SJ-20110707103919-022-NetNumen M3(V3.08.34.00)LMT Operation Manual
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Transcript of SJ-20110707103919-022-NetNumen M3(V3.08.34.00)LMT Operation Manual
NetNumen™ M3 (ZXC10 BSSB)(SN: 6.912.10)
LMT Operation Guide
Version: V3.08.34.00
ZTE CORPORATIONNO. 55, Hi-tech Road South, ShenZhen, P.R.ChinaPostcode: 518057Tel: +86-755-26771900Fax: +86-755-26770801URL: http://ensupport.zte.com.cnE-mail: [email protected]
LEGAL INFORMATIONCopyright © 2011 ZTE CORPORATION.
The contents of this document are protected by copyright laws and international treaties. Any reproduction or
distribution of this document or any portion of this document, in any form by any means, without the prior written
consent of ZTE CORPORATION is prohibited. Additionally, the contents of this document are protected by
contractual confidentiality obligations.
All company, brand and product names are trade or service marks, or registered trade or service marks, of ZTE
CORPORATION or of their respective owners.
This document is provided “as is”, and all express, implied, or statutory warranties, representations or conditions
are disclaimed, including without limitation any implied warranty of merchantability, fitness for a particular purpose,
title or non-infringement. ZTE CORPORATION and its licensors shall not be liable for damages resulting from the
use of or reliance on the information contained herein.
ZTE CORPORATION or its licensors may have current or pending intellectual property rights or applications
covering the subject matter of this document. Except as expressly provided in any written license between ZTE
CORPORATION and its licensee, the user of this document shall not acquire any license to the subject matter
herein.
ZTE CORPORATION reserves the right to upgrade or make technical change to this product without further notice.
Users may visit ZTE technical support website http://ensupport.zte.com.cn to inquire related information.
The ultimate right to interpret this product resides in ZTE CORPORATION.
Revision History
Revision No. Revision Date Revision Reason
R1.1 2011–12–30 Modified the following sections:
l Section 1.5, BTS Models Supporting/Not Supporting LMT
Functions
l Section 1.6.1, 3GDownload Software Tool Function
l Section 1.6.2, Generating a Version Template File
l Section 1.6.3, Downloading the Board Software of the Whole
Equipment
l Section 1.6.4, Configuring OMP Start Information File
l Section 2.2.16, Querying IP RF RSSI
l Section 2.3.1, Viewing Alarms
l Section 2.3.2, Board Diagnosis Test
l Section 2.4.1, Enter Local Operation Mode
R1.0 2011–09–30 First Edition
Serial Number: SJ-20110707103919-022
Publishing Date: 2011-12-30 (R1.1)
ContentsAbout This Manual ......................................................................................... I
Chapter 1 LMT Overview............................................................................ 1-11.1 LMT System Function......................................................................................... 1-1
1.2 LMT Software Module Composition ..................................................................... 1-1
1.3 Connection Between an LMT and a BSS NE........................................................ 1-2
1.4 BTS Startup Mode.............................................................................................. 1-2
1.5 BTS Models Supporting/Not Supporting LMT Functions........................................ 1-3
1.6 Using 3GDownload Software Tool ....................................................................... 1-4
1.6.1 3GDownload Software Tool Function ......................................................... 1-4
1.6.2 Generating a Version Template File .......................................................... 1-4
1.6.3 Downloading the Board Software of the Entire Equipment........................... 1-7
1.6.4 Configuring an OMP Startup Information File .......................................... 1-10
1.6.5 Obtaining ZDB Files from a BTS.............................................................. 1-12
Chapter 2 LMT Commands........................................................................ 2-12.1 LMT Command Format....................................................................................... 2-1
2.2 Dynamic Data Management Commands.............................................................. 2-1
2.2.1 Starting HIRS RF Automatic Calibration..................................................... 2-1
2.2.2 Stopping HIRS RF Automatic Calibration ................................................... 2-2
2.2.3 Setting HIRS RF Tx Attenuation ................................................................ 2-3
2.2.4 Setting HIRS RF Tx Gain .......................................................................... 2-3
2.2.5 Setting HIRS RF Main Set Rx Attenuation.................................................. 2-4
2.2.6 Setting HIRS RF Main Set Rx Gain ........................................................... 2-4
2.2.7 Setting HIRS RF Diversity Rx Attenuation .................................................. 2-5
2.2.8 Setting HIRS RF Diversity Rx Gain............................................................ 2-6
2.2.9 Querying HIRS RF Forward Transmission Power ....................................... 2-6
2.2.10 Querying HIRS RF RSSI......................................................................... 2-7
2.2.11 Starting IP RF Whole Automatic Calibration.............................................. 2-7
2.2.12 Stopping IP RF Whole Automatic Calibration............................................ 2-8
