ZXG10 iBSC (V6.20) Engineering Commissioning Guide Internal Use Only▲
ZXG10 iBSC (V6.20)
Engineering Commissioning Guide(2009-V1.0)
ZTE CORPORATION
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ZXG10 iBSC (V6.20)Engineering Commissioning Guide (2009-V1.0)
Planned by: GSM Customer Service Dept., ZTE Global After-Sales Service Center
Complied by: Li Wei
Reviewed by: Zhao Yanghao
* * * *
ZTE CORPORATION
Address: ZTE Plaza, Keji Road South, Hi-tech Industrial Park, Nanshan District, Shenzhen, P.R.China
Post code: 518057
Technical support website: http:// tsm .zte.com.cn
Hotline: +86 755 26770800 800-830-1118
Fax: +86 755 26770801
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Legal Information
All rights reserved. No part of this documentation may be excerpted,
reproduced, translated, annotated or duplicated, in any form or by any means
without the prior written permission of ZTE Corporation.
and are the registered trade marks of ZTE Corporation. The names
and logos of ZTE products are proprietary logos or registered trade marks. The
names of other products and companies mentioned in this manual may be
proprietary to their owners respectively. Without the prior written permission of
ZTE or the owners of third-party trade marks or trade names, this manual does
not grant the reader any permission or right to use any marker appeared in the
manual.
The product described herein conforms to the design requirements of
environment protection and human security. The storage, usage, and discard
of the product should comply with the manual, related contract, or laws and
regulations of related countries.
The actual product may differ from what is described in this standard due to
frequent update of ZTE products and fast development of technologies. Please
contact the local ZTE office for the latest updating information of the product.
For the latest document information, please visit our website:
http://tsm.zte.com.cn
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Preface
This manual specifies the commissioning regulations of ZXG10 iBSC (V6.20)
products, including BSC, ZXG10 iSMG Server and Client. It unifies the
commissioning procedure, and also instructs the commissioning engineers to do the on-
site commissioning.
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Contents1. Commissioning Flow...............................................................................................................................1-1
2. Commissioning Preparation..................................................................................................................2-1
2.1 Project Information...........................................................................................................................2-1
2.2 Tools & Instruments.........................................................................................................................2-1
2.3 Software............................................................................................................................................2-1
2.4 Document.........................................................................................................................................2-2
2.5 System Networking Scheme.............................................................................................................2-2
3. Check Before Power-on.........................................................................................................................3-1
3.1 Overview..........................................................................................................................................3-1
3.2 Cabinet Power Supply Check...........................................................................................................3-1
3.3 Hardware Check...............................................................................................................................3-2
3.3.1 Cabinet....................................................................................................................................3-2
3.3.2 Board......................................................................................................................................3-3
3.4 Cable Check......................................................................................................................................3-3
3.4.1 Intra-cabinet Cable..................................................................................................................3-3
3.4.2 External Cable........................................................................................................................3-3
3.4.3 Cable Check............................................................................................................................3-6
3.5 Auxiliary Equipment Check.............................................................................................................3-7
3.5.1 Alarm Box Check...................................................................................................................3-7
3.5.2 Sensor Check..........................................................................................................................3-8
3.5.3 Maintenance Terminal Check.................................................................................................3-8
3.6 Other Check......................................................................................................................................3-8
3.7 Record of Check Before Power-on...................................................................................................3-8
4. Check After Power-on............................................................................................................................4-1
4.1 Power on Procedures........................................................................................................................4-1
4.2 Board Power Supply Check..............................................................................................................4-1
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4.3 Fan Wind Test...................................................................................................................................4-1
4.4 Record of Check after Power-on......................................................................................................4-2
4.5 Power Off Procedures.......................................................................................................................4-2
5. OMP Installation and Debugging.........................................................................................................5-1
5.1 Prerequisites.....................................................................................................................................5-1
5.2 Brief Procedures...............................................................................................................................5-1
5.3 Detailed Procedures..........................................................................................................................5-1
5.3.1 Serial Port Configuration OMP..............................................................................................5-1
5.3.2 Upload ZXG10.cfg...............................................................................................................5-12
5.4 Common Debugging Command.....................................................................................................5-13
5.5 Common Problem Analysis............................................................................................................5-16
6. SBCX O&M Software Commissioning................................................................................................6-1
7. Basic Data Configuration......................................................................................................................7-1
7.1 Public Resource Configuration.........................................................................................................7-1
7.1.1 GERAN Sub Network Configuration.....................................................................................7-1
7.1.2 BSC Managed Elements Configuration..................................................................................7-4
7.1.3 Configuration Set....................................................................................................................7-6
7.1.4 BSC Global Resource Configuration......................................................................................7-8
7.2 BSC Physical Configuration...........................................................................................................7-10
7.2.1 BSC Rack Configuration......................................................................................................7-10
7.2.2 Shelf and Board Configuration.............................................................................................7-12
7.2.3 Basic Operation of Data Configuration................................................................................7-46
7.2.4 Switchover of Master/Slave Configuration Set....................................................................7-49
7.2.5 Physical Data Export............................................................................................................7-50
7.2.6 Radio Data Export................................................................................................................7-52
7.2.7 Software Data Export...........................................................................................................7-54
7.2.8 Network Planning & Optimization Data Export...................................................................7-56
7.2.9 Data Backup.........................................................................................................................7-58
7.2.10 Data Recover......................................................................................................................7-61
7.2.11 Creating BSC with Template..............................................................................................7-65
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7.2.12 BTS Self-Defined Template Export....................................................................................7-67
7.2.13 Configuring Site by Template.............................................................................................7-69
7.2.14 Commissioning/Debugging State of the BTS Configured Separately................................7-71
7.2.15 Configuration in Batch of the BTS Commissioning/Debugging State...............................7-74
7.2.16 Setting External Alarm.......................................................................................................7-76
7.3 IP Configuration.............................................................................................................................7-78
7.3.1 Interface Configuration.........................................................................................................7-78
7.3.2 Configuration of Interface Backup Set.................................................................................7-81
7.3.3 IPOVERE1 Configuration....................................................................................................7-83
7.3.4 Data Synchronization............................................................................................................7-86
7.3.5 Attentions to Data Configuration..........................................................................................7-90
7.3.6 Data Configuration Flow......................................................................................................7-90
8. BTS and Radio Configuration..............................................................................................................8-1
8.1 BTS Physical Equipment Creation...................................................................................................8-1
8.1.1 BS20 Configuration................................................................................................................8-1
8.1.2 BS21 Configuration..............................................................................................................8-15
8.1.3 BS21 (V2.0) Configuration...................................................................................................8-17
8.1.4 BS30 Configuration..............................................................................................................8-19
8.1.5 BS30 (V1.2) Configuration...................................................................................................8-21
8.1.6 OB06 Configuration.............................................................................................................8-26
8.1.7 B8018 Configuration............................................................................................................8-27
8.1.8 B8112 Configuration............................................................................................................8-35
8.1.9 M8202 Configuration...........................................................................................................8-40
8.1.10 M8206 Configuration.........................................................................................................8-43
8.1.11 S8001 Site Creation............................................................................................................8-47
8.1.12 BS8200 Site Creation.........................................................................................................8-58
8.2 Site Connection Configuration.......................................................................................................8-59
8.3 Cell Creation...................................................................................................................................8-64
8.4 Frequency Hopping Creation..........................................................................................................8-68
8.5 TRX Creation.................................................................................................................................8-70
8.6 Adjacent Interference Cell Configuration.......................................................................................8-73
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8.7 Adjacent Reselection Cell Configuration........................................................................................8-75
8.8 Adjacent Handover Cell Configuration..........................................................................................8-77
8.9 Adjacent Handover and Reselection Cell Configuration................................................................8-79
8.10 UTRAN Adjacent Reselection Cell Configuration.......................................................................8-82
8.11 UTRAN Adjacent Handover Cell Configuration..........................................................................8-83
8.12 UTRAN Adjacent Handover and Reselection Cell Configuration................................................8-85
8.13 GERAN External Cell Configuration...........................................................................................8-88
8.14 UTRAN External Cell Configuration...........................................................................................8-90
9. GB Interface Configuration..................................................................................................................9-1
9.1 E1 GB Interface Configuration.........................................................................................................9-1
9.1.1 NSE Configuration.................................................................................................................9-1
9.1.2 BRCH Configuration..............................................................................................................9-2
9.1.3 NSVC Configuration..............................................................................................................9-5
9.2 IP GB interface Configuration..........................................................................................................9-8
9.2.1 NSE Configuration.................................................................................................................9-8
9.2.2 IPGB Port Configuration......................................................................................................9-11
10. Software Version File Description....................................................................................................10-1
10.1.1 Version file list (iBSCV6.20.010A for instance).................................................................10-1
11. Software Version Management..........................................................................................................11-1
11.1 Summary of Non-SDR BTS Software Load Flow........................................................................11-1
11.2 Non-SDR Software Version Management Interface.....................................................................11-3
11.3 BSC Software Version Management.............................................................................................11-4
11.3.1 Version File Loaded into Database......................................................................................11-4
11.3.2 Version Files Created in Batch to OMC..............................................................................11-7
11.3.3 General Version Creation....................................................................................................11-9
11.3.4 Specific Version Creation..................................................................................................11-10
11.3.5 ompcfg.ini Creation..........................................................................................................11-12
11.3.6 Deletion from OMC..........................................................................................................11-13
11.3.7 Version File Added to NE.................................................................................................11-16
11.3.8 General Version Activation...............................................................................................11-17
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11.3.9 Specific Version Activation/Deactivation.........................................................................11-19
11.3.10 Version File Deleted from NE.........................................................................................11-21
11.3.11 General Version Upgrade................................................................................................11-23
11.3.12 NE Version Files Query..................................................................................................11-24
11.3.13 NE General Version Files Query.....................................................................................11-25
11.3.14 NE Specific Version Files Query....................................................................................11-26
11.3.15 NE Version Information of a Specific Board Query........................................................11-27
11.3.16 Version Data Synchronized from NE to OMC................................................................11-28
11.4 Non-SDR Software Version Management..................................................................................11-29
11.5 SDR Software Installation Flow.................................................................................................11-30
11.6 SDR Software Version Management Interface...........................................................................11-30
11.7 SDR Software Version Management...........................................................................................11-31
11.7.1 BTS Software Packet Creation..........................................................................................11-31
11.7.2 Information Query of Software Packet Version..................................................................11-1
11.7.3 Information Query of BTS Active/Standby Software Version............................................11-1
11.7.4 BTS Software Version Rollback.........................................................................................11-3
11.7.5 BTS Standby Software Version Activation.........................................................................11-5
11.7.6 Delete BTS Standby Software Version...............................................................................11-7
11.7.7 Query of Operation Log of Version Packet.........................................................................11-9
12. A-interface Interconnection...............................................................................................................12-1
12.1 A-interface Networking Mode......................................................................................................12-1
12.1.1 Networking between iBSC & 2G CN (MSC).....................................................................12-1
12.1.2 Networking between iBSC and 3G CN..............................................................................12-7
12.2 Preparations for Interconnection.................................................................................................12-14
12.3 Interconnection Data...................................................................................................................12-15
12.4 Validity Check on Interconnection Data.....................................................................................12-15
12.5 SCN SS7 A-interface Data Configuration..................................................................................12-18
12.5.1 Create Local NO.7 SSN....................................................................................................12-18
12.5.2 Create Local Office...........................................................................................................12-20
12.5.3 Create Adjacent Office......................................................................................................12-24
12.5.4 Create Route.....................................................................................................................12-38
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12.6 Check after Interconnection........................................................................................................12-44
12.6.1 Check Signaling and Traffic Load....................................................................................12-44
12.6.2 Observe Foreground Board Status....................................................................................12-44
12.6.3 Observe Background Alarm..............................................................................................12-44
12.6.4 Observe by Signalling Tracking........................................................................................12-44
12.6.5 Observe via Dynamic Data Management.........................................................................12-45
12.6.6 Test A Interface.................................................................................................................12-45
12.6.7 Checklist for A-interface Interconnection.........................................................................12-45
13. Commissioning....................................................................................................................................13-1
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一. Commissioning Flow
Generally, commissioning of iBSC (including iSMG Server and Client) includes
following procedures:
(1) Preparations
(2) Check before power-on
(3) Check after power-on
(4) OMP installation and debugging
(5) SBCX O&M software debugging
(6) Basic data configuration
(7) Software loading
(8) A interface interconnection and GB interface interconnection
(9) HR/AMR commissioning
(10) Commissioning
Table 1.1-1 shows iBSC commissioning procedure.
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Table 1.1-1 iBSC Commissioning Flow
SN Procedure Description
1Commissioning
preparation
Confirm system networking scheme; get IP address of Server, Client, OMP and
SBCX; fetch system configuration parameters (including A interface interconnection
data of MSC and Gb interface interconnection data of SGSN), system debugging tool,
document preparation, software preparation.
2 Check before power-on
Check the installation of racks, cables, modules and voltage of power supply.
For details, please refer to ZXG10 iBSC (V6.20) Installation Manual Hardware
Installation
3 Check after power-on
Check power supply and wind direction from fan
For details, please refer to ZXG10 iBSC (V6.20) Installation Manual Hardware
Installation
4OMP installation and
debugging
Generally, conduct initialization to start parameter setting, and upload version and
activate software
5SBCX O&M software
debugging
It covers NMS overview, networking mode, OMM installation environment
requirements and OMM software installation flow.
6 Data configuration
Configure iBSC physical data, radio data and table synchronization through OMCR.
For details, please refer to ZXG10 NetNumen-G (V6.20) Operation & Maintenance
Center Operation Manual (Configuration Management)
7 Software loading
Conduct version storage, setting and loading board software through OMCR. Reset
boards on iBSC to end version loading
For details, please refer to ZXG10 NetNumen-G (V6.20) Operation & Maintenance
Center Operation Manual (Configuration Management)
8
Installation and
debugging of SBCX
board
Install SBCX board software and conduct performance test
9
A interface
interconnection and GB
interface interconnection
Check MSC transmission and interconnection data. Observe and test after A interface
data configuration and interconnection. Check SGSN transmission and
interconnection data. Observe and test after GB interface data configuration and
interconnection.
10 HR/AMR commissioningHR/AMR commissioning description, hardware replacement, HR/AMR software
configuration, setting static and dynamic HR.
11 Commissioning test
iBSC hardware test, iSMG function test, software version test, call test, handover test,
new function test. For details, please refer to ZXG10-iBSC (V6.20) Test Guide. Once
all of the services are in normal condition, the commissioning is complete.
Note: This version does not include GPRS/EDGE commissioning and HR/AMR
commissioning test. They will be supplemented in later version.
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二. Commissioning Preparation
To guarantee smooth equipment commissioning, the equipment debugging persons
should make enough preparation before the equipment debugging, including the project
information, system networking schemes, tools, software and documents.
二.1 Project Information
Before the equipment debugging, the equipment debugging staff should find the user’s
correct address and contact means, the person in charge from the office party and the
type of the equipment to be installed, and contact with the local representative office in
time to learn the preliminary engineering preparation, and consult the related
documents to learn details about equipment configuration, goods delivery and arrival
status.
二.2 Tools & Instruments
Prepare all the tools and meters that are required in the system debugging. The meters
and tools should be calibrated by the relevant calibration department of the
government.
1. Tools: Phillips screwdriver, flathead screwdriver, diagonal pliers, sharp nose
pliers, adjustable spanner, electric iron, solder wires, soft solder, insulating
adhesive tape, horizontal ruler, coaxial self-loop cable, wire stripper and wire
crimper.
2. Instruments and meters: ground resistance tester, multimeter, test mobile phone
(with SIM card), BER test device.
3. Others: laptop (with NETTERM, FTP tool, PCANYWHERE, Quartus II, anti-
virus software installed), network cable, crossover network cable, logic
downloading cable, PC monitor, keyboard, serial port cable, USB serial
converter, serial-to-RJ45 commissioning cable.
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二.3 Software
Prepare the relevant software of correct versions according to required functions and
performance, including iBSC and iSMG software, Solaris or Windows2000 operating
system, ORACLE database software (Version 10), platform O&M tools (installed with
probes and dynamic management), the tool for observing UDPWATCH print, telnet
tool SecureCRT, DSP OMCR monitoring software and anti-virus software. Follow the
requirements to guarantee normal iBSC commissioning and all of its functions. All
software for field use should be standard versions that have passed test of the research
institute, and it is up to the local office/representative office to request that software to
GSM Customer Service Dept. All of the versions used on site should be the formal
ones.
二.4 Document
The commissioning engineer should also refer to the following documents for
instructions:
ZXG10 iBSC (V6.20) Technical Manual
ZXG10 iBSC (V6.20) Hardware Manual
ZXG10 iBSC (V6.20) Installation Manual (Hardware)
ZXG10 iBSC (V6.20) Maintenance Manual
ZXG10 NetNumen-G (V6.20) Operation & Maintenance Manual
ZXG10 iBSC (V6.20) Test Guide
二.5 System Networking Scheme
Before system debugging, debugging engineers should get a clear picture of the system
network scheme and then draw the networking diagram, including location of every
equipment and connection relationship. For remote networking, please be aware of
locations of routers and switches, and equipment connection relationship as well.
Debugging engineers should give proposals for IP address planning and route
configuration according to the networking diagram, and then make a decision after
reaching an agreement with the client.
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Obtain A/GB interface interconnection data and radio data.
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三. Check Before Power-on
After iBSC equipment installation is completed, it must check again before power on
(it is carried out after equipment installation acceptance), to ensure installation is
absolutely correct.
It includes voltage test, hardware check, and cable check.
三.1 Overview
Once iBSC hardware installation is complete, please check the following items
carefully before power-on.
1. Check whether plug-in module installed for rack is consistent with
configuration requirement.
2. Check whether all modules are in correct positions and well touched. If
necessary, please plug out and in for twice. Meanwhile, check whether screws
on boards are fixing tightly. The rear boards should be also checked.
3. Check whether cables (including cables on backplane) between different layers
and different racks are connected correctly and reliably.
4. Check whether cables between iBSC and BTS, and cables among A interface,
Gb interface, SVB, OMP, server, client, router, alarm box and HUB are
correctly connected.
5. Check whether DC voltage is within the permitted range (nominal value: -48 V;
range: -57 V ~ -40 V).
6. Check whether rack ground and lightning protection ground are correctly
connected.
7. Check whether all of the selecting switches and control switches are in
specified positions.
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三.2 Cabinet Power Supply Check
1. All of the boards are not plugged in the frame. Turn off power at DC power
distribution cabinet side and two -48 V power switches. Turn off -48 V power
switch of rear frame filter.
2. Procedures of check on cabinet power supply are as follows:
(1) Check connection between DC distribution cabinet and cabinet. Check
connection between filter on top of cabinet and power distribution box. Check
connection between busbar in rear part of cabinet and power distribution box.
All of the connection points on busbar should be sealed by insulation tubes.
(2) Measure resistance of -48 V power against -48 V ground on busbar with
multimeter. No short circuit exists.
(3) Measure resistance of -48 VGND, PE, GND on busbar with multimeter. No
short circuit exists.
(4) Check whether -48 V power cable of fan shelf is connected correctly.
3. Start -48V power of DC power distribution cabinet. Measure it with multimeter.
The power should be within the range of -57 V~-40 V.
In the above tests, turn off switch immediately in case of any abnormal condition,
and then make troubleshooting.
Electric Shock
During check, pay attention to switch status to avoid electric shock.
Caution:
Wear antistatic wrist strap when contacting equipment and well arrange grounding.
三.3 Hardware Check
三.3.1 Cabinet
Check cabinets as below.
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1. Check stability and neatness of cabinet. Cabinets in a row or a column should
be aligned, with deviation no more than 5 mm. And vertical deviation should be
smaller than 3 mm.
2. Ensure tightness of all fasteners.
3. Components and parts of rack should not fall or damage. Cables should not fall
or break. Labels and tags should be correct, complete and clear.
4. Upon completing rack installation, please clean both inside and surface of rack.
5. Ensure that protection bags of cables are fastened tightly after arranging cables
so as to avoid dust and animals entering cabinet.
三.3.2 Board
Before powering on iBSC equipment, please check the type, quantity and position of
every module. Also check whether controlling switch is correct or not.
Please refer to ZXG10 iBSC (V6.20) Hardware Manual during check. And ensure
boards on the rack are in correct position. Besides, check the type and quantity
according to packing list and contract configuration.
For those are not well plugged in or not in good touch, please plug out and plug in
again. At the same time, pay attention to its method.
三.4 Cable Check
It includes check on power cable, grounding cable, intra-cabinet cable and external
cable. The following gives introduction to categories of intra-cabinet cable and external
cable and then describes how to check cable installation. Please refer to ZXG10 iBSC
(V6.20) Installation Manual (Hardware) for details of cable configuration and
connection.
三.4.1 Intra-cabinet Cable
Intra-cabinet cables include power supply cable, system clock cable, reference clock
cable, IP access cable, control plane connection cable, PD485 power cable, user plane
connection optical fiber and fan monitor cable.
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Intra-cabinet cables have been connected before leaving factory, so it is unnecessary to
install on site. Cables between racks should connect based on the connection
relationship.
三.4.2 External Cable
iBSC external cable covers:
● Monitoring cable
Table 3.4-2 Monitoring Cable Connection
S/N Cable Name Quantity A-type cabinet B-type cabinet
1
Fan box monitor
cable
1 P _FAN BOX1 Fan box 1
2 1 P _FAN BOX2 Fan box 2
3 1 P _FAN BOX3 Fan box 3
4 1 P _FAN BOX4Top fan monitor and
control board
5
Environment
monitoring
switcher
1 PWRDB-X5_SENSORS
B1 access control
B2 IR
B3 temperature &
humidity
B4 smog
B5 standby
6Access control
monitoring cable
Upon
configurationPWRDB-X8_DOOR
B1: front door
access control
B2: rear door access
control
7Access control
monitoring cable
Upon
configurationH-MON-009_B1
Access control
sensor
8IR monitoring
cable
Upon
configurationH-MON-009_B2
IR microwave
double monitoring
sensor
9
Humidity
monitoring cable
Upon
configurationH-MON-009_B3
Temperature &
humidity sensor
Humidity sensorUpon
configuration- -
10Smog monitoring
cable
Upon
configurationH-MON-009_B4 Smog sensor
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● Transmission cable
E1 trunk cable
There are two types of E1 cables in ZXG10 iBSC system. One is 75 Ω coaxial
trunk, and the other is 120 Ω twisted pair trunk. Configure it as per the actual
requirement.
When ZXG10 iBSC equipment connects with transmission equipment and
distribution frame, the shielding layer grounding should be both ends
grounding.
Optical fiber
Connect ZXG10 iBSC and MSC/MGW with optical fiber. LC/PC connectors
are used at both ends of optical fiber without directivity.
One end of optical fiber is connected with TX of SDTB board, the other end is
connected with RX of opposite equipment. For another optical fiber, one end is
connected with RX of SDTB board, the other end is connected with TX of
opposite equipment. Optical fiber should be in pair.
Ethernet cable
Connect ZXG10 iBSC and MSC/MGW, SGSN, SDR with FE. One end of
Ethernet cable is connected with FEx of RMINC on BIPI board or GIPI board.
The other end is connected with the responding port of the opposite end
(MSC/MGW, SGSN or SDR) through the network equipment such as switch.
● Power cable
● Grounding cable
● iOMCR Ethernet
NM connection between iBSC and iOMCR adopts 100M Ethernet, as shown in
Figure 3.4-1. It is divided into three parts.
Two cables are connected between OMP and HUB. They are respectively led
from OMC2 interfaces on RMPB of both active and standby OMP. It is noted
that there are two interfaces marked as OMC on RMPB, i.e. OMC1 and OMC2.
But only OMC2 can act as NM connection interface.
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The cable connecting SBCX with HUB is led from NM connection interface on
RSVB of SBCX. There are three NM interfaces on RSVB, i.e. OMC1, OMC2
and OMP1. OMC1, which is corresponding to eth3 of SBCX, is generally
configured as the network port of OMCR server. It is used to communicate with
client and Minos server. OMC2, which is corresponding to eth4 of SBCX, is
generally configured as the network port of OMCR server. It is connected with
iBSC via GIP or BIPI to communicate with SDR. OMP1, which is
corresponding to eth6 of SBCX, is generally configured as the internal network
address. It is communicate with OOMP.
The cable connecting GIPI/BIPI and HUB is led from FE interface on RMNIC
of GIPI/BIPI. It is noted that there are four FE interfaces on RMNIC. The used
FE interface can be set on client.
Figure 3.4-1 BCTC Cable
Please refer to Figure 3.4-1 for details of external cable.
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三.4.3 Cable Check
1. Power cable
It covers cable from power to power box, cable from power box to busbar, and
cable from busbar to power socket on rear board of power box. All of the cables
should be connecting reliably with correct polarity.
2. Grounding cable
Check whether -48 V GND and PE are connecting correctly and reliably. PE is
connected with the PE terminal at the right side of cabinet top. (There is one PT
terminal at both right side and left side of cabinet top. Seen from the back of
cabinet, the terminal at the left side is the left side PE terminal and the one at
the right side is the right one.)
3. Intra-cabinet & inter-cabinet cable
Clock cable and power alarm cable are connecting correctly and reliably. The
route rand packing distance are correct. The locker should not be peaked or
overlapped.
4. External cable
(1) Cable should be loose when twisting.
(2) Router should be arranged as per the requirement and packing distance should
be uniform.
(3) The route should be smooth. Cable inside rack should not be cross. Cable
outside rack should be bundled.
(4) Cable on trough or cabling ladder should be in order. All of the cables are
bundled. There is no damage to cable surface.
(5) Cable should be surplus. The packing belt head should be neat and in order.
三.5 Auxiliary Equipment Check
三.5.1 Alarm Box Check
Alarm box should be installed at the highlighted position. The height of installation
position should be appropriate for easy operation. Power cable and network cable
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should be placed in the trough. No stub exposes. The alarm box should be installed
reliably. If several alarm boxes are parallel, apparent marks should be made for
identification.
三.5.2 Sensor Check
Infrared sensor is installed at proper position. Its detective range covers the important
entrance of equipment room.
Temperature sensor and humidity sensor should be installed near cabinet. The distance
should not be more than 1 m.
Smog sensor should be installed on the ceiling above cabinet.
三.5.3 Maintenance Terminal Check
Maintenance terminal should be installed separately from main equipment by glass.
The maintenance terminal should be posted labels as per the type. At least one terminal
should be equipped with modem and has line for remote maintenance.
三.6 Other Check
1. Equipment labels are intact, correct and clear.
2. Boards are placed in correct slots, and the quantity is right.
3. Switches on equipment are all on start position.
4. The working ground, protection ground and lightning protection ground are in
sound condition. The ground resistance meets technique requirement. Rack lap
resistance is 0.1 Ω ~ 0.3 Ω. Equipment room grounding resistance should be
less than 1 Ω. The specification of fuse should meet the requirement. The pins
on rear board are not distorted or shortcut. There is no shortcut between anode
and cathode.
三.7 Record of Check Before Power-on
No. Item Result Data record Remarks
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Voltage / No./ DIP position/
Jumper
1 Power supply check
Voltage Test □ OK □ NOK
2 Hardware check
Cabinet check □ OK □ NOK
iBSC board check □ OK □ NOK
3 Cable check
Power cable □ OK □ NOK
Grounding cable □ OK □ NOK
Internal cable □ OK □ NOK
External cable □ OK □ NOK
4 Auxiliary equipment check □ OK □ OK
5 Other check □OK □ OK
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四. Check After Power-on
Once check before power-on is complete, power on iBSC equipment in correct
sequence. At that moment, iBSC data have not been configured and boards may be in
normal condition. So, check items after power-on mainly cover check on board power
supply and fan direction.
