut menu appears. Click on Save. NBAP Save Options interface appears, asshown in Figure 8-4. Select theSaving Type and clickOK. Then select the destinationfolder and file name. Click Save.
Figure 8-4 NBAP Save Options Interface
l Clear NBAP Signaling Information
Right-click the blank space in the left pane of Trace NBAP signaling interface, andthe shortcut menu appears. Click on Clear to clear the contents on Trace NBAPsignaling interface.
8.3.2 Trace SSCOP Signaling
Short Description
This topic introduces the EDMS SSCOP signaling tracing function.
Preparation
l EDMS is in operation, and the BS has been logged in online.
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Operation
Click onObserve Signaling > Trace SSCOP signaling onMaintenace Navigation Tree.The interface that appears is shown in Figure 8-5.
Figure 8-5 Trace SSCOP signaling Interface
l Start SSCOP Signaling Tracing
Right-click the blank space on Trace SSCOP signaling interface, and the shortcutmenu appears. Click on Start. The SSCOP Signaling Trace Settings interfaceappears, as shown in Figure 8-6. Select links to be traced and signaling direction.Fill in tracing buffer, and then click OK to start Trace SSCOP Signaling.
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Figure 8-6 SSCOP signaling Trace Settings Interface
l Stop SSCOP Signaling Tracing
After SSCOP signaling tracing starts, right-click the blank space on Trace SSCOPsignaling interface. The shortcut menu appears. Click on Stop.
l Clear SSCOP Signaling Information
Right-click the blank space on Trace SSCOP signaling interface, and the shortcutmenu appears. Click on Clear to clear the contents on Trace SSCOP signalinginterface.
8.3.3 Trace ALCAP Signaling
Short Description
This topic introduces the EDMS ALCAP signaling tracing function.
Preparation
l EDMS is in operation, and the BS has been logged in online.
Operation
Click onObserve Signaling > Trace ALCAP signaling onMaintenace Navigation Tree.The interface that appears is shown in Figure 8-7.
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Figure 8-7 Trace ALCAP signaling Interface
l Start ALCAP Signaling Tracing
Right-click the blank space on Trace ALCAP signaling interface, and the shortcutmenu appears. Click on Start.
l Stop ALCAP Signaling Tracing
After ALCAP signaling tracing starts, right-click the blank space on Tace ALCAPsignaling interface. The shortcut menu appears. Click on Stop.
l Save ALCAP Signaling Information
Right-click the blank space on Trace ALCAP signaling interface, and the shortcutmenu appears. Click on Save. ALCAP Save Options interface appears, as shownin Figure 8-8. Select the Saving Type and clickOK. Then select the destination folderand file name. Click Save.
Figure 8-8 ALCAP Save Options Interface
l Clear ALCAP Signaling Information
Right-click the blank space on Trace ALCAP signaling interface, and the shortcutmenu appears. Click on Clear to clear the contents on Trace ALCAP signalinginterface.
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8.3.4 Trace SCTP Signaling
Short Description
This topic introduces the EDMS SCTP signaling tracing function.
Preparation
l EDMS interface is open.
OperationClick on Observe Signaling > Trace SCTP signaling on Maintenace Navigation Tree.The interface that appears is shown in Figure 8-9.
Figure 8-9 Trace SCTP Signaling Interface
l Start SCTP Signaling Tracing
Right-click the blank space on Trace SCTP signaling interface, and the shortcutmenu appears. Click on Start. The interface that appears is shown in Figure 8-10.
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Figure 8-10 SCTP Signaling Trace Settings Interface
Fill in/Select all attributes. Click OK.
l Stop SCTP Signaling Tracing
Right-click the blank space on Trace SCTP signaling interface, and the shortcutmenu appears. Click on Stop.
l Clear SCTP Signaling Information
Right-click the blank space on Trace SCTP signaling interface, and the shortcutmenu appears. Click on Clear.
l Save SCTP Signaling Information
Right-click the blank space on Trace SCTP signaling interface, and the shortcutmenu appears. Click on Save. SCTP Save Options interface appears, as shownin Figure 8-11.
Figure 8-11 SCTP Save Options Interface
Select the Saving Type and clickOK. Then select the destination folder and file nameto save SCTP signaling information.
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Note:
If Save reported messages and to-be-reported messages is selected for Saving Type, stopsaving signaling information after signaling trace completion, (Right-click the blank space on
Trace SCTP signaling interface, and the shortcut menu appears. Click on Stop saving.)
8.3.5 Trace PPP Signaling
Short Description
This topic introduces the EDMS PPP signaling tracing function.
Preparation
l EDMS interface is open.
Operation
Click on Observe Signaling > Trace PPP Signaling on Maintenace Navigation Tree.The interface that appears is shown in Figure 8-12.
Figure 8-12 Trace PPP Signaling Interface
l Start PPP Signaling Tracing
Right-click the blank space on Trace PPP Signaling interface, and the shortcut menuappears. Click on Start. The interface that appears is shown in Figure 8-13.
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Figure 8-13 PPP Signaling Trace Settings Interface
Fill in/Select all attributes. Click OK.
l Stop PPP Signaling Tracing
Right-click the blank space on Trace PPP Signaling interface, and the shortcut menuappears. Click on Stop.
l Clear PPP Signaling Information
Right-click the blank space on Trace PPP Signaling interface, and the shortcut menuappears. Click on Clear.
l Save PPP Signaling Information
Right-click the blank space on Trace PPP Signaling interface, and the shortcut menuappears. Click on Save. PPP Save Options interface appears, as shown in Figure8-14.
Figure 8-14 PPP Save Options Interface
Select the Saving Type and clickOK. Then select the destination folder and file nameto save PPP Signaling information.
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Note:
If Save reported messages and to-be-reported messages is selected for Saving Type, stopsaving signaling information after signaling trace completion, (Right-click the blank space on
Trace PPP Signaling interface, and the shortcut menu appears. Click on Stop saving.)
8.4 System Monitor
8.4.1 View CPU&RAM Usage Rate
Short Description
This topic introduces the EDMS function of viewing board CPU&RAM usage rate.
Preparation
l EDMS interface is open.
Operation
Click on SystemMonitor > CPU&RAM usage rate onMaintenace Navigation Tree. Theinterface that appears is shown in Figure 8-15.