2.2.13 Setting IP RF Tx Attenuation ................................................................... 2-9
2.2.14 Querying IP RF Forward Transmission Power ........................................ 2-10
2.2.15 Querying IP RF4-carrier Aggregated Power ........................................... 2-10
2.2.16 Querying IP RF RSSI.............................................................................2-11
2.3 Fault Management Commands ..........................................................................2-11
I
2.3.1 Viewing Alarms .......................................................................................2-11
2.3.2 Board Diagnosis Test.............................................................................. 2-12
2.3.3 Cancelling Board Diagnosis Test ............................................................. 2-13
2.3.4 Enable HPA ........................................................................................... 2-14
2.3.5 Disable HPA .......................................................................................... 2-14
2.4 Commands in LMT Mode.................................................................................. 2-15
2.4.1 Enter Local Operation Mode ................................................................... 2-15
2.4.2 Quit Local Operation Mode ..................................................................... 2-15
2.4.3 Query Local Operation Mode .................................................................. 2-16
Figures............................................................................................................. I
Glossary ........................................................................................................ III
II
About This ManualPurposeWith the development of the communication technology, operators have more variedrequirements on the Operation & Maintenance Center (OMC). When adjusting the BaseTransceiver Station (BTS) equipment on-site, the engineers may need to observe theBTS feedback and fine tune the equipment parameters. To cater for the requirement, theLocal Maintenance Terminal (LMT) is developed.
Through the LMT function, the operation & maintenance engineers can use a networkcable to connect to the control board of the BTS, and then telnet to the BTS to perform thequerying and setting operation.
This manual gives a detailed description of the LMT basic concepts, functions, and theLMT commands.
Intended AudienceThis manual is intended for:
l Operation & maintenance engineers at the Code Division Multiple Access (CDMA)base station
l CDMA network optimizing engineers
What is in This ManualThis manual contains the following chapters.
Chapter Summary
Chapter 1 LMT Overview Describes the basic concepts and functions of LMT, 3GDownload
tool and the BTS models that support the LMT function.
Chapter 2 LMT Commands Describes the format, function, input and output of LMT
commands.
Safety SignsThe following safety signs may appear in this manual.
Safety Sign Meaning
DangerIndicates an imminently hazardous situation, which if not avoided,
will result in death or serious injury.
WarningIndicates a hazard that, if not avoided, could result in serious
injuries, equipment damages or interruptions of major services.
CautionIndicates a potential hazard that, if not avoided, could result in
moderate injuries, equipment damages or partial service interruption.
I
Safety Sign Meaning
Note
Indicates a suggestion or hint to make things easier or more
productive for the reader.
TipProvides additional information about a particular topic.
II
Chapter 1LMT OverviewTable of Contents
LMT System Function ................................................................................................1-1LMT Software Module Composition............................................................................1-1Connection Between an LMT and a BSS NE..............................................................1-2BTS Startup Mode......................................................................................................1-2BTS Models Supporting/Not Supporting LMT Functions .............................................1-3Using 3GDownload Software Tool ..............................................................................1-4
1.1 LMT System FunctionLocal Maintenance Terminal (LMT) is a featured function of the ZTE's Code DivisionMultiple Access (CDMA) base station system.
In virtue of this function, the filed engineers at the Base Transceiver Station (BTS) canuse a notebook (or the maintenance PC terminal in the equipment room) to telnet to theBTS control board (CCM, for example) via the Ethernet, and input the LMT commands toimplement the operation and maintenance for the BTS. It enables the engineer to operatethe BTS without login to the Operation & Maintenance Module (OMM) and facilitates theBTS maintenance.
To fulfill this function, the notebook (or the maintenance PC terminal in the equipmentroom) only needs to use its built-in Telnet function and install the 3GDownload tool whichis provided by ZTE. It is unnecessary to install other software.
ZXC10 BSSB LMT provides the following functions:
l Enters and cancels LMT mode.l Self-starts a BTS.l Downloads BTS board software version and configuration data locally.l Queries BTS current alarm information.l Performs diagnostic tests on boards.l Supports the RF control functions, including:
à Starts and stops the auto-scaling.
à Queries and sets the RF power.
à Queries the Receive Signal Strength Indicator (RSSI).