四.1 Power on Procedures
iBSC power-on procedures are as follows:
1. In DC power distribution cabinet, turn on -48 V power.
2. Turn on -48 V power switches on board in power distribution box on rack top.
3. Turn on -48 V power switches on rear box filter.
四.2 Board Power Supply Check
1. For the first-time power on, plug boards into correct slots. LED of front board
should be on. If it is off, then plug out the board to check whether power is in
normal condition.
2. When board is powered on, board software and hardware are automatically
initialized. After that, see whether board is in normal condition based on the
LED indication.
Please refer to ZXG10 iBSC (V6.20) Hardware Manual for details of board
LED.
四.3 Fan Wind Test
Test procedures:
1. If there is board in the box under fan box, then plug it out.
2. Power up equipment, fan in P power box on the top layer of cabinet starts
normally.
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3. Put a 20 cm long paper slip into the box under power box. If the paper slip is
not blowing up (which indicates fan is not working), or it is blowing downward
(which indicates wind direction is wrong), check iBSC (V6.20) internal power
cable connection and fan.
4. If paper slip is blowing upward, it indicates the wind is coming from the rack
bottom. Under this condition, fan is working normally and wind direction is
also correct.
四.4 Record of Check after Power-on
No. Item Result Data record Remarks
1 Power-on sequence □ OK □ NOK
2Board power supply
status□ OK □ NOK
3 Fan wind test □ OK □ NOK
四.5 Power Off Procedures
1. Turn off -48 V power switches on rear box filter.
2. Turn off -48 V power switches on board in power distribution box on rack top.
3. In DC power distribution cabinet, turn off -48 V power.
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五. OMP Installation and Debugging
This chapter describes system running debugging which covers serial port
configuration OMP, loading version to board, and board status check.
五.1 Prerequisites
The followings should be ready before system debugging.
1. System check has been completed and equipment has been powered on.
2. Physical data configuration has been completed via client.
Please refer to Operation Manual (Data Configuration Part) for details.
五.2 Brief Procedures
1. Serial port configuration OMP.
2. Load version on board.
3. Check board status and make sure equipment is running normally.
4. Upload zxg10.cfg.
五.3 Detailed Procedures
This section describes the debugging details.
五.3.1 Serial Port Configuration OMP
Create OMP boot files via NE client, create a configuration file named ompcfg.ini in
the folder under OMC sever software installation directory of ums-svr\tmp\ftp\version\
bscX (X is office No., which is configured in the background configuration
management. It is not the office No. displayed on DIP switch on rear board.)
When starting OMP board, ask server for this boot file to load OMP version file. At
this moment, configure some parameters communicated with OMC server, including
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OMP NM address, OMC server address, office No., ftp user name and password,
startup mode.
This section takes No.12 office for example to describe how to configure OMP via
serial port. The details are as follows.
1. Connect OMP debug serial port (DEBUG2-232 interface under RMPB board) with
debugging PC serial port. The debugging PC can be OMC NM client. Run the
HyperTerminal program self-brought by operating system, enter the newly-built
connection name in Connection Description and select its icon, as shown in
Figure 5.3-2.
Figure 5.3-2 Hperterminal Coneection Description Dialogue Box
2. Click OK, and pop up the dialogue box Connect To, select the serial port
connected with foreground (in this instance, COM1 connects with foreground),
and finally click OK, as shown in Figure 5.3-3.
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Figure 5.3-3 HyperTerminal Connection to Dialogue Box
3. In dialogue box of COM1 Properties, click Restore Defaults, and then click
OK, as shown in Figure 5.3-4.
Figure 5.3-4 HyperTerminal COM1 Properties
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4. After logon HyperTerminal, when popping up “Press any key to stop auto-
boot...”, immediately press any key to stop auto-boot, and then start
configuring OMP parameters.
The following is print of configuration interactive process. The bold italic is
entered by keyboard.
VxWorks System Boot
Copyright 1984-2002 Wind River Systems, Inc.
CPU: PC PENTIUM3
Version: VxWorks5.5.1
BSP version: 1.2/3
Creation date: Oct 13 2005, 18:37:29
ZZ
Boot Version : 1.08
Boot Build : 43
Boot BSP Ver : 0302.0700
Creation date: Oct 13 2005, 18:37:23
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Press any key to stop auto-boot...
2 \\quickly press any key, enter serial port debugging mode
[BSP] BOOT Menu Operation Monitor Task Starting (MAX: 120 Second)...
+-----------------------------------------------------------------+
| B O O T P A S S W O R D N O T I C E |
|-----------------------------------------------------------------|
| 1. Password String: 3GPLAT (CASE NOT SENSITIVE) |
| 2. Input Timeout : 120 Seconds, or else Reboot the Board |
| 3. Max Input Retry: 5 Times, or else Booting bypass boot menu |
+-----------------------------------------------------------------+
Boot Password (3GPLAT or 3gplat)->3gplat \\enter boot password
[BSP] Kill Monitor Task [tBootMoni] Successfully!
BootMode Selection as follow:
0 - Auto boot (boot and get version from omp)
1 - Config MP net parameters (only for Omp and Cmp)
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2 - Initialize flash (load flash device and init file system)
3 - Erase all flash (all data on flash will be lost)
4 - Clone flash (clone flash to host image file)
5 - Restore flash (Restore flash from host image file)
6 - Download from pc (down vxworks from pc to flash)
7 - Download self-test program (down test program from pc to flash)
8 - Run release (run the vxworks on flash down by operation 6)
9 - Run the self-test program on flash down by operation 7
r - Return to the original vxworks menu
? - Print this help list
[3GPlat Boot]: 1 \\enter the mode of configuring OMP
parameter
************Init**********
This is two cascade 32M DiskOnChip Millennium Plus Chip - G2
Create tffs device for DOC
/DOC0/ - disk check in progress ... initialized.
dosChkLib : CLOCK_REALTIME is being reset to FRI OCT 28 08:38:54 2005
Value obtained from file system volume descriptor pointer: 0x36a9cc
The old setting was THU JAN 01 00:00:01 1970
Accepted system dates are greater than THU DEC 27 00:00:00 1990
/DOC0/ - Volume is OK
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total # of clusters: 31,929
# of free clusters: 13,861
# of bad clusters: 0
total free space: 27,722 Kb
max contiguous free space: 25,595,904 bytes
# of files: 39
# of folders: 5
total bytes in files: 36,070 Kb
# of lost chains: 0
total bytes in lost chains: 0
Flash Ver Dir /DOC0/VER/ already exist!
Config selection:
1 - Set Omp (or Cmp)'s Omc IP and Mac!
2 - Set Omp Boot Paras!
3 - Set OMP Boot Type !
4 - Set Net_Element Bureau No.!
5 - Quit config, return to bootmenu!
6 - print this help list
Enter your selection (1/2/3/4/5):1 \\enter mode1, set OMP IP and MAC
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Please enter IP (may include net mask) in dotted notations, such as 129.0.0.1:ff0
00000!
[Enter OMP's OMC Ip address]: 129.0.31.12 \\OMP IP address, consistent with the
setting of iOMCR
OMP's OMC Ip net mask is set default value 0xFF000000!
OMP's OMC Ip is :129.0.31.12!
OMP's OMC Ip netmask is :0xFF000000!
OMP's OMC Ip is :0x81001f0c!
OMP's OMC Ip netmask is :0xff000000!
Write flash bootcfg.ini file succ!
Please enter Mac in dotted decimal notations, such as 10.10.10.10.10.10!
[Enter OMP's OMC Mac address]: \\directly enter, use default MAC address
Input is null, nothing done!
Please enter Gateway IP (Not include netmask) in dotted notations, such as 0.0.0.0!
[Enter OMP's Gateway Ip address]: \\ directly enter
Input is null, 0 is set!
Write flash bootcfg.ini file succ!
Please enter OMC Server Ip (Not include netmask) in dotted notations, such as 0.0.0.0!
[Enter OMC Server Ip address]: \\ directly enter
Input is null, 0 is set!
Write flash bootcfg.ini file succ!
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Config selection:
1 - Set Omp(or Cmp)'s Omc Ip and Mac!
2 - Set Omp Boot Paras!
3 - Set OMP Boot Type !
4 - Set Net_Element Bureau No.!
5 - Quit config, return to bootmenu!
6 - print this help list
Enter your selection (1/2/3/4/5):2 \\enter mode2, set OMC server IP address
Please enter Ip in dotted decimal notations, such as 129.0.0.1!
[Enter OMC Ip address]: 129.0.0.12
OMC Ip is: 129.0.0.12!
Write flash bootcfg.ini file succ!
OMC FTPSVR IP is: 129.0.0.12!
Write flash /DOC0/VER/ompboot.inf file succ!
[Enter OMC FTPSVR User Name]: uep \\enter OMC server FTP user name
OMC FTPSVR User Name is: uep!
Write flash /DOC0/VER/ompboot.inf file succ!
[Enter OMC FTPSVR PassWord]: uep \\ enter OMC server FTP password
OMC FTPSVR PassWord is: uep!
Write flash /DOC0/VER/ompboot.inf file succ!
[Enter OMC FTPSVR FilePath]:/tmp/ftp/version/bsc12 \\enter OMC server
ompcfg.ini path (its format is /tmp/ftp/version/bscX)
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Input is null, OMC FTPSVR FilePath is tmp/ftp/version/bsc12!
Write flash /DOC0/VER/ompboot.inf file succ!
[Enter OMP CFGINFO FileName]: ompcfg.ini \\enter configuration file name
OMP CFGINFO FileName is: ompcfg.ini!
Write flash /DOC0/VER/ompboot.inf file succ!
Config selection:
1 - Set Omp (or Cmp)'s Omc Ip and Mac!
2 - Set Omp Boot Paras!
3 - Set OMP Boot Type !
4 - Set Net_Element Bureau No.!
5 - Quit config, return to bootmenu!
6 - print this help list
Enter your selection (1/2/3/4/5):3 \\enter mode3, select start type of OMP boot
Please Set OMP Boot Type :( 0 is Boot From OMC; 1 is Boot From Local Flash)
[Enter Select]: 0 \\select loading file from OMC server
You Set is :0!
Write flash bootcfg.ini file succ!
Config selection:
1 - Set Omp (or Cmp)'s Omc Ip and Mac!
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2 - Set Omp Boot Paras!
3 - Set OMP Boot Type !
4 - Set Net_Element Bureau No.!
5 - Quit config, return to bootmenu!
6 - Print this help list
Enter your selection (1/2/3/4/5):4 \\enter mode4, set exchange office No.
Please enter Bureau No. (0~255):!
[Enter Bureau No.]: 12
Bureau No. is: 12!
Write flash bootcfg.ini file succ!
Config selection:
1 - Set Omp (or Cmp)'s Omc Ip and Mac!
2 - Set Omp Boot Paras!
3 - Set OMP Boot Type !
4 - Set Net_Element Bureau No.!
5 - Quit config, return to bootmenu!
6 - Print this help list
Enter your selection (1/2/3/4/5):5 \\enter mode5, quickly exit OMP configuration
mode
Quit config and return to BootMenu!
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[3GPlat Boot]: 0 \\enter auto-boot mode
[BSP]memCheck 0x00408000 to 0x02408000...OK!
[BSP]memCopy 0x3e000000 to 0x00408000 Size 0x02000000...DONE!
[BSP]memCheck 0x3e000000 to 0x40000000...OK!
[BSP]memCopy 0x00408000 to 0x3e000000 Size 0x02000000...DONE!
5. After auto-booting, OMP downloads version file and FPGA file from OMC
server.
After OMP normally starts, RUN LED on MPX86 board slowly flashes; under
the HyperTerminal prompt ->, enter SCSShowMcmInfo, and then enter, pop up
the following prompt:
SCSMCProc: End all 69 base process power on sucess.
SCSMCProc: Current Proc InnerState is MASTER
SCSMCProc: Current MCM State is WORK
value = 1 = 0x1
Note
Board status of print is “MASTER” and “WORK”, which indicates OMP is in normal
working condition; otherwise, it is abnormal.
五.3.2 Upload ZXG10.cfg
ZXG10.cfg is foreground variable configuration file. Its details are as below:
NOT SEND CIRCUITPOOL = 0 ;whether not report CircuitPool field to
MSC,
;0 is default, which indicates to
report;1 indicates to interconnect with
Bell MSC and not to report this field.
USERPRIENABLE = 0 ; Sri Lanka EGSM/PGSM channel
; distribution strategy. 0: not use
; 1: use
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CELL ID CFG = 0 ;CELLID type, 0: CELLID_LAC_CI,
;1: CELLID_CGI
CBC OMCR USED = 1 ;whether use CBC function of FBI
;0: not use, 1: use
FRONTEND IP = 129.0.31.200 ; front end processor IP address
ZXG10.cfg should be ftp uploaded to directory /DOC0/CFG of OMP & CMP boards.
Then, reset OMP & CMP boards to make the configuration take effect.
When OMP and CMP lack this configuration file, they can run normally. Under this
condition, the foreground variable uses the default value. So, the uploading operation
can be done after OMP and CMP are running normally.
ZXG10.cfg is issued with the version, which is positioned under the directory of MP
version, e.g. iBSCV6.20.100a\Release\MPX86_2\MP.
五.4 Common Debugging Command
Enter some debugging commands in HyperTerminal or telnet to view the board running
status.
When telnet logon, both user name and password are zte. Pay attention to uppercase
and lowercase during debugging.
(1) SCSShowMcmInfo
Function: display the relevant information of control process power-on process,
to judge whether board version is running normally.
Usage: enter SCSShowMcmInfo
Output: control process power-on status. If display the following information, it
indicates board process power-on succeeds.
SCSMCProc: End all 119 base process power on success.
SCSMCProc: Current Proc InnerState is MASTER \\board active/standby status
SCSMCProc: Current MCM State is WORK \\WORK indicates process power-on
succeeds
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The following information indicates some process power-on fails.
SCSMCProc: Base process pZDB_Startup power on failed.
SCSMCProc: Current Proc InnerState is MASTER
SCSMCProc: Current MCM State is WAIT_PROC_POWER_ON
(2) SCSShowVerInfo
Function: display board version information
Usage: enter SCSShowVerInfo
Output: board version information. For example:
PLAT_VERSION_ID : ZX3GPF V05.03.30
PLAT_PATCH_DATE_LIST : 2007081000
PLAT_PATCH_DATE_URGENT: 0
CPU VerInfo is:
wLgcBrdType is 20!
wPhyBrdType is 69!
wVerType is 1!
wFuncType is 1!
dwVersionNo (Hex) is 6000A40!
wCpuType is 65535!
dwPCBNum (Hex) is FFFFFFFF!
dwFileSize is 4914848!
dwVerCheckSum is 826659844!
acVerFileName is IBSC_MPX86_2_MP_P4_V6.20.102A_Z.BIN!
FPGA VerInfo is:
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wLgcBrdType is 65535!
wPhyBrdType is 69!
wVerType is 2!
wFuncType is 1!
dwVersionNo (Hex) is 3006A!
wCpuType is 65535!
dwPCBNum (Hex) is FFFFFFFF!
dwFileSize is 73632!
dwVerCheckSum is 315893148!
acVerFileName is MPX862_03_040703_FPGA_106.rbf!
(3) NfsShowState
Function: display the current status of blade server (front end processor).
Usage: enter NfsShowState
Output: current status of blade server
When blade server is working normally and well communicating with OMP, the
following information will display:
NFS SVR IP: 129.0.31.200
NFS SVR State: ONLINE
NFS SVR Mount State: OK
Local Device Name: /nfsDev
When communication between blade server and OMP is interrupted, the
following information will display:
NFS SVR IP: 129.0.31.200
NFS SVR State: OFFLINE, HeartBeating Timeout
NFS SVR Mount State: UnMounted
(4) Reboot
Function: reset board
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Usage: enter reboot
Output: none
五.5 Common Problem Analysis
During the installation and debugging of OMP, some problems may happen. The
followings are some instances and solutions.
(1) No display on HyperTerminal & unable to enter
Problem:
There is no display on HyperTerminal. When entering, no shell prompt
MPX86_2-> displays.
Solution:
When board CPU version is running, the serial port output will be prohibited.
Its solution is to enter 3gzte, and then enter to see whether the prompt shows
up.
Check whether both ends of serial port cable are connected correctly.
Manually reset board to see whether there exists print on serial port. If not, the
serial port cable may go wrong.
(2) Incorrect rear board DIP switch
Problem:
RUN LED fast flashes (5Hz), ALM LED is off. Continuously print on
HyperTerminal.
Boot Task send to 128.0.31.1 msg succ! \\Note: IP should be 128.0.31.1
Boot Task send to 128.0.31.9 msg succ!
Master OMP Req Mag Send times is 8!
Timer Task send timer message ok!
Boot Task's Timer EV_TIMER_MASTER_OMP_REQ is up!
After a while, reset board and print shows the IP address is not OMP IP address.
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boot device : fei
unit number : 2
processor number : 0
host name : host
file name : vxWorks
inet on ethernet (e) : 128.33.43.1:ff000000 \\not OMP IP address
host inet (h) : 128.2.2.128
user (u) : mpx86_2
ftp password (pw) : mpx86_2
flags (f) : 0x0
Solution:
The above print indicates this board is not OMP. If the slot is correct (11 or 12
slot), then check whether rear board DIP switch is correct. Rack No. should be
0 and frame No. should be 1.
(3) BOOT version is not the release version
Problem:
The board reset continuously. After reset, HyperTerminal prints.
Booting from network
Loading...
Solution:
The above print indicates BOOT version for debugging. When starting BOOT,
download VxWorks image from debugging PC.
It is necessary to replace release version BOOT. If board supports online
downloading BOOT, online upgrade BOOT version on debugging PC. Please
refer to the relevant document for details. If not, then it is necessary to program
BOOT chip with programmer.
(4) OMP fails to acquire ompcfg.ini on background
Problem:
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RUN LED fast flashes (5Hz), ALM LED is off. Continuously print on
HyperTerminal.
0x3a6188 (tBoot): Use new ftp client. Taget: 0x1000081
Retry 8 times connect to OMC ftp server ...!
Finally print:
Get Omp VerInfo from OMC failed!
Get OmpVerInfo failed, Load Cpu VerFile From DOC!
Solution:
The above print indicates BOOT fails to acquire ompcfg.ini from OMC server.
Troubleshoot as follows:
Check whether network connection is in normal condition. For instance, check
whether network cable on OMP rear plug-in card is connected with OMC2
interface, or whether OMC IP of OMP can ping through on server. If not, check
the connection condition of network cable.
Check whether ftp service on OMC server is in normal condition. For instance,
try to ftp logon server on client (using server 129 address set in OMP serial
port). Use uep user name and see whether it succeed to logon.
Check whether parameter set in OMP serial port is correct.
Check whether ompcfg.ini file is under the directory saving OMC server
version file.
(5) OMP fails to acquire version file from background
Problem: board resets continuously. After reset, print it in HyperTerminal.
Getting Omp VerInfo from OMC ...!
Get OmpVerInfo from OMC succ! \\succed to acquire ompcfg.ini
After that, print continuously:
0x3a6188 (tBoot): Use new ftp client. Taget: 0x1000081
Retry 4 times connect to OMP ftp server ...!
After printing the following information, board resets:
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Connecting Omp ftp server failed!
OMP Download VerFile from OMC failed!
Before Board reset!
Give up master.
Solution:
The above print indicates ompcfg.ini has been acquired successfully. But it fails
to acquire version file.
Check whether the directory for saving OMC server version file has the
relevant version file.
(6) It fails to power up database process
Problem:
RUN LED fast flashes (5Hz), ALM LED fast flashes (2Hz). Enter
SCSShowMcmInfo on HyperTerminal or telnet, it displays database process
power up fails.
SCSMCProc: Base process pZDB_Startup power on failed.
SCSMCProc: Current Proc InnerState is MASTER
SCSMCProc: Current MCM State is WAIT_PROC_POWER_ON
Solution:
The main reason for database process power-on failure is that ZDB file on OMP
does not exist or data configuration has error. If it is a new OMP board,
generally it lacks ZDB file.
FTP logon OMP, user name and password are omc/omc (or zte/zte). If using
OMP 128 address, it allows anonymity logon. View whether CfgTable.ZDB
and DBVer.ZDB are in the directories of /DOC0/DATA1 and /IDE0/DATA1. At
least one directory has ZDB file. Database process will preferentially read ZDB
file under /DOC0/DATA1.
If there is no ZDB file on OMP, then get ZDB from OMC server or use the
backup ZDB. And then upload it to OMP. ZDB file includes CfgTable.ZDB and
DBVer.ZDB. Generally, upload to both /DOC0/DATA1 and /IDE0/DATA1. If
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the size of ZDB file is about tens of M, only upload to /IDE0/DATA1. Under
this condition, make sure that there is no ZDB file under the directory of
/DOC0/DATA1.
If there is ZDB file but it fails to power up, turn on DBS subsystem print in
UDPWatch on debugging PC. Find the reason for database process power-on
failure based on print.
(7) Abnormal reset of OMP or other board
Problem:
OMP board version has been running. But it resets in the course of running.
Other boards also reset during running.
Solution:
When OMP or other board resets, it is necessary to send the record file to R&D
Center to make analysis.
FTP logon OMP, copy Exc_Omp.txt or Exc_pp.txt under /DOC0. If OMP
resets, only copy Exc_Omp.txt; if other board resets, only copy Exc_pp.txt.
(8) When commissioning OMP at 6.20 platform, make sure ZDB file of OMP is in
the format of 6.20.
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六. SBCX O&M Software Commissioning
Refer to ZXG10 iBSC (V6.20) OMM Software Installation Manual.
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七. Basic Data Configuration
In order to be convenient for debugging and learning, we specially add basic data
configuration in this chapter. For data configuration suggestions, please refer to the
latest ZXG10 NetNumen-G (V6.20) Operation & Maintenance Center Operation
Manual (Configuration Management).
Note: this chapter describes the configuration differences between iBSC6.10 and iBSC
6.20, including iBSC6.20 supporting gigabit platform, SPB2 board, DTB2 board,
GUP2 board, IP Abis interface, IP Gb interface, IP A interface.
七.1 Public Resource Configuration
This chapter consists of following topics: GERAN sub network, BSC managed
elements, configuration sets, and BSC global resource configuration method and
principles.
The sequence of configuring public resources is shown as in Figure 7.1-5.
Figure 7.1-5 Public Resource Configuring Flow
七.1.1 GERAN Sub Network Configuration
GERAN sub network is an objective in the GERAN network North Interface
information model. One GERAN sub network may include one or more than one
managed elements.
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七.1.1.1 Creating GERAN Sub Network
In Configuration Resource Tree, right-click OMC and click Create → GERAN
Subnetwork, as shown in Figure 7.1-6.
Figure 7.1-6 Creating GERAN Sub Network 1
Input User label and Subnetwork ID in Create GERAN subnetwork dialog box, as
shown in Figure 7.1-7. Click OK.
Figure 7.1-7 Creating GERAN Sub Network 2
Note:
About the user label for each configuration objective, user can input the detailed
objective name for easy identifying. User label can also be auto-generated by software
(e.g. managed objective name+ID, in the degree-increasing sequence) and nothing is
required to input.
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七.1.1.2 Querying/Modifying/Deleting GERAN Sub Network
After GERAN Sub network is successfully created, the nodes should be displayed in
the topology tree as shown in Figure 7.1-8. Double-click the node and the
configuration properties of this objective should be displayed on the right of the Config
Management view.
Figure 7.1-8 Querying GERAN Sub Network
In property page, click shortcut menu in the config management to modify the
properties. After modification is completed, click to save the parameters. Click to
ignore the modification.
In Configuration Resource Tree view, right-click created GERAN sub network for
example SS as shown in Figure 7.1-9 and click Delete in the popup menu. Delete in the
popup menu as shown in Click Yes in the confirmation message to delete GERAN sub
network as shown in Figure 7.1-10.
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Figure 7.1-9 Deleting GERAN Sub Network 1
Figure 7.1-10 Deleting GERAN Sub Network 2
Click Yes in the confirmation message to delete GERAN sub network.
Caution:
If the property page of deleted GRAN sub network is opened, after deleting this
GERAN sub network, system should popup a message shown Managed objective is
deleted, please close its property page.
七.1.2 BSC Managed Elements Configuration
BSC managed elements are the sub-nodes of the GERAN sub network. One managed
element can only be included in one GERAN sub network.
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七.1.2.1 Creating BSC Managed Elements
In Configuration Resource Tree, right-click created GERAN sub network node, and
go to Create → BSC managed element in the popup menu, as shown in Figure 7.1-
11.
Figure 7.1-11 Creating BSC Managed Elements 1
Enter the parameters in the Create BSC Managed Element dialog box and click OK,
the corresponding managed element is created in topology tree as shown in Figure 7.1-
12.
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Figure 7.1-12 Creating BSC Managed Elements 2
七.1.2.2 Querying/Modifying/Deleting BSC Managed Elements
Querying/Modifying/Deleting BSC managed elements are the same with that of
GERAN Sub Network. Please refer to Section 七 .1.1.2 Querying/Modifying/Deleting
GERAN Sub Network.
七.1.3 Configuration Set
Master configuration set data is used to synchronize with the iBSC network elements.
It can be conducted with iBSC-iOMCR operations such as the data synchronization,
dynamic operations. ZXG10 NetNumen-G provides multi configuration sets and user
can create many configuration sets and switch them based on own needs. Notice that
after configuration set switch, user must synchronize all table so that the data will
comes into effect.
Master configuration set cannot be created or deleted separately. It must be created at
the same time when creating managed element, and be deleted when deleting the sub
network and managed element. Only one master configuration set can be created under
one managed element. It is necessary to apply mutex right in the managed element
before modifying configuration. The configuration procedures are as follows.
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七.1.3.1 Creating Configuration Set
In Configuration Resource Tree, select BSC managed element node and right-click
Create → Config set as shown in Figure 7.1-13.
Figure 7.1-13 Creating BSC Config Set 1
Enter the User Label in the popup window as shown in Figure 7.1-14. Click OK to
generate new config set.
Figure 7.1-14 Creating BSC Config Set 2
七.1.3.2 Querying/Modifying/Deleting ConfigSet
Please refer to Section 七.1.1.2 Querying/Modifying/Deleting GERAN Sub Network.
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七.1.3.3 Master/Slave ConfigSet Switch
1. In Configuration Resource Tree, double-click the newly created slave config
set and its properties should be displayed on the right side of window as shown
in Figure 7.1-15.
Figure 7.1-15 Queering Slave ConfigSet Properties
2. Select the slave config set to switch and click the in the shortcut button and
a window pops up as shown in Figure 7.1-16.
Figure 7.1-16 Confirm Dialog Box of Switching ConfigSet
3. Click OK to complete switching the master and slave config sets.
Caution:
After switching the master and slave config sets, user must conduct data
synchronization hence the new master config set can come into effect in iBSC system.
七.1.4 BSC Global Resource Configuration
BSC global resource configuration is sub node of the configuration set.
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七.1.4.1 Creating BSC Function
In Configuration Resource Tree, right-click Master config set and click Create →
BSC function in popup menu as shown in Figure 7.1-17.
Figure 7.1-17 BSC Global Resource Configuration 1
In the popup window, click to display all the contents. Enter proper parameters and
click OK as shown in Figure 7.1-18.
Figure 7.1-18 BSC Global Resource Configuration 2
Caution:
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The parameters for MCC, MNC, MNC3Digits, FuncExt cannot be modified after
creation. Please follow strictly as the data plan. The address of SNTP server is set
OMC SERVER IP instead of the IP address of OMP.
IBSC6.20 supports the gigabit platform. Modify the above marked parameters upon the
actual configuration.
It is necessary to configure the virtual address of iBSC, as shown in Figure 7.1-15.
Figure 7.1-15 BSC Global Resource Configuration 3
七.1.4.2 Querying/Modifying/Deleting Configuration
Please refer to Section 七.1.1.2 Querying/Modifying/Deleting GERAN Sub Network.
