OMB321410 MBTS GSM V100R004 Initial Data Configuration Based on LMT ISSUE1.00

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Copyright © 2010 Huawei Technologies Co., Ltd. All rights reserved.

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MBTS Initial Data

Configuration based

on LMT


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References

BSC6900 LMT User Guide

BSC6900 Initial Configuration Guide

BTS3900 Initial Configuration Guide


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Objectives

Upon completion of this course, you will be able to:

Know the principle of data configuration

Master BTS3900 GSM initial data configuration through Web LMT

Understand the meaning of some important parameters


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Contents

1. Web LMT Introduction

2. Steps of Data Configuration


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Web LMT Introduction

The LMT provides graphical user interface (GUI) for you to

operate and maintain the BSC6900 and BTS.

The alarm management, trace management, performance

monitoring, and device maintenance can be performed through

menu operations.

The MML commands can be run for data configuration and

O&M on the Web-LMT.


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Web LMT Introduction


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MML Command Window


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Contents

1. Web LMT Introduction

2. Steps of Data Configuration


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Steps of Data Configuration

END

START

Configuring the Logical Data

Configuring the Equipment Data

Activating the BTS Configuration

Configuring the Transmission Data

Configuring the BTS Clock


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ADD BTS 1

2

3

ADD BTSCABINET

ADD BTSRXUCHAIN

4 ADD BTSRXUBRD

SET BTSRXUBP

END






START


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Step 1 ADD BTS

ADD BTS: < BTSID>, <BTSNAME>, <BTSTYPE>, < BTSDESC >,

<SEPERATEMODE>,<SERVICEMODE>,<FLEXABISMODE >,

<ABISBYPASSMODE>,<ISCONFIGEDRING >,<MPMODE >, <MAINPORTNO

>,<IPPHYTRANSTYPE >,<SRANMODE>;

BTSID: ID of the BTS. The BTS ID must not conflict with other BTS IDs in

the BSC.

BTSNAME: Name of the BTS. The BTS name must not conflict with other

BTS names in the BSC.

BTSTYPE: Type of the BTS

BTSDESC: Peer equipment type of the BTS. This parameter indicates

whether to connect the BTS to the BSC or cascade the BTS to another

BTS.


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Step 1 ADD BTS

ADD BTS

SEPERATEMODE: Whether to enable the BTS to support the

separation between the physical board and logical TRX.

SERVICEMODE: Service bearer mode of the BTS

FLEXABISMODE: Service timeslot assignment mode for the BTS

ABISBYPASSMODE: Whether to enable the BTS to support bypass

ISCONFIGEDRING: Whether to enable the BTS to support ring

networking


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Step 1 ADD BTS

ADD BTS

MPMODE: Timeslot multiplexing mode at the Abis interface of the

BTS.

MAINPORTNO: Number of the port to which the active OML of the

BTS is connected

PPHYTRANSTYPE: Type of the physical IP transmission medium

SRANMODE: Whether to enable the BTS to identify an object in the

BTS in normalized mode, for example, to identify a board by the slot

No., subrack No., and cabinet No. and to identify a transmission port

by the port No. in a board


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Step 2 ADD BTSCABINET

ADD BTSCABINET: <IDTYPE>, <BTSID>,<CN>, <SRANMODE>,

<TYPE>, <CABINETDESC>;

CN: Number of the cabinet

SRANMODE: Whether to support the SRAN mode

TYPE: Type of a cabinet

CABINETDESC: Descriptive information of the BTS cabinet


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Step 3 ADD BTSRXUCHAIN

ADD BTSRXUCHAIN: <IDTYPE>, <BTSID>, <RCN>, <TT>,

<HCN>,<HSRN>,<HSN>,<HPN>

RCN: Number of the RXU chain or ring

TT: RXU topology type, that is, RXU ring topology or RXU chain

topology.

HCN: Number of the cabinet where the head board of the RXU chain

or ring is located


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Step 3 ADD BTSRXUCHAIN

ADD BTSRXUCHAIN:

HSRN: Number of the subrack where the head board of the RXU

chain or ring is located.

HSN: Number of the slot where the head board of the RXU chain

or ring is located.

HPN: The number of the optical port of the head board in the RXU

chain or ring.


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Step 4 ADD BTSRXUBRD

ADD BTSRXUBRD: <IDTYPE>, <BTSID>, <BT>,<CN>,<SRN>,

<SN>,<RXUNAME>,<RXUCHAINNO>,< RXUPOS>

BT: Type of the newly added RXU board


SRN: Number of the subrack where the BTS board is located

SN: Number of the slot where the BTS board is located

RXUNAME: Name of an RXU

RXUCHAINNO: Number of the RXU chain where the board is located

RXUPOS: Position of the RXU board on an RXU chain


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Step 4 SET BTSRXUBP

SET BTSRXUBP: <IDTYPE><BTSID><RXUIDTYPE><RXUCHAINNO

><RXUPOS ><RXUTYPE><SndRcvMode ><WORKINGSTANDARD >

SndRcvMode: RFU Antennal Sending Receiving Mode

GUI Value Range: SGL_ANTENNA(Single Feeder[1TX + 1RX]),

SGLDOUBLE_ANTENNA(Single Feeder[1TX + 2RX]), DOUBLE_ANTENNA(Double

Feeder[2TX + 2RX]), DOUBLEFOUR_ANTENNA(Double Feeder[2TX + 4RX]),

DOUBLESINGLE_ANTENNA(Double Feeder[1TX + 1RX]),

DOUBLEDOUBLE_ANTENNA(Double Feeder[1TX + 2RX])