1.2 LMT Software Module CompositionThe ZXC10 BSSB LMT is composed of the following two software modules:
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l ZXC10 BSSB LMT agent, which resides on the control board (e.g. CCM)l 3GDownload software tool
1.3 Connection Between an LMT and a BSS NEFigure 1-1 displays the connection between an LMT and a BSS NE.
Figure 1-1 LMT Connection
Through an LMT, the operation and maintenance engineer can use a network cable toconnect to the control board of an NE and then telnet to the NE to perform the queryingand setting operations.
1.4 BTS Startup ModeThere are the following two startup modes for the BTS:
l Base Station Controller (BSC) startup model LMT startup mode
All the commands except those related to mode configuration are applicable in both themodes while sharing all the functions.
BSC Startup Mode
The BTS requires necessary software version and relevant configuration data from theBSC during its startup.
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BSC startup mode is suitable for the situation in which the communication at the Abisinterface between the BTS and the BSC is normal. This is the default startup mode for theBTS.
Note:
When the BTS is in BSC startup mode, it cannot be switched to LMT startup mode.
LMT Startup Mode
The BTS starts up and operates with necessary software version and relevant configurationdata without requiring these from BSC.
LMT startup mode is suitable when the communication at the Abis interface between theBTS and the BSC is interrupted. Communication interruption at Abis interface refers tothe situation in which the functional board (such as the DSM board) is not powered on ortransmission interruption occurs between the BTS and the BSC.
Note:l LMT startup mode cannot be configured for the BTS when the communication at Abis
interface is normal.l Under LMT startup mode, the operators must restart the BTS after completing the
operations on the BTS. By not restarting BTS after operating it under LMT startupmode, any further operation on the BTS on the OMM cannot be performed, even ifthe communication at the Abis interface is normal afterwards.
1.5 BTS Models Supporting/Not Supporting LMTFunctions
The following BTS models support the LMT functions:
l ZXC10 BTSB I1l ZXC10 BTSB I2l ZXC10 BTSB I3l ZXC10 BTSB I4l ZXC10 CBTS I1l ZXC10 CBTS I2l ZXC10 CBTS O1l ZXC10 BTS AE (IP BDS)l ZXCBTS CDMA Micro BTS (DO)l ZXSDR B8100 C100
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l ZXSDR B8200 C100l ZXSDR BS8800 C100l ZXSDR BS8900 C100l ZXSDR BS8906 C100l ZXSDR BS8802 C100
The following BTS models do not support the LMT functions:
l ZXC10 BTS (HIRS macro BTS)l ZXC10 BTS AE (HIRS BDS)l ZXCBTS CDMA Micro BTS (1X)
1.6 Using 3GDownload Software Tool
1.6.1 3GDownload Software Tool FunctionThe 3GDownload software tool is used not only to download the required BTS softwareversion and the configuration data, but also to create the Operation & MaintenanceProcessor (OMP) version information file of the BSC and create the version template.The following part will introduce the functions of the 3GDownload software tool, including:l generating the version template filel downloading the board software of the entire equipmentl configuring the OMP startup information filel obtaining the ZDB files from the BTS
1.6.2 Generating a Version Template FileWhen upgrading and maintaining the base station software, the engineers can use theZXC10BSSB LMT to automatically scan the version directory in order to generate a versiontemplate file. The template file can be used in the version comparison. With this function,the engineers can easily check whether the version of an NE is correct.
Context
The version template file consists of the BSC version information and the BTS versioninformation.
Steps
1. Double-click LMT.exe. The ZXC10 BSSB LMT dialog box is displayed.
2. Click 3G Download. The main window is displayed, see Figure 1-2.
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Figure 1-2 3G Download Main Window
3. Click Create Template. The Create Template dialog box is displayed, see Figure 1-3.
Figure 1-3 Create Template Dialog Box
4. Select the directory of the version.
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Note:l The root directory of Path of the release must contain the Release
directory. Otherwise, the program may report errors automatically.l If the user has selected the Release version directory to be scanned, the paths
of the configuration files are automatically positioned to the Release directory.The system automatically cuts the upper-level directory names of Release asthe file names. Both the storage path and the file names can be modified.
l Path of the release and Path of the excel created directories can be modifiedonly after clicking the Browse button. These two directories cannot be directlymodified.
l During the process of generating a template file, exit the Excel program to avoiderrors.
5. After configuring the paths, click OK. A success message box is displayed. Click OK.
Note:
The template file generation might last more than 60 seconds, please be patient.
6. Navigate to the directory for saving the version template file. Open the file to view it,see Figure 1-4.
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Figure 1-4 Viewing the Generated File
– End of Steps –
1.6.3 Downloading the Board Software of the Entire EquipmentWhen downloading the board software of the entire equipment, the following target boardscan be selected: Control and Clock Module (CC), Communication Control Module (CCM),RF Management Module (RMM), BPM, Compact Baseband Module (CBM), and RRUTransceiver (RTR). The following takes the CBM board as an example.