七.2 BSC Physical Configuration
This chapter describes configuration procedure of BSC physical equipment resources
including the rack, shelves and associated board with each shelf.
七.2.1 BSC Rack Configuration
[Purpose]
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To configure a new BSC rack.
[Application]
1. To create a new BSC rack by manually initialization configuration.
2. To create a new BSC rack by adding configuration for site expanding.
[Prerequisites]
1. Public resource configuration is successfully created.
2. Make sure the rack number to configure.
[Procedures]
1. In Configuration Resource Tree, right-click OMC → GERAN Sub network
user label → BSC managed elements user label → Master Config set →
BSC Global Resource ID → BSC device config → Create → BSC rack as
shown in Figure 7.2-19.
Figure 7.2-19 Creating BSC Rack 1
2. Click BSC rack and Create BSC rack dialog box pops up as shown in Figure
7.2-20.
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Figure 7.2-20 Creating BSC Rack 2
For the key parameters related with Figure 7.2-20, please refer to Table 7.2-3.
Table 7.2-3 Parameters of Creating BSC Rack
Rack Parameters
Rack ID
Integer type 1 ~ 5
Unit None
Default value 1
DescriptionThe rack number and shelf number are controlled by the DIP switch which
currently can support 2 racks maximally.
Rack type
Integer type Standard rack
Unit None
Default value Standard rack
Description Currently only one rack type is available
3. Click OK and corresponding rack is successfully created.
When creating rack, using the following shortcut button in Table 7.2-4 can adjust the
rack view to the best.
Table 7.2-4 Toolbar in Rack View
Shortcut Button Functions
Fit page
Zoom in
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Shortcut Button Functions
Zoom out
Reset
七.2.2 Shelf and Board Configuration
ZXG10 iBSC system consists of three types of shelf: control shelf, resource shelf and
switch shelf. According to configuring position, configuration falls into following
categories:
● One-shelf: The resource shelf can be placed at any layer.
● One-rack: the control shelf must be placed at the 2nd layer; the resource shelves
are usually placed at the 1st and 3rd layer; the switch shelf is usually placed at
the 4th layer.
● Double-Rack: the control shelf must be placed at the 2nd layer of the No.1 rack;
the resource shelves are usually placed at the 1st and 3rd layer of the No.1 rack,
and any layer of the No.2 rack; the switch shelf is usually placed at the 4 th layer
of No.1 rack.
The shelf position of a double-rack in ZXG10 iBSC system is shown as in Figure 7.2-
21.
Figure 7.2-21 Shelf Location
Refer to Table 7.2-5 for the classification and functions of each shelf. Refer to ZXG10
iBSC (V6.20) Hardware Manual for the configured boards and their description.
Table 7.2-5 Shelf Description
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Type Function
CTCIt has global O&M function, global clock function, control panel handling and
Ethernet switch function.
BUSN (Gk,
Mk)
It completes system access. It forms the subsystem for handling service. The
Gk platform only supports configuring Gk BUSN and the Mk platform only
supports Mk BUSN.
PSN It provides the high-capacity and block-free IP switching platform.
Take the one-rack configuration with E1 on both Abis-interface and A-interface as an
example, illustrated as in Figure 7.2-22.
Figure 7.2-22 Configuration Sample
Following shelf/board configuring procedures are based on the above supposed data.
Caution:
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If BUSN is the Gk platform, it supports configuring GUIM board, SPB2 board and
GUP2 board.
If BUSN is the Mk platform, it supports configuring UIMU board, SPB board and GUP
board.
七.2.2.1 Control Shelf and Associated Board Configuration
Control shelf is the control center of the ZXG10 iBSC system. It manages and controls
whole system, provides the control plane signaling handling for iBSC system, and
provides the clock supply and clock synchronization for system.
[Purpose]
To create a control shelf along with its boards at a created rack.
[Application]
To create a new BSC control shelf along with its boards by manually initializing
configuration.
[Prerequisites]
1. Rack and public resource is successfully created.
2. Ensure the control shelf and associated boards to be configured.
[Procedures]
1. In Configuration Resource Tree, double-click OMC → GERAN Sub
network user label → BSC managed elements user label → Master Config
set → BSC Global Resource ID → BSC device config → Standard rack
name.
2. Right-click No.2 shelf of Rack 1 and select Create Shelf as shown in Figure
7.2-23.
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Figure 7.2-23 Creating Control Shelf
3. Click Create Shelf and a dialog box pops up as shown in Figure 7.2-24.
Figure 7.2-24 Dialog Box of Creating Control Shelf
4. Enter User Label, and select Control Shelf in Rack Type. Click OK and the
shelf with corresponding code and type is successfully created at the rack.
5. Configuring OMP Board
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Before configuring any other board in the control shelf, user should configure
OMP board first. OMP board must be configured in active/standby mode and in
slot 11 and slot 12.
Right-click slot 11, select Create board and a dialog box pops up as shown in
Figure 7.2-25.
In the Basic information tab, select OMP in Board function type drop-down
list, and select 1+1 backup mode or No backup mode depending on actual
configuration.
Figure 7.2-25 Creating OMP Board 1
In the Module configuration information tab, select OMP, OMP_SMP_CMP
or RPU from the Module type drop-down list, depending on actual
configuration as shown in Figure 7.2-26. Refer to Table 7.2-6 for module type
description. Click OK to finish configuring OMP board.
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Figure 7.2-26 Creating OMP Board 2
Table 7.2-6 Module Type Description
Module Type Description
OMP Operation and maintenance processing board
OMP_SMP_CMPOperation and maintenance processing board/Signaling master
processing board/Calling master processing board
RPU Router protocol unit
Caution:
OMP and OMP_SMP_CMP can be only configured at module 1 and RPU can be only
configured at module 2.
6. Configuring UIMC Board
2 UIMC boards must be configured in active/standby mode and in slot 9 and
slot 10.
Right-click slot 9, select Create board and a dialog box pops up as shown in
Figure 7.2-27. Select UIMC in Board function type drop-down list, and select
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1+1 backup mode or No backup mode depending on actual configuration.
Select Yes or No in the Clock check drop-down list and click OK.
Figure 7.2-27 Configuring UIMC Board
7. Configuring CLKG Board
2 CLKG boards must be configured in active/standby mode and in slot 13 and
slot 14.
Right-click slot 13, select Create board and a dialog box pops up as shown in
Figure 7.2-28. Select CLKG in Board function type drop-down list, and select
1+1 backup mode or No backup mode depending on actual configuration.
Click OK.
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Figure 7.2-28 Configuring CLKG Board
8. Configuring CHUB Board
2 CHUB boards must be configured in active/standby mode and in slot 15 and
slot 16.
Right-click slot 15, select Create board and a dialog box pops up as shown in
Figure 7.2-29. Select CHUB in Board function type drop-down list, and select
1+1 backup mode or No backup mode depending on actual configuration.
Click OK.
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Figure 7.2-29 Creating CHUB Board
9. Configuring CMP Board
CMP boards (1~6 pieces) may be plugged at the slot 1~8. The number of CMP
boards is optional according to the configuring capacity.
Right-click the corresponding slot in Control shelf, and click Create board in
the popup menu as shown in Figure 7.2-30.
Select Board function type as CMP, and select 1+1 backup mode or No
backup mode from Backup mode drop-down list, depending on actual
configuration.
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Figure 7.2-30 Configuring CMP Board 1
Click Module configuration information, as shown in Figure 7.2-31. User can
modify Module No information if necessary. Click OK.
Note:
If user need more than 1 CMP board, repeat Procedure 9. Then only difference is that
user needs to change Module No. The Module No must be different from 3 to 8.
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Figure 7.2-31 Configuring CMP Board 2
七.2.2.2 Resource Shelf and Associated Board Configuration
Resource shelf, as a general service shelf, can be configured with all kinds of service
processing boards to constitute the general service processing subsystems. Resource
shelf can be configured with Abis-interfaces unit, A-interface unit, PCU unit and TC
unit. Two resource shelves constitute one RCBU (Resources board Configuration Basal
Unit). User can only add RCBU for system expansion.
[Purpose]
To configure resource shelf along with associated boards at a created rack.
[Application]
1. To create a new BSC resource shelf along with its boards by manually
initializing configuration.
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2. To create a new BSC resource shelf along with its boards for system expansion
configuration.
[Prerequisites]
1. Rack and public resource is successfully created.
2. Ensure the resource shelf and associated boards to be configured.
3. OMP and CMP boards are successfully created.
[Procedures]
1. In Configuration Resource Tree, right-click OMC → GERAN Sub network
user label → BSC managed elements user label → Master Config set →
BSC Global Resource ID → BSC device config → Standard rack name.
2. Right-click the corresponding position of the rack and select Create Shelf as
shown in Figure 7.2-32.
Figure 7.2-32 Creating Resource Shelf
3. Click Create Shelf and a dialog box pops up as shown in Figure 7.2-33.
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Figure 7.2-33 Dialog Box of Creating Resource Shelf
4. Enter User Label, and select Resource Shelf in Rack Type drop-down list.
Click OK and the shelf with corresponding code and type is successfully
created at the rack. Label the corresponding Slot No at the bottom of shelf.
5. Configuring UIMU Board
2 UIMU boards must be configured at slot 9 and 10.
Right-click required slot and click Create board in the popup menu as shown
in Figure 7.2-34.
At the Basic Information tab, select UIMU in Board function type drop-
down list, and select 1+1 backup mode or No backup mode depending on
actual configuration. Select Yes or No in the Clock check drop-down list.
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Figure 7.2-34 Configuring UIMU Board 1
At the Board connection information tab, set the data as defaulted as shown
in Figure 7.2-35 and click OK.
Figure 7.2-35 Configuring UIMU Board 2
6. Configuring SPB2 Board (including SPB2, GIPB2 and LAPD2)
When BUSN is the Gk platform, it only configures SDTB2, SPB2 and GUP2
boards instead of SPB and GUP boards in iBSC6.10.
SPB board can be plugged at any slot but slot 9 and 10. If SPB board is created
at slot 15/16, there are some special restrictions described as below:
● Slot 16 cannot support serial port;
● If board is plugged in slot 15/16, the 8K clock base cannot be picked. If E1/T1
SPB board is configured, only one board can be plugged at either slot 15 or 16.
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If E1/T1 SPB board is not configured, two boards can be plugged at both slot
15 and 16.
Right-click the board position at the rack, select Create board and a dialog box
pops up as shown in Figure 7.2-34.
At the Basic Information tab, select SPB2, GIPB2, or LAPD2 in Board
function type drop-down list, and we take LAPD2 as an example in following
figure.
Note:
1. If LAPD2 is selected in Board function type drop-down list, the Module No. is
depending on the actual configuration of CMP. PCM type in the PCM Information tab
can be automatically set as PCM at Abis.
2. If SPB2 is selected in Board function type drop-down list, the Module No. is 1.
PCM type in the PCM Information tab can be automatically set as PCM at A.
3. If GIPB2 is selected in Board function type drop-down list, the Module No. is 1.
PCM type in the PCM Information tab can be automatically set as PCM at GB.
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Figure 7.2-36 Creating LAPD Board 1
In the PCM Information tab, user can select the parameters form Frame mode
and PCM No. drop-down lists based on own needs as shown in Figure 7.2-37.
The frame mode can be configured as Double frame, Multi-frame or Non-
frame.
Caution:
If LAPD2 board is configured, the E1 for external link will be reduced and less than
16. Usually 8 pieces of PCM can be configured.
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Figure 7.2-37 Creating LAPD Board 2
Click OK to finish configuring LAPD2 board.
7. Configuring DTB Board
DTB board can be configured at any slot except slot 9, 10, 15 and 16.
Right-click the board position at the rack, select Create board and a dialog box
pops up as shown in Figure 7.2-38.
At the Basic Information tab, select DTB in Board function type drop-down
list.
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Figure 7.2-38 Creating DTB Board 1
In the PCM Information tab, user can select the parameters form PCM Type,
Frame mode and PCM No. drop-down lists based on own needs as shown in
Figure 7.2-39. The frame mode can be configured as Double frame, Multi-
frame or Non-frame. Click OK to finish configuring DTB board.
Caution:
The frame mode configured at both ends of onsite PCM line must be consistent with
each other.
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Figure 7.2-39 Creating DTB Board 2
8. Configuring GUP2 Board (including DRTB2 and BIPB2)
If GUP2 is used as BIPB board, it takes the priority to be plugged at slot 5~8
and 11~14. If it is plugged at any slot from slot 1~4,or 15~16, the adjacent slot
of GUP2 master/slave board can be configured with the board that do not
require the internal media port such as the DTB, SDTB2. If GUP2 is used as
DRTB2 board, it can be configured at any slot except 9 and 10.
(1) Configuring DRTB2 Board
Right-click the board position at the rack, select Create board and a dialog box
pops up as shown in Figure 7.2-40.
At the Basic Information tab, select DRTB2 in Board function type drop-
down list.
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Figure 7.2-40 Configuring DRTB2 Board 1
At DSP configuration information tab, user can select the parameters form
Trunk group, and Selected DSP drop-down lists based on own needs as shown
in Figure 7.2-41. Refer to Table 7.2-7 to learn the trunk parameter explanation.
Click OK to finish creating DTRB board.
Table 7.2-7 Trunk Parameter Explanation
Trunk Parameter Explanation
FR1 Full rate voice version 1
HR1 Half rate voice version 1
FR1_HR1 Full rate voice version 1, Half rate voice version 1
FR2 Full rate voice version 2
FR1,2 Full rate voice version 1, 2
FR2_HR1 Full rate voice version 2; Half rate voice version 1
FR12_HR1 Full rate voice version 1,2; Half rate voice version 11
FR3_HR3 Full rate voice version 3; Half rate voice version 3
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Trunk Parameter Explanation
FR123_HR3 Full rate voice version 1, 2, 3; Half rate voice version 3
FR123_HR13 Full rate voice version 1, 2, 3; Half rate voice version 1, 3
Figure 7.2-41 Configuring DRTB Board 2
(2) Configuring BIPB2 Board
Right-click the board position at the rack, select Create board and a dialog box
pops up as shown in Figure 7.2-42.
At the Basic Information tab, select BIPB2 in Board function type drop-
down list.
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Figure 7.2-42 Creating BIPB Board 1
At DSP configuration information tab, user can select the parameters form
Selected DSP drop-down lists based on own needs as shown in Figure 7.2-43.
Click OK to finish creating BIPB2 board.
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Figure 7.2-43 Creating BIPB Board 2
9. Configuring UPPB2 Board
UPPB2 board is recommended to plug at the slot 5~8 and 11~14. If it is
plugged at any slot from slot 1~4,or 15~16, the adjacent slot of UPPB2
master/slave board can be configured with the board that do not require the
internal media port such as the DTB, SDTB2.
Right-click the board position at the rack, select Create board and a dialog box
pops up as shown in Figure 7.2-44.
At the Basic Information tab, select UPPB2 in Board function type drop-
down list.
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Figure 7.2-44 Creating UPPB2 Board 1
At DSP configuration information tab, user can select the parameters form
Selected DSP drop-down lists based on own needs as shown in Figure 7.2-45.
Click OK to finish creating UPPB2 board.
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Figure 7.2-45 Creating UPPB Board 2
10. Configure the other resource shelf according to above method.
Caution:
1. If IP SS7 at A-interface is required to configuration onsite, NMIC board must be
created at resource shelf and creating procedures are similar with that of above board.
2. If A-interface and MSC should be inter-connected via optical port, SDTB2 board
is required to create in the resource shelf and creating method is similar with that of
other board. SDTB2 board can be plugged at any slot except slot 9 and 10. It takes the
priority to be plugged at slot 17. If it is plugged at other slot other than slot 17, the
adjacent slots of master/slave board cannot be configured with the boards of HW wire
resource such as DTB and GUP2.
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11. Configuring EUIP Board
Right-click the slot on shelf, select Create board and a window pops up as shown in
Figure 7.2-46.
At the Basic Information tab, select EUIP in Board function type drop-down list.
Figure 7.2-46 Creating EUIP Board
Caution:
1. EUIP is the processing board of IP OVER E1. It is necessary to configure when IP
OVER E1 is used.
2. The path mode is selected upon the platform. If the platform is Gk one, select Path
Mode 5. If the platform is Mk one, select Path Mode 1.
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At the HDLC Config tab as shown in Figure 7.2-29, add EUIP 2MHW No. and its
corresponding DT PCM No. The EUIP 2MHW No. max supports 64 E1, as shown in
Figure 7.2-47. Click OK to complete configuration.
Figure 7.2-47 Creating EUIP Board
Caution:
1. EUIP 2MHW No. matches DT PCM No.
2. The time slot of EUIP 2MHW (1~31) matches that of DT PCM (1~31).
12. Configuring IPBB Board
Right-click the slot on shelf, select Create board and a window pops up as shown in
Figure 7.2-48.
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At the Basic Information tab, select IPBB in Board function type drop-down list.
Figure 7.2-48 Creating IPBB Board
Caution:
1. This IPBB board is the interface board for connecting with OMCB.
2. The path mode is selected upon the type of switch connecting with IPBB. If the
switch is of Mk type, select Path Mode 2. If the switch is of Gk type, select Path Mode
3.
3. Path Mode 2 is corresponding with RMINC and Path Mode 3 is corresponding with
RGER.
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七.2.2.3 Switching Shelf and Associated Board Configuration
Switching shelf provides the IP switching function for the user data of iBSC internal
functionary entities, and it also provides QoS function for various users.
[Purpose]
To configure switching shelf along with associated boards at a created rack.
[Application]
To create a new BSC switching shelf along with its boards by manually initializing
configuration.
[Prerequisites]
1. Rack and public resource is successfully created.
2. Ensure the switching shelf and associated boards to be configured.
[Procedures]
1. In Configuration Resource Tree, right-click OMC → GERAN Sub network
user label → BSC managed elements user label → Master Config set →
BSC Global Resource ID → BSC device config → Create → BSC rack →
Standard rack name.
2. Right-click No.4 shelf of rack 1 and select Create Shelf as shown in Figure
7.2-49.
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Figure 7.2-49 Creating Switching Shelf
3. Click Create Shelf and a dialog box pops up as shown in Figure 7.2-50.
Figure 7.2-50 Dialog Box of Creating Switching Shelf
4. Enter User Label, and select Switching Shelf in Rack Type drop-down list.
Click OK and the shelf with corresponding code and type is successfully
created at the rack. Label the corresponding Slot No at the bottom of shelf.
5. Creating UIMC Board
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Two UIMC boards, which fulfill the control plan switching function, must be
configured at slot 15 and 16.
Right-click required slot and click Create board in the popup menu as shown
in Figure 7.2-51.
At the Basic Information tab, select UIMC in Board function type drop-
down list, and select 1+1 backup mode or No backup mode depending on
actual configuration. Select Yes or No in the Clock check drop-down list.
Figure 7.2-51 Creating UIMC Board
6. Creating PSN Board
2 PSN boards, which fulfill the data switching function between wire and card,
must be configured at slot 7 and 8.
Right-click required slot and click Create board in the popup menu as shown
in Figure 7.2-52.
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At the Basic Information tab, select PSN in Board function type drop-down
list, and click OK to finish PSN configuration.
Figure 7.2-52 Creating PSN Board
7. Creating GLI Board
GLI boards, which fulfill the Gigabyte Ethernet switching function, may be
plugged at slot 1~6 or slot 9~14. The board number is optional as per the
capacity and the boards must be configured in pairs. Configuration should stick
to the increasing sequence from left to right.
Note:
GLIQV is the logical name of GLI.
Right-click required slot and click Create board in the popup menu as shown
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in Figure 7.2-53.
At the Basic Information tab, select GLI in Board function type drop-down
list.
Figure 7.2-53 Creating GLI Board 1
At Board connection information tab, user can select proper parameters for
Connect type, Port No. and Connect unit as shown in Figure 7.2-54. Click
OK to finish GLI board configuration.
Note:
The parameter of Connect Unit is 911, whereas 1 stands for No.1 rack, 1 stands for
No.1 shelf, and 9 means No.9 slot.
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Figure 7.2-54 Creating GLI Board 2
七.2.3 Basic Operation of Data Configuration
Basic operation of data configuration includes: Query Configuration, Add
Configuration, Modify Configuration, and Delete Configuration.
1. Query Configuration
It indicates that the user checks the data of the managed object after the data
configuration.
2. Add Configuration
Add managed objects for the system, and set property value for them.
3. Delete Configuration
Delete existing managed objects and their configuration data in the system.
4. Modify Configuration
Modify the configuration data for the existing managed objects in the system.
In initial state, the shortcut button on the toolbar of the managed object
configuration is inactivated, which indicates modification is disabled. The user
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should Apply for mutex permission to activate the button.
Note:
The purpose to Apply for mutex permission is to avoid simultaneous data operation in multiple Clients,
which may lead to irregular data.
Take the data modification of master configuration set for instance, the
procedures include:
(1) Right click BSC Management NE Label, select Apply for mutex
permission from the drop-down list as shown in Figure 7.2-55.
Figure 7.2-55 Applying for Mutex Permission
(2) Click Apply for mutex permission, and a prompt window pops up, as shown
in Figure 7.2-56.
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Figure 7.2-56 Prompt Window
(3) Click Yes, and the mutex permission is applied successfully. An icon will
be shown on the topology tree as Figure 7.2-57. The shortcut button has
already been activated, which means that the user can modify the
configuration data under this management NE.
Figure 7.2-57 Successful Application of the Mutex Permission
(4) After the data modification, right click BSC Management NE Label, and
select Release mutex permission from the drop-down list as shown in Figure
7.2-58. After permission release, the configuration data under this
management NE can be operated by other users.
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Figure 7.2-58 Mutex Permission Release
Caution:
Mutex permission can be released automatically by the system after the user log off
from the Client. In addition, the permission can also be acquired by force from other
Clients.
七.2.4 Switchover of Master/Slave Configuration Set
Purpose
Switch the slave configuration set as the master one.
Prerequisites
1. BSC management NE is created successfully, and a master configuration set is created in the system.
2. A slave configuration set that will be switched as the master one is created successfully.
Procedures
1. In Configuration Resource Tree, double click the slave configuration set just created, whose
property sub-view will be displayed in the right window of the Configuration Management
view as shown in Figure 7.2-59.
Figure 7.2-59 Checking the Properties of Slave Configuration Set
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2. Click the slave configuration set to be switched, and then the shortcut button (Switch to master
configuration set) in the shortcut menu of the configuration management object. A window pops
up as shown in Figure 7.2-60.
Figure 7.2-60 Dialogue Box for Master/Slave Configuration Set Switchover
3. Click OK to complete the switchover between the data of master and slave configuration set. The
slave configuration set is switched as the master one as shown in Figure 7.2-61.
Figure 7.2-61 Switchover Completion
Follow-up Task
After the switchover, the data should be synchronized, in order to make the data of the new master
configuration set valid at the foreground.
七.2.5 Physical Data Export
Purpose
To export the physical data already configured from the system.
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Prerequisites
Configured physical data is available.
Procedures
1. In Configuration Resource Tree, right click BSC Global Resource Label; select Export as
Excel→ Export Physical Data from the drop-down list as shown in Figure 7.2-62.
Figure 7.2-62 Exporting Physical Data 1
2. Click Export Physical Data, and a dialogue box to Save data pops up, select the directory to save
exported data file, input File Name as shown in Figure 7.2-63.
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Figure 7.2-63 Exporting Physical Data 2
3. Click Save to export data, and then a prompt indicating the data is exported successfully pops up
as shown in Figure 7.2-64.
Figure 7.2-64 Exporting Physical Data 3
The exported physical data is saved as Excel format, the path is suggested to be:
\ISMG-V6.20.000a-\ums-clnt\template\excel\exceldata
七.2.6 Radio Data Export
Purpose
To export configuration data.
Prerequisites
The configured data is available.
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Procedures
1. In Configuration Resource Tree, right-click BSC Global Resource Label,
select Export into Excel → Data Export in the popup menu as shown in
Figure 7.2-65.
Figure 7.2-65 Exporting Data 1
2. Click Data Export and a save window pops up. Select the save directory for
the exporting file and input the file name, as shown in Figure 7.2-66.
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Figure 7.2-66 Exporting Data 2
3. Click Save to complete exporting. A successful prompt pops up as shown in
Figure 7.2-67.
Figure 7.2-67 Exporting Data 3
The exporting data is saved in the format of Excel. It is recommended to save the file
in the following directory.
.. \ISMG-V6.20.000a-\ums-clnt\template\excel\exceldata
七.2.7 Software Data Export
Purpose
To export software data already configured in the system.
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Prerequisites
Configured software data is available.
Procedures
1. In Configuration Resource Tree, right click BSC Global Resource Label; select Export as
Excel → Export Software Data from the drop-down list as shown in Figure 7.2-68.
Figure 7.2-68 Exporting Software Data 1
2. Click Export Software Data, and a dialogue box to Save data pops up, select the directory to
save exported data file, input File Name as shown in Figure 7.2-69.
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Figure 7.2-69 Exporting Software Data 2
3. Click Save to export data, and then a prompt indicating the data is exported successfully pops up
as shown in Figure 7.2-70.
Figure 7.2-70 Exporting Software Data 3
The exported physical data is saved as Excel format, the path is suggested to be:
\ ISMG-V6.20.000a-\ums-clnt\template\excel\exceldata
七.2.8 Network Planning & Optimization Data Export
Purpose
To export network planning & optimization data already configured in the system.
Prerequisites
Configured network planning & optimization data is available.
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Procedures
1. In Configuration Resource Tree, right click BSC Global Resource Label; select Export as
Excel→ Export Network Planning & Optimization Data from the drop-down list as shown in
Figure 7.2-71.
Figure 7.2-71 Exporting Network Planning & Optimization Data 1
2. Click Network Planning & Optimization Data, and a dialogue box to Save data pops up, select
the directory to save exported data file, input File Name as shown in Figure 7.2-72.
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Figure 7.2-72 Exporting Network Planning & Optimization Data 2
3. Click Save to export data, and then a prompt indicating the data is exported successfully pops up
as shown in Figure 7.2-73.
Figure 7.2-73 Exporting Network Planning & Optimization Data 3
The exported physical data is saved as Excel format, the path is suggested to be:
\ ISMG-V6.20.000a-\ums-clnt\template\excel\exceldata
七.2.9 Data Backup
Purpose
To back up data.
Prerequisites
Make sure the data is available.
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Procedures
1. In Configuration Resource Tree, right-click Management Data
Management Data Backup as shown in Figure 7.2-74.
Figure 7.2-74 Data Backup 1
2. Click Data Backup and a window pops up. Select proper Storage path, enter
File name prefix and Backup remark and select managed elements to
backup as shown in Figure 7.2-75. If only master config set are to backup,
please only select the Only backup active ConfigSet(s).
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Figure 7.2-75 Data Backup 2
3. After configuring proper parameters, click OK to backup and a window pops up
as shown in Figure 7.2-76.
Figure 7.2-76 Data Backup Result
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七.2.10 Data Recover
Purpose
To recover data.
Prerequisites
Make sure the data to recover is available.
Procedures
1. In Configuration Resource Tree, right-click Management → Data
Management → Data Recovery as shown in Figure 7.2-77.
Figure 7.2-77 Data Recovery 1
2. Click Data Recovery and a window pops up as shown in Figure 7.2-78.
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Figure 7.2-78 Data Recovery 2
3. Click Select the file to backup in the popup window as shown in
Figure 7.2-79.
Figure 7.2-79 Data Recovery 3
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4. Select the config set to recover and click OK. A window pops up indicating
that the config set is added in BSC management NE ID, as shown in Figure 7.2-
80.
Figure 7.2-80 Data Recovery Result
5. After recovering, user can click to set master configuration set, and a window
pops up as shown in Figure 7.2-81.
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Figure 7.2-81 Master Config Set
6. User can select master config set to switch, and click Default to set the master
config set. Click OK to complete the switch as shown in Figure 7.2-82.