Figure 8-15 CPU&RAM Usage Rate Interface
l Start Viewing
Right-click on one board in the left pane of CPU&RAM usage rate interface, and theshortcut menu appears. Click on Start. The board CPU&RAM usage informationappears in the right pane.
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l Stop Viewing
Right-click on one board in the left pane of CPU&RAM usage rate interface, and theshortcut menu appears. Click on Stop.
Note:
If the selected board does not support viewing CPU&RAM usage rate, the Start/Stop shortcut menu
is unavailable.
8.4.2 View VME Running Information
Short Description
This topic introduces the EDMS function of viewing VME running information. The boardVME information comprises task information, process information, andmemory/CPU/stackutilization.
Preparation
l EDMS interface is open.
Operation
Click on System Monitor > VME Running Info on Maintenace Navigation Tree. Theinterface that appears is shown in Figure 8-16.
Figure 8-16 VME Running Info Interface
l View Board Task Information
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Right-click on one board in the left pane of VME running info interface, and theshortcut menu appears. Click on Task Msg. The board task information appearsin the right pane.
l View Board Memory Usage Information
Right-click on one board in the left pane of VME running info interface, and theshortcut menu appears. Click on Memory Usage. The board memory usageinformation appears in the right pane.
l View Board CPU Usage Information
Right-click on one board in the left pane of VME running info interface, and theshortcut menu appears. Click on CPU Usage. The board CPU usage informationappears in the right pane.
l View Board Stack Usage Information
Right-click on one board in the left pane of VME running info interface, and theshortcut menu appears. Click on Stack Usage. The board stack usage informationappears in the right pane.
l View Board Process Information
Right-click on one board in the left pane of VME running info interface, and theshortcut menu appears. Click on Process info. The board process informationappears in the right pane.
8.5 Diagnosis Query
8.5.1 Query Common Physical Channel
Short Description
This topic introduces the EDMS function of common physical channel query.
Preparation
l EDMS is in operation and the BS has been logged in.l The BS is in normal operation state and radio cell has been created.
Operation
Click on Diaognosis Query > Query common physical channel on MaintenaceNavigation Tree. The interface that appears is shown in Figure 8-17.
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Figure 8-17 Query Common Physical Channel Interface
l Click on one channel item. TFCS and time slot format information is displayed inTFCS and Slot Format panes.
l Right-click on the interface and the shortcut menu appears. Click on Refresh to re-fresh data.
8.5.2 Query Common Transport Channel
Short Description
This topic introduces the EDMS function of common transport channel query
Preparation
l EDMS is in operation and the BS has been logged in.l The BS is in normal operation state and radio cell has been created.
Operation
Click on Diaognosis Query > Query common transport channel on MaintenaceNavigation Tree. The interface that appears is shown in Figure 8-18.
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Figure 8-18 Query Common Transport Channel Interface
l Click on one channel item. TFS information is displayed in TFS pane.l Right-click on the interface and the shortcut menu appears. Click on Refresh to re-
fresh data.
8.5.3 Board Link State Test
Short Description
The topic introduces the function of board link state test, which tests whether the linkbetween the peripheral board and the slave CC board and the master CC board is normal.
Preparation
l EDMS interface is open.
Operation
1. Click on Diaognosis Query > Board link state test onMaintenace Navigation Tree.The interface that appears is shown in Figure 8-19.
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Figure 8-19 Board Link State Test Interface
2. Right-click on one record, and the shortcut menu appears. Click on Start Test.
Note:
Select one node to perform the test on the boards under this node. For example, select Rack 1
(main rack) to perform the link test on all boards under Rack 1.
The test result appears in the Test Result pane.
8.5.4 Checking Base Station Health
Short Description
This section describes how to check the base station's health.
Preparation
l EDMS is started.
Operation
1. On the leftMaintenace Navigation Tree, click theDiaognosis Query > Base StationHealth Check node, the pop-up interface is shown in Figure 8-20.
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Figure 8-20 Base Station Health Check Interface
2. In the health check window, right-click on Base Station, and click Start Test.
The test result is displayed in Test Result pane.
8.5.5 GPS Satellite Info Query
Short Description
This topic introduces the EDMS function of GPS satellite information query.
Preparation
l EDMS interface is open.
OperationClick onDiaognosis Query > GPS Satellite Info Query onMaintenace Navigation Tree.The interface that appears is shown in Figure 8-21.
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Figure 8-21 GPS Planet Info Query Interface
l Query GPS Satellite Information
Right-click on CC board onGPSSatellite Info Query interface, and the shortcut menuappears. Click on Start Test. GPS satellite information received by the BS appearson the lower pane.
Note:
It takes a long time to query GPS satellite information.
l Stop Query
Right-click on CC board onGPSSatellite Info Query interface, and the shortcut menuappears. Click on Stop Test.
8.5.6 Ir Interface Query
Short Description
This topic introduces the EDMS function of Ir interface query.
Preparation
l EDMS interface is open.
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Operation
1. Click on Diagnosis Query > Ir Interface Query on Maintenace Navigation Tree.The interface that appears is shown in Figure 8-22.
Figure 8-22 Ir Interface Query Interface
2. Right-click on one board on Ir Interface Query interface, and the shortcut menu ap-pears. Click on Start Test.
The test result appears in Test Result pane.
8.5.7 Querying Ir BER
Short Description
This section introduces how to query Ir BER in EDMS. With the Ir BER query function,user can query the block error rate of transmission at the Ir interface (BBU<=>RRU) ofbase station.
Preparation
l EDMS is started.l The RRU rack is configured.
Operation
On the left Maintenace Navigation Tree, click the Diagnosis Query > Ir BER Querynode, and the Ir BER Query window pops up, as shown in Figure 8-23.
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Figure 8-23 Ir BER Query Interface
l Querying at BBU: right-click on the FS board, click Query Portn in the pop-up menu,and the BER of the queried port will be displayed in the pane on the right.
l Querying at RRU: right-click on the board of RRU rack, click Query Portn in thepop-up menu, and the BER of the queried port will be displayed in the pane on theright.
8.5.8 Ethernet OAM Session Parameter Query
Short Description
This topic introduces the EDMS function of ethernet oam session parameter query.
Preparation
l EDMS is in operation and the BS has been logged in.l Ethernet OAM Parameter has been created.
Operation
Click on Diaognosis Query > Ethernet OAM Session Parameter Query onMaintenance Navigation Tree. The interface that appears is shown in Figure 8-24.