Steps
1. Click the Select File button in the main window of 3GDownload software downloadtool. In this example, select Download to CBM from the drop-down list to select thetarget board, see Figure 1-5.
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Figure 1-5 Selecting the Target Board
2. Select the file to be downloaded in the dialog box that displayed.
3. Click the Open button. The main window is displayed, see Figure 1-6.
Figure 1-6 Window to be Downloaded
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4. Start the FTP download toolwftpd32.exe under 3GDownload running program. SelectSecurity > General from themenu bar. TheGeneral Security dialog box is displayed,see Figure 1-7.
Configure FTP transmissionmode in this dialog box. For example, whether the contentcan be anonymously downloaded/uploaded. Click the OK button after configuration,and then close the dialog box.
Figure 1-7 General Security Dialog Box
Note:
Do not select Enable Security. Secure transmission mode may cause slow orabnormal transmissions.
5. Select Security > user/rights from the menu bar, the User/Rights Security dialogbox is displayed, see Figure 1-8.
i. Click New User, the configuration dialog box is displayed. Configure User Nameas target. Click OK, the password configuration dialog box is displayed.
ii. Configure New Password and Verify Password, click OK.
iii. Click Change Pass... to configure New Password and Verify Password astarget, and click OK.
Configure Home Directory as the directory of the file to be downloaded.
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iv. Click Done to close the dialog box.
Figure 1-8 Configuring User Name and Password
6. After configuring 3GDownload, follow the instructions to download through the hyperterminal.
– End of Steps –
Result
After the downloading is successful, the LMT displays “Download Succeed”.
1.6.4 Configuring an OMP Startup Information File
Prerequisite
Copy OMP CPU and FPGA version software to a directory.
Note:
The FPGA version should be the same as the PCB number of the OMP used by the localoffice.
Steps
1. Double-click LMT.exe program, the ZXC10 BSSB LMT dialog box is displayed.
2. Click Create OMP Info. The Create OMP Info dialog box is displayed, see Figure 1-9.
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Figure 1-9 Create OMP Info Dialog Box
3. Click Open a File to open an existing OMP version information file.
Note:l The new OMP2 board uses 85XX CPU. The corresponding FPGA version is
needed.l Configure both the right board and the left board.
4. Configure OMP startup information.
Information of both the right board and the left board need to be filled in, and thecontents must be consistent.
l Select version file: CPU version of the OMP (version file before and afterconversion)
l Select logic file: FPGA version of the OMP (version file before and afterconversion)
5. Click Create a file to generate the startup information file of the OMP.
It is recommended to name it as "ompcfg.ini". The startupinformation file will be automatically generated in the directory thatsaves version files. Besides the "ompcfg.ini" file, for 755 OMP, a"WPBCB_FPGA_WPBCB_BOARD_FPGA_XXXXXXXX_xx.xx.xx$.fga" file willalso be generated.
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Note:
After the configuration, copy the CPU version of the OMP, theinformation file (ompcfg.ini), the logic version (755 OMP), and"WPBCB_FPGA_WPBCB_BOARD_FPGA_ XXXXXXXX_xx.xx.xx $.fga" file (755OMP) to the \NetNumen\ums\ums-svr\version directory corresponding tothe new version of the OMC.
– End of Steps –
1.6.5 Obtaining ZDB Files from a BTSThis section gives an example of obtaining ZDB files from a BTS, that is, obtaining theZDB files from the CBM board.
Steps
1. Connect the CBM board to the PC through an Ethernet cable.
2. Start the PC, select Start > Run, input ftp://128.192.9.160, and then pressEnter. The FTP window is displayed.
3. In the Input user name and password dialog box, directly press Enter to enter theftp> _ status.
4. Input the following commands:
type binary
lcd d:\ (The path in the PC is the path in which the ZDB file that is obtained fromthe BTS is saved.)
get "/msys0/cdma/work/AllTable.ZDB"
– End of Steps –
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Chapter 2LMT CommandsTable of Contents
LMT Command Format ..............................................................................................2-1Dynamic Data Management Commands ....................................................................2-1Fault Management Commands ................................................................................2-11Commands in LMT Mode .........................................................................................2-15
2.1 LMT Command FormatThe LMT command is used in the same way as the function call.
LMT command format: command (parameter 1, parameter 2,……)
for example:
lmt_starthirsrfautocalibrate (5)
The LMT command abides by the following rules:l LMT commands are case sensitive. Currently, all the commands supported by the
LMT are in lowercase.l Semicolon is not required at the end of the LMT command.