Figure 7.2-82 Switch Completed
After completion, the recovered configuration set is shown in the topology tree.
If Set Master Configuration Set is executed after data recovery, the
configuration set recently switched as master one will be labeled as shown in
Figure 7.2-83.
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Figure 7.2-83 Data Recovery Result
Caution:
After the data is recovered and switched as master configuration set, all table
synchronization should be executed to make it valid.
七.2.11 Creating BSC with Template
Information
Purpose
To create a BSC rack with a template.
Prerequisites
1. Public resource configuration has been created successfully.
2. The rack quantity to be configured has been decided.
Procedures
1. In Configuration Resource Tree, right click BSC Equipment Configuration; select Create →
Create BSC Rack with Template from the drop-down list as shown in Figure 7.2-84.
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Figure 7.2-84 Create BSC Rack with Template 1
2. Click Create BSC Rack with Template, a window pops up as shown in Figure 7.2-85, select
Template Type and Template as per requirement.
If System is selected, all the available templates in the system are displayed in the drop-
down list of Template.
If Self-defined is selected, all the available templates defined by the user in the system are
displayed in the drop-down list of Template.
Figure 7.2-85 Create BSC Rack with Template 2
Caution:
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Generally speaking, it should be initial state when creating with template, there should
not be BSC rack in the system. Otherwise if the BSC rack No. in the self-defined
template is conflicted with the existing one, it cannot be created successfully.
3. Click OK to complete creation. The created BSC Rack label is displayed on the Configuration
Resource Tree, and the shelves and boards in the rack are configured according to the template as
shown in Figure 7.2-86.
Figure 7.2-86 Result after Creating BSC Rack with Template
七.2.12 BTS Self-Defined Template Export
Purpose
To export the BTS created by the user and its configuration data as self-defined template.
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Prerequisites
The BTS and its configuration data to be exported have been created successfully, and BCCH TRX has
been configured in the BTS.
Procedures
1. In Configuration Resource Tree, right click to select Template from the drop-down list as
shown in Figure 7.2-87.
Figure 7.2-87 Exporting Self-Defined BTS Template 1
2. Click Export BTS Template, a window pops up as shown in Figure 7.2-88. The template name to
save this template is set by the user.
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Figure 7.2-88 Exporting Self-Defined BTS Template 2
3. Click OK and a prompt pops up indicating the template is exported successfully as shown in
Figure 7.2-89. The exported template is saved by default in .ztd format in the path %OMCHOME
%\ums-clnt\template\xml\bts.
Figure 7.2-89 Exporting Self-Defined BTS Template 3
七.2.13 Configuring Site by Template
Purpose
To configure site by template.
Prerequisites
BSC is successfully created.
Procedures
1. In Configuration Resource Tree, right-click Site Config Create Create
site by template as shown in Figure 7.2-90.
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Figure 7.2-90 Configuring Site by Template 1
2. Click Create Site by template and a window pops up as shown in Figure 7.2-
91.
(1) Input Site ID, and select Module No. and Template Type depending on actual
configuration.
Caution:
Site ID can be re-set in the view, thus the site ID conflict between self-defined BTS
and existing BTS which leads to unsuccessful creation can be avoided.
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Figure 7.2-91 Configuring Site by Template 2
Note:
Currently three templates are supported: BS20_S444, B8018_S333, and B8112_S222.
(2) Click Cmm Config, and configure PCM, refer to 8.1.1 BS20 Configuration.
(3) Click Radio Config to configure the site parameters. The detailed method will
be described in 8.3 Cell Creation and 8.5 TRX Creation.
3. After completing configuration, click OK.
七.2.14 Commissioning/Debugging State of the BTS Configured Separately
Purpose
To configure the commissioning/debugging state of the BTS configured separately.
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Commissioning indicates the BTS can work normally; Debugging indicates the BTS cannot work
normally which requires debugging.
Prerequisites
BSC and BTS are created successfully.
Note:
The BTS is in commissioning state by default after it is created successfully.
Procedures
1. In Configuration Resource Tree, right click BTS ID, select Debugging from the drop-down list
as shown in Figure 7.2-92.
Figure 7.2-92 Debugging of the BTS Configured Separately
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2. Click Debugging, an icon will be displayed in front of the original BTS ID icon , which
indicates the BTS is in debugging state.
3. To recover commissioning state, in the Configuration Resource Tree, right click BTS ID, select
Commissioning from the drop-down list as shown in Figure 7.2-93.
Figure 7.2-93 Commissioning of the BTS Configured Separately
4. Click Commissioning, the icon in front of site ID icon disappears, which indicates the
BTS is in commissioning state.
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七.2.15 Configuration in Batch of the BTS Commissioning/Debugging State
Information
Commissioning indicates the BTS can work normally; Debugging indicates the BTS cannot work normally
which requires debugging.
Purpose
To configure in batch the BTS commissioning/debugging state.
Prerequisites
BSC and BTS are created successfully.
Note:
The BTS is in commissioning state by default after it is created successfully.
Procedures
1. In Configuration Resource Tree, right click BTS Configuration, select
Commissioning/Debugging in Batch from the drop-down list as shown in Figure 7.2-94.
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Figure 7.2-94 Commissioning/Debugging in Batch 1
4. Click Commissioning/Debugging in Batch, a window pops up as shown in
Figure 7.2-95. The site for commissioning or debugging can be selected, click
OK to complete the configuration.
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Figure 7.2-95 Commissioning/Debugging in Batch 2
七.2.16 Setting External Alarm
Purpose
To set external alarms.
Prerequisites
BSC and rack are successfully created.
Procedures
1. In Configuration Resource Tree, right-click Site rack, click Set external
alarm in the popup menu, as shown in Figure 7.2-96.
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Figure 7.2-96 Setting External Alarm 1
2. Click Set external alarm and a window pops up as shown in Figure 7.2-97.
For each dry contract node, User can select 0 or 1 from drop-down list.
● Set 0: report alarm when receive signal 0.
● Set 1: report alarm when receive signal 1
Figure 7.2-97 Setting External Alarm 2
Note:
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Currently, the site can support 12 dry contract nodes.
3. After configuration completed, click OK.
七.3 IP Configuration
七.3.1 Interface Configuration
[Purpose]
To complete configuring the IP Information of IP OVER E1 and IPBB (OMCB).
[Prerequisites]
BSC has been created successfully.
[Procedures]
1. In Configuration Resource Tree, right click Configuration Set →BSC Global Resource Label
→ IP Configuration → Interface Configuration → Create → Interface as shown in Figure
7.3-98.
Figure 7.3-98 Creating IP Interface
2. Select EUIP to create EUIP interface as shown in Figure 7.3-99.
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Figure 7.3-99 Creating EUIP Interface
3. To configure EUIP interface information, enter the IP address and mask to access to EUIP from
SDR as shown in Figure 7.3-100.
Figure 7.3-100 Creating EUIP Interface
4. Repeat Procedure 1 to create RPU (IPABIS) interface as shown in Figure 7.3-101, select RPU as
Board function type.
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Figure 7.3-101 Create RPU Interface
5. Configure RPU interface information as shown in Figure 7.3-102. Enter the virtual address to
access to iBSC from SDR, the mask should be 255.255.255.255.
Figure 7.3-102 Creating RPU (IPABIS) Interface
6. Repeat Procedure 1 to create IPBB interface as shown in Figure 7.3-103, select IPBB.
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Figure 7.3-103 Creating IPBB Interface
7. Configure IPBB interface information as shown in Figure 7.3-104. Input the IP address and mask
to connect to iBSC from OMCB, which serve as the gateway address from OMCR to SDR.
Figure 7.3-104 Creating IPBB Interface
七.3.2 Configuration of Interface Backup Set
[Purpose]
To configure IPBB (OMCB) interface backup.
[Prerequisites]
BSC has been created successfully.
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[Procedures]
1. In Configuration Resource Tree, right click to select Configuration Set → BSC Global
Resource Label → IP Configuration → Interface Backup Group → Create → Interface as
shown in Figure 7.3-105.
Figure 7.3-105 Creating Interface Backup Group
2. Select corresponding sub-system, module, unit, sub-unit, port No. of IPBB board as shown in
Figure 7.3-106.
Figure 7.3-106 Creating IPBB Interface Backup Group
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七.3.3 IPOVERE1 Configuration
[Purpose]
To complete the relevant configuration of IP OVER E1.
[Prerequisites]
BSC has been created successfully.
[Procedures]
1. In Configuration Resource Tree, right click Configuration Set →BSC Global Resource Label
→ IP Configuration → IPOVERE1 Configuration → Create →IPOVERE1 Configuration as
shown in Figure 7.3-107.
Figure 7.3-107 Creating IPOVERE1 Configuration
2. Enter EUIP board information and IPOVERE1 initial TS and terminate TS as shown in Figure
7.3-108.
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Figure 7.3-108 Creating IPOVERE1 Configuration
Caution:
E1 No. is consistent with HDLC No. configured in EUIP board.
3. In Configuration Resource Tree, right click Configuration Set → BSC Global Resource Label
→ IP Configuration → IPOVERE1 Configuration XXX → PPP Parameter Configuration as
shown in Figure 7.3-109.
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Figure 7.3-109 Creating IPOVERE1 Configuration
4. Configure PPP parameter, enter the IP address of SDR as shown in Figure 7.3-110. For the
configuration of SDR IP address, please refer to the Chapter IV of ZXSDR B8200 GU906&R8860
(V3.06) Commissioning Guide.
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Figure 7.3-110 PPP Parameter Configuration
七.3.4 Data Synchronization
After data configuration, synchronization should be carried out to validate the data in
BSC and BTS. Data synchronization includes all table synchronization and incremental
synchronization.
七.3.4.1 Synchronizing Tables
Purpose
To synchronize all tables
Prerequisites
1. Make sure that BSC managed elements exist.
2. The connection link between foreground and background is normal.
Procedures
1. Right-click GERAN sub network for example ME6, and click Config Data
management → Synchronize all tables in the popup menu, as shown in
Figure 7.3-111.
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Figure 7.3-111 Synchronizing All Tables 1
2. Click Synchronize all tables to check the validation of global data, after which
click OK and a window pops up as shown in Figure 7.3-112.
Figure 7.3-112 Synchronizing All Tables 2
Caution:
Save it indicates to save the data in OMP hardware, it is suggested to select Yes in
order to avoid data loss.
3. Completing configurations and click OK. If synchronization succeeds, a global
check success message appears as shown in Figure 7.3-113.
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Figure 7.3-113 Synchronizing All Tables Successful
Caution:
All table synchronization only works for the data in master configuration set.
七.3.4.2 Synchronizing Modified Tables
Purpose
If part of the data is modified, in order to speed up synchronization, only the modified tables need to be
synchronized. This item focuses on the incremental synchronization.
Prerequisites
1. Make sure that BSC managed elements.
2. The connection link between foreground and background is normal.
3. iBSC modified tables exist.
Procedures
1. In Configuration Resource Tree, right click BSC Management NE User ID, select Config
Data Management → Synchronize modified tables from the drop-down list as shown in Figure
7.3-114.
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Figure 7.3-114 Synchronizing Modified Tables 1
2. Execute global data validation check and click OK, a window pops up as shown in Figure 7.3-
115.
Figure 7.3-115 Synchronizing Modified Tables 2
Caution:
Save it indicates to save the data in OMP hardware, it is suggested to select Yes in
order to avoid data loss.
3. After the parameters are configured properly as per requirement, click OK to start
synchronization, and then a window pops up as shown in Figure 7.3-116.
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Figure 7.3-116 Synchronizing Modified Tables Successfully
Caution:
Incremental synchronization only works for the data in master configuration set.
七.3.5 Attentions to Data Configuration
Data configuration is the core operation of BSC system, which is of great importance
in the entire system. Any faults in the data configuration may affect the system running
normally. Therefore the operator should pay attention to the following points when
configuring and modifying data:
1. Before data configuration, relevant data for system running should be prepared
(such as the interconnection data at A interface or GB interface, etc.), the data
should be reliable and served with a complete data configuration plan. A good plan
can not only make the data clear and in order, but also enhance the system
reliability.
2. Before any data modification, the current data should be backed up; after the
modification is complete, the data is synchronized to BSC and BTS, and confirmed
with its validity; at this time the data should be backed up again.
3. The data configured and modified in NM Client should be valid after synchronizing
to BSC and BTS. The modification to the current running system data should be
checked carefully before transmitting, so as to ensure normal system running with
correct data.
Caution:
Since many parameters should be configured, only the important ones and the ones
must be configured are listed in this book, which should be configured according to the
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instruction; other non-specified parameters should keep the default values, which are
not mentioned here.
七.3.6 Data Configuration Flow
The data configuration flow is shown in Figure 7.3-117.
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Figure 7.3-117 Data Configuration Flow
1. Public Resource Configuration
Public resource configuration is the basis of the whole data configuration,
including creating GERAN sub-net, BSC management NE, configuration set,
BSC global resource, etc. See 7.2 Public Resource Configuration for details.
2. BSC Physical Equipment Configuration
BSC physical equipment configuration includes creating BSC rack, shelves and
boards, etc. See 7.3 BSC Physical Configuration for details.
3. A/Ater Interface Configuration
After configuring BSC physical equipment, the configuration at A interface or
Ater interface should be executed.
(1) The use can select All E1 or All IP mode according the on-site environment.
● With internal TC, and E1 mode for A interface transmission on user plane and
control plane, E1 at A interface should be configured.
● With external TC, and E1 mode for Ater interface transmission on user plane
and control plane, E1 at Ater interface should be configured.
(2) The configuration can be selected according to the on-site needs, so that the
transmission modes on user plane and control plane can be different (E1 on
user plane, IP on control plane; or IP on user plane, E1 on control plane).
4. GB Interface Configuration
If GPRS/EDGE service is required on site, configuration at GB interface should
be executed as per the specific needs.
● With E1 mode for GB interface transmission, E1 at GB interface should be
configured. See 9.1 E1 GB Interface Configuration.
● With IP mode for GB interface transmission, IP at GB interface should be
configured. See 9.2 IP GB Interface Configuration.
5. External Site Configuration
External site configuration includes creating GERAN and UTRAN external
sites.
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6. BTS and Radio Configuration
BTS and radio configuration includes creating various BTS, BTS cascade, cell,
frequency hopping, transceiver, neighbour cell interference / switchover /
reselection / switchover & reselection, creating UTRAN neighbour cell
switchover / reselection / switchover & reselection. See Chapter 8 BTS and
Radio Configuration for details.
7. Transparent Channel Configuration
Transparent channel configuration is optional, the user can select according to
the needs.
8. Other Configuration
Other configuration is also optional, including alarm parameter configuration,
module parameter configuration, etc. the user can select according to the needs.
9. Software Installation
Software installation is the prerequisite for normal board operation, which
includes the software version installation of BSC and BTS boards. See chapter
11 Software Version Management for details.
After the configuration, the user can operate on dynamic data or cell radio.
Caution:
It is suggested to synchronize data after the operation according to each chapter, i.e. all
table synchronization or incremental synchronization, so as to synchronize the data
configured to BSC and make it valid at foreground, otherwise the virtual data in NM
system cannot be valid.
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八. BTS and Radio Configuration
Abstract
This chapter focuses on the physical configuration and radio configuration of BTS
equipment.
八.1 BTS Physical Equipment Creation
The system supports V2 and V3 BTS.
● V2 BTS includes BTS (V2.0), BS21, BS21 (V2.0), BS30, BS30 (V7.2), and
OB06.
● V3 BTS includes B8018, B8112, M8202, M8206, S8001, and BS8200.
The methods to create all the above BTS physical equipment are described below.
八.1.1 BS20 Configuration
Purpose
To configure BS20 site.
Note:
BS20 is corresponding with the product in the model of BTS (V2.X).
Prerequisites
BSC is successfully created.
Procedures
1. In Configuration Resource Tree, right-click OMC GERAN Sub network
user label BSC managed elements user label Master Config set BSC
Global Resource ID BSC device config Create Site as shown in
Figure .
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Figure 8.1-118 Configuring BS20 1
2. Click Site and a window pops up as shown in Figure 8.1-119. Select BS20 for
Site type. Refer to Table 8.1-8 for the relevant parameters.
Figure 8.1-119 Configuring BS20 2
● The following parameters are important including User label, Site type, Clock
resource, Module number, Connect mode, Access type, Serial No.
Note:
Serial No. only indicates IP site, which is invalid for E1 site.
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Table 8.1-8 Site Parameters
Site Parameters
User label
Integer type Character string: 1~40
Unit None
Default value None
Description Unique user label (letters or numbers) given to every cell.
Site ID
Integer type 1 ~ 1536
Unit None
Default value 1
Description The site code in home BSC
Site Type
Integer typeBS20, BS21, BS21V20, BS30, BS30V12, OB06, B8018, B8112, M8202,
M8206, S8001, B8200
Unit None
Default value BS20
Description Select the site type to create.
Longitude
Integer type -180.0000 ~ 180.0000
Unit Degree
Default value 180
Description Identify the longitude of site.
Latitude
Integer type -90.0000 ~ 90.0000
Unit Degree
Default value 90
Description Identify the latitude of site.
Clock source
Integer type Internal, network, GPS, IP
Unit None
Default value Internal
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Site Parameters
User label
Description
Internal synchronization indicates that the internal crystal oscillator is adopted to
generate 13M clock, there is no reference resource, which is easy to offset;
network synchronization indicates that the clock is delivered from BSC with E1,
which is synchronized in BTS.
Currently all the sites supports internal synchronization and network
synchronization. Only 8000 series BTS supports GPS synchronization, only SDR
(B8200) supports IP synchronization.
Module No.
Integer type Depending actual configuration
Unit None
Default value 3
Description Configure the module depending on the actual data plan.
Access Mode
Optional values E1 access, IP access
Unit None
Default value E1 access
Parameter
description
If the BTS type is BS20, BS21, BS21V20, BS30, BS30V12, OB06 or M8202,
this parameter keeps the default value E1 access, which cannot be modified. If
the BTS type is B8018, B8112 or M8206, the parameter can be E1 access or IP
access according to the on-site situation. If BTS type is S8001 or B8200, this
parameter keeps the default value IP access, which cannot be modified.
Satellite Mode at Abis Interface
Optional value Yes, No
Unit None
Default value No
Parameter
descriptionConfigure according to the on-site situation.
Permitted Access Bandwidth (Kb)
Optional values 1 ~ 65535
Unit Kb
Default value 1
Parameter
description
If BTS type is S8001 or B8200, this parameter can be modified to describe the
on-site access bandwidth.
GPS Frame No. Offset
Optional
values0 ~ 42431
Unit None
Default value 0
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Site Parameters
User label
Parameter
description
It refers to the frame No. offset value configured in each GSM cell in GSM entire
network synchronization, when all the SDR adopts the same Frame No. reference.
This parameter is effective only when Clock Resource is set as GPS
synchronization.
Serial No.
Optional
valuesNone
Unit None
Default value 00-00-00-00-00-00 00-00-00-00-00-00
Parameter
description
This parameter can be modified when BTS type is S8001. The former 12 digits refer
to S8001 MAC address, and the latter 12 digits refer to the authentication sequence
number (currently all digits are 0).
3. Click OK to create the site ID.
4. In Configuration Resource Tree, right-click Site ID → Create → Site rack
as shown in Figure 8.1-120.
Figure 8.1-120 Configuring BS20 3
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5. Click site rack and a window pops up as shown in Figure 8.1-121. Enter proper
parameters and click OK. Double-click the site rack ID and rack map should
display.
Figure 8.1-121 Configuring BS20 4
6. Creating Common Shelf and Panels
(1) Creating Common Shelf
Right-click the blank space at the upper part as shown in Figure 8.1-122. Select
Create Shelf in the popup menu.
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Figure 8.1-122 Creating BS20 Common Shelf 1
Create shelf dialog box pops up as shown in Figure 8.1-123. Click OK.
Figure 8.1-123 Creating BS20 Common Shelf 2
Note:
PDM board is created after the creation of common shelf.
(2) Creating CMM Panel
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Right-click the CMM panel position and select Create Shelf in the popup menu
as shown in Figure 8.1-124.
Figure 8.1-124 Creating CMM Panel 1
In the popup window, select CMM for Panel Type, BSC for Connection
Model, and Connect for the PCM Connection Type as shown in Figure 8.1-
125.
Figure 8.1-125 Creating CMM Panel 2
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Click the Connect button and a window pops up as shown in Figure 8.1-126.
This figure has list the PCM number available for BSC.
Figure 8.1-126 Creating CMM Panel 3
Select proper PCM number and click OK to complete PCM configuration as
shown in Figure 8.1-127.
● Set Abis Pool No. and select time slot number from the TS No. drop-list, click
to combine the parameters to the recourse pool.
● According to the actual time slot needs, click to allocate OMU time slot
number.
Caution:
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For E1, OMU time slot number is 16 and 25 ~ 31. For T1, OMU time slot number is 16
~ 23.
Figure 8.1-127 Creating CMM Panel 4
The relationship between OMU TS configuration and actual TRX quantity is
shown in Table 8.1-9.
Table 8.1-9 OMU TS Configuration
TRX QuantityConfigured Channel
Quantity
Communication
Bandwidth
Peak Requirement of
Signaling Bandwidth
6 1 64 kbps 0~30 kbps
7~16 2 128 kbps 30~75 kbps
17~26 3 192 kbps 75 kbps~120 kbps
27~36 4 256 kbps 120 kbps~180 kbps
Click OK to complete CMM configuration. Generally only one CMM panel is
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installed as default. User can install the second CMM panel based on own
needs.
7. Creating Resource Shelf and Panel
(1) Creating Resource Shelf
Right-click the proper position as shown in Figure 8.1-128, and click Create
Panel.
Figure 8.1-128 Creating BS20 Resource Shelf 1
Create shelf dialog box pops up as shown in Figure 8.1-129, click OK.
Figure 8.1-129 Creating BS20 Resource Shelf 2
(2) Creating AEM Panel
Right-click CDU position and select Create Panel as shown in Figure 8.1-130.
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Figure 8.1-130 Creating CDU Panel 1
Create panel dialog box pops up as shown in Figure 8.1-131. User can select
CDU10M, CDU8M, CEU or RDU in the Panel Type drop-down list. Click
OK to competed configuration. The creating method of the other AEM in the
same layer is the same.
Figure 8.1-131 Creating CDU Panel 2
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(3) Creating TRM Panel
Right-click TRM panel position and select Crate Panel as shown in Figure 8.1-
132.
Figure 8.1-132 Creating TRM Panel 1
Create panel dialog box pops up as shown in Figure 8.1-133. User can select
proper parameters in the Panel Type drop-down list. Select TX/RX in the list
of TX/RX Board, click Add, and configure the connection status between this
TRM and TX/RX. Generally only the Level 1 TX and RX on the left should be
configured. Click OK to complete configuration.
Note:
1. There are four types panel: TRM, STRU, SPAU, and TRME, where TRME is
EDGE TRX, STRU and SPAU are used for 80W configuration;
2. In this interface, the value of Panel Type is related with that of Panel No.. For
BS20, if the panel No. is 2 or 4, the panel type should be TRM, STRU or TRME; if the
panel No. is 3 or 5, the panel type should be TRM, SPAU, or TRME.
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Figure 8.1-133 Creating TRM Panel 2
8. TRM panel is successfully created as shown in Figure 8.1-134.
Figure 8.1-134 BS20 Rack Map
9. User can add slave rack referring to the method of creating master rack.
In Configuration Resource Tree, right-click Site ID Create Site rack,
and a dialog box pops up as shown in Figure 8.1-135.
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Figure 8.1-135 Creating Slave Rack
Select the slave rack type and click OK to complete configuring slave rack.
Caution:
Currently, four types of master-slave rack combinations are available: BS20+B8018,
BS21/BS21V20+M8202, BS30/BS30V12+M8202, OB06+B8112. The site type is
determined according to the master rack.
八.1.2 BS21 Configuration
Purpose
To configure BS21 site.
Prerequisites
BSC is successfully created.
Procedures
1. The method of configuring BS21 site is similar with that of configuring BS20;
the only difference is that the site type is BS21.
2. Creating shelf and Panels
(1) Creating Shelf
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User only needs to create No.3 shelf, and the No.1 and 2 shelves are created
automatically by system.
Right-click the blank space at the upper part as and select Create Shelf as
shown in Figure 8.1-136.
Figure 8.1-136 Creating BS21 Shelf 1
Create panel dialog box pops up as shown in Figure 8.1-137. Click OK to
complete configuration.
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Figure 8.1-137 Creating BS21 Shelf 2
3. The method of creating AEM, CMM and TRM panels are similar with that of
BS20. The panels are successfully created as shown in Figure 8.1-138.
Figure 8.1-138 BS21 Rack Map
八.1.3 BS21 (V2.0) Configuration
Purpose
To configure BS21 (V2.0)
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Prerequisites
BSC is successfully created.
Procedures
1. The method of configuring is similar with that of configuring BS20; the only
difference is that the site type is BS21 (V2.0).
2. Creating Shelf and Panels
(1) Creating Shelf
User only needs to create No.3 shelf, and the No.1 and 2 shelves are created
automatically by system.
Right-click the blank space at the upper part as and select Create Shelf as
shown in Figure 8.1-139.
Figure 8.1-139 Creating BS21 (V2.0) Shelf 1
Create panel dialog box pops up as shown in Figure 8.1-140. Click OK to
complete configuration.
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Figure 8.1-140 Creating BS21 (V2.0) Shelf 2
3. The method of creating AEM, CMM and TRM panels are similar with that of
BS20. The panels are successfully created as shown in Figure 8.1-141.
Figure 8.1-141 BS21 (V2.0) Rack Map
八.1.4 BS30 Configuration
Purpose
To configure BS30 site.
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Prerequisites
BSC is successfully created.
Procedures
1. The method of configuring BS21 site is similar with that of configuring BS20;
the only difference is that the site type is BS30.
2. Creating Shelf and Panels
(1) Creating Shelf
User only needs to create No.3 shelf, and the No.1 and 2 shelves are created
automatically by system.
Right-click the blank space at the upper part as and select Create Shelf as
shown in Figure 8.1-142.
Figure 8.1-142 Creating BS30 Shelf 1
Create panel dialog box pops up as shown in Figure 8.1-143. Click OK to
complete configuration.
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Figure 8.1-143 Creating BS30 Shelf 2
3. The method of creating AEM, CMM and TRM panels are similar with that of
BS20. The panels are successfully created as shown in Figure 8.1-144.
Figure 8.1-144 BS30 Rack Map
八.1.5 BS30 (V1.2) Configuration
Purpose
To configure BS30 (V1.2)
Prerequisites
BSC is successfully created.
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Procedures
1. The method of configuring BS30 (V1.2) site is similar with that of configuring
BS20; the only difference is that the site type is BS30V12.
2. Creating Shelf and Panels
(1) Creating Common Shelf
Right-click the blank space at the lower part as and select Create Shelf as
shown in Figure 8.1-145.
Figure 8.1-145 Creating BS30 (V1.2) Shelf 1
Create panel dialog box pops up as shown in Figure 8.1-146. Click OK to
complete configuration.
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Figure 8.1-146 Creating BS30 (V1.2) Shelf 2
(2) Creating CMM Board
The creation procedures are the same with that of BS20.
(3) Creating DPM Panel
Right-click the DPM position and select Create Panel as shown in Figure 8.1-
147.
Figure 8.1-147 Creating DPM Panel 1
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Create panel dialog box pops up as shown in Figure 8.1-148. Click OK.
Figure 8.1-148 Creating DPM Panel 2
(4) Creating TRM Panel
The creation procedures are the same with that of BS20.
3. Creating Resource Shelf and Panel
Caution:
If there are more than one rack on site, recourse shelf is required to increase.
(1) Creating Resource Shelf
Right-click the resource shelf position as shown in Figure 8.1-149. Select
Create Shelf in the popup menu.