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Figure 8-24 Ethernet OAM Session Parameter Query Interface
l Right-click on one item on Ethernet OAM Session Parameter Query interface, andthe shortcut menu appears. Click on Start Test.
The test result appears in Test Result pane.
8.5.9 GSM Carrier Frequency Query
Short Description
This topic introduces the EDMS function of GSM carrier frequency query.
Preparation
l EDMS is in operation and the BS has been logged in.l GSM carrier frequency has been created.
Operation
Click on Diaognosis Query > GSM Carrier Frequency Query on MaintenanceNavigation Tree. The interface that appears is shown in Figure 8-25.
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Figure 8-25 Query GSM Carrier Frequency Interface
l Right-click on one item and the shortcut menu appears. Click on Start Test.
8.5.10 Board Diagnose Test
Short Description
This topic introduces the EDMS function of board diagnose test.
Preparation
l EDMS interface is open.
Operation
1. Click on Diagnosis Query > Board Diagnose Test onMaintenace Navigation Tree.The interface that appears is shown in Figure 8-26.
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Figure 8-26 Board Diagnose Test
2. Right-click on one board on Board Diagnose Test interface, and the shortcut menuappears. Click on Start Test.
The test result appears in Test Result pane.
8.5.11 Board Read and Write Test
Short Description
This topic introduces the EDMS function of board read and write test.
Preparation
l EDMS interface is open.
Operation
1. Click onDiagnosis Query > BOARDR/W Test onMaintenace Navigation Tree. Theinterface that appears is shown in Figure 8-27.
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Figure 8-27 Board Read and Write Test
2. Right-click on one board on BOARD R/W Test interface, and the shortcut menuappears. Click on FPGA R/W Test or EPLD R/W Test.
The test result appears in Test Result pane.
8.6 Diaognosis Test
8.6.1 Site-opening Wave Ratio Inspection
Short Description
This topic introduces the function of standing wave ratio inspection.
Preparation
l LMT is in operation and the BS has been logged in online.l EDMS interface is open.
Operation
1. Click on Diagnosis Test > Site-opening Wave Ratio Inspection on MaintenaceNavigation Tree. The interface that appears is shown in Figure 8-28.
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Figure 8-28 Site-opening Wave Ratio Inspection Interface
2. Right-click on one board and the shortcut menu appears. Click on Start Test.
The operation result appears in Test Result pane.
8.6.2 RSSI Test
Short Description
This topic introduces the EDMS function of RSSI test, which tests the uplink signal power(interference test) around the BS within WCDMA uplink frequency
Preparation
l EDMS is in operation and the BS has been logged in online.l RU/RRU has been configured, and its link with BBU is normal.l Local cell has been blocked.
Operation
1. Click on Diagnosis Test > RSSI Test onMaintenace Navigation Tree. The interfacethat appears is shown in Figure 8-29.
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Figure 8-29 RSSI Test Interface
2. Right-click on one board on RSSI test interface, and the shortcut menu appears. Clickon Start Test. Click OK on the interface that appears.
The test result appears in Test Result pane.
8.6.3 Clock State Query
Short Description
This topic introduces the EDMS function of clock state query, through which the workingstate of the clock can be queried.
Preparation
l EDMS interface is open.
Operation
1. Click on Diagnosis Test > Clock State Query onMaintenace Navigation Tree. Theinterface that appears is shown in Figure 8-30.
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Figure 8-30 Clock State Query Interface
2. Right-click on a CC board and the shortcut menu appears. Click on Start Test.
The test result appears in Test Result pane.
8.6.4 Foreboard Clock Manager
Short Description
This topic introduces the EDMS function of front panel test clock output management.
Preparation
l EDMS interface is open.
Operation
Click on Diagnosis Test > Front panel test clock output management on MaintenaceNavigation Tree. The interface that appears is shown in Figure 8-31.
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Figure 8-31 Foreboard Clock Manager Interface
l Query Clock Output Parameter
Right-click on the clock parameter record and the shortcut menu pops up. Click onStart Test. The test result appears in Test Result pane.
l Configure Clock Output Parameter
Right-click on the clock parameter record and the shortcut menu pops up. Click onSet foreboard clock. The test result appears in Test Result pane.
8.6.5 Set RRU Full-Loop Back
Short Description
This topic introduces the EDMS function of RRU full-loop back, which provides thetransmission channel for the delay test of transmission between BBU and RU/RRU.
Preparation
l LMT is in operation and the BS has been logged in online.l RU/RRU has been configured, and the topology relationship between RU/RRU and
the main rack has been configured.
Operation
1. Click on Diagnosis Test > Set RRU Full Loop-back on Maintain navigation tree.The interface that appears is shown in Figure 8-32.
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Figure 8-32 Set RRU Full Loop-Back Interface
2. Right-click on one board on Set RRU full loop-back interface, and the shortcut menuappears. Click on Start Test. The test result appears in Test Result pane.
8.6.6 Simulated cell test
Short Description
This topic introduces the EDMS function of simulated cell test.
Preparation
l EDMS interface is open.l Local cell has been set up.
Operation
1. Click on Diagnosis Test > Simulated Cell Test on Maintenace Navigation Tree.The interface that appears is shown in Figure 8-33.
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Figure 8-33 Simulated cell test
2. Right-click on one local cell on Simulated Cell Test interface, and the shortcut menuappears. Click on Start Test.
The test result appears in Test Result pane.
8.6.7 BS Check
Short Description
This topic introduces the EDMS function of base station check.
Preparation
l EDMS interface is open.l Local cell has been set up.
Operation
1. Click on Diagnosis Test > Site-opening Check on Maintenace Navigation Tree.The interface that appears is shown in Figure 8-34.
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Figure 8-34 BS Check
2. Right-click on any blank space on Site-opening Check. The shortcut menu appears.Click Start, Base Station inspection configuration box appearsas shown in Figure8-35. Select or fill in relative information, and clickOK.
Figure 8-35 Base Station inspection configuration
The test result appears in Site-opening Check.
8.6.8 TOC Total Power Measurement
Short Description
This topic introduces the EDMS function of TOC total power measurement.
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Preparation
l EDMS interface is open.l DTR has been configured.
Operation
1. Click on Diagnosis Query > TOC Total Power Measurement on MaintenaceNavigation Tree. The interface that appears is shown in Figure 8-36.
Figure 8-36 TOC Total Power Measurement Interface
2. Right-click on one board on TOC Total Power Measurement interface, and theshortcut menu appears. Click on Start Test.
The test result appears in Test Result pane.