2.2 Dynamic Data Management Commands
2.2.1 Starting HIRS RF Automatic Calibration
Format
starthirsautocalibrate (BYTE ucRack, BYTE ucShelf, BYTE ucSlot)
Function
This is an HIRS RF automatic calibration command. It starts the automatic calibration.
Input
Input the TRX board physical address, including:l BYTE ucRack: board rack IDl BYTE ucShelf: board shelf IDl BYTE ucSlot: board slot ID
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Output
1. Calibrate success
TRX:SubSys%d start Hirs RF auto Calibrate success
RfsId:%d, Calibrate Value:%d
2. calibration power cannot reach expected value
TRX:SubSys%d start Hirs RF auto Calibrate fail,cause: calibration power cannot reachexpected value
RfsId:%d, Calibrate Value:%d
3. calibration expires
TRX:SubSys%d start Hirs RF auto Calibrate fail,cause: calibration expires
RfsId:%d
4. fail to invoke the database
TRX:SubSys%d start Hirs RF auto Calibrate fail,cause: fail to invoke the database
RfsId:%d
5. not in calibration value range
TRX:SubSys%d start Hirs RF auto Calibrate fail,cause: not in calibration value range
RfsId:%d, Calibrate Value:%d
2.2.2 Stopping HIRS RF Automatic Calibration
Format
stophirsautocalibrate (BYTE ucRack, BYTE ucShelf, BYTE ucSlot)
Function
This is an HIRS RF automatic calibration command. It stops the automatic calibration.
Input
Input the TRX board physical address, including:l BYTE ucRack: board rack IDl BYTE ucShelf: board shelf IDl BYTE ucSlot: board slot ID
Output
TRX:SubSys%d stop Hirs RF auto Calibrate success
RfsId:%d
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2.2.3 Setting HIRS RF Tx Attenuation
Format
sethirstxattenuation(BYTE ucRack, BYTE ucShelf, BYTE ucSlot, BYTE ucStepLen)
Function
This is a configuration command for HIRS RF control parameter. It configures the Txattenuation.
Input
Input the TRX board physical address, including:l BYTE ucRack: board rack IDl BYTE ucShelf: board shelf IDl BYTE ucSlot: board slot IDl BYTE ucStepLen: step length; value range: 1-10
Output
TRX:SubSys%d Set HIRS Tx Attenuation success
Control Value:%d
Remark
After the configuration, execute:
qryhirstxrfepower(BYTE ucRack, BYTE ucShelf, BYTE ucSlot)
2.2.4 Setting HIRS RF Tx Gain
Format
sethirstxgain(BYTE ucRack, BYTE ucShelf, BYTE ucSlot, BYTE ucStepLen)
Function
This is a configuration command for HIRS RF control parameter. It configures the Tx gain.
Input
Input the TRX board physical address, including:l BYTE ucRack: board rack IDl BYTE ucShelf: board shelf IDl BYTE ucSlot: board slot IDl BYTE ucStepLen: step length, value range: 1-10
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Output
TRX:SubSys%d Set HIRS Tx Gain success
Control Value:%d
Remark
After the configuration, execute:
qryhirstxrfepower(BYTE ucRack, BYTE ucShelf, BYTE ucSlot)
2.2.5 Setting HIRS RF Main Set Rx Attenuation
Format
sethirsmainrxattenuation(BYTE ucRack, BYTE ucShelf, BYTE ucSlot, BYTE ucStepLen)
Function
This is a configuration command for HIRS RF control parameter. It configures the Rxattenuation of the main set.
Input
Input the TRX board physical address, including:l BYTE ucRack: board rack IDl BYTE ucShelf: board shelf IDl BYTE ucSlot: board slot IDl BYTE ucStepLen: step length, value range: 1-10
Output
TRX:SubSys%d Set HIRS Main Rx Attenuation success
Control Value:%d
Remark
After the configuration, execute:
qryhirstxrfepower(BYTE ucRack, BYTE ucShelf, BYTE ucSlot)
2.2.6 Setting HIRS RF Main Set Rx Gain
Format
sethirsmainrxgain(BYTE ucRack, BYTE ucShelf, BYTE ucSlot, BYTE ucStepLen)
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Function
This is a configuration command for HIRS RF control parameter. It configures the Rx gainof the main set.