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Figure 8.1-149 Creating BS30 (V1.2) Resource Shelf 1
Create shelf dialog box pops up as shown in Figure 8.1-150. Click OK
Figure 8.1-150 Creating BS30 (V1.2) Resource Shelf 2
(2) Configure DPM and TRM panels in the same way. The divider of BS30 (V1.2)
can only be the DPM in the same layer.
4. BS30 (V1.2) is successfully configured as shown in Figure 8.1-151.
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Figure 8.1-151 BS30 (V1.2) Rack Map
八.1.6 OB06 Configuration
Purpose
To configure OB06 site
Prerequisites
BSC is successfully created.
Procedures
1. For initial configuration refer to Configuring BS20, the only difference is that
the Site Type selected is OB06.
2. The method of configuring Common Shelf, resource shelf, and PDM, AEM,
CMM, and TRM panels is the same with that of BS20.
3. OB06 is successfully configured as shown in Figure 8.1-152.
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Figure 8.1-152 OB06 Rack Map
八.1.7 B8018 Configuration
Purpose
To configure B8018 site.
Prerequisites
BSC is successfully created.
Procedures
1. For initial configuration refer to Configuring BS20, the only difference is that
the Site Type selected is B8018.
2. Creating Common Shelf and Panel
(1) Creating Common Shelf
Right-click the blank space at the upper part as shown in Figure 8.1-153. Select
Create Shelf in the popup menu.
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Figure 8.1-153 Creating B8018 Common Shelf 1
Create shelf dialog box pops up as shown in Figure 8.1-154. Click OK.
Figure 8.1-154 Creating B8018 Common Shelf 2
Note:
PDM board is created after the creation of common shelf.
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(2) Creating EIB/FIB Panel
Caution:
If the Access Mode is set as E1 Access in Figure 8.1-119, it should be EIB board here,
while if the Access Mode is IP Access, it should be FIB board. The configuration mode
is the same.
Creating EIB Panel
Right-click the EIB panel position and select Create Shelf in the popup menu
as shown in Figure 8.1-155.
Figure 8.1-155 Creating EIB Panel 1
Create panel dialog box pops up as shown in Figure 8.1-156. Click OK.
Figure 8.1-156 Creating EIB Panel 2
(3) Creating CMB Panel
For E1 access, the creation procedures are the same with that of BS20.
For IP access, the creation procedures are the same with that of FIB board.
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3. Creating Resource Shelf and Panel
(1) Creating Resource Shelf
Right-click the resource shelf position as shown in Figure 8.1-157. Select
Create Shelf in the popup menu.
Figure 8.1-157 Creating B8018 Resource Shelf 1
Create shelf dialog box pops up as shown in Figure 8.1-158. Click OK.
Figure 8.1-158 Creating B8018 Resource Shelf 2
(2) Creating AEM Panel
AEM includes four options: CDU10M, CDU8M, CEU, RDU and FCU. The
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configuring method is the same with that of BS20.
Caution:
FCU takes up two slots, therefore if FCU is to be configured at Slot 9, CDU10M
should be configured in Slot 1 first, and Slot 8 cannot be configured with any AEM.
(3) Configuring DTRU
Note:
DTRU Panel support EDGE.
For double-TRX DTRU, BTS should be configured with two panels and two
slots. System should allocate separately panel for each logical TRX.
Right-click slot no. 2 in B8012 radio shelf and click Create Panel in the popup
menu as shown in Figure 8.1-159.
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Figure 8.1-159 Create DTRU Panel 1
A window pops up as shown in Figure 8.1-160, select DTRU for Board Type,
Select TX/RX in the list of TX/RX board, click Add, and configure the
connection status between this DTRU and TX/RX. Generally only the Level 1
TX and RX on the left should be configured. Choose IRC and TRX Supports
Antenna Hopping according to the on-site situation.
Note:
1. IRC (Interference Reject Coalition): IRC interference refuses the combination, is
similar to MRC. When the diversity antenna is used, the two antennas (or, one
crossover polarity antenna) receives the radio signals at the same time and sends the
better (Stronger) signals to BTS receiver unit.
2. TRX Supports Antenna Hopping: It indicates the same carrier is transmitted by
two antennas by turns, which enables the receiver enhance receiving quality when
adopting diversity reception. When it is configured, the transmitting ports TX1 and
TX2 of the two carriers in dual-density should be connected to different transmitting
antennas.
Figure 8.1-160 Create DTRU Panel 2
DTRU panel has 5 kinds of work modes, please refer to Table 8.1-10.
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Table 8.1-10 DTRU Work Mode
Working Mode Description
In dual-carrier mode, diversity
reception of 4 uplinks, DPCT and
DDT are not configured.
Diversity reception of 4 uplinks, DPCT and DDT are
not configured. DTRU can be configured with two
panels.
In single-carrier mode, Diversity
Reception of 4 Uplinks is configured.
Diversity reception of 4 uplinks is configured. The left
board and TX/RX relation of DTRU are configured, the
right board displays on the rack map without any
configuration data.
In single-carrier mode, Diversity
Reception of 4 Uplinks and DPCT are
configured.
Diversity reception of 4 uplinks and DPCT are
configured. The left board and TX/RX relation of
DTRU are configured, the right board displays on the
rack map without any configuration data.
In single-carrier mode, Diversity
Reception of 4 Uplinks and DPCT are
configured, when Delay Count value
is valid.
In this case the Delay Count parameter is valid.
In dual-carrier mode, diversity
reception of 4 uplinks, DPCT and
DDT are not configured.
Diversity reception of 4 uplinks, DPCT and DDT are
configured. The left board and TX/RX relation of
DTRU are configured, the right board displays on the
rack map without any configuration data.
Select proper parameters by referring above table and click OK to configure
DTRU. DTRU panel is configured successfully.
Caution:
After DTRU right panel and left panel both are configured, user can right-click the
panel property to modify the work mode. If Dual Carrier is changed into Single
Carrier, click OK in Figure 8.1-160, the right panel should be deleted automatically.
3. DTRU panel is configured successfully as shown in Figure 8.1-161.
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Figure 8.1-161 B8018 Rack Map
八.1.8 B8112 Configuration
Purpose
To configure B8112 site.
Prerequisites
BSC is successfully created.
Procedures
1. For initial configuration refer to Configuring BS20, the only difference is that
the Site Type selected is B8112.
2. Creating Common Shelf and Panel
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(1) Creating Common Shelf
Right-click the blank space at the upper part as shown in Figure 8.1-162. Select
Create Shelf in the popup menu.
Figure 8.1-162 Creating B8112 Common Shelf 1
Create rack dialog box pops up as shown in Figure 8.1-163. Click OK.
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Figure 8.1-163 Creating B8112 Common Shelf 2
Note:
PDM board can be created after the creation of common shelf.
(2) Creating AEM Panel
AEM includes four options: CDU10M, CDU8M, CEU, RDU and FCU. The
configuring method is the same with that of BS20.
Caution:
FCU can only be configured at two even slots, it is invalid to configure other AEM
board in adjacent slots,.
3. Creating Resource Shelf and Panel
(1) Creating Resource Shelf
Right-click the resource shelf position as shown in Figure 8.1-164. Select
Create Shelf in the popup menu.
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Figure 8.1-164 Creating B8112 Resource Shelf 1
Create shelf dialog box pops up as shown in Figure 8.1-165. Click OK.
Figure 8.1-165 Creating B8112 Resource Shelf 2
(2) Creating EIB/FIB Panel
Caution:
In Figure 8.1-119, for E1 access, here is EIB. In Figure 8.1-119, for IP access, here is
FIB, the configuration steps are the same.
The creation procedures are the same with that of B8018.
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(3) Creating CMB Panel
For E1 access, the creation procedures are the same with that of B8018.
For IP access, the creation procedures are the same with that of FIB board.
(4) Creating DTRU Panel
The creation procedures are the same with that of B8018.
(5) Creating EAM Panel
Right-click the EAM position and select Create Panel in the popup menu as
shown in Figure 8.1-166.
Figure 8.1-166 Creating EAM Panel 1
Create panel dialog box pops up as shown in Figure 8.1-167. Click OK.
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Figure 8.1-167 Creating EAM Panel 2
4. EAM panel is configured successfully as shown in Figure 8.1-168.
Figure 8.1-168 B8112 Rack Map
八.1.9 M8202 Configuration
Purpose
To configure M8202 site.
Prerequisites
BSC is successfully created.
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Procedures
1. For initial configuration refer to Configuring BS20, the only difference is that
the Site Type selected is M8202.
2. Creating Common Shelf and Panel
(1) Creating Common Shelf
Right-click the blank space at the upper part and select Create Shelf in the
popup menu as shown in Figure 8.1-169.
Figure 8.1-169 Creating M8202 Common Shelf 1
Create shelf dialog box pops up as shown in Figure 8.1-170. Click OK.
Figure 8.1-170 Creating M8202 Common Shelf 2
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Note:
PDM board is created after the creation of common shelf.
(2) Creating EIB and CMB Panel
The creation procedures are the same with that of B8018.
3. Creating Resource Shelf and Panel
(1) Creating Resource Shelf
Right-click the resource shelf position and select Create Shelf in the popup
menu as shown in Figure 8.1-171.
Figure 8.1-171 Creating M8202 Resource Shelf 1
Create shelf dialog box pops up as shown in Figure 8.1-172. Click OK.
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Figure 8.1-172 Creating M8202 Resource Shelf 2
(2) Creating AEM Panel
There are five panel types: CDU10M, CDU8M, CEU, RDU, and MDUP. The
creation procedures are the same with that of B8018.
(3) Creating DTRU
The creation procedures are the same with that of B8018.
4. M8202 is configured successfully as shown in Figure 8.1-173.
Figure 8.1-173 M8202 Rack Map
八.1.10 M8206 Configuration
Purpose
To configure M8206 site.
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Prerequisites
BSC is successfully created.
Procedures
1. For initial configuration refer to Configuring BS20, the only difference is that
the Site Type selected is M8206.
2. Creating Common Shelf and Panel
(1) Creating Common Shelf
Right-click the blank space at the upper part and select Create Shelf in the
popup menu as shown in Figure 8.1-174.
Figure 8.1-174 Creating M8206 Common Shelf 1
Create shelf dialog box pops up as shown in Figure 8.1-175. Click OK.
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Figure 8.1-175 Creating M8206 Common Shelf 2
Note:
PDM board is created after the creation of common shelf.
(2) Creating EIB/FIB
Caution:
In Figure 8.1-119, for E1 access, here is EIB. In Figure 8.1-119, for IP access, here is
FIB, the configuration steps are the same.
The creation procedures are the same with that of B8018.
(3) Creating CMB
For E1 access, the creation procedures are the same with that of B8018.
For IP access, the creation procedures are the same with that of FIB.
3. Creating Resource Shelf and Panel
(1) Creating Resource Shelf
Right-click the resource shelf position and select Create Shelf in the popup
menu as shown in Figure 8.1-176.
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Figure 8.1-176 Creating M8206 Resource Shelf 1
Create shelf dialog box pops up as shown in Figure 8.1-177. Click OK.
Figure 8.1-177 Creating M8206 Resource Shelf 2
(2) Creating AEM
Panel type is MDUP. The creation procedures are the same with that of B8018.
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(3) Creating MTRU
The creation procedures are the same with that of B8018.
Caution:
MTRU supports EDGE service.
4. M8206 is configured successfully as shown in Figure 8.1-178.
Figure 8.1-178 M8206 Rack Map
八.1.11 S8001 Site Creation
Purpose
To create S8001 sites.
Prerequisites
There are two modes for IP transmission, including IP Over IP and IP Over E1.
When IP Over IP is configured, the prerequisites include:
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1. BSC is created successfully.
2. IPBB board is created on BSC rack.
3. BIPB board is created on BSC rack, and DSP No. supporting IP is available.
See the DSP No. configuration in the sub-view of DSP Configuration
Information.
When IP Over E1 is configured, the prerequisites include:
1. BSC is created successfully.
2. DTB board is created on BSC rack, and PCM in EUIP Type should be
configured.
3. EUIP board is created on BSC rack, and the configuration in the sub-view
of HDLC Configuration Information is complete.
4. BIPB board is created on BSC rack, and DSP No. supporting IP is available.
Caution:
Configuration procedures for IP Over IP and IP Over E1 are generally the same except
for the situation to create interface: RPU and IPBB interface should be created in IP
Over Ip mode; RPU and EUIP interface should be created in IP Over E1 mode.
Procedures
1. Creating RPU Interface
(1) In Configuration Resource Tree, right click IP Configuration, select Create
→ Interface as shown in Figure 8.1-179. Or in the sub-node Interface
Configuration of IP Configuration, select Create → Interface.
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Figure 8.1-179 Creating RPU Interface 1
(2) Click Interface, and a window pops up as shown in Figure 8.1-180. Select
RPU as Board Function Type.
Figure 8.1-180 Creating RPU Interface 2
(3) Click Next, and a window pops up as shown in Figure 8.1-181. Enter proper
parameters and click OK to complete configuration.
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Figure 8.1-181 Creating RPU Interface 3
2. Enabling RPU Virtual Address
(1) In Configuration Resource Tree, apply for mutex property in BSC
Management NE Label, so that the parameters can be modified.
(2) Double click BSC Global Resource Label, select IP Information sub-view,
change the IPABIS address with the IP address configured in Figure 8.1-181
and save it, as shown in Figure 8.1-182.
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Figure 8.1-182 Enabling RPU Virtual Address
(3) Release mutex property in BSC Management NE Label.
Caution:
If the iBSC virtual address configured on RPU is modified, CMP (or the OMP in the
same environment with CMP), IPBB and BIPB board should be reset after each
modification.
3. Creating IPBB/EUIP Interface
Caution:
The procedures and parameter description are the same for creating IPBB and EUIP
interfaces. Take the procedures to create IPBB interface for example:
(1) In Configuration Resource Tree, right click IP Configuration, select Create
→ Interface as shown in Figure 8.1-183. Or in the sub-node of Interface
Configuration of IP Configuration, right click Create → Interface.
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Figure 8.1-183 Creating IPBB Interface 1
(2) Click Interface, and a window pops up as shown in Figure 8.1-184, select
IPBB as Board Function Type.
Figure 8.1-184 Creating IPBB Interface 2
(3) Click Next, a window pops up as shown in Figure 8.1-185. Enter proper
parameters, click OK to complete configuration.
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Figure 8.1-185 Creating IPBB Interface 3
4. Creating Static Route
Caution:
Static route needs to be created only when S8001 and RPU are not in the same network
section.
(1) In Configuration Resource Tree, right click IP Configuration, select Create
→ Static Route as shown in Figure 8.1-186. Or in the sub-node of Static
Route of IP Configuration, right click Create → Static Route.
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Figure 8.1-186 Creating Static Route 1
(2) Click Static Route, and a window pops up as shown in Figure 8.1-187. Enter
proper parameters, click OK to complete creation. See Table 8.1-11 for related
parameters.
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Figure 8.1-187 Creating Static Route 2
Table 8.1-11 Static Route Parameters
Static Route Parameters
User ID
Optional
valuesThe character string with the length of 40 at maximum.
Unit None
Default
valueNone
Parameter
descriptionA name to be identified by the user.
Static Route ID
Optional
values1 ~ 2048
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Static Route Parameters
Unit None
Default
value1
Parameter
descriptionIdentify the static route No.
Static Route Network Prefix
Optional
valuesNone
Unit None
Default
value0.0.0.0
Parameter
description
The prefix of network section, for example: the prefix of Network Section 10 is
10.0.0.0, and that of Network Section 192.168 is 192.168.0.0.
Static Route Network Mask
Optional
valuesNone
Unit None
Default
value0.0.0.0
Parameter
description
Network section mask, which identify a network section with the IP prefix
mentioned above, such as 255.0.0.0 and 255.255.0.0.
Next Hop
Optional
valuesIP, Interface, IP & Interface
Unit None
Default
valueIP
Parameter
descriptionThe Next Hop is configured as IP address, keep the default value.
Next Hop IP Address
Optional
valuesConfiguration according to the on-site situation.
Unit None
Default
value0.0.0.0
Parameter
descriptionFill in iBSC gateway address.
Management Distance
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Static Route Parameters
Optional
values1 ~ 254
Unit None
Default
value1
Parameter
description
A parameter of RIP protocol, which indicates that the management distance
reduces 1 (16 at most) after each router is passed; if the management distance is
0, the router discards data packet. The parameter remains the default value.
Route Allocation Label
Optional
values1 ~ 255
Unit None
Default
value3
Parameter
description
It refers to the label when route protocol is converted from RIP protocol to other
protocol (such as OSPF, IS-IS).
5. Creating S8001 Sites
The procedures to create BTS node label of S8001 site is the same as create that
of BS20, except for:
● BTS Type is S8001;
● Besides creating the parameters essential for BS20 configuration, S8001
activates two parameters for configuration including Permitted Access
Bandwidth (kb) and Sequence No. see Table 8.1-8 for parameter description.
Note:
Initial rack map is created after the creation of BTS node.
6. See Figure 8.1-188 for a sample after creation.
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Figure 8.1-188 S8001 Rack Map Sample
八.1.12 BS8200 Site Creation
Information
BS8200 is GSM/W dual-mode BTS, physical data and WCDMA radio parameter are
configured in OMCB, the radio parameter in GSM equipment is configured the same
as other BTS.
This item focuses on creating BTS node label, initial rack map of BS8200 sites at GSM
side.
Purpose
This item focuses on BS8200 sites.
Prerequisites
1. BSC is created successfully.
2. BTS physical data is configured in OMCB.
Procedures
The procedures to create the BTS node label and initial rack map are the same as that
of BS20, except that the BTS Type is set as BS8200.
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八.2 Site Connection Configuration
Purpose
To save the transmission and cost, user can configure the sites by connecting several
sites together.
Prerequisites
BSC and upper level site are successfully created.
Procedures
1. Creating Lower Level Site
Note:
Suppose the upper level site is BTS (V2.0) and site ID is 2, the lower level site is
BS21.
Configure the BS21 site ID, initial rack map, shelf and AEM and TRM panels,
referring to Section 八.1.2 BS21, as shown in Figure 8.2-189.
Figure 8.2-189 Configuring Site Connection 1
2. Creating CMM Panel
(1) Right-click CMM position and select Create Panel as shown in Figure 8.2-
190.
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Figure 8.2-190 Configuring Site Connection 2
(2) Select CMM in Panel Type dropdown list, BSC in Connection Model
dropdown list, 2 in Rack No. dropdown list, Connect in Connection Type
dropdown list as shown in Figure 8.2-191.
Figure 8.2-191 Configuring Site Connection 3
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(3) Click Connect and a window pops up as shown in Figure 8.2-192.
Figure 8.2-192 Configuring Site Connection 4
This figure has list the PCM number available for BSC. Select proper PCM
number.
When configuring cascading sites, make sure that the O&M link of the master
rack in cascading sites should be configured according to the limitation to
power-off bypass, which indicates that the O&M link of the master rack in V2
sites should be configured at the Ports A and D symmetrically, and those in
B8018, B8112, M8202, M8206 should be configured at Ports A and E
symmetrically. See Table 8.2-12 for power-off bypass description.
Table 8.2-12 Power-Off Bypass Description
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Site Type Port Description
V2 series BTS Ports AB are symmetrical with Ports DE.
B8018 Ports ABCD are symmetrical with Ports EFGH.
B8112 Ports ABC are symmetrical with Ports EFG.
M8202Port A is symmetrical with Port E; there are no corresponding ports to
Ports BCD, which cannot be used for ring network connection.
M8206Port A is symmetrical with Port E; there are no corresponding ports to
Ports BCD, which cannot be used for ring network connection.
Caution:
Due to the power-off bypass limitation, the existing port between upper-level cascading
site and BSC should be queried before selecting PCM No. as shown in Figure 8.2-192,
so as to locate the port for the connection between upper-level and lower-level sites.
(4) Click OK to complete the configuration of a PCM line as shown in Figure 8.2-
193.
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Figure 8.2-193 Configuring Site Connection 5
● Set Abis Pool NO. and select time slot number from the TS No. drop-list, click
to combine the parameters to the recourse pool.
● Depending on the actual time slot needs, click to allocate OMU time
slot number.
Caution:
OMU time slot number is 16 and 25 ~ 31.
(5) Click OK to complete CMM configuration. Generally only one CMM panel is
installed as default. User can install the second CMM panel based on own
needs.
3. The site connection is successfully configured. User can double-click in
Configuration Resource Tree to query Connection Mode parameters
(Connect BSC) in property page as shown in Figure 8.2-194.
Figure 8.2-194 Configuring Site Connection 6
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八.3 Cell Creation
Purpose
To create cell.
Prerequisites
1. BSC and site are successfully created.
2. If the cell supports GPRS or EDGE, NSE and UPPB boards should be created
first.
Procedures
1. In Configuration Resource Tree, right-click Site ID, click Create Cell in
the popup menu as shown in Figure 8.3-195.
Figure 8.3-195 Creating Cell 1
2. Click to display all contents as shown in Figure 8.3-196. Configure other
parameter information in Create cell dialog box. Click OK.
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Figure 8.3-196 Creating Cell 2
Sub-view Basic Parameter 1:
● User label
It must be configured by the user.
● BTS ID
The value range is 1~6, which can be adjusted according to the quantity of the
cell created. The default value should be kept.
● Cell type
It should be configured according to the on-site situation. If S8001 cell is to be
created, select Pico Cell as the Cell Type.
● MCC (Country Code), MNC (Network Code), LAC (Location Area Code), CI
(Cell Identity), NCC (Network Color Code) and BCC (Base station Color
Code).
The above mentioned are negotiable data, which can be configured as per on-
site environment. The combination of MCC+MNC+LAC+CI is unique.
● Frequency band
It is configured as per on-site environment. Frequency band limits the
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frequency point range of the cell, for example, if the frequency band is
GSM850, the frequency point range is 128 ~ 251.
● Subcell used
It is configured as per on-site environment.
● GPRS service supported
It is configured as per on-site environment. If it is set as Support GPRS or
Support EDGE, the corresponding GPRS or EDGE parameter settings
interface will pops up.
● Dynamic HR support indication
It is configured as per on-site environment. If it is set as Yes, the Use cell
dynamic HR parameter is activated and able to be configured.
● SMS cell broadcast used
It is configured as per on-site environment. If this function is required by the
user, it should be set as Yes.
● Use cell AMR parameter
It is configured as per on-site environment. If it is set as No, the system adopts
the AMR parameters configured in BSC by default; if it is set as Yes, the
system adopts the AMR parameters configured in the sub-views of AMR half-
rate parameters and AMR full-rate parameters.
● Common control channel configuration
It identifies the combination mode of common control channel, which should
be consistent with the on-site configuration of cell common control channel.
GPRS Basic Properties Sub-view:
● SGSN label
Select SGSN No. as per on-site requirement.
● NSE (Network Service Entity) label
NSE ID has been configured when selecting GB interface configuration.
● BSSGP virtual connection label
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It identities only one GPRS cell in an NSE.
● Route Area Code
Network negotiation data, which is selected as per on-site requirement.
● UPPB Unit No.
It is selected as per the board slot configured on site.
● DSP label
It is selected from the DSP No. already configured.
3. Click OK to complete creation as shown in Figure 8.3-197.
Note:
After the cell is created, switchover control, power control, UTRAN cell control,
UTRAN switchover control, adjacent cell reselection 1are also selected, in which
adjacent cell reselection can be created separately, while the others can only be
modified, but not created or deleted separately.
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Figure 8.3-197 Configuring Cell 3
八.4 Frequency Hopping Creation
Purpose
To create frequency hopping.
Prerequisites
BSC and site are successfully created.
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Procedures
1. In Configuration Resource Tree, right-click Cell node, and click Create →
Frequency Hopping System as shown in Figure 8.4-198.
Figure 8.4-198 Configuring Frequency Hopping System 1
2. Click Frequency Hopping System and a window pops up as shown in Figure
8.4-199. Configure frequency hopping parameters. Click OK to complete
configuration.
Figure 8.4-199 Configuring Frequency Hopping System 2
Frequency hopping mode
It is selected as per on-site requirement.
MA frequency list – No.
It should be configured within the frequency point range set in Frequency
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band parameter when creating the cell.
八.5 TRX Creation
Purpose
To create TRX.
Prerequisites
BSC, site and TRX boards are all successfully created.
Procedures
1. In Configuration Resource Tree, right-click Cell node, and click Create →
TRX in the popup menu as shown in Figure 8.5-200.
Figure 8.5-200 Configuring TRX 1
2. Click TRX and a window pops up as shown in Figure 8.5-201. If the site is the
IP-access one, the window IP information will be added. Configure all
parameters and click OK to complete configuration.
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Figure 8.5-201 Configuring TRX 2
● Sub-Cell ID
When creating a cell, the parameter Use sub-cell should be configured as Yes.
Select First Sub-Cell or Second Sub-Cell as per the on-site location of the TRX.
● TRX Type
For a common cell, this parameter should be configured as Common TRX; for
an extension cell which does not support sub-cell, TRX Type should be
Extension TRX; for an extension cell which supports sub-cell, it should be
Extension TRX in Sub-Cell 1, which is not specified in Sub-Cell 2.
● BCCH carrier frequency
Only one BCCH TRX should be configured within a cell. If a BCCH TRX has
already been configured in the cell, this parameter is set as No and cannot be
modified when re-creating the TRX.
TRX Information Sub-view
● Frequency hopping
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It is configured as per the requirement whether it supports frequency hopping.
If it is set as Yes, the succeeding frequency point parameter is changed into
Frequency hopping No. parameter automatically.
● Frequency point
If frequency hopping is not supported, enter frequency point as per on-site
requirement.
● Frequency hopping No.
If frequency hopping is supported, select in the configured frequency hopping
system according to on-site environment.
● Physical panel location
Select the physical location of the carrier frequency panel corresponding with
the TRX as per on-site requirement, click to complete
configuration.
Channel Information Sub-view:
● TSC
It is configured according to on-site requirement, or configured separately in
the interface of each TS by the user.
Caution:
If it is configured as BCCH TRX, all the TSC in this TRX channel should be consistent
with the BCC (Base station Color Code) in its cell.
● PDCH
TS is adopted in PDTCH according to on-site configuration. Only dynamic TS
is configured.
IP Information Sub-view:
● BIPB Unit No.
It is configured according to on-site environment.
● BIPB DSP No.
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It refers to the DSP in BIPB board supporting IP, which is configured according
to on-site environment.
● DSP label sequence No.
It is configured according to on-site environment.
● Port No.
It should be the IP port No. specified in TRX during IP access, which is
configured according to on-site environment.
八.6 Adjacent Interference Cell Configuration
Purpose
To configure adjacent interference cell
Prerequisites
BSC, site, cell and GERAN external cell are all successfully created.
Procedures
1. In Configuration Resource Tree, right-click Cell node, and click Create
Adjacent interference cell in the popup menu as shown in Figure 8.6-202.
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Figure 8.6-202 Configuring Adjacent Interference Cell 1
2. Input User label and parameters in Create Adjacent Interference cell dialog
box as shown in Figure 8.6-203.
Figure 8.6-203 Configuring Adjacent Interference Cell 2
● [DN of the relative cell]
Click , and select target cell from the interface as shown in Figure
8.6-204.
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Figure 8.6-204 Configuring Adjacent Interference Cell 3
3. Click OK to complete the configuration.
八.7 Adjacent Reselection Cell Configuration
Purpose
To configure adjacent reselection cell
Prerequisites
BSC, site, cell and GERAN external cell are all successfully created.
Procedures
1. In Configuration Resource Tree, right-click Cell node, and click Create →
Adjacent cell reselection in the popup menu as shown in Figure 8.7-205.
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Figure 8.7-205 Configuring Adjacent Cell Reselection 1
2. Configure Create Adjacent cell reselection parameters as shown in Figure 8.7-
206.