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Chapter 9EFMSTable of Contents
Starting EFMS Subsystem .........................................................................................9-1Viewing Current Alarm................................................................................................9-2Viewing History Alarm ................................................................................................9-2Viewing Alarm Event ..................................................................................................9-3Synchronizing Alarm ..................................................................................................9-3Alarm Solution............................................................................................................9-4
9.1 Starting EFMS SubsystemShort Description
To start EFMS subsystem
Prerequisites
l LMT Start interface: Login type is selected as online configuration.l Or EOMS interface is opened online.
Steps
1. Double click on LMT Start interface or click on on EOMS tool bar.
– End of Steps –
Result
EFMS interface is open, as shown in Figure 9-1.
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Figure 9-1 EFMS Interface
9.2 Viewing Current AlarmShort Description
To view current alarm
Prerequisites
l EFMS interface is open.
Steps
1. Click on Alarm > Current Alarm on EFMS menu bar.
– End of Steps –
Result
Current alarm interface appears in front.
9.3 Viewing History AlarmShort Description
To view history alarm
Prerequisites
l EFMS interface is open.
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Steps1. Click on Alarm > Historical Alarms on EFMS menu bar.
– End of Steps –
ResultHistorical Alarms interface appears in front.
9.4 Viewing Alarm EventShort Description
To view alarm events
Prerequisites
l EFMS interface is open.
Steps1. Click on Alarm > Alarm Events on EFMS menu bar.
– End of Steps –
ResultAlarm Events interface appears in front.
9.5 Synchronizing AlarmShort Description
The alarm information displayed on EFMS interface might be inconsistent with the BSalarm information due to the report period delay. The purpose of alarm synchronization isto synchronize the BS alarm information to EFMS.
Prerequisites
l EFMS interface is open.
Steps1. Click on Alarm > Synchronize on EFMS menu bar.
– End of Steps –
ResultThe interface prompting synchronization success appears.
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9.6 Alarm Solution
9.6.1 Viewing Single Alarm Solution
Short Description
To view the alarm solution of current/history alarm.
Prerequisites
l EFMS interface is open.l Current/History alarm interface is open
Steps1. Double-click on one current/history alarm item. Alarm Detail Information interface
appears. Click on the Solution tab.
– End of Steps –
ResultAlarm solution information appears, as shown in Figure 9-2.
Figure 9-2 Viewing Single Alarm Solution
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9.6.2 Viewing All Alarm Solutions
Short Description
To view the solutions to all alarms
Prerequisites
l EFMS interface is open.
Steps
1. Click on Alarm > Alarm Solution on EFMS menu bar.
– End of Steps –
Result
Solutions to all alarms appear, as shown in Figure 9-3.
Figure 9-3 Viewing All Alarm Solutions
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Chapter 10EPMSTable of Contents
Performance Management Overview........................................................................10-1Sampling Period and Measurement Condition..........................................................10-1Starting EPMS Subsystem .......................................................................................10-1Creating Measurement Task.....................................................................................10-2Starting Measurement Task......................................................................................10-6Saving Measurement Data .......................................................................................10-7Stopping Saving Measurement Data ........................................................................10-8Stopping Measurement Task ....................................................................................10-9
10.1 Performance Management OverviewPerformance management provides the function of cell measurement, collecting data forperformance analysis.
Beyond the scope of this manual, performance parameters are and are not covered here.
All Performance measurement methods are basically the same. This chapter only coversthe performance management operations.
10.2 Sampling Period and Measurement ConditionSampling Period
Sampling period of measurement tasks in PMS can be 1–9 s, and 1 s is the default value.
Measurement Condition
Measurement condition of measurement tasks in PMS depends on if the object relatedwith the measurement task exists.
For example, the measurement condition of cell measurement task is the cell exists.
10.3 Starting EPMS SubsystemShort Description
To start LMT EPMS subsystem
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Prerequisites
l LMT Start interface: Login type is selected as online configuration.l Or EOMS interface is opened online.
Steps
1. Double click on LMT Start interface or click on on EOMS tool bar.
– End of Steps –
Result
EPMS runs, as shown in Figure 10-1.
Figure 10-1 EPMS Interface
10.4 Creating Measurement TaskShort Description
To create a measurement task, including selecting measurement content/curve andconfiguring the save options
Prerequisites
l LMT has been logged in online, and EPMS interface is open.
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Context
Note:
This topic takes creating R99 cell performance measurement task as an example.
Steps
1. Right-click on the Cell Measurement node under R99 Performance Management inthe left pane, and the shortcut menu appears. Click on Create measurement task.The interface that appears in shown in Figure 10-2.
Figure 10-2 Create Measurement Task Step 1
2. Select the items to be measured and Click Next. The interface that appears is shownin Figure 10-3.
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Figure 10-3 Create Measurement Task Step 2
3. Select the measurement curve and click Next. The interface that appears is shown inFigure 10-4.
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Figure 10-4 Create Measurement Task Step 3
4. Select the files to be saved, save format, and save path. Click Finish.
– End of Steps –
ResultThe created measurement task appears on Maintenace Navigation Tree, as shown inFigure 10-5.
Figure 10-5 Created Measurement Task
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10.5 Starting Measurement TaskShort Description
To start the measurement task that has been created
Prerequisites
l LMT has been logged in online and EPMS interface is open.l At least one cell has been created.l The measurement task has not been started.
Steps1. Right-click on a measurement task and the shortcut menu appears. Click on Start
measurement. The interface that appears is shown in Figure 10-6.
Figure 10-6 Select Cell
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2. Select a cell and click OK.
– End of Steps –
Result
The measured data is displayed on the measurement print interface, as shown inFigure10-7.
Figure 10-7 Measurement Data
10.6 Saving Measurement DataShort Description
To save measurement data to local hard disk
Prerequisites
l LMT has been logged in online and EPMS interface is open.l The measurement task has been started.
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l The real-time save of the measurement data has not been started.
Steps
1. Right-click on the measurement task and the shortcut menu appears. Click on savemeasured data.
– End of Steps –
Result
The measurement data is saved in a local file, as shown in Figure 10-8. The path of thesaved file is configured during measurement task creation.
Figure 10-8 Data File
10.7 Stopping Saving Measurement DataShort Description
To stop saving the measurement data to the local file
Prerequisites
l LMT has been logged in online and EPMS interface is open.l The measurement task has been started.