Input
Input the TRX board physical address, including:l BYTE ucRack: board rack IDl BYTE ucShelf: board shelf IDl BYTE ucSlot: board slot IDl BYTE ucStepLen: step length, value range: 1-10
Output
TRX:SubSys%d Set HIRS Main Rx Gain success
Control Value:%d
Remark
After the configuration, execute:
qryhirstxrfepower(BYTE ucRack, BYTE ucShelf, BYTE ucSlot)
2.2.7 Setting HIRS RF Diversity Rx Attenuation
Format
sethirsdiversityrxattenuation(BYTE ucRack, BYTE ucShelf, BYTE ucSlot, BYTEucStepLen)
Function
This is a configuration command for HIRS RF control parameter. It configures the diversityRx attenuation.
Input
Input the TRX board physical address, including:l BYTE ucRack: board rack IDl BYTE ucShelf: board shelf IDl BYTE ucSlot: board slot IDl BYTE ucStepLen: step length, value range: 1-10
Output
TRX:SubSys%d Set HIRS Diversity Rx Attenuation success
Control Value:%d
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RemarkAfter the configuration, execute:
qryhirstxrfepower(BYTE ucRack, BYTE ucShelf, BYTE ucSlot)
2.2.8 Setting HIRS RF Diversity Rx Gain
Formatsethirsdiversityrxgain(BYTE ucRack, BYTE ucShelf, BYTE ucSlot, BYTE ucStepLen)
FunctionThis is a configuration command for HIRS RF control parameter. It configures the diversityRx gain.
InputInput the TRX board physical address, including:l BYTE ucRack: board rack IDl BYTE ucShelf: board shelf IDl BYTE ucSlot: board slot IDl BYTE ucStepLen: step length, value range: 1-10
OutputTRX:SubSys%d Set HIRS Diversity Rx Gain success
Control Value:%d
RemarkAfter the configuration, execute:
qryhirstxrfepower(BYTE ucRack, BYTE ucShelf, BYTE ucSlot)
2.2.9 Querying HIRS RF Forward Transmission Power
Formatqryhirstxrfepower(BYTE ucRack, BYTE ucShelf, BYTE ucSlot)
FunctionThis command is used to query HIRS RF forward transmission power.
InputInput the TRX board physical address, including:l BYTE ucRack: board rack ID
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l BYTE ucShelf: board shelf IDl BYTE ucSlot: board slot ID
Output
TRX:SubSys%d Qry HIRS Tx RFE Power success
Rfe transmit power:%d
2.2.10 Querying HIRS RF RSSI
Format
qryhirsrssi(BYTE ucRack, BYTE ucShelf, BYTE ucSlot)
Function
This command is used to query HIRS RF Receive Signal Strength Indicator (RSSI).
Input
Input the TRX board physical address, including:l BYTE ucRack: board rack IDl BYTE ucShelf: board shelf IDl BYTE ucSlot: board slot ID
Output
TRX:SubSys%d Unit%d Qry HIRS RSSI success
Main RSSI:%d, Diversity RSSI:%d
Rfe transmit power:%d
Remark
When querying HIRS RF RSSI, the system outputs the forward transmission power at thesame time
2.2.11 Starting IP RF Whole Automatic Calibration
Format
startwholeautocalibrate(BYTE ucRack, BYTE ucShelf, BYTE ucSlot)
Function
This is an IP RF automatic calibration command. It starts the whole automatic calibration.
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InputInput the TRX board physical address, including:l BYTE ucRack: board rack IDl BYTE ucShelf: board shelf IDl BYTE ucSlot: board slot ID
Output
1. whole auto calibrate success
TRX:SubSys%d,Unit%d whole auto calibrate success
sector power:%d, carrier 0-4 power:%d,%d,%d,%d
2. calibration power cannot reach the expected value sector power
TRX:SubSys%d,Unit%d whole auto calibrate fail,cause: calibration power cannotreach the expected value sector power
sector power:%d, carrier 0-4 power:%d,%d,%d,%d
3. calibration expires
TRX:SubSys%d,Unit%d whole auto calibrate fail,cause: calibration expires
4. no calibration conditions
TRX:SubSys%d,Unit%d whole auto calibrate fail,cause: no calibration conditions
5. calibration is stopped manually
TRX:SubSys%d,Unit%d whole auto calibrate fail,cause: calibration is stoppedmanually
6. calibration parameter error
TRX:SubSys%d,Unit%d whole auto calibrate fail,cause: calibration parameter error
7. another calibration is in progress
TRX:SubSys%d,Unit%d whole auto calibrate fail,cause: another calibration is inprogress
2.2.12 Stopping IP RF Whole Automatic Calibration
Formatstopwholeautocalibrate(BYTE ucRack, BYTE ucShelf, BYTE ucSlot)
FunctionThis is an IP RF automatic calibration command. It stops the whole automatic calibration.