Figure 8.7-206 Configuring Adjacent Cell Reselection 2
● [DN of the relevant cell]
Click and a window pops up as shown in Figure 8.7-207. Select
the cell or GERAN external cell as the reselection cell.
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Figure 8.7-207 Configuring Adjacent Cell Reselection 3
Note:
When creating a cell, this cell is defaulted as the reselection cell of itself by system.
3. Click OK to complete the configuration.
八.8 Adjacent Handover Cell Configuration
Purpose
To configure adjacent handover cell.
Prerequisites
BSC, site, cell and GERAN external cell are all successfully created.
Procedures
1. In Configuration Resource Tree, right-click Cell node, and click Create →
Adjacent cell handover in the popup menu as shown in Figure 8.8-208.
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Figure 8.8-208 Configuring Adjacent Cell Handover 1
2. Configure Create Adjacent cell handover parameters as shown in Figure 8.8-
209.
Figure 8.8-209 Configuring Adjacent Cell Handover 2
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[DN of the relevant cell]
Click and a window pops up as shown in Figure 8.8-210. Select
the cell or GERAN external cell as the handover cell.
Figure 8.8-210 Configuring Adjacent Cell Handover 3
3. Click OK to complete the configuration.
八.9 Adjacent Handover and Reselection Cell Configuration
Purpose
To configure adjacent handover and reselection cell
Prerequisites
BSC, site, cell and GERAN external cell are all successfully created.
Procedures
1. In Configuration Resource Tree, right-click Cell node, and click Create →
Adjacent cell handover and reselection in the popup menu as shown in
Figure 8.9-211.
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Figure 8.9-211 Configuring Adjacent Cell Handover and Reselection 1
2. Configure Adjacent cell handover and reselection parameters, as shown in
Figure 8.9-212.
Figure 8.9-212 Configuring Adjacent Cell Handover and Reselection 2
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Note:
The user can double click Adjacent cell switchover and reselection in the
Configuration Resource Tree, click in the view on the right, and a window pops
up as shown in Figure 8.9-212.
● DN of the relevant cell
Click and a window pops up as shown in Figure 8.9-213. Select
the cell or GERAN external cell as the handover and reselection cell. Tick off
the parameter mutual if it is necessary to mutually set as handover and
reselection cell.
Figure 8.9-213 Configuring Adjacent Cell Handover and Reselection 3
3. Click OK to complete the configuration.
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Caution:
If the cell is used as the adjacent cell of a switchover OR reselection cell, it cannot be
used as the adjacent cell of a switchover AND reselection cell.
八.10 UTRAN Adjacent Reselection Cell Configuration
Purpose
To configure UTRAN adjacent reselection cell
Prerequisites
BSC, site, and UTRAN external cell are all successfully created.
Procedures
1. In Configuration Resource Tree, right-click Cell node, and click Create
UTRAN adjacent cell reselection in the popup menu as shown in Figure 8.10-
214.
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Figure 8.10-214 Configuring UTRAN Adjacent Cell Reselection 1
2. Configure Create UTRAN adjacent cell reselection parameters, as shown in
Figure 8.10-215.
Figure 8.10-215 Configuring UTRAN Adjacent Cell Reselection 2
● [DN of the relevant cell]
Click and a window pops up as shown in Figure 8.10-216. Select
UTRAN target cell from the list to configure selected cell as UTRAN adjacent
cell reselection cell.
Figure 8.10-216 Configuring UTRAN Adjacent Cell Reselection 3
3. Click OK to complete the configuration.
八.11 UTRAN Adjacent Handover Cell Configuration
Purpose
To configure UTRAN adjacent handover cell
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Prerequisites
BSC, site, and UTRAN external cell are all successfully created.
Procedures
1. In Configuration Resource Tree, right-click Cell node, and click Create
UTRAN adjacent cell handover in the popup menu as shown in Figure 8.11-
217.
Figure 8.11-217 Configuring UTRAN Adjacent Cell Handover 1
2. Configure UTRAN adjacent cell handover parameters as shown in Figure 8.11-
218.
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Figure 8.11-218 Configuring UTRAN Adjacent Cell Handover 2
● [DN of the relevant cell]
Click and a window pops up as shown in Figure 8.11-219. Select
UTARN adjacent cell handover from the list.
Figure 8.11-219 Configuring UTRAN Adjacent Cell Handover 3
3. Click OK to complete the configuration.
八.12 UTRAN Adjacent Handover and Reselection Cell Configuration
Purpose
To configure UTRAN adjacent handover and reselection cell
Prerequisites
BSC, site, and UTRAN external cell are all successfully created.
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Procedures
1. In Configuration Resource Tree, right-click Cell node, and click Create
UTRAN adjacent cell handover and reselection in the popup menu as shown
in Figure 8.12-220.
Figure 8.12-220 Configuring UTRAN adjacent Cell Handover and Reselection 1
2. Configure UTRAN adjacent cell handover and reselection parameters as shown
in Figure 8.12-221.
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Figure 8.12-221 Configuring UTRAN adjacent Cell Handover and Reselection 2
Note:
The user can double click UTRAN Adjacent cell switchover and reselection in the
Configuration Resource Tree, click in the view on the right, and a window pops
up as shown in Figure 8.12-221.
● [DN of the relevant cell]
Click and a window pops up as shown in Figure 8.12-222. Select
UTARN adjacent cell handover from the list.
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Figure 8.12-222 Creating UTRAN Adjacent Cell Switchover and Reselection 3
3. Click OK to complete the configuration.
Caution:
If the cell is used as the adjacent cell of a UTRAN switchover OR UTRAN reselection
cell, it cannot be used as the adjacent cell of a UTRAN switchover AND reselection
cell.
八.13 GERAN External Cell Configuration
Purpose
To configure GERAN external cell
Prerequisites
BSC was successfully created.
Procedures
1. In Configuration Resource Tree, right-click External cell config and click
Create GERAN external cell in the popup menu, as shown in Figure 8.13-
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223. Or right-click External cell config GERAN external cell config and
click Create GERAN external cell.
Figure 8.13-223 Configuring External Cell 1
2. Configure he parameters as shown in Figure 8.13-224. Click OK to complete
configuration.
Figure 8.13-224 Configuring External Cell 2
Cell type, MCC, MNC, Frequency band, BCCH frequency, LAC, CI, NCC,
BCC
The above mentioned are negotiable data, which should be configured
according to on-site planning.
GPRS service supported
It is configured according to on-site environment.
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Caution:
If it is set as Yes for GPRS service supported, the sub-view GPRS properties should be
added in Figure 8.13-224. Generally the default parameters in the sub-view should be
kept.
八.14 UTRAN External Cell Configuration
Purpose
To configure UTRAN external cell
Prerequisites
BSC was successfully created.
Procedures
1. In Configuration Resource Tree, right-click External cell config and click
Create UTRAN external cell in the popup menu, as shown in Figure 8.14-
225. Or right-click External cell config UTRAN external cell config and
click Create UTRAN external cell.
Figure 8.14-225 Created GERAN External Cell 1
2. Configure he parameters as shown in Figure 8.14-226. Click OK to complete
configuration.
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Figure 8.14-226 Created GERAN External Cell 2
UTRAN cell type, MCC, MNC, Frequency, LAC, RNC ID, C ID, Scrambling
code, TX diversity indication, Route area code
The above mentioned are negotiable data, which should be configured
according to on-site planning.
Caution:
If the TDD is selected as UTRAN Cell Type, user should add UTRAN adjacent cell
bandwidth and add parameters for Whether Sync Case/TSTD is applied in Figure
8.14-226. Besides, the value range of UTRAN Adjacent Cell Frequency is
correspondingly changing.
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九. GB Interface Configuration
九.1 E1 GB Interface Configuration
九.1.1 NSE Configuration
Information
NSE is used when the cell supports GPRS/EDGE.
Purpose
To configure Network Service Entity (NSE).
Prerequisites
BSC was successfully created.
Note:
The lower node SGSN is automatically created.
Procedures
1. In Configuration Resource Tree, right-click GB interface related config
Create NSE as shown in Figure 9.1-227. Or in SGSN office ID NSE
config, right-click Create NSE.
Figure 9.1-227 Creating NSE 1
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2. Click NSE and Create NSE box should pop up as shown in Figure 9.1-228.
Input proper parameters by referring Table 9.1-13 and click OK.
Figure 9.1-228 Creating NSE 2
Table 9.1-13 NSE Parameters
NSE Parameters
NSE ID
Integer type 0 ~ 65535
Unit None
Default value 0
Description To identify NSE. It should be consistent with SGSN configuaration.
Subnet type
Integer type Frame trunk, IP
Unit None
Default value Frame trunk
Description
To identify subnet type. As per the protocol48.018, there are two types in
subnet: frame trunk and IP.
For E1 GB interface, select frame trunk.
九.1.2 BRCH Configuration
Purpose
To configure Broadcast Channel (BRCH) at GB interface
Prerequisites
1. BSC was successfully created.
2. GIPB board and Gb interface PCM were successfully created.
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Procedures
1. In Configuration Resource Tree, right-click GB interface related config, and
click Create → BRCH in the popup menu as shown in Figure 9.1-229. Or in
GB interface related config → BRCH config, right-click Create → BRCH.
Figure 9.1-229 Creating BRCH 1
2. Click BRCH and Create BRCH box should pop up as shown in Figure 9.1-
230. Input proper parameters by referring Table and click OK.
Figure 9.1-230 Creating BRCH 2
Table 9.1-14 BRCH Parameters
BRCH Parameters
SGSN ID
Integer type Depending on actual configuration of SGSN
Unit None
Default value 1
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BRCH Parameters
DescriptionOnce supporting Flex GB, iBSC connects with multiple SGSNs. It
distinguishes those SGSNs.
Physical Link
Integer type 1 ~ 1000
Unit None
Default value 1
Description To identify physical link
Unit
Integer type Depending on actual configuration of GIPB (or GIPB2)
Unit None
Default value None
Description To identify GIPB unit
CPU ID
Integer type 1, 2, 3, 4
Unit None
Default value 1
Description
CPU sub card coding. This relation between CPU ID and PCM ID is: CPU1
manages PCM9 ~ PCM12; CPU2 manages PCM13 ~ PCM16; CPU3
manages PCM17 ~ PCM20; CPU4 manages PCM21 ~ PCM24.
Channel
Integer type 1 ~ 256
Unit None
Default value 1
Description This channel ID is a CPU internal link logical ID.
MCC Start Time Slot
Integer type 0 ~ 127
Unit None
Default value 0
Description
Signaling link corresponds to the MCC start time slot number. One CPU at
present consists of two MCCs. Each MCC has 128 time slots. Now only the
No. 2 MCC is in use.
Note: different BRCH cannot occupy the same MCC timeslot.
PCM
Integer type 9 ~ 24
Unit None
Default value None
Description
PCM number of accessing GIPB. This relation between CPU ID and PCM ID
is: CPU1 manages PCM9 ~ PCM12; CPU2 manages PCM13 ~ PCM16;
CPU3 manages PCM17 ~ PCM20; CPU4 manages PCM21 ~ PCM24.
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BRCH Parameters
Start Time Slot
Integer type 0 ~ 31
Unit None
Default value 0
Description Link start time slot of accessing PCM
Access Rate
Integer type 0 ~ 31
Unit None
Default value 0
Description Access rate
N391
Integer type 5 ~ 30
Unit None
Default value 6
Description
Polling timer for all PVC status. Each T391 local end sends one STATUS
ENQUIRY message to the opposite end. STATUS ENQUIRY only performs
Link Integrity Verification. One total status enquiry is performed every N391
period.
N392
Integer type 3 ~ 8
Unit None
Default value 3
Description
Error detection counter. If the latest N393 STATUS ENQUIRY error is more
than that of N392, report the equipment fault to the upper level. If there is
N392 no error link integration verification, report the fault relief to the upper
level.
N393
Integer type 4 ~ 10
Unit None
Default value 4
Description
State detection counter. If the latest N393 STATUS ENQUIRY error is more
than that of N392, report the equipment fault to the upper level. If there is
N392 no error link integration verification, report the fault relief to the upper
level.
T391
Integer type 500 ~ 3000
Unit 10 ms
Default value 1000
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BRCH Parameters
DescriptionComplete state detection polling counter. Each T391 local end sends one
STATUS ENQUIRY message to the opposite end.
九.1.3 NSVC Configuration
Purpose
To configure Network Service Virtual Connection (NSVC)
Prerequisites
1. BSC was successfully created.
2. NSE and Gb interface BRCH were successfully created.
Procedures
1. In Configuration Resource Tree, right-click NSE ID, and click Create →
NSVC in the popup menu as shown in Figure 9.1-231.
Figure 9.1-231 Creating NSVC 1
2. Click NSVC and Create NSVC box should pop up as shown in Figure 9.1-232.
Input proper parameters by referring to the following table and click OK.
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Figure 9.1-232 Creating NSVC 2
Table 9.1-15 NSVC Parameters
NSVC Parameters
User Label
Integer type Characters or number or combination of both: 1~40
Unit None
Default value None
Description Unique label given to function.
NSVC ID
Integer type 0 ~ 65535
Unit None
Default value None
Description NSVC ID
DLCI
Integer type 16 ~ 991
Unit None
Default value 100
DescriptionThe DLCI value should be consistent with the SGSN. It is a planned value.
The DLCI value cannot be the same at the same BRCH.
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NSVC Parameters
BRCH link
Integer type Depending on actual configuration
Unit None
Default value Depending on actual configuration
DescriptionIt is a selection list and its data come from the BRCH. 5 pieces of NSVC
maximally can be configured at one BRCH.
BE
Integer type 100 ~ 200
Unit bit
Default value 100
DescriptionExcessive size of the burst packet. In the Tc period, the max excessive size of
the burst packet user.
BC
Integer type 640 ~ 30720
Unit KB
Default value 640
DescriptionCommitted burst packet size, usually set as 640KBNumber of Time Slot. In
the Tc period, the max committed burst packet size of one user.
TC(Network testing time)
Integer type 1000 ~ 1500
Unit 10 ms
Default value 1000
Description Network testing time
九.2 IP GB interface Configuration
九.2.1 NSE Configuration
Information
NSE is used when the cell supports GPRS/EDGE.
Purpose
To configure Network Service Entity (NSE).
Prerequisites
BSC was successfully created.
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Note:
The lower node SGSN is automatically created.
Procedures
1. In Configuration Resource Tree, right-click GB interface related config →
Create → NSE as shown in Figure 9.2-233. Or in SGSN office ID → NSE
config, right click Create → NSE.
Figure 9.2-233 Creating NSE 1
2. Click NSE and Create NSE box should pop up as shown in Figure 9.2-234.
Input proper parameters by referring Table 9.2-16 and click OK.
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Figure 9.2-234 Creating NSE 2
Table 9.2-16 NSE Parameters
NSE Parameters
NSE ID
Integer type 0 ~ 65535
Unit None
Default value 0
Description To identify NSE.
Subnet type
Integer type Frame trunk, IP
Unit None
Default value Frame trunk
Description
To identify subnet type. As per the protocol48.018, there are two types in
subnet: frame trunk and IP.
For IP GB interface, select IP, and Configuration Mode is valid.
Configuration mode
Integer type Dynamic configuration, static configuration
Unit None
Default value Static configuration
Description
It indicates the acquisition mode of the opposite end node. The static
configuration is to configure the node of SGSN on BSC. The dynamic
configuration is to acquire the SGSN node via the signaling flow. When
selecting Dynamic Configuration, the parameters Pre-config SGSN IP and
Pre-config SGSN UDP are valid.
Pre-config SGSN IP
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NSE Parameters
NSE ID
Integer type 0 ~ 65535
Unit None
Default value 0
Description To identify NSE.
Integer type Valid IP address
Unit None
Default value 0.0.0.0
Description
When Dynamic Configuration is used, the opposite end node
((IP+UDPPORT) is acquired from the opposite end via the configuration flow.
One of the opposite ends should be known to facilitate signaling exchange.
Pre-config SGSN IP address is the one of the opposite end in the configuration
flow.
Pre-config SGSN UDP port
Integer type 0 ~ 65535
Unit None
Default value 0
Description
When Dynamic Configuration is used, the opposite end node (IP+UDPPORT)
is acquired from the opposite end via the configuration flow. One of the
opposite ends should be known to facilitate signaling exchange. Pre-config
SGSN UDP port address is the one of the opposite end (SGSN) in the
configuration flow.
九.2.2 IPGB Port Configuration
Purpose
To configure IPGB port.
Prerequisites
1. BSC global resource and IPGB board were successfully created.
2. If the user needs to create the opposite end (IPGB), it is unnecessary to create the
IP address of IPGB board and the RPU loop address in advance.
Procedures
1. In Configuration Resource Tree, right-click SGSN Office ID, select Create
IPGB Port in the drop-down list as shown in Figure 9.2-235. Or in SGSN
office ID IPGB port config, right-click Create IPGB Port.
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Figure 9.2-235 Creating IPGB Port 1
2. Click IPGB Port and a window pops up as shown in Figure 9.2-236, add the
two IP ports of local and opposite ends. The IP address is the address set by
RPU. UDP port No. is consistent with SGSN. Input the proper port type by
referring to the following table.
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Figure 9.2-236 Creating IPGB Port 2
Table 9.2-17 IPGB Port Parameters
IPGB Port Parameters
NSE ID
Integer type Depending on actual configuration
Unit None
Default value None
Description
When selecting Local Port for Port Type, NSE ID is the one of the same BSC
global resource and with IP for the subnet type. When selecting Opposite
Port for Port Type, NSE ID is the one of the same BSC global resource, with
IP for the subnet type and static configuration for the configuration type.
IP Address
Integer type In the format of 4 bits, i.e. xxx.xxx.xxx.xxx (xxx is 0 ~ 255)
Unit None
Default value None
Description
When selecting Local Port for Port Type, it is configured as the IP address
unoccupied by IP Abis interface of RPU (the IP address for IP Abis in IP
Information page of BSC global resource). When selecting Opposite Port for
Port Type, it is configured as the opposite IP address, which is consistent
with the opposite data.
UDP Port
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IPGB Port Parameters
Integer type for local port: 32768 ~ 32928
for opposite port: 0 ~ 65535
Unit None
Default value None
Description To set the value of UDP port.
Port Type
Integer type The local and opposite end ports
Unit None
Default value Local port
DescriptionTo set the type of port. Different types of ports influence the integer type and
default value of UDP port.
Signaling Weight
Integer type 0 ~ 255
Unit None
Default value 10
Description
To set the value of signaling weight. It indicates the selection frequency of
the port when sending signaling. If it is the local port, it is the frequency of
selecting the source port as the local one when sending signaling to the
opposite end. Also, when the dynamic configuration is adopted, it is the
frequency of selecting the weight value as the target port when sending the
weight value to SGSN. When the opposite port weight acquired in static
configuration and the opposite port weight acquired in dynamic
configuration are sending signaling to the opposite port, it indicates the
selection frequency.
For instance:
If the weights of two ports are both 10, their frequencies are the same. If the
weight of port 1 is 10 and that of port 2 is 20, the frequency of the latter is
twice by that of the former.
Data Weight
Integer type 0 ~ 255
Unit None
Default value 10
DescriptionTo set the value of data weight. It indicates the selection frequency of the
port when sending data.
Unit No. of IPGB Board
Integer type The actual unit No. of IPGB board
Unit None
Default value None
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IPGB Port Parameters
Description
When selecting Local port for Port Type, it is marked on the position where
configures IPGB board of BSC. When selecting Opposite port for Port Type,
it is the set value 65535, which is invalid.
3. Add IP configuration: BSC global resource IP Information, input RPU address
in IPGB of the virtual IP address.
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十. Software Version File Description
十.1.1 Version file list (iBSCV6.20.010A for instance)
Note:
Due to version changes, the followings may be different from the actual condition. For
any question, please contact ZTE.
Physical board
type
Logical
board
type
Version type Version file name Remarks
MPX86MP CPU iBSC_MPX86_2_MP_P4_V6.20.010A_Z.BIN OMP version
file FPGA MPX86_04_040704_FPGA107.RBF
MPX86 RPU CPU iBSC_MPX86_2_RPU_P4_ V6.20.010A _Z.BINRPU version
file
MPX86MP CPU iBSC_MPX86_2_MP_P4_ V6.20.010A _Z.BIN SMP version
file FPGA MPX86_04_040704_FPGA107.RBF
UIM_2 UIM CPU
iBSC_UIM_2_UIM_8260_ V6.20.010A _Z.BIN
iBSC_UIM_2_UIM_755_ V6.20.010A _Z.BINUIMC
version file
GUIM
UIMCPU iBSC_UIM_2_UIM_8260_ V6.20.010A _Z.BIN GUIMU
version file
— FPGA GIUM_03_060803_FPGA_108.bin
CHUB CHUB CPU iBSC_CHUB_CHUB_8245_ V6.20.010A _Z.BINCHUB
version file
ICM ICM CPU IBSC_ICM_ICM_852_V6.20.010A_Z.BINICM version
file
DTB DTB CPU iBSC_DTB_DTB_852_V6.20.010A_Z.BIN
With 852
subcard,
DTB
GLIQV GLICPU
iBSC_GLIQV_GLI_CPU0_XSCALE_ V6.20.010A
_Z.BIN
Process-in
cell
MICROCODE iBSC_GLIQV_GLI_INGRESS_ V6.20.010A.UOF
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Physical board
type
Logical
board
type
Version type Version file name Remarks
CPUiBSC_GLIQV_GLI_CPU1_XSCALE_ V6.20.010A
_Z.BINProcess-out
cellMICROCODE iBSC_GLIQV_GLI_EGRESS_ V6.20.010A.UOF
FPGA GLIQV_00_040201_FPGA.BIN
EIPI/BIPI/GIPI
EUIPCPU IBSC_MNIC_2_IPI_23XX_V6.20.010A_Z.BIN EIPI version
fileMICROCODE UC_IBSC_MNIC_2_IPI_V6.20.010A.UOF
IPBBCPU IBSC_MNIC_2_IPBB_23XX_V6.20.010A_Z.BIN
BIPI/GIPI
version file
MICROCODE UC_IBSC_MNIC_2_IPBB_V6.20.010A.UOF
IPGBCPU IBSC_MNIC_2_IPGB_23XX_V6.20.010A_Z.BIN
MICROCODE UC_IBSC_MNIC_2_IPGB_V6.20.010A.UOF
PSN PSN CPU
iBSC_PSN_PSN_860_ V6.20.010A _Z.BIN
iBSC_PSN_PSN_852_ V6.20.010A _Z.BINPSN version
file
SDTB SDTB
CPU iBSC_SDTB_SDTB_860_ V6.20.010A _Z.BIN SDTB
version file,
select the
correspondin
g FPGA file
upon actual
condition of
PCB board
FPGA
SDTB_00_040301_FPGA_104.RBF
SDTB_01_040302_FPGA_105.RBF
SPB
SPB CPU iBSC_SPB_SPB_85XX_ V6.20.010A _Z.BIN
LAPD CPU iBSC_SPB_LAPD_85XX_ V6.20.010A _Z.BIN
GIPB CPU iBSC_SDTB_SDTB_860_ V6.20.010A _Z.BIN GIPB
VTCD
BIPB CPU iBSC_VTCD_BIPB_8260_ V6.20.010A _Z.BIN
BIPB DSP iBSC_VTCD_DSPC6414_BIPB_ V6.20.010A.BIN
DRTB CPU iBSC_VTCD_DRTB_8260_ V6.20.010A _Z.BIN
DRTB DSP iBSC_VTCD_DSPC6414_AMREN_ V6.20.010A.BIN
UPPB CPU iBSC_VTCD_UPPB_8260_ V6.20.010A _Z.BINVTCD
version file
UPPB DSP iBSC_VTCD_DSPC6414_UPPB_ V6.20.010A.BIN
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十一. Software Version Management
Abstract
Software load involves the following major procedures: import the version file to the
database, add the version to the NE, create general version, activate the version, and so
on. By importing the version to the database and OMC, the system copies the local
software to ZXG10 NetNumen-G server and modifies the background database. By
synchronizing the NE, the system then uploads ZXG10 NetNumen-G server via FTP to
the corresponding iBSC OMP and modifies OMP database. By creating general
version, the system generates general version at the background and modifies the
related data forms in the background database. By creating specific version, the system
generates the specific version in iOMCR and modifies the related data forms in the
background database. By activating general version, the system generates the general
version at the foreground and modifies the related data forms in the foreground
database. By updating general version, the system modifies the general version at both
foreground and background. By activating specific version, the system generates the
specific version at the foreground and modifies the related data forms in the foreground
database. By deactivating specific version, the system deletes the specific version at the
foreground and modifies related data forms in the foreground database. By deletion
from NE, the system deletes the foreground version, and by deletion from OMC, it
deletes the background version. This chapter will elaborate on the software version
management.
The major procedures for SDR software loading include: BTS software packet
creation, software packet download, software packet activation. By way of creating
BTS software packet, the system copies the software from local server to ZXG10
NetNumen-G server, and modifies the background database; by way of downloading
version packet, the system uploads the software from ZXG10 NetNumen-G server via
FTP to the SDR under corresponding iBSC; by way of activating version packet, the
system sets the standby inactivated version packet of corresponding SDR as current
running version packet.
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十一.1 Summary of Non-SDR BTS Software Load Flow
The main flow of software load is shown in Figure 11.1-237 below.
Figure 11.1-237 Software Load Flow
1. Select software version
Select the software version according to the actual demands. The version
information should include software ID and version number.
2. Import software to database
Before the software is loaded, it should be firstly imported to the database. By
executing Create Version File to OMC or Create Version Files in Batch to
OMC, the system copies the software from the client to ZXG10 NetNumen-G
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server, and then through Synchronizing Version Data to NE, the system FTPs
the software form ZXG10 NetNumen-G server to corresponding iBSC OMP. At
the same time, the version information is written in both the foreground and
background databases.
3. Set general software version
The procedure is to create, delete or modify the version record of the general
software. After the general software is set, it can be used to load the same kind
of software in batch.
4. Load general software version
Notice OMP to load the general software to all the boards that run the software.
After the version upgrade, if the new version cannot start up or there are some
severe faults due to some reason, the system may break down. Therefore, the
original version should be saved before the version upgrade. If the above case
occurs, resume the normal running status with the original version.
5. Set specific software version
This procedure is to create, modify or delete the specific software of a specific
board.
6. Load specific software version
Notice OMP to load a pre-set specific software version to a specific board and
then run the software. Because the specific software version has priority over
the general software version, if the board pre-loaded with a general software
version and then a specific software version, the specific software version will
run on the board.
7. Query the running foreground software
Send a query command to a foreground board, the board will reply ZXG10
NetNumen-G server with its running version information which is then
forwarded to the client and displayed at the client.
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十一.2 Non-SDR Software Version Management Interface
Log on to ZXG10 NetNumen-G client and select the menu View → Software Version
Management to open the Software Version Management interface, as shown in
Figure 11.2-238 below.
Figure 11.2-238 Software Version Management Interface
十一.3 BSC Software Version Management
十一.3.1 Version File Loaded into Database
[Purpose]
It focuses on loading BSC version file to database.
[Prerequisites]
1. Communication between the client and the server is normal.
2. Related BSC version file is available to be loaded into database.
[Procedures]
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1. In the Software Version Management interface, double click OMC → GERAN
subnet → BSC managed element → BSC software management, and double-
click BSC software management. As shown in Figure 11.3-239 below, select
the BSC store software in the sub-menu on the right.
Figure 11.3-239 Create Version File to OMC 1
2. Click in the toolbar and a window pops up as shown
in Figure 11.3-240 below.
Figure 11.3-240 Create Version File to OMC 2
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Click the button and select the version file from the popup box as
shown in Figure 11.3-241 below. Click Open to load the content into Figure 11.3-
240, as shown in Figure 11.3-242.