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Steps
1. Right-click on the measurement task and the shortcut menu pops up. Click on Stopsaving data.
– End of Steps –
Result
The measurement is stopped, and no more measurement data is generated.
10.8 Stopping Measurement TaskShort Description
To Stop measurement task
Prerequisites
l LMT has been logged in online and EPMS interface is open.l The measurement task has been started.
Steps
1. Right-click on one measurement task and the shortcut menu appears. Click on Stopmeasuring.
– End of Steps –
Result
The measurement is stopped and no new measurement data are generated.
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Appendix AReference KnowledgeTable of Contents
� LMT Online Access Operation Guide...................................................................... A-1
� 2G/3G Shared Transmission................................................................................... A-1
� Iub Transmission Protocol Model ............................................................................ A-4
� LMT IP Address of ZXSDR BTS/Node B................................................................. A-7
� Iub Interface Bearer Type ....................................................................................... A-7
� RF Connection ....................................................................................................... A-8
A.1 LMT Online Access Operation GuideUers may access the LMT through the embedded web server of the foreground with aninternet browser such as IE. Users may log in and start the LMT terminal with the logintype of online configuration. The detailed operation is as the following:
1. Open the internet browser and input http://[base station IP]. For a local directconnection, the base station IP is usually 192.X.Y.16 (X is the environment numberand Y is the slot number of the main control board connected.). For a remote RNCconnection, the base station IP is the operation and maintenance IP assigned byRNC. If there is no response after a long period of time, please check the proxysettings. For example, for the IP address 192.12.1.16, please disable proxy for theIP address “192.*”.
2. When enhanced security is used in IE, the access could be blocked.3. Add the website to the trusted sites.4. Check "Always trust the contents from this provider.", Select the language and input
the user name and password. When the first button (Run Version) becomes available,click it to start LMT. This step starts EOMS (the configuration subsystem of LMT).
A.2 2G/3G Shared TransmissionShort Description
This section covers the specific means of 2G/3G shared transmission.
Basic Concept
Currently, the major problem for 3G and 2G sharing the same transmission network isthat the transmission resources of some 2G sites cannot meet the requirements of 3G.
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However, GSM and WCDMA sharing the transmission resources has great potentialadvantages. Constructing a separate transmission network for WCDMA will not influencethe normal GSM services, but it costs too much.
With respect to cost-saving, here are three solutions for transmission network sharing:
l Logical separationl 3G sharing 2G transmission, with Fractional ATM (Time Slot Interchange, TSI)l 2G sharing 3G transmission, with Circuit Emulation Service (CES)
Logical Separation
When sharing the physical transmission resources, logically separate WCDMA and GSMtraffic into different E1 connections, performing traffic processing respectively. As a result,end-to-end TDM connection can be kept for GSM traffic and WCDMA traffic can takeeffective advantage of the bandwidth. This solution is most popular and regarded as thebase solution. Networking mode of this solution is shown in Figure A-1.
Figure A-1 Logical Separation of 2G/3G Transmission
Fractional ATM (TSI)
Fractional ATM is to transmit WCDMA traffic through the idle TS of 64 kbps (partially usedfor GSM) in the E1 connection. Undo/Insert of WCDMA traffic from/to GSM TS can beprovided by independent transmission device or GSM. This solution is applicable whenWCDMA data traffic is small, which avoids or delays the demand of the transmissioncapacity expansion.
In the initial construction phase of 3G network, 3G sharing the transmission with 2Gmeanstransmitting ATM cells via several idle TS of 2G transmission link E1, thus providing thetransmission link for 3G. Networking mode of 3G sharing 2G transmission is shown inFigure A-2.
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Figure A-2 3G Sharing 2G Transmission (TSI)
Circuit Emulation
The third solution is to transmit WCDMA and GSM traffic via ATM. In this case, GSMradio BS is connected with WCDMA radio BS, and the circuit emulation is performed forGSM traffic on AAL1 connection. This solution needs to re-route the daily GSM traffic andperform the channelization processing for end-to-end TDM connection.
In the latter construction phase of 3G network, 2G sharing 3G transmission resourcesmeans using CES function to send TDM signals of 2G via Node B ATM transmission linkon AAL1 adaptation, thus reducing the transmission resource and cost. Networking modeof 2G sharing 3G transmission is shown in Figure A-3.
Figure A-3 2G Sharing 3G Transmission (CES)
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A.3 Iub Transmission Protocol Model
A.3.1 Iub interfaceIn 3GPP, Iub interface is defined as the interface between Node B and RNC.
Interface Functions
This interface implements the following functions:
l Transmission Resource Managementl Maintenance Managementl O&M Data Transferl System Information Managementl Common Channel Resource Managementl Dedicated Channel Resource Managementl Downlink Shared Channel Resource Managementl Timing and Synchronization Management
Interface Implementation
Iub interface supports the following physical ports
l GE (Gigabit Ethernet) Optical Port
The medium is fiber optics, and adaptive to 10M/100M/1000M.
l GE Electrical Port
The medium is Ethernet cable, and adaptive to 10M/100M/1000M.
l FE Electrical port
The medium is Ethernet cable, and adaptive to 10M/100M.
l E1/T1 Port
Maximum E1 bandwidth 2.048M; aximum T1 bandwidth 1.544 M.
Iub interface supports ATM transmission, Full IP transmission and combination of the twotype. ATM supports E1/T1 only.
ATM Transmission Protocol Layers
ATM transmission protocols at Iub interface include radio network user plane, radio networkcontrol plane and transmission networks control plane. The protocol structure is as shownin Figure A-4.
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Figure A-4 Iub Interface Protocol Stack-ATM
Full IP Transmission Protocol Layers
The Full IP transmission protocol at Iub port is as shown in Figure A-5. When the bottomlayer link is E1/T1 or Ethernet, the protocol stack differs.
Figure A-5 Iub Interface Protocol Stack-Full IP
A.3.2 O&M InterfacesThe O&M interface (remote) ofis a logical interface.The O&M information is connectedto BSC/RNC by Abis/Iub interface. It is then connected to NM system by BSC/RNC, asshown in Figure A-6.
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Figure A-6 O&M Interfaces
Iub interface supports ATM transmission, Full IP transmission and combination of the twotype. Abis port transmission uses full IP only.
Based on ATM Transmission
When Iub is based on ATM transmission, the O&M channel is established by IPoA, theprotocol stack is as shown in Figure A-7.