InputInput the TRX board physical address, including:
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l BYTE ucRack: board rack IDl BYTE ucShelf: board shelf IDl BYTE ucSlot: board slot ID
Output
1. Success
Stop TRX:SubSys%d,Unit%d whole auto calibrate success
2. Failure
Stop TRX:SubSys%d,Unit%d whole auto calibrate fail
2.2.13 Setting IP RF Tx Attenuation
Format
settxattenuation(BYTE ucRack, BYTE ucShelf, BYTE ucSlot, WORD16 wTxAttenuation)
Function
This is a configuration command for IP RF control parameter. It configures the Txattenuation.
Input
Input the TRX board physical address, including:l BYTE ucRack: board rack IDl BYTE ucShelf: board shelf IDl BYTE ucSlot: board slot IDl WORD16 wTxAttenuation: attenuation coefficient (0-1023)
Output
1. operation success
TRX:SubSys%d,Unit%d set Tx Attenuation success
Tx Attenuation:%d
2. operation fails
TRX:SubSys%d,Unit%d set Tx Attenuation fail, cause:
Tx Attenuation:%d
3. data error
TRX:SubSys%d,Unit%d set Tx Attenuation fail, cause:
Tx Attenuation:%d
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RemarksAfter the configuration, execute:
qry4carriertotalpower(BYTE ucRack, BYTE ucShelf, BYTE ucSlot)
2.2.14 Querying IP RF Forward Transmission Power
Formatqrytxrfepower(BYTE ucRack, BYTE ucShelf, BYTE ucSlot, BYTE ucCarrier)
FunctionThis command is used to query IP RF forward transmission power.
InputInput the TRX board physical address, including:l BYTE ucRack: board rack IDl BYTE ucShelf,: board shelf IDl BYTE ucSlot: board slot IDl BYTE ucCarrier: Carrier number of TRX board, value range: 9-12
OutputTRX:SubSys%d,Unit%d carrier:%d Qry Tx RFE Power success
Rfe transmit power:%d,BDS Power:%d
2.2.15 Querying IP RF4-carrier Aggregated Power
Formatqry4carriertotalpower(BYTE ucRack, BYTE ucShelf, BYTE ucSlot)
FunctionThis command is used to query IP RF4-carrier aggregated power.
InputInput the TRX board physical address, including:l BYTE ucRack: board rack IDl BYTE ucShelf: board shelf IDl BYTE ucSlot: board slot ID
Output
1. Success
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TRX:SubSys%d,Unit%d Qry 4 Carrier Total Power success
Rfe transmit power:%d
2. Failure
TRX:SubSys%d,Unit%d Qry 4 Carrier Total Power fail
Rfe transmit power:%d
2.2.16 Querying IP RF RSSI
Format
qryrssi (BYTE ucRack, BYTE ucShelf, BYTE ucSlot)
Function
This command is used to query IP RF RSSI.
Input
Input the TRX board physical address, including:l BYTE ucRack: board rack IDl BYTE ucShelf: board shelf IDl BYTE ucSlot: board slot ID
Output
TRX:SubSys%d Unit%d Qry IP RSSI success
Main RSSI:%d, average:%d
Diversity RSSI:%d, average:%d
2.3 Fault Management Commands
2.3.1 Viewing Alarms
Format
qryalarm(PICO, SDR)
Functions
This command is used to view alarms.
Input
N/A
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OutputAid:%ld
Code:%ld XXXXXXXXX Reson:%ld XXXXXXXXXX,
AlarmPos:System%d, Unit%d, SubSystem%d, SubUnit%d, Index%d, Slot%d
Alarmtime:%d-%d-%d-%d-%d-%d-%d
Info:XXXXXXXX
2.3.2 Board Diagnosis Test
Formatboarddiagtest (BYTE ucRack, BYTE ucShelf, BYTE ucSlot)
FunctionThis command is used to perform the board diagnosis test.
InputInput the physical address of the board to be diagnosed, including:l BYTE ucRack: board rack IDl BYTE ucShelf: board shelf IDl BYTE ucSlot: board slot ID
Output
1. testing board exists
Board:rack%d,shelf%d,slot% is diagnosing ,Please try later
2. query database fails
Fail to query DBS for the board: subsystem= ; Unit= ; Slot=
3. the result returned by database is abnormal
Query DBS Error for the board: subsystem= ; Unit= ; Slot=
4. input parameter checking fails
Input Para Error for the board: subsystem= ; Unit= ; Slot=
5. test is initiated successfully
Already start the boardtest,please wait….: subsystem= ; Unit= ; Slot=
6. test expires:
BoardDiagTest timeout
The following example describes the successful test initiation and the result return.