Figure 11.3-241 Create Version File to OMC 3
Figure 11.3-242 Create Version File to OMC 4
3. Click OK to complete creation, as shown in Figure 11.3-243 below.
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Figure 11.3-243 Create Version File to OMC 5
十一.3.2 Version Files Created in Batch to OMC
[Purpose]
Create BSC version files in batch to OMC.
[Prerequisites]
1. Communication between the client and the server is normal.
2. Related iBSC version files for batch creation are available.
[Procedures]
1. Click in the toolbar in Figure 11.3-239 and a box
pops up as shown in Figure 11.3-244 below.
Figure 11.3-244 Create Version Files In Batch To OMC 1
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Click the button and select the storage path to version files from the popup
box as shown in Figure 11.3-245 below. Click Open to load content into Figure 11.3-
244, as shown in Figure 11.3-246.
Figure 11.3-245 Create Version Files In Batch To OMC 2
Figure 11.3-246 Create Version Files In Batch To OMC 3
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2. The users may check the files or click Select all or Select none, then click the
button Execute to complete creation. The Result column will show Operation
Successful, as shown in Figure 11.3-247 below.
Figure 11.3-247 Create Version Files In Batch To OMC 4
3. Exit the dialog box to complete batch creation, as shown in Figure 11.3-248
below.
Figure 11.3-248 Create Version Files In Batch To OMC 4
十一.3.3 General Version Creation
[Purpose]
Create general BSC software version.
[Prerequisites]
1. Communication between the client and the server is normal.
2. Related BSC version file has been created to OMC.
[Procedures]
1. Select a file that is to be set as the general version, right-click it to select Create
General Version File, as shown in Figure 11.3-249 below.
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Figure 11.3-249 Create General Version 1
2. Click Create General Version File and a box pops up indicating that the general
version has been created successfully, as shown in Figure 11.3-250 below.
Figure 11.3-250 Create General Version 2
The users may find this version in the BSC general software tab, as shown in
Figure 11.3-251 below.
Figure 11.3-251 Create General Version 3
十一.3.4 Specific Version Creation
[Purpose]
Create specific software version.
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[Prerequisites]
1. Communication between the client and the server is normal.
2. Related BSC version file has been created to OMC.
[Procedures]
1. Select a file that is to be set as the specific version, right-click it to select Create
Specific Version File, as shown in Figure 11.3-252 below.
Figure 11.3-252 Create Specific Version 1
2. Click Create Specific Version File and a box pops up as shown in Figure 11.3-
253 below.
Figure 11.3-253 Create Specific Version 2
3. Input Rack NO., Shelf No., Slot No. and CPU NO., and then click OK. A
message box will pop up, as shown in Figure 11.3-254 below.
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Figure 11.3-254 Create Specific Version 3
4. Click OK and a box pops up indicating that the specific version has been created
successfully, as shown in Figure 11.3-255 below.
Figure 11.3-255 Create Specific Version 4
The users may find this version in the BSC specific software tab, as shown in
Figure 11.3-256 below.
Figure 11.3-256 Create Specific Version 5
十一.3.5 ompcfg.ini Creation
[Purpose]
Create ompcfg.ini for the application in foreground and background.
[Prerequisites]
1. Communication between the client and the server is normal.
2. Related MPX FPGA and BIN files have been created to OMC.
[Procedures]
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1. Select both MPX FPGA and BIN files created in OMC and right-click to select
Create ompcfg.ini, as show in Figure 11.3-257 below.
Figure 11.3-257 Create ompcfg.ini 1
2. Click Create ompcfg.ini and a box pops up as shown in Figure 11.3-258. Select
OMP or OMP+CMP+SMP as the MP type from the down-drop list and click
OK.
Figure 11.3-258 Create ompcfg.ini 2
3. As shown in Figure 11.3-259, a box pops up indicating that the operation is
executed successfully.
Figure 11.3-259 Create ompcfg.ini 3
十一.3.6 Deletion from OMC
[Purpose]
Delete BSC version from OMC.
[Prerequisites]
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1. Communication between the client and the server is normal.
2. The BSC version to be deleted is not activated.
[Procedures]
Notes:
1. If the version to be deleted is not created as a general version or specific version, it
can be directly deleted from OMC in the BSC store software sub-view.
2. If the version to be deleted is created as the general version or specific version, it
should firstly be deleted from OMC in the BSC general software or BSC specific
software sub-view, and then deleted in the BSC store software sub-view.
Here is an example of deleting a BSC specific version:
1. In the BSC specific software sub-view, highlight and right-click the proper
version file to select Delete from OMC, as shown in Figure 11.3-260 below.
Figure 11.3-260 Delete from OMC 1
2. Click Delete from OMC and a box pops up as shown in Figure 11.3-261 below.
Figure 11.3-261 Delete from OMC 2
This version does not exist in the sub-view any more, as shown in Figure 11.3-
262 below.
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Figure 11.3-262 Delete from OMC 3
3. In the BSC store software sub-view of BSC software management1 tab, select
the proper version and right-click it to choose Delete from OMC, as shown in
Figure 11.3-263 below.
Figure 11.3-263 Delete from OMC 4
4. Click Delete from OMC and a box pops up as shown in Figure 11.3-264 below.
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Figure 11.3-264 Delete from OMC 5
5. Click OK and a box pops up as shown in Figure 11.3-265 below.
Figure 11.3-265 Delete from OMC 6
This version does not exist in the sub-view any more, as shown in Figure 11.3-
266 below.
Figure 11.3-266 Delete from OMC 7
十一.3.7 Version File Added to NE
[Purpose]
Add BSC version to NE.
[Prerequisites]
Communication between the client and the server is normal.
[Procedures]
1. In the sub-views of BSC software management, right-click the proper version
and select Add version file to NE, as shown in Figure 11.3-267 below.
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Figure 11.3-267 Add Version File to NE 1
2. Click Add version file to NE and a box pops up as shown in Figure 11.3-268
below.
Figure 11.3-268 Add Version File to NE 2
3. Click OK and a box pops up as shown in Figure 11.3-269 below.
Figure 11.3-269 Add Version File to NE 3
十一.3.8 General Version Activation
[Purpose]
Activate general software version.
[Prerequisites]
1. Communication between the client and the server is normal.
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2. The general version file has been added to NE, but not activated yet.
[Procedures]
1. In the BSC general software sub-view, right-click the proper version file and
select Activate as shown in Figure 11.3-270 below.
Figure 11.3-270 Activate General Version 1
2. Click Activate and a box pops up. Select Reset from the drop-down list
depending on actual configuration as shown in Figure 11.3-271 below.
Figure 11.3-271 Activate General Version 2
Click OK and a box pops up for confirmation as shown in Figure 11.3-272.
Figure 11.3-272 Activate General Version 3
3. Click OK and a box indicating successful operation pops up as shown in Figure
11.3-273.
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Figure 11.3-273 Activate General Version 4
十一.3.9 Specific Version Activation/Deactivation
[Purpose]
Activate and deactivate specific version.
[Prerequisites]
1. Communication between the client and the server is normal.
2. For the activation operation, the specific version file has been created and added
to NE, but not activated yet.
3. For the deactivation operation, the specific version file has been created and
added to NE and activated.
[Procedures]
1. In the BSC specific software sub-view, right-click the proper specific version and
select Activate as shown in Figure 11.3-274 below.
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Figure 11.3-274 Activate Specific Version 1
2. Click Activate and a box pops up as shown in Figure 11.3-275. Select DSP
Physical No. and Reset from the drop-down list depending on actual
configuration, and then click OK.
Figure 11.3-275 Activate Specific Version 2
3. After the operation, click OK, a box pops up as shown in Figure 11.3-276 below.
Figure 11.3-276 Activate Specific Version 3
4. Click OK and a box pops up as shown in Figure 11.3-277 below. The operation is
performed successfully.
Figure 11.3-277 Activate Specific Version 4
5. The users can deactivate an activated version file. Right-click it and select Cancel
activation in Figure 11.3-278 below.
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Figure 11.3-278 Cancel Activation 1
6. Click Cancel activation and a box pops up to indicate the result as shown in
Figure 11.3-279.
Figure 11.3-279 Cancel Activation 2
十一.3.10 Version File Deleted from NE
[Purpose]
Delete the BSC version file from NE.
[Prerequisites]
1. Communication between the client and the server is normal.
2. The version file to be deleted is not activated.
[Procedures]
Notes:
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1. If the version has not been created as the general version or specific version, it can
be directly deleted from OMC in the BSC store software sub-view.
2. If the version is created as the general version or specific version, it should firstly
be deleted from OMC in the BSC general software or BSC specific software sub-
view, and then deleted in the BSC store software sub-view.
Here is an example of deleting a BSC specific version:
1. Create ompcfg.ini.
2. In the BSC store software sub-view, right-click the proper version file and select
Delete version file from NE, as shown in Figure 11.3-280 below.
Figure 11.3-280 Delete Version File from NE 1
3. Click Delete version file from NE and a box pops up as shown in Figure 11.3-
281 below.
Figure 11.3-281 Delete Version File from NE 2
4. Click OK and a box pops us as shown in Figure 11.3-282 below.
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Figure 11.3-282 Delete Version File from NE 3
十一.3.11 General Version Upgrade
[Purpose]
Upgrade the BSC general version.
[Prerequisites]
Communication between the client and the server is normal.
[Procedures]
1. In the BSC general software sub-view, right-click the proper general version file
and select Upgrade, as shown in Figure 11.3-283 below.
Figure 11.3-283 Upgrade General Version 1
2. Click Upgrade and a box pops up as shown in Figure 11.3-284 below.
Figure 11.3-284 Upgrade General Version 2
3. Select the proper items and click OK. A box pops up as shown in Figure 11.3-285
below.
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Figure 11.3-285 Upgrade General Version 3
4. Click OK to reset. A box pops up indicating the operation has been performed
successfully as shown in Figure 11.3-286.
Figure 11.3-286 Upgrade General Version 4
十一.3.12 NE Version Files Query
[Purpose]
Query NE version files.
[Prerequisites]
Communication between the client and the server is normal.
[Procedures]
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In the Software Version Management interface, double click OMC → GERAN
subnet → BSC managed element → BSC software management, and click in
the toolbar in Figure 11.3-287.
Figure 11.3-287 iBSC Stored Software Version Query Result
十一.3.13 NE General Version Files Query
[Purpose]
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Query NE general version files.
[Prerequisites]
Communication between the client and the server is normal.
[Procedures]
In the Software Version Management interface, double click OMC → GERAN
subnet → BSC managed element → BSC software management, and click in
the toolbar in Figure 11.3-288.
Figure 11.3-288 iBSC General Software Version Query Result
十一.3.14 NE Specific Version Files Query
[Purpose]
Query the NE specific version files.
[Prerequisites]
Communication between the client and the server is normal.
[Procedures]
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In the Software Version Management interface, double click OMC → GERAN
subnet → BSC managed element → BSC software management, and click in
the toolbar in Figure 11.3-289.
Figure 11.3-289 BSC Specific Software Version Query Result
十一.3.15 NE Version Information of a Specific Board Query
[Purpose]
Query NE version information of a specific board.
[Prerequisites]
Communication between the client and the server is normal.
[Procedures]
1. In the Software Version Management interface, double click OMC → GERAN
subnet → BSC managed element → BSC software management, and click
in the toolbar . A box pops up as shown in Figure
11.3-290 below.
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Figure 11.3-290 Query NE Version Information 1
2. Input the Rack No., Shelf No., Slot No. and CPU No. of the proper board and
click OK. Upon successful operation the NE version information is displayed as
shown in Figure 11.3-291 below.
Figure 11.3-291 Query NE Version Information 2
十一.3.16 Version Data Synchronized from NE to OMC
[Purpose]
Synchronize the BSC version data from NE to OMC.
[Prerequisites]
Communication between the client and the server is normal.
[Procedures]
1. In the Software Version Management interface, double click OMC → GERAN
subnet → BSC managed element → BSC software management, and click
in the toolbar . A box pops up as shown in Figure
11.3-292 below.
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Figure 11.3-292 Synchronize Version Data from NE to OMC 1
2. Click OK to execute synchronization. After synchronization is completed, a box
pops up as shown in Figure 11.3-293 below.
Figure 11.3-293 Synchronize Version Data from NE to OMC 2
十一.4 Non-SDR Software Version Management
In the Software Version Management interface, double click OMC → GERAN
subnet → BSC managed element → BTS software management, and double click
BTS software management. As shown in Figure 11.4-294 below.
Figure 11.4-294 BTS Software Version Management
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The operations on BTS software management are similar to those on BSC software
management. For detailed information, refer to 十一 .3 BSC Software Version
Management.
十一.5 SDR Software Installation Flow
Take B8200 GU360 for instance, software packet is adopted as SDR software.
Software packet can be downloaded to main control panel CCH, which is managed and
distributed to each board by CC.
The operation procedures of the software packet include:
Load to database: Load the software packet to OMM system.
Download: Download the software packet from OMM server to BTS main control
panel.
Activate: OMM sends a command to BTS, requiring the BTS to restart and run the
standby software.
十一.6 SDR Software Version Management Interface
Log on to OMM, click View → Software Version Management, the Software Version Management
interface is shown in Figure 11.6-295十一.6.
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Figure 11.6-295 Software Version Management Interface
十一.7 SDR Software Version Management
十一.7.1 BTS Software Packet Creation
1. Expand the Configuration resource tree, right click SDR version packet management and a short-cut
menu pops up, click Create → BTS version packet as shown in Figure 11.7-296.
Figure 11.7-296
2. Select and open the software packet, a window pops up as shown in Figure 11.7-297.
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Figure 11.7-297
3. Click OK, and the loading progress is shown in the system. After the loading, software version is
generated in the Configuration resource tree as shown in Figure 11.7-298.
Figure 11.7-298
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4. Double click on the software version, the version properties and software operation toolbar will be
displayed on the right column, see Figure 11.7-299.
Figure 11.7-299
5. Click on the button (download), a window pops up, chick OK to enter the interface as shown in
Figure 11.7-300.
Figure 11.7-300
6. Select the BTS to be loaded or updated, right click and the short-cut menu pops up, click version
packet to download, a prompt message will be shown as Figure 11.7-301 indicating the downloading
command is sent successfully.
Figure 11.7-301
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7. Close the version packet downloading interface, return to version packet property sub-view, click
version packet operation log interface, observe the downloading result of the version packet,
Successful value indicates the version packet is downloaded successfully as shown in Figure 11.7-
302.
Figure 11.7-302
8. Click the button (Activate) on the toolbar, a window pops up, click OK to enter the interface as
shown in Figure 11.7-303.
Figure 11.7-303
9. Select the BTS to be activated with its software version, right click and the short-cut menu pops up,
click to activate the version packet. A message indicating the version packet activation command is
sent successfully will be shown in the right column as Figure 11.7-304.
Figure 11.7-304
10. Close version packet activation window, return to operation log in version packet property sub-view,
where message indicating successful operation will be displayed as Figure 11.7-305.
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Figure 11.7-305
The site will restart after successful activation.
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十一.7.2 Information Query of Software Packet Version
Abstract
Query the file information of the software version packet already loaded into the
database.
Premise
Software version management view is accessed.
BTS software packet loaded into database is available.
Procedures:
Double click a software version packet in the resource management tree, enter version
packet property view, and click the file information of the version packet.
Result:
The file information of the version packet will be shown in the right columns as Figure
11.7-306.
Figure 11.7-306
十一.7.3 Information Query of BTS Active/Standby Software Version
Abstract
Query the information of current and standby BTS software versions.
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Premise
The BTS works normally.
The connection between BTS and NM server is normal.
OMM software version management sub-view has been accessed.
Procedures:
1. Double click SDR software version management node in Configuration Resource
Tree to enter the interface as shown in Figure 11.7-307.
Figure 11.7-307
2. Click the button (Query information), a window pops up; click OK to enter the
interface as shown in Figure 11.7-308.
Figure 11.7-308
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3. Select the BTS to be queried, and click OK. Only the BTS in normal ( )
connection status can be queried.
Result:
The system jumps to software version information page at foreground, where
active and standby versions are displayed as shown in Figure 11.7-309.
Figure 11.7-309
Double click a queried message of BTS version, detailed software version
information will be shown in Detailed Version Information of a Single NE as
Figure 11.7-310.
Figure 11.7-310
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十一.7.4 BTS Software Version Rollback
Abstract
Roll back to original version after updating the BTS software version.
Premise
BTS works normally.
The connection between BTS and NM server is normal.
OMM software version management sub-view has been accessed.
Procedures:
1. Double click the SDR software version management node in the Configuration
Resource Tree to enter the interface as shown in Figure 11.7-311
Figure 11.7-311
2. Click the button (Query information), a window pops up; click OK to enter the
interface as shown in Figure 11.7-312.
Figure 11.7-312
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3. Select the BTS to be queried, and click OK. The system jumps to the software
version information page at the foreground, where active and standby versions are
displayed as Figure 11.7-313.
Figure 11.7-313
4. Select the BTS whose version will be rolled back, right click and the short-cut
menu pops up. Click version packet switchover, a prompt window pops up, click
OK.
Version rollback will cause BTS restart, it will be completely out of service!
Result:
BTS restarts and loads standby version software. The previous version No. will be
displayed in the current active version information when querying according to this
subject.
十一.7.5 BTS Standby Software Version Activation
Abstract
Activate BTS standby software version and make it as active version.
Premise
BTS works normally.
The connection between BTS and NM server is normal.
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OMM software version sub-view has been accessed.
Procedures:
1. Double click the SDR software version management node in the Configuration
Resource Tree to enter the interface as shown in Figure 11.7-314.
Figure 11.7-314
2. Click the button (Query information), a window pops up, click OK to enter the
interface as shown in Figure 11.7-315.
Figure 11.7-315
3. Select the BTS to be queried, and click OK. The system jumps to the software
version information page at the foreground, where active and standby versions are
displayed as Figure 11.7-316.
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Figure 11.7-316
4. Select the BTS whose standby version will be activated, right click and the short-
cut menu pops up. Click standby version packet activation, a prompt window pops
up, click OK.
Standby Version activation will cause BTS restart, it will be completely out of service!
Result
BTS restarts and loads standby version software. The previous standby version No.
will be displayed in the current active version information when querying according
to this subject.
十一.7.6 Delete BTS Standby Software Version
Abstract
To delete the standby software version that is useless in the BTS.
Premise
BTS works normally.
The connection between BTS and NM server is normal.
OMM software version management sub-view has been accessed.
Procedures:
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1. Double click the SDR software version management node in the Configuration
Resource Tree to enter the interface as shown in Figure 11.7-317.
Figure 11.7-317
2. Click the button (Query information), a window pops up, click OK to enter the
interface as shown in Figure 11.7-318.
Figure 11.7-318
3. Select the BTS to be queried, and click OK. The system jumps to the software
version information page at the foreground, where active and standby versions are
displayed as Figure 11.7-319.
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Figure 11.7-319
4. Select the BTS whose standby version will be deleted, right click and the short-cut
menu pops up. Click to delete standby version packet, a prompt window pops up,
click OK.
Result:
Standby version packet is deleted successfully, standby version information will not
be displayed in the BTS version information as Figure 11.7-320
Figure 11.7-320
十一.7.7 Query of Operation Log of Version Packet
Abstract
Query the operation log of a version packet, including sending download command,
download result, activating result, etc.
Premise:
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Software version management sub-view has been accessed.
There is BTS software packet loaded in the database.
Procedures:
1. Double click a software version packet in the resource management tree to enter
the sub-view of version packet properties.
2. Click the button (Query) on the toolbar to enter the interface as shown in
Figure 11.7-321.
Figure 11.7-321
3. Set query conditions and click OK.
Result:
Query result is displayed in the operation log of version packet as shown in Figure
11.7-322.
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Figure 11.7-322
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十二. A-interface Interconnection
十二.1 A-interface Networking Mode
十二.1.1 Networking between iBSC & 2G CN (MSC)
The networking topology is shown in the figure below.
In this case, iBSC has only one MSC as its adjacent office. The iBSC A-interface data
must be configured as follows:
1. Configure signaling point of local office
The signaling point of local office should be configured, as shown in the figure below.
2. Configure Local No.7 SSN 0, 1 and 254
SSN is used to manage the users based on SCCP protocol. 0 and 1 are for SCCP
management, and 254 for BSSAP management.
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3. Configure the adjacent office
As shown in the figure below, Office type should be set as MSCSERVER and AM set
as AM SURE. Other parameters including SSF, SPC type, DPC must be consistent
with MSC.
4. Configure the adjacent No.7 SSN 0, 1 and 254.
5. Configure No.7 PCM
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6. Configure the No.7 link set
The No.7 link set consists of several signaling links. Usually one link set is enough
for an adjacent office.
7. Configure the No.7 link
Designate PCM, TS, SMP module, and Link code SLC in the figure below.
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8. Configure the No.7 route
The No.7 route specifies the link set to transmit signaling. At most two link sets are
available. Office ID is the office of the link set. As shown in the figure below, because
there is only one MSC as the adjacent office, Office ID should be set as 1. Linkset is
the configured link set under the adjacent office. Because there is only one link set, the
users only need to select 1 in the Linkset 1 down-drop list.
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9. Configure the No.7 office route
The No.7 office route specifies the route to transmit signaling to an adjacent office. At
most four routes are available. In the figure below, only Route 1 is available.
10. FLEXA is a new function in iBSC 6.20, which indicates one BSC can be
connected with multiple MSC, each of which consists of a MSC POOL. This
function can be enabled/disabled in global resource interface as the following
figure:
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After this function is enabled, information of the operator and MSC office should be set.
Information to be added into MSC office direction information include office direction,
MSC ID, MSC network route ID and MSC load sharing ratio (the information can be
queried at CN side, which is configured the same as CN side), as well as multiple
signaling point office direction (the same configuration as that at A interface), poll
times (self-defined).
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.
Set relevant data in the operator’s information page. MSC NRI length, MSC NULL-NRI ID and MSC
CN ID should be queried on CN side, which should be configured with the same value, otherwise the
mobile cannot access to the network.
Note: Even if FLEX A is not supported on iBSC side, the MSC CN ID mentioned
above should be configured with the same value as CN side, otherwise the mobile
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cannot access to the network. Other parameters are not required to be configured, the
default values should be kept.
十二.1.2 Networking between iBSC and 3G CN
3G CN introduces MSCServer and MGW. After the introduction of 3GPP R4, in the
principles of separating control and bearing, MSC is composed of MSC Server and
MGW. MSC Server controls services and calls, while MGW controls bearing. The 3G
CN networking is as follows:
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The following part describes three networking modes between iBSC and 3G CN.
十二.1.2.1 Networking Mode 1
iBSC is associated with MGW only. CN provides the signaling points for MGW and
MSCServer. The networking topology is as follows:
Because MSCServer processes with calls and services, iBSC signaling should be sent
to MSCServer for processing. In this networking mode, MGW and MSCServer are
connected via SS7, and MGW serves as STP (signaling transfer point) to forward iBSC
signaling to MSCServer.
iBSC A interface should be configured as follows:
iBSC has 2 adjacent offices, namely, MGW and MSCServer. It is associated with
MGW and quasi-associated with MSCServer.
iBSC is associated with MGW. The signaling link is configured under MGW.
Logically, PCM circuit between iBSC and CN is logically managed by
MSCServer. Therefore, N7PCM should be configured under MSCServer.
There is no service link between iBSC and MGW, thus SSF254 (BSSAP) is not
required to be configured under MGW.
Two office routes should be configured, one of which to MGW, and the other to
MSCServer.
1. Configure Local office.
2. Configure Local No.7 SSN 0, 1 and 254. SSN is used to manage the users based
on SCCP protocol. 0 and 1 are for SCCP management, and 254 for BSSAP
management.
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3. Configure Adjacent office 1. Office type should be set as MGW and AM as AM
SURE. Other parameters including SSF, SPC type, DPC should be consistent
with CN.
4. Configure the MGW No.7 SSN 0 and 1.
5. Configure Adjacent office 2. Office type should be set as MSCSERVER and
AM as AM QUASI. Other parameters including SSF, SPC type, DPC should be
consistent with CN.
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6. Configure the MSCServer No.7 SSN 0, 1 and 254.
7. Configure the MSCServer N7PCM.
8. Configure MGW signaling link set, which consists of several signaling links.
Usually one link set is enough for the connection to an adjacent office.
9. Configure the MGW No.7 link. Designate PCM, TS, CMP module, and Link
code SLC.
10. Configure the No.7 route. The No.7 route specifies the link set to transmit
signaling. At most two link sets are available. Adjacent Office ID refers to the
office of the link set. Because the link set is configured under MGW, the office ID
of MGW and the link set under MGW should be selected.
11. Configure the No.7 office route to MGW. Select the No.7 route configured in
Procedure 10.
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12. Configure the No.7 office route to MSCServer. Select the No.7 route configured in
Procedure 10.
The data configuration is shown in the following figures:
Local Office Signaling Point
Signaling Sub-System
Adjacent Office Data
Adjacent Office Sub-System
No.7 PCM
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Signaling Link Set
Signaling Link
Signaling Route
Signaling Office Route
十二.1.2.2 Networking Mode 2
iBSC is associated with MGW only. CN provides the signaling point for MGW. The
networking topology is as follows:
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In the form of IP (Sigtran), the signaling goes through MGW and MSCServer via MC
interface. The transmission between MGW and MSCServer is not controlled by iBSC.
Therefore, MGW and MSCServer can be viewed as a whole. iBSC data configuration
is the same as 2G MSC interconnection.
This networking mode is widely adopted.
十二.1.2.3 Networking Mode 3
iBSC is associated with both MGW and MSCServer. CN provides the signaling point
for MSCServer. The networking topology is as follows:
iBSC has physical connection with both MGW and MSCServer. Because 3G CN
separates voice processing and bearing, the signaling link is connected to MSCServer
while the voice relay is connected to MGW. And because no signaling is transferred to
MGW, MGW and MSCServer can be viewed as a whole too. iBSC data configuration
is the same as 2G MSC interconnection.
The only difference is that although the voice trunk circuit to MSCServer is configured
as No.7 PCM, only the signaling is transferred. In actual operation, the users may
consult the CN and set the NO.7 PCM number of MGW trunk circuit from 0 (or 1),
and set the NO.7 PCM number of MSCServer trunk circuit from large numbers such as
512.
一.1 Preparations for Interconnection
Make sure the follow work is done before A-interface interconnection:
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1. Installation and debugging of iBSC has been finished. All boards can run normally.
2. Installation and debugging of the server is done.
3. MSC runs normally and the A-interface data configuration is done.
4. Transmission between iBSC and MSC is normal.
5. Related data for A-interface interconnection has been obtained from MSC.
一.2 Interconnection Data
To guarantee a successful interconnection, the data should be adjusted at both sides of
A interface and MSC until both configurations are consistent.
MSC signaling point: 14-digit signaling point code (decimal, 3-8-3
format) or 24-digit signaling point code
iBSC signaling point: 14-digit signaling point code (decimal, 3-8-3
format) or 24-digit signaling point code
PCM number of A interface
CIC
SS7 link TS (time slot)
SLC (SS7 link code)
E1 number for SS7 link
Link error connection method: usually the basic error correction method
Type of signaling link group: usually the 64K narrowband signaling link
group
Frame format of E1 interface
SSF (sub-service field)
一.3 Validity Check on Interconnection Data
1. Signaling Point Code
If the signaling point is unreachable, the reason is usually improper division of
signaling point. The 14-digit signaling point code of BSC is in the decimal 3-8-
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3 format. However, different vendors may have different division methods,
such as the 6-8 format and the 7-7 format. The signaling point data given by
MSC are usually the data after the division. For example, the MSC may give a
signaling point 18-50. It is not the decimal number 1850. If MSC adopts the 7-
7 format, the signaling point is 1+38+2 (decimal, 3-8-3 format). If MSC adopts
the 6-8 format, the signaling point is 2+70+2 (decimal, 3-8-3 format. Pay
attention to its difference with BSCV2 decimal 4658 format). Therefore, the
users should first know how MSC divides the signaling point code to guarantee
consistent binary codes at both sides.