Figure A-7 O&M Interface Protocol Stack-ATM
When no IPoA is configured, the system will use channel whose VPI/VCI is 1/33automatically, and initiate through BOOTP protocol to request connection to RNC. AfterRNC receives the request it will respond and assign IP address /IPoA gateway to the BSaccording to the configuration.
Based on Full IP Transmission
When Iub/Abis is based on Full IP transmission, the O&M channel is send by IP in IP, theprotocol stack is as shown in Figure A-8.
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Figure A-8 O&M Interface Protocol Stack-Full IP
A.4 LMT IP Address of ZXSDR BTS/Node BThe default LMT IP address of ZXSDR BTS/Node Bis 192.254.1.16.
A.5 Iub Interface Bearer TypeThe Iub interface bearer categorization and its corresponding COS type is shown in TableA-1.
Table A-1 Iub Interface Bearer Type
Service Type Service Description COS Type
Iub interface NBAP Signalling EF service. Expedited forward-
ing, lowest delay, and maximum
throughput
COS5
Iub Interface Common Transport EF service. Expedited forward-
ing, lowest delay, and maximum
throughput
COS5
RRC Connection EF service. Expedited forward-
ing, lowest delay, and maximum
throughput
COS5
OMC Message EF service. Expedited forward-
ing, lowest delay, and maximum
throughput
COS5
IP Clock Message EF service. Expedited forward-
ing, lowest delay, and maximum
throughput
COS5
R99 Conversational Service group 4, discard priority
middle
COS4
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R99 Streaming Service group 4, discard priority
middle
COS4
R99 Interactive Service group 2, discard priority
middle
COS2
R99 Background Best effort COS0
HSPA Conversational Service group 4, discard priority
high
COS4
HSPA Streaming Service group 4, discard priority
high
COS4
HSPA Interactive Service group 2, discard priority
high
COS2
HSPA Background Best effort COS0
A.6 RF ConnectionA RF connection is the channel where uplink/downlink signals travel. Configuring a RFconnection is to assign a specific hardware resource to a transmitting/receiving channel.
Usually, one transmitting (downlink) RF link includes four hardware units: transceiver unit,power amplifier unit, RF front end unit and antenna unit; one receiving (uplink) RF linkincludes three hardware units: transceiver unit, RF front end unit and antenna unit (ANT).In a highly integrated BS system, these hardware may be integrated.
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FiguresFigure 3-1 Path of LMT Start..................................................................................... 3-1
Figure 3-2 Logon Interface........................................................................................ 3-2
Figure 4-1 Running Version ...................................................................................... 4-3
Figure 4-2 Selecting Configuration Template............................................................. 4-3
Figure 4-3 Setting Basic Properties for the Base Station ........................................... 4-4
Figure 4-4 Configuring RRU shelf, Board and antenna.............................................. 4-5
Figure 4-5 Creating Rack Topology Structure............................................................ 4-5
Figure 4-6 Configuring IP Port Management ............................................................. 4-6
Figure 4-7 Configuring IP Parameters....................................................................... 4-6
Figure 4-8 Configuring SCTP Parameters................................................................. 4-7
Figure 4-9 Configuring IP Clock Reference Source ................................................... 4-7
Figure 4-10 Configuring Clock Source Priority........................................................... 4-8
Figure 4-11 Creating Operator Config ....................................................................... 4-8
Figure 4-12 Creating Baseband Resource Pool ........................................................ 4-9
Figure 4-13 Creating UMTS Sector ........................................................................... 4-9
Figure 4-14 Creating Local Cell............................................................................... 4-10
Figure 5-1 Logon Interface........................................................................................ 5-2
Figure 5-2 Add Version ............................................................................................. 5-2
Figure 5-3 Add Version successfully ......................................................................... 5-3
Figure 5-4 Selecting Configuration Template............................................................. 5-4
Figure 5-5 EOMS Main Rack Interface...................................................................... 5-4
Figure 5-6 Main Rack................................................................................................ 5-5
Figure 5-7 Adding Board........................................................................................... 5-6
Figure 5-8 Adding Remote Rack ............................................................................... 5-6
Figure 5-9 RRU Rack................................................................................................ 5-7
Figure 5-10 Adding Board......................................................................................... 5-7
Figure 5-11 Configure Radio Model........................................................................... 5-8
Figure 5-12 Select Radio Model................................................................................ 5-8
Figure 5-13 Setting Basic Attributes .......................................................................... 5-9
Figure 5-14 Setting GPS clock parameter ............................................................... 5-10
Figure 5-15 Environment Monitoring Interface......................................................... 5-11
Figure 5-16 Environment Monitoring Management.................................................. 5-11
I
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Figure 5-17 TAC Management ................................................................................ 5-12
Figure 5-18 Parameter configuration of TA.............................................................. 5-13
Operations on New Object ........................................................................................ 5-14
Figure 5-19 Creating TMA Feeder Loss Object ....................................................... 5-15
Figure 5-20 Configuring TMA Feeder Loss Object .................................................. 5-15
Figure 5-21 Topology Interface................................................................................ 5-16
Figure 5-22 Topology Setting Interface.................................................................... 5-17
Figure 5-23 AISG Device ........................................................................................ 5-18
Figure 5-24 AISG Device Management................................................................... 5-18
Figure 5-25 Dry Contact Interface ........................................................................... 5-19
Figure 5-26 Configure Dry Contact ......................................................................... 5-20
Figure 5-27 .................................................................................................. 5-20
Figure 5-28 IP Clock Parameter.............................................................................. 5-21
Figure 5-29 Adding IP Clock Parameters ................................................................ 5-22
Figure 5-30 Embedded Power Equipment............................................................... 5-23
Figure 5-31 Embedded Power Equipment............................................................... 5-23
Figure 5-32 Local Switch interface .......................................................................... 5-24
Figure 5-33 Local Switch Management ................................................................... 5-24
Figure 5-34 Creating TAM Control Parameter ......................................................... 5-25
Figure 5-35 Configuring TAM Control Parameter..................................................... 5-26
Figure 5-36 Ethernet Switching Device Interface..................................................... 5-27
Figure 5-37 Ethernet Switching Device Management.............................................. 5-27
Figure 5-38 Divide the Vlan Group of Ethernet Switching Interface ......................... 5-28
Figure 5-39 Divide the Vlan Group of Ethernet Switching InterfaceManagement......................................................................................... 5-29
Figure 5-40 Configure Serial Port Cable.................................................................. 5-30
Figure 5-41 Select end of serial port connector ....................................................... 5-30