Already start the boardtest,please wait….: subsystem=0 ; Unit=0 ; Slot=8
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===============
Boardtype: CCM
In-position State of Board In position
Plug-in State of Board Normal
Front Panel State of Board Normal
Hardware Version of Board CCM0_A
Master/Slave State of Board Master
Plug-in State of CF Card In position
16chip Clock Normal
PP2S Clock Normal
Plug-in State of Signal Stream Subcard ESB2
Type of Signal Stream Subcard A
Version of Signal Stream Subcard Detected
Test to PCI ID of Signal Stream Ethernet Normal
Plug-in State about Media Stream Subcard In position
Type of Media Stream Subcard ESB2
Version of Media Stream Subcard A
Test to PCI ID of Media Stream Ethernet Detected
Test to PCI ID of Master/Slave Communication Ethernet Detected
Test to PCI ID of ESB0 Detected
Test to PCI ID of MPC107 Detected
Download State of FPGA Normal
Read/Writer Test to EPLD Normal
This Board is Normal…
===============
2.3.3 Cancelling Board Diagnosis Test
Format
cancelboarddiagtest (BYTE ucRack, BYTE ucShelf, BYTE ucSlot)
Function
This command is used to cancel the board diagnosis test.
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Input
Input the physical address of the board to be diagnosed, including:l BYTE ucRack: board rack IDl BYTE ucShelf: board shelf IDl BYTE ucSlot: board slot ID
Output
cancel board:rack%d,shelf%d,slot%d diag test
2.3.4 Enable HPA
Format
enablehpamml (BYTE ucRack, BYTE ucShelf, BYTE ucSlot)
Function
This command is used to enable HPA.
Input
Input the HPA board physical address, including:l BYTE ucRack: board rack IDl BYTE ucShelf: board shelf IDl BYTE ucSlot: board slot ID
Output
N/A
2.3.5 Disable HPA
Format
disablehpamml(BYTE ucRack, BYTE ucShelf, BYTE ucSlot)
Function
This command is used to disable HPA.
Input
Input the HPA board physical address, including:l BYTE ucRack: board rack IDl BYTE ucShelf: board shelf IDl BYTE ucSlot: board slot ID
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Output
N/A
2.4 Commands in LMT Mode
2.4.1 Enter Local Operation Mode
Format
setbtsstartmodelmt (VOID)
Function
This command is used to enter local operation mode.
Input
N/A
Output
1. Success
Set BTS start Mode LMT success
2. Failure
Set BTS start Mode LMT failed, because Abis link is normal.
Note:
When the Abis link is normal, the PICO base station can enter local operation mode.
2.4.2 Quit Local Operation Mode
Format
setbtsstartmodebsc(VOID)
Function
This command is used to quit local operation mode.
Input
N/A
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Output
Set BTS start mode BSC success
2.4.3 Query Local Operation Mode
Format
qrybtsstartmode (VOID)
Function
This command is used to query local operation mode.
Input
N/A
Output
1. In LMT mode2. In BSC mode
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FiguresFigure 1-1 LMT Connection ...................................................................................... 1-2
Figure 1-2 3G Download Main Window.................................................................... 1-5
Figure 1-3 Create Template Dialog Box ................................................................... 1-5
Figure 1-4 Viewing the Generated File ...................................................................... 1-7
Figure 1-5 Selecting the Target Board....................................................................... 1-8
Figure 1-6 Window to be Downloaded ...................................................................... 1-8
Figure 1-7 General Security Dialog Box .................................................................... 1-9
Figure 1-8 Configuring User Name and Password .................................................. 1-10
Figure 1-9 Create OMP Info Dialog Box ................................................................. 1-11
I
Figures
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GlossaryBSC- Base Station Controller
BTS- Base Transceiver Station
CBM- Compact Baseband Module
CC- Control and Clock Module
CCM- Communication Control Module
CDMA- Code Division Multiple Access
DSM- Data Service Module
Implements the Abis interface function between the IP BDS and the IP BSC, andprovides the conversion of IP packets into the E1/T1 signals that are suitable forremote transmission before the signals are transmitted to the remote station.
LMT- Local Maintenance Terminal
OMC- Operation & Maintenance Center
OMM- Operation & Maintenance Module
OMP- Operation & Maintenance Processor
RMM- RF Management Module
RMM is the control centre of RFS. It works on a 1+1 standby mode.The clockreference is also provided by the RMM.
RSSI- Received Signal Strength Indicator
RTR- RRU Transceiver
TRX- Transmitter and Receiver
III