Algorithm:
The decimal 18 is the binary 10010, and 0010010 as a 7-digit binary number.
The decimal 50 is the binary 110010, and 0110010 as a 7-digit binary number.
Therefore, the decimal number 18-50 corresponds to the binary 0010010-
0110010, which is 1+38+2 (decimal, 3-8-3 format. Pay attention to its
difference with BSCV2 decimal 2354 format). Other division algorithms such
as the 6-8 format are not detailed here.
Every signaling message at the A interface has a signaling point code and it can
be viewed by tracked signaling. The signaling point code is hexadecimal. If the
tracked signaling has the testing and maintenance messages on the uplink and
downlink signaling network, it indicates BSC and MSC have correct signaling
point configurations.
2. Type of Signaling Point
The type of signaling points should meet the following requirements: in
ZXG10 iOMCR, BSC is set as 1 (SEP: signaling end point), MSC is set as 3
(STEP: signaling transfer end point).
3. Signaling Link Code
Usually SLC starts coding from 0 and the signaling TS are usually at TS16.
However, not all the vendors set TS16 as the default MSC signaling TS and the
users should pay attention to it.
4. Network Type
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ITU-T CCSS7 has 4 types of NI (network identification): 00 IN (international
network, 24-digit), 01 INS (international standby network, 14-digit), 10 NI
(national network, 24-digit) and 11 NIS (national standby network, 14-digit).
The SIO (service information octet) SSF contains the 2-bit NI (network
identification) of 00/01/10/11, respectively representing international network
(international active), international standby network, national network (national
active), and national standby network. The content of SIO SSF is national
active 1000 or national standby 1100.
For the MSC interconnection, the domestic network types are mostly NIS
(national standby, 14-digit). But the international network types are mostly NI
(national active). If MSC and BSC have different network type configurations,
the following signaling message will show repeatedly:
Signaling network testing and maintenance message
Unknown A message (unknown A-interface message)
5. Subsystem Status Enquiry
Query R_N7SSN STATUS bits and make sure all the STATUS bits are 0.
6. Frame Format of E1 Interface and SPB/DTB Impedance Settings
(1) Frame Format of E1 Interface
The default frame format is usually the double-frame format. Currently,
DTB/SPB can support multi-frame CRC check format. Non-framing format
can be provided for the future.
(2) DTB/SPB Transmission Impedance Settings
The default transmission impedance of DTB/SPB is 75 ohm. However, the
international field widely uses the 120-ohm wire (twisted pair). Inconsistent
impedances may cause failed connection at A interface or frequent transient
link disconnections.
7. Clock Sync Extraction Position
Currently, ZXG10 iBSC extracts clock from the first E1 of SPB.
8. Configuration of Local NO.7 SSN
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Configure the local office and adjacent office with the signaling subsystem
number 0, 1 and 254. The subsystem ID bit usually represents a signal
subsystem. The direction number of the local office is usually set as 0 and that
of the adjacent office is set according to the actual data configuration. Other
parameters are set by default.
9. Link Error Correction Method
Usually the basic error correction method is adopted.
10. Type of Signaling Link Group
Usually the 64K narrowband signaling link group is adopted.
一.4 SCN SS7 A-interface Data Configuration
This section mainly introduces the A-interface resource configuration of SCN SS7.
一.4.1 Create Local NO.7 SSN
[Purpose]
Create local No.7 SSN.
[Prerequisites]
BSC has been created successfully.
[Procedures]
1. In Configuration Resource Tree, right click OMC → GERAN subnet →
BSC managed element → Config Set → BSC global resource → A
interface related config, as shown in Figure 12.5-323 below. Right-click
A/Ater interface related config to select Create → Local NO.7 SSN.
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Figure 12.5-323 Create Local NO.7 SSN 1
2. Click Local NO.7 SSN and then to enter the interface to create local No.7
SSN as shown in Figure 12.5-324.
Figure 12.5-324 Create Local NO.7 SSN 2
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Table 12.5-18 Parameters of Local NO.7 SSN
Parameters of Local NO.7 SSN
User label
Type & Range Character string with the length of 1~40 at most
Unit None
Default Value None
Description Identify the user name
Subsystem NO.
Type & Range Integer type: 0~255
Unit None
Default Value 0
DescriptionID of the subsystem. For actual configuration, three types of 0, 1 and 254
should be created.
System Tag
Type & Range Only one subsystem, backup subsystem
Unit None
Default Value Only one subsystem
Description Set the subsystem as only one subsystem or backup subsystem
Backup Sub-System Office ID
Type & Range 0
Unit None
Default Value 0
DescriptionOnly when System tag is set as Backup subsystem will this parameter be
valid.
Backup Sub-System No.
Type & Range 0~255
Unit None
Default Value 0
DescriptionOnly when System tag is set to Backup subsystem will this parameter be
valid.
一.4.2 Create Local Office
一.4.2.1 Create Primary Node for Local Office
[Purpose]
Create the primary node for local office.
[Prerequisites]
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BSC has been created successfully.
[Procedures]
1. In Configuration Resource Tree, right click to select OMC → GERAN
subnet → BSC managed element → Config Set → BSC global resource →
A/Ater interface related config → Create → Local office, as shown in
Figure 12.5-325 below.
Figure 12.5-325 Create Local Office 1
2. Click Local Office and a box pops up as shown in Figure 12.5-326 below.
Input the correct parameters and click OK to complete creation. Refer to
Figure 12.5-326 for related parameters.
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Figure 12.5-326 Create Local Office 2
Table 12.5-19 Parameters of Local Office
Parameters of Local Office
User label
Type & Range Character string with the length of 1~40 at most
Unit None
Default Value None
Description Identify the user name
Network type
Type & Range CTCN, CMCN, CUCN, RLTN, CNC, NFTN, Net 7, Net 8
Unit None
Default Value CTCN
Description Select the network type according to the actual conditions
Netapp info
Type & Range Netapp disabled, Netapp enabled
Unit None
Default Value Netapp disabled
Description It refers to whether the network appearance is valid
Net appearance
Type & Range 0~8
Unit None
Default Value 0
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Parameters of Local Office
Description
If Netapp info is set to Netapp disabled, this parameter is invalid. To
separate the public SCTP coupling traffic of SG and ASP (applied server
program), Net appearance is used to recognize SS7 signaling network.
OPC (14 bits)
Type & Range
Main signaling zone 0~7
Sub-signaling zone 0~255
Signaling point 0~7
Unit None
Default Value 0, 0, 0
Description
For China’s GSM network, 14-bit signaling code is used between MSC and
BSC.
Main signaling zone the 3 highest among the 14 signaling points
Sub-signaling zone the 8 bits in the middle
Signaling point the 3 lowest bits
This parameter should be consulted with other devices.
OPC (24 bits)
Type & Range
Main signaling zone 0~255
Sub-signaling zone 0~255
Signaling point 0~255
Unit None
Default Value 0, 0, 0
Description
For China’s GSM network, 24-digit signaling point code is used between
MSC and other entities.
Main signaling zone the 8 highest among the 24 signaling points
Sub-signaling zone the 8 bits in the middle
Signaling point the 8 lowest bits
This parameter should be consulted with other devices.
TUP user support
Type & Range Yes, No
Unit None
Default Value No
Description Decide if the system supports TUP user
ISUP user support
Type & Range Yes, No
Unit None
Default Value No
Description It indicates whether the system supports ISUP user
SCCP user support
Type & Range Yes, No
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Parameters of Local Office
Unit None
Default Value Yes
Description It indicates whether the system supports SCCP user
一.4.3 Create Adjacent Office
一.4.3.1 Create Primary Node for Adjacent Office
[Purpose]
Create the primary node for adjacent office.
[Prerequisites]
BSC and the primary signaling node of local office have been created successfully.
[Procedures]
1. In Configuration Resource Tree, right click OMC → GERAN subnet →
BSC managed element → Config Set → BSC global resource → A/Ater
interface related config → Local office → Create → Adjacent office, as
shown in Figure 12.5-327 below. Select Adjacent Office and click .
Figure 12.5-327 Create Adjacent Office 1
2. Click and a box pops up as shown in Figure 12.5-328 below. Input the
correct parameters and click OK to complete creation. Refer to Table 12.5-20
for related parameters.
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Figure 12.5-328 Create Adjacent Office 2
Table 12.5-20 Parameters of Adjacent Office
Parameters of Adjacent Office
User label
Type & Range Character string with the length of 1~40 at most
Unit None
Default Value None
Description Identify the user name
Office ID
Type & Range 1~64
Unit None
Default Value 1
Description Number the adjacent office
Office type
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Parameters of Adjacent Office
Type & Range MGW, MSCSERVER, SMLC
Unit None
Default Value MGW
DescriptionMark the type of the adjacent office: MGW office, MSCSERVER office or
iBSC SMLC office
Office code
Type & Range 8-digit decimal integer
Unit None
Default Value 00000000
Description Number the office
Domain type
Type & Range DOMAIN SCN, DOMAIN IP
Unit None
Default Value DOMAIN SCN
Description
It indicates the domain type of the adjacent office viewed from the local
office.
If adjacent office is associated to the local office, it should be configured
according to the actual connection type. For example, TDM/ATM
connection is configured as DOMAIN SCN, and IP connection is
configured as DOMAIN IP. If it is quasi-associated to the local office via
SG and DOMAIN IP signaling point and the local office is DOMAIN SCN
signaling point, SG is configured as DOMAIN SCN and quasi-associated
DOMAIN IP signaling point as DOMAIN IP. Or if it is quasi-associated to
the local office via SG and DOMAIN SCN signaling point and the local
office is DOMAIN IP signaling point, SG is configured as DOMAIN IP and
quasi-associated DOMAIN SCN signaling point as DOMAIN SCN.
STEP type
Type & Range SEP, STP, STEP
Unit None
Default Value STEP
Description Configure the type of signaling point
SSF
Type & RangeGlobal signaling code, Global backup signaling code, Signaling code,
Backup signaling code
Unit None
Default Value Global signal code
Description The users should select the type according to the network type
DPC
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Parameters of Adjacent Office
Type & Range 14-digit code range: 0~7, 0~255, 0~7
24-digit code range: 0~255, 0~255, 0~255
Unit None
Default Value 0, 0, 0
Description
Configure the signaling point code for the adjacent office, which varies with
the SSF parameters. For Global signal code/Global backup signal code, it is
24-digit; and for Signal code/Backup signal code, it is 14-digit.
AM
Type & Range AM SURE, AM QUASI, AM NONE
Unit None
Default Value AM SURE
Description It indicates the association mode according to the actual configuration
Test ID
Type & Range NEED TEST, DO NOT NEED TEST
Unit None
Default Value NEED TEST
Description It indicates whether test is needed, usually NEED TEST
Protocol type
Type & Range CHINA, ITU, ANSI
Unit None
Default Value CHINA
Description Select protocol type
Band flag
Type & Range Yes, No
Unit None
Default Value No
Description It refers to whether broadband is supported
一.4.3.2 Create Adjacent NO.7 SSN
[Purpose]
Create adjacent No.7 SSN.
[Prerequisites]
BSC and the primary signaling nodes of local office and adjacent office have been
created successfully.
[Procedures]
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1. In Configuration Resource Tree, right click OMC → GERAN subnet →
BSC managed element → Config Set → BSC global resource → A/Ater
interface related config, double click the data already configured, as shown in
Figure 12.5-329.
Figure 12.5-329 Create Adjacent NO.7 SSN 1
2. Click Adjacent NO.7 SSN, and then and a box pops up as shown in Figure
12.5-330 below. Input the correct parameters and click OK to complete
creation. Refer to Table 12.5-21 for related parameters.
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Figure 12.5-330 Create Adjacent NO.7 SSN 2
Table 12.5-21 Parameters of Adjacent NO.7 SSN
Parameters of Adjacent NO.7 SSN
User label
Type & Range Character string with the length of 1~40 at most
Unit None
Default Value None
Description Identify the user name
Subsystem NO.
Type & Range 0~255
Unit None
Default Value 0
Description Number the subsystem of adjacent office
System tag
Type & Range Only one subsystem, Backup subsystem
Unit None
Default Value Only one subsystem
Description Set the subsystem as Only one subsystem or Backup subsystem
Backup system office ID
Type & Range 0, 1
Unit None
Default Value 0
DescriptionOnly when System tag is set as Backup subsystem can this parameter be
valid.
Backup subsystem NO.
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Parameters of Adjacent NO.7 SSN
Type & Range 0~255
Unit None
Default Value 0
DescriptionOnly when System tag is set as Backup subsystem can this parameter be
valid.
一.4.3.3 Create NO.7 PCM
[Purpose]
Create No.7 PCM.
[Prerequisites]
BSC and the primary signaling nodes of local office and adjacent office have been
created successfully.
[Procedures]
1. In Configuration Resource Tree, unfold OMC → GERAN subnet → BSC
managed element → Config Set → BSC global resource → A/Ater
interface related config, double click the data already configured, and
meanwhile select NO.7 PCM as shown in Figure 12.5-331.
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Figure 12.5-331 Create NO.7 PCM 1
2. Click and a box pops up as shown in Figure 12.5-332 below. Input the
correct parameters and click OK to complete creation. Refer to Table 12.5-22
for related parameters.
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Figure 12.5-332 Create NO.7 PCM 2
Table 12.5-22 Parameters of NO.7 PCM
Parameters of NO.7 PCM
User label
Type & Range Character string with the length 40 at most
Unit None
Default Value None
Description Identify the user name
N7PCM
Type & Range 0~1023
Unit None
Default Value 1
Description Number No.7 PCM
Unit
Type & Range Depend on the actual system configuration
Unit None
Default Value Depend on the actual system configuration
Description None
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Parameters of NO.7 PCM
PCM
Type & Range 9~24
Unit None
Default Value Depend on the actual system configuration
Description None
一.4.3.4 Create NO.7 Link Set
[Purpose]
Create NO.7 link set.
Caution:
If the A interface to be configured is for broadband, it’s unnecessary to create No.7 link
set and hence this section can be ignored during the configuration.
[Prerequisites]
BSC and the primary signaling nodes of local office and adjacent office have been
created successfully.
[Procedures]
1. In Configuration Resource Tree, right click OMC → GERAN subnet →
BSC managed element → Config Set → BSC global resource → A/Ater
interface related config, double click the data already configured, meanwhile
select NO.7 Link set, as shown in Figure 12.5-333 below.
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Figure 12.5-333 Create NO.7 Link Set 1
2. Click and a box pops up as shown in Figure 12.5-334 below. Input the
correct parameters and click OK to complete creation. Refer to Table 12.5-23
for related parameters.
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Figure 12.5-334 Create NO.7 Link Set 2
Table 12.5-23 Parameter of NO.7 Link Set
Parameter of NO.7 Link Set
User label
Type & Range Characters string with the length of 40 at most
Unit None
Default Value None
Description Identify the user name
Signaling link set No.
Type & Range 1~512
Unit None
Default Value 1
DescriptionNumber the link set. There are at most two signalling link sets under one
adjacent office, and only one link set is recommended.
Link error calibration method
Type & Range Basic, PCR
Unit None
Default Value Basic
Description
This parameter decides the link error calibration method and it should be set
in compliance with the operator’s requirements and link transmission delay.
Basic: It is a non-compel method of positive/negative
acknowledgement, retransmission and correction. It can ensure that in
normal status the signal units are transferred correctly, in sequence and non-
repeatedly and in abnormal status it can control retransmission and make
calibrations.
PCR (preventive cyclic retransmission): It is a non-compel method of
positive acknowledgement, cyclic retransmission and correction. If there
are no new signal units or link units for transmission, the system will
automatically resend the signal units that are stored in the retransmission
buffer and haven’t got positive acknowledgements, that is, PCR. If there are
new signal units, the system will stop cyclic retransmission and give
priority to new unit transmission.
Generally speaking, Basic error calibration method is adopted for
transmission delays less than 15ms, and PCR is for delays over 15ms.
Type of signaling link set
Type & Range 64 K link group, 2 M link group
Unit None
Default Value 64 K link group
Description Set the type of signaling link set
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一.4.3.5 Create NO.7 Link Data
[Purpose]
Create NO.7 link data.
[Prerequisites]
BSC and the primary signaling nodes of local office and adjacent office have been
created successfully.
[Procedures]
1. In Configuration Resource Tree, right click OMC → GERAN subnet →
BSC managed element → Config Set → BSC global resource → A/Ater
interface related config, double click the data already configured, and
meanwhile select NO.7 Link, as shown in Figure 12.5-335 below.
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Figure 12.5-335 Create NO.7 link 1
2. Click and a box pops up as shown in Figure 12.5-336 below. Input the
correct parameters and click OK to complete creation. Refer to Table 12.5-24
for related parameters.
Figure 12.5-336 Create NO.7 link 2
Table 12.5-24 Parameters of NO.7 link
Parameters of NO.7 link
User label
Type & Range Character string with the length of 40 at most
Unit None
Default Value None
Description Identify the user name
Link
Type & Range 1~5000
Unit None
Default Value 1
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Parameters of NO.7 link
Description Number the signalling link. Every link set can have at most 16 links.
Unit
Type & Range Depend on the actual system configuration
Unit None
Default Value Depend on the actual system configuration
Description None
PCM
Type & Range Depend on the actual system configuration
Unit None
Default Value Depend on the actual system configuration
Description None
TS
Type & Range 1 ~ 31
Unit None
Default Value 1
Description Configure TS according to actual conditions
SMP module
Type & Range Depend on the actual system configuration
Unit None
Default Value Depend on the actual system configuration
Description Mark the SMP module number of the signalling link
Link code SLC
Type & Range 0~15
Unit None
Default Value 0
Description
Configure the link code. Currently one office can be configured with at
most 16 links whose SLCs should be different. No matter if the 16 links
belong to the same link or two links, they should meet the above
requirement.
Link info
Type & Range Link is not self-loop, Link is self-loop
Unit None
Default Value Link is not self-loop
Description Set if the link is self-loop
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一.4.4 Create Route
一.4.4.1 Create NO.7 Route
[Purpose]
Create NO.7 route.
[Prerequisites]
BSC and the primary signaling nodes of local office have been created successfully.
[Procedures]
1. In Configuration Resource Tree, right click OMC → GERAN subnet →
BSC managed element → Config Set → BSC global resource → A/Ater
interface related config, double click the data already configured, meanwhile
select NO.7 route, as shown in Figure 12.5-337 below.
Figure 12.5-337 Create NO.7 Route 1
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1. Click and a box pops up as shown in Figure 12.5-338 below. Input the
correct parameters and click OK to complete creation. Refer to Table 12.5-25
for related parameters.
Figure 12.5-338 Create NO.7 Route 2
Table 12.5-25 Parameters of NO.7 Route
Parameters of NO.7 Route
User label
Type & Range Character string with the length of 40 at most
Unit None
Default Value None
Description Identify the user name
Route
Type & Range 1~1000
Unit None
Default Value 1
Description Number the signaling route
Office ID
Type & Range Comply with the office ID during the adjacent office configuration
Unit None
Default Value Comply with the office ID during the adjacent office configuration
Description Select from the configured adjacent office IDs
Linkset 1
Type & Range 0~1
Unit None
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Parameters of NO.7 Route
Default Value 0
Description 0 indicates there is no Linkset 1.
Linkset 2
Type & Range 0~1
Unit None
Default Value 0
Description 0 indicates there is no Linkset2.
Link arrangement mode
Type & RangeRandom, SLS_bit0, SLS_bit1, SLS_bit2, SLS_bit3, SLS_bit0~1,
SLS_bit1~2, SLS_bit2~3
Unit None
Default Value Random
Description Depend on actual configuration
一.4.4.2 Create NO.7 Office Route
[Purpose]
Create No.7 office route.
[Prerequisites]
BSC and the primary signaling nodes of local office have been created successfully.
[Procedures]
1. In Configuration Resource Tree, right click OMC → GERAN subnet →
BSC managed element → Config Set → BSC global resource → A/Ater
interface related config, double click the data already configured, meanwhile
select NO.7 office config, as shown in Figure 12.5-339 below.
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Figure 12.5-339 Create NO.7 Office Route 1
2. Click and a box pops up as shown in Figure 12.5-340 below. Input the
correct parameters and click OK to complete creation. Refer to Table 12.5-26
for related parameters.
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Figure 12.5-340 Create NO.7 Office Route 2
Table 12.5-26 Parameters of NO.7 Office
Parameters of NO.7 Office
User label
Type & Range Character string with the length of 40 at most
Unit None
Default Value None
Description Identify the user name
Office ID
Type & Range Depend on the actual configuration
Unit None
Default Value Select from drop-down list
Description Number the office
Route 1
Type & Range Depend on the actual configuration
Unit None
Default Value 0
DescriptionIt is the number of normal route. 0 indicates invalid route or there is no
such a route.
Route 2
Type & Range Depend on the actual configuration
Unit None
Default Value 0
DescriptionIt is the number of Alternative Route 1. 0 indicates invalid route or there is
no such a route.
Route 3
Type & Range Depend on the actual configuration
Unit None
Default Value 0
DescriptionIt is the number of Alternative Route 2. 0 indicates invalid route or there is
no such a route.
Route 4
Type & Range Depend on the actual configuration
Unit None
Default Value 0
DescriptionIt is the number of Alternative Route 3. 0 indicates invalid route or there is
no such a route.
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一.5 Check after Interconnection
一.5.1 Check Signaling and Traffic Load
Traffic load of speech TCH at A interface is smaller than 0.7 Erlang/CIC Timeslot;
The incoming signaling load of CCSS7 link is smaller than 0.2 Erlang/Link;
And the outgoing signaling load of CCSS7 link is smaller than 0.2 Erlang/Link.
一.5.2 Observe Foreground Board Status
1. Observe the DTB indicator
If the E1 indicator flashes quickly, it indicates the DTB can receive MSC
signals.
If the E1 indicator doesn’t flash, the transmission should be checked. Locate
the disconnected transmission by link-by-link self-loop.
2. Observe the SPB indicator
If it flashes quickly, it indicates the signaling is normal.
If it flashes slowly, check if the SS7 data configuration is consistent with that
of MSC.
一.5.3 Observe Background Alarm
Access the main interface of the client and select Faulty Management →
Management View.
1. Check if there is PCM alarm in DTB and SPB, which are connected to the A
interface.
2. Query iBSC alarms for unreachable signaling points or SS7 L3 alarms.
If there are, it means signaling at the two ends has problems and needs further
check.
一.5.4 Observe by Signalling Tracking
Access the signalling tracking interface of the client, open the configuration box, and
select A interface and the SS7 link to be tracked.
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一.5.5 Observe via Dynamic Data Management
Click View → Dynamic Data Management and select the corresponding BSC
dynamic data management to configure PCM, observe PCM/TS status and make
operation and maintenance.
一.5.6 Test A Interface
For A-interface test, the call test should be made on each link and every CIC TS. For
detailed information, please refer to ZXG10 iBSC (V6.20) Test Guide and ZXG10 iBSC
(V6.20) Commissioning Test Record.
一.5.7 Checklist for A-interface Interconnection
No. Item Result Data Record Remark
1 State of foreground boards OK NOK
2 Background alarms OK NOK
3 Observation of signaling tracking OK NOK
4 Observation of dynamic data management OK NOK
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十三. Commissioning
After iBSC commissioning, basic function/performance tests should be conducted on
iBSC and iOMCR. The tests include iBSC hardware test, OMCR function test,
software version test, call service test, handover test and new function test. For detailed
information, the users may refer to ZXG10 iBSC (V6.20) Test Guide and ZXG10 iBSC
(V6.20) Commissioning Test Record.
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Appendix A Abbreviations
Abbreviations Full Name
A
AC Address Control
AGCH Access Grant Channel
AUC Authentication Center
B
BCH Broadcast Channel
BCCH Broadcast Control Channel
iBSC Base Station Controller
BSC Base Station Controller
BSIC Base Station Identity Code
BSS Base Station Subsystem
BSSGP BSS GPRS Protocol
BTS Base Transceiver Station
BVC BSSGP Virtual Connection
BVCI BSSGP Virtual Connection Identifier
C
CBCH Cell Broadcast Channel
CCCH Common Control Channel
CEPT Conference of European Posts and Telecommunications
CGF Charging Gateway Function
C/I Carrier-To-Interference Ratio
CM Connection Management
CS-i Coding Scheme (GPRS)
D
DTB Digital Trunk Board
E
ECSD Enhanced Circuit Switched Data
EDGE Enhanced Data Rates For GSM Evolution
EGPRS Enhanced GPRS
EIR Equipment Identity Register
ETSI European Telecommunications Standards Institute
F
FACCH Fast Associated Control Channel
FCCH Frequency Correction Channel
FDMA Frequency Division Multiple Access
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Abbreviations Full Name
G
GGSN Gateway GPRS Support Node
GMSC Gateway MSC
GMSK Gaussian Minimum Shift Keying
GPRS General Packet Radio Service
GSM Global System for Mobile Communication
GTP GPRS Tunnel Protocol
H
HLR HOME Location Register
HSCSD High-Speed Circuit Switched Data
I
IMSI International Mobile Subscriber Identity
IP Internet Protocol
IR Incremental Redundancy
ISDN Integrated Services Digital Network
ISUP
IWF Inter-Working Function
L
LA Link Adaptation
LLC Logic Link Control
LQC Link Quality Control
M
MAC Medium Access Control
MAP Mobile Application Protocol
MCS Modulation and Coding Scheme (EDGE)
MGW Media GateWay
MM Mobile Management
MS Mobile Station
MSC Mobile Switching Center
MTP Message Transfer Part
N
NE Network Element
NMS Network Management System
NSEI Network Service Entity Identifier
NSS Network Switching Subsystem
NSVCI Network Service Virtual Connection Identifier
O
OMP Operation & Maintenance Processor board
OMS Operation and Maintenance Subsystem
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Abbreviations Full Name
OSI Open System Interconnect
P
PACCH Packet Associated Control CHannel
PAGCH Packet Access Grant CHannel
PBCCH Packet Broadcast Control CHannel
PCCCH Packet Common Control CHannel
PCH Paging Channel
PCM Pulse Code Modulation
PCU Packet Control Units
PDN Public Data Networks
PDP Packet Data Protocol
PDTCH Packet Data Traffic Channel
PLMN Public Land Mobile Network
PNCH Packet Notification Channel
PPCH Packet Paging Channel
PRACH Packet Random Access Channel
PSTN Public Switched Telephone Network
PTCCH Packet Timing advance Control Channel
Q
QoS Quality of Service
R
RACH Random Access Channel
RAID Redundant Array of Independent Disk
RAN Radio Access Network
RLC Radio Link Control
RPE-LTP Regular Pulse Excitation-Long Term Prediction
RRM Radio Resources Management
S
SACCH Slow Associated Control Channel
SCCP Signaling Connection Control Part
SCH Synchronization Channel
SDCCH Standalone Dedicated Control Channel
SGSN Serving GPRS Support Node
SIM Subscriber Identity Module
SMC Short Message Center
SNDCP Subnetwork Dependent Convergence Protocol
SNMP Simple Network Management Protocol
SPB Signaling Process Board
SS7 Signaling System 7
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Abbreviations Full Name
SSF Sub-Service Field
STP Signaling Transfer Point
T
TACS Total Access Communication System
TAI Timing Advance Index
TBF Temporary Block Flow
TCH Traffic Channel
TDMA Time Division Multiple Access
TLLI Temporary Logical Link Identity
TMSI Temporary Mobile Subscriber Identity
TRAU Transcoding and Rate Adaptation Unit
U
USF Uplink State Flag
V
VLR Visitor Location Register
VPN Virtual Private Network
8-PSK 8 Phase Shift Keying
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