Figure 5-42 Iub Interface Protocol Stack (ZTE) ....................................................... 5-31
Figure 5-43 ATM Transmission Protocol Stack........................................................ 5-32
Figure 5-44 ATM Port.............................................................................................. 5-33
Figure 5-45 ATM Port Management ........................................................................ 5-33
Figure 5-46 IP Port ................................................................................................. 5-34
Figure 5-47 IP Port Management ............................................................................ 5-35
Figure 5-48 HDLC Parameter Interface................................................................... 5-36
Figure 5-49 Configure HDLC Link ........................................................................... 5-36
Figure 5-50 PPP Parameter Management Interface................................................ 5-37
II
Figures
Figure 5-51 Creating PPP Link................................................................................ 5-38
Figure 5-52 VLAN Parameter.................................................................................. 5-39
Figure 5-53 VLAN Parameter Management ............................................................ 5-39
Figure 5-54 Ethernet Oam Parameter ..................................................................... 5-40
Figure 5-55 Ethernet Oam Parameter Management................................................ 5-41
Figure 5-56 IP Parameter ....................................................................................... 5-42
Figure 5-57 IP Parameter Management .................................................................. 5-42
Figure 5-58 Static Route Parameter Interface ......................................................... 5-43
Figure 5-59 Configure Static Route......................................................................... 5-44
Figure 5-60 SCTP Association Interface ................................................................. 5-45
Figure 5-61 Configure SCTP Parameter ................................................................. 5-45
Figure 5-62 BFD Parameter.................................................................................... 5-46
Figure 5-63 BFD Parameter Management .............................................................. 5-47
Figure 5-64 QoS Mapping Parameter ..................................................................... 5-48
Figure 5-65 TC Link ................................................................................................ 5-49
Figure 5-66 TC Link Management........................................................................... 5-49
Figure 5-67 IMA Link .............................................................................................. 5-50
Figure 5-68 IMA Link management ......................................................................... 5-51
Figure 5-69 AAL2 Link ............................................................................................ 5-52
Figure 5-70 AAL2 Link Management Basic Information Tab .................................... 5-52
Figure 5-71 AAL2 Link Management Bandwidth Information Tab ............................ 5-53
Figure 5-72 AAL5 Link ............................................................................................ 5-54
Figure 5-73 AAL5 Link Management Basic Information Tab .................................... 5-54
Figure 5-74 AAL5 Link Management Bandwidth Information Tab ............................ 5-55
Figure 5-75 ATM Route........................................................................................... 5-56
Figure 5-76 ATM Route Management ..................................................................... 5-56
Figure 5-77 TS Map................................................................................................ 5-58
Figure 5-78 TSI Parameter Interface....................................................................... 5-58
Figure 5-79 Configure TSI Parameter ..................................................................... 5-59
Figure 5-80 NCP/CCP ............................................................................................ 5-60
Figure 5-81 Configuring NCP/CCP ......................................................................... 5-60
Figure 5-82 User Plane Bearer ............................................................................... 5-61
Figure 5-83 Configuring User Plane Bearer ........................................................... 5-62
Figure 5-84 OMC Channel Management Interface .................................................. 5-63
Figure 5-85 Create OMC Channel Parameter ......................................................... 5-63
III
ZXSDR BTS/Node B Local Maintenance Terminal Operation Guide
Figure 5-86 RF Receiving Extended Connection..................................................... 5-64
Figure 5-87 Create RF Receiving Extended Connection ......................................... 5-65
Figure 5-88 Operation Configuration ....................................................................... 5-66
Figure 5-89 Operation Configuration Information ................................................... 5-66
Figure 5-90 Baseband Resource Pool Management Interface ................................ 5-67
Figure 5-91 Creating Baseband Resource Pool ..................................................... 5-68
Figure 5-92 Basic Information Tab .......................................................................... 5-68
Figure 5-93 Baseband Resource Configuration Tab ................................................ 5-69
Figure 5-94 UMTS Sector Configuration Interface................................................... 5-70
Figure 5-95 Creating UMTS Sector ......................................................................... 5-70
Figure 5-96 Local Cell Configuration ....................................................................... 5-71
Figure 5-97 Creating Local Cell............................................................................... 5-72
Figure 5-98 Duplex Carrier Cell Relationship .......................................................... 5-73
Figure 5-99 Configuring Duplex Carrier Cell Relationship ....................................... 5-73
Figure 5-100 Duplex Carrier Cell............................................................................. 5-74
Figure 5-101 GSM Carrier Management Interface................................................... 5-75
Figure 5-102 Configuring GSM Carrier ................................................................... 5-75
Figure 5-103 GSM multi-carrier combination........................................................... 5-76
Figure 5-104 Configuring GSM multi-carrier combination ........................................ 5-77
Figure 5-105 GSM Sector Management Interface ................................................... 5-78
Figure 5-106 Creating GSM Sector ......................................................................... 5-78
Figure 5-107 GSM Carrier Frequency Management Interface ................................. 5-79
Figure 5-108 Creating GSM Carrier Frequency....................................................... 5-80
Figure 5-109 Save Configuration Data .................................................................... 5-81
Figure 6-1 Logon Interface........................................................................................ 6-2
Figure 6-2 Entering Station Manage Interface ........................................................... 6-3
Figure 6-3 Adding Base Station Information.............................................................. 6-3
Figure 6-4 Returning to Station Manage Interface..................................................... 6-4
Figure 6-5 Returning to Logon Interface.................................................................... 6-4
Figure 6-6 EOMS Interface ....................................................................................... 6-5
Figure 6-7 AISG Device Scan Interface .................................................................... 6-6
Figure 6-8 Scan AISG Device ................................................................................... 6-6
Figure 6-9 Version Management Interface ................................................................ 6-8
Figure 6-10 Importing Version................................................................................... 6-9
Figure 6-11 Version Importing Completed ................................................................. 6-9
IV
Figures
Figure 6-12 Download Result.................................................................................. 6-10
Figure 6-13 Download Completed........................................................................... 6-10
Figure 6-14 Log onto the Base Station (Fast Upgrade) ........................................... 6-11
Figure 6-15 Selecting Version Package .................................................................. 6-12
Figure 6-16 Upgrade Progress Bar ......................................................................... 6-12
Figure 6-17 Downloading Progress Bar .................................................................. 6-13
Figure 6-18 Activating Progress Bar........................................................................ 6-13
Figure 6-19 Download Completed........................................................................... 6-13
Figure 7-1 Change Password ................................................................................... 7-2
Figure 7-2 Log Interface............................................................................................ 7-3
Figure 7-3 Export Log ............................................................................................... 7-4
Figure 7-4 Clear Log................................................................................................. 7-4
Figure 7-5 Prompt Dialog Box................................................................................... 7-5
Figure 7-6 Selecting Configuration Data.................................................................... 7-6
Figure 7-7 Save Configuration Data .......................................................................... 7-7
Figure 7-8 Cell Information........................................................................................ 7-8
Figure 7-9 UE Configuration Information ................................................................... 7-9
Figure 8-1 EDMS Subsystem.................................................................................... 8-2
Figure 8-2 Trace NBAP Signaling Interface............................................................... 8-3
Figure 8-3 NBAP Tracing Parameter Settings Interface ............................................ 8-3
Figure 8-4 NBAP Save Options Interface .................................................................. 8-4
Figure 8-5 Trace SSCOP signaling Interface............................................................. 8-5
Figure 8-6 SSCOP signaling Trace Settings Interface ............................................... 8-6
Figure 8-7 Trace ALCAP signaling Interface ............................................................. 8-7
Figure 8-8 ALCAP Save Options Interface ................................................................ 8-7
Figure 8-9 Trace SCTP Signaling Interface ............................................................... 8-8
Figure 8-10 SCTP Signaling Trace Settings Interface ............................................... 8-9
Figure 8-11 SCTP Save Options Interface ................................................................ 8-9
Figure 8-12 Trace PPP Signaling Interface ............................................................. 8-10
Figure 8-13 PPP Signaling Trace Settings Interface................................................ 8-11
Figure 8-14 PPP Save Options Interface................................................................. 8-11
Figure 8-15 CPU&RAM Usage Rate Interface......................................................... 8-12
Figure 8-16 VME Running Info Interface ................................................................. 8-13
Figure 8-17 Query Common Physical Channel Interface......................................... 8-15
Figure 8-18 Query Common Transport Channel Interface ....................................... 8-16
V
ZXSDR BTS/Node B Local Maintenance Terminal Operation Guide
Figure 8-19 Board Link State Test Interface ............................................................ 8-17
Figure 8-20 Base Station Health Check Interface.................................................... 8-18
Figure 8-21 GPS Planet Info Query Interface.......................................................... 8-19
Figure 8-22 Ir Interface Query Interface .................................................................. 8-20
Figure 8-23 Ir BER Query Interface......................................................................... 8-21
Figure 8-24 Ethernet OAM Session Parameter Query Interface .............................. 8-22
Figure 8-25 Query GSM Carrier Frequency Interface.............................................. 8-23
Figure 8-26 Board Diagnose Test............................................................................ 8-24
Figure 8-27 Board Read and Write Test .................................................................. 8-25
Figure 8-28 Site-opening Wave Ratio Inspection Interface ...................................... 8-26
Figure 8-29 RSSI Test Interface .............................................................................. 8-27
Figure 8-30 Clock State Query Interface ................................................................. 8-28
Figure 8-31 Foreboard Clock Manager Interface..................................................... 8-29
Figure 8-32 Set RRU Full Loop-Back Interface ....................................................... 8-30
Figure 8-33 Simulated cell test................................................................................ 8-31
Figure 8-34 BS Check............................................................................................. 8-32
Figure 8-35 Base Station inspection configuration................................................... 8-32
Figure 8-36 TOC Total Power Measurement Interface............................................. 8-33
Figure 9-1 EFMS Interface........................................................................................ 9-2
Figure 9-2 Viewing Single Alarm Solution ................................................................. 9-4
Figure 9-3 Viewing All Alarm Solutions...................................................................... 9-5
Figure 10-1 EPMS Interface.................................................................................... 10-2
Figure 10-2 Create Measurement Task Step 1 ........................................................ 10-3
Figure 10-3 Create Measurement Task Step 2 ........................................................ 10-4
Figure 10-4 Create Measurement Task Step 3 ........................................................ 10-5
Figure 10-5 Created Measurement Task ................................................................. 10-5
Figure 10-6 Select Cell ........................................................................................... 10-6
Figure 10-7 Measurement Data .............................................................................. 10-7
Figure 10-8 Data File .............................................................................................. 10-8
Figure A-1 Logical Separation of 2G/3G Transmission..............................................A-2
Figure A-2 3G Sharing 2G Transmission (TSI) ..........................................................A-3
Figure A-3 2G Sharing 3G Transmission (CES) ........................................................A-3
Figure A-4 Iub Interface Protocol Stack-ATM ...........................................................A-5
Figure A-5 Iub Interface Protocol Stack-Full IP .........................................................A-5
Figure A-6 O&M Interfaces .......................................................................................A-6
VI
Figures
Figure A-7 O&M Interface Protocol Stack-ATM .........................................................A-6
Figure A-8 O&M Interface Protocol Stack-Full IP ......................................................A-7
VII
Figures
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TablesTable A-1 Iub Interface Bearer Type..........................................................................A-7
IX
Tables
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GlossaryAISG- Antenna Interface Standards Group
ALCAP- Access Link Control Application Protocol
BBU- BaseBand Unit
BPC- Baseband Processing Board Type C
BSC- Base Station Controller
CC- Control and Clock Module
CCP- Communication Control Port
CES- Channel Element Subsystem
FS- Fabric Switch Module
GPS- Global Positioning System
GSM- Global System for Mobile Communication
HDLC- High-level Data Link Control
HSPA- High Speed Packet Access
LMT- Local Maintenance Terminal
NBAP- Node B Application Part
NCP- Network Control Protocol
PM- Power Module
XI
ZXSDR BTS/Node B Local Maintenance Terminal Operation Guide
PPP- Point to Point Protocol
RNC- Radio Network Controller
RRU- Remote Radio Unit
SA- Site Alarm Module
SCTP- Stream Control Transmission Protocol
SSCOP- Service Specific Connection Oriented Protocol
TSI- Time Slot Interchange
UMTS- Universal Mobile Telecommunication System
VLAN- Virtual Local Area Network
WCDMA- Wideband Code Division Multiple Access
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