WORKINGSTANDARD: Working Standard

GSM_AND_UMTS, UMTS, GSM, GSM_AND_LTE, LTE


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Configuring a GSM Cell 5

6

7

Configuring the TRX

Configuring the

Binding Between a

GSM Cell and a BTS

Configuring the

Binding Between a

Logical TRX and a

Physical TRX Board

8

END






START


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Step 5 Configuring a Cell

Configuring a GSM cell involves configuring a cell, mapping

between the cell and the OPC and frequencies for the cell.

ADD GCELL

This command is used to add GSM internal cells.

ADD GCELLOSPMAP

This command is used to add the mapping between a cell and an

originating signaling point (OSP).

ADD GCELLFREQ

This command is used to add frequencies to a GSM internal cell.


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ADD GCELL

ADD GCELL: <CELLID>, <CELLNAME>, <TYPE>, <MCC>, <MNC>,

<LAC>, <CI>;

CELLID: Index of a cell, uniquely identifying a cell in a BSC

CELLNAME: Name of a cell, uniquely identifying a cell in a BSC

TYPE: This parameter specifies the frequency band of new cells.

MCC: Mobile country code

MNC: Mobile network code

LAC: Location area code

CI: Identity code of a cell


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ADD GCELLOSPMAP

ADD GCELLOSPMAP: <IDTYPE>, <CELLID>, <CELLNAME>, <OPC>;

IDTYPE: Type of an index



OPC: Code of the original signaling point (OSP) in the signaling

network


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ADD GCELLFREQ

ADD GCELLFREQ: <IDTYPE>, <CELLID>, <FREQ1>,<FREQ2>;

FREQ1: Frequency 1

FREQ2: Frequency 2

EXAMPLE

ADD GCELLFREQ: IDTYPE=BYID, CELLID=0, FREQ1=1, FREQ2=2;


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Step 6 Configuring the TRX

Configuring the TRX for the BTS. This involves configuring the

logical TRX and BCCH.

ADD GTRX

This command is used to add a logical TRX and configure the binding

between the logical TRX and the cell

SET GTRXCHAN (Optional)

This command is used to set the TRX channel attributes and specify the

BCCH.

SET GTRXDEV (Optional)

This command is used to set the device attributes of a TRX.


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ADD GTRX

ADD GTRX: < IDTYPE>, <CELLID>, <TRXID>, <FREQ>，

<ISMAINBCCH>;

TRXID: ID of the TRX. The TRX ID must be globally unique

FREQ: Frequency of the TRX, Value Range: 0~1023

ISMAINBCCH: Whether to enable the TRX to carry the main BCCH

in the cell


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SET GTRXCHAN

SET GTRXCHAN: <TRXID>,<CHNO>,<CHTYPE>,<GPRSCHPRI>,

<TSPRIORITY>;

TRXID: ID of the TRX. The TRX ID must be globally unique

CHNO: Number of the channel in the TRX

CHTYPE: Type and function of the channel

GRRSCHPRI: EGPRS priority type of the channel

TSPRIORITY: Assignment priority level of the channel. If this

parameter is less, the assignment priority level of the channel is

higher. Value Range: 0~7


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SET GTRXDEV (Optional) SET GTRXDEV: <POWL >,<POWT >,<OPTL >,<SDFLAG >,

<TCHAJFLAG >,<PL8PSK >,<RCVMD > ,<SNDMD >, <CPS >…..

POWL: Power Level

POWT: Power Type

OPTL: TRX Priority

SDFLAG: Shut Down Enabled

TCHAJFLAG: TCH Rate Adjust Allow

PL8PSK: TRX 8PSK Level

RCVMD: Receive Mode

SNDMD: Send Mode

CPS: Allow Dynamic Shutdown TRX


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Step 7 Configuring the Binding

Between a GSM Cell and a BTS

ADD CELLBIND2BTS: <IDTYPE>, <CELLID>, <BTSID>;

IDTYPE: Type of an index



BTSID: ID of the BTS

BTSNAME: Name of the BTS


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Between a Logical and Physical TRX Configuring the binding between a logical TRX and a physical TRX

board in the BTS cabinet.

ADD TRXBIND2PHYBRD: <TRXID>, <TRXTP>, <TRXPN>,

<RXUIDTYPE>,<CN>,<SRN>, <SN>,<ANTPASSNO>;

TRXID: ID of the TRX

TRXTP: Type of the TRX board bound to the TRX

TRXPN: Number of the channel bound to the TRX on the TRX board

RXUIDTYPE: Index type of the RXU. GUI Value Range: RXUNAME (By

RXU Name), RXUPOS (By RXU Position No), SRNSN (By Subrack No)


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Between a Logical and Physical TRX

ADD TRXBIND2PHYBRD:


SRN: Number of the subrack where the BTS board is located

SN: Number of the slot where the BTS board is located

ANTPASSNO: Number of the antenna feeder channel mapped to

the RXU


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TDM/HDLC 1

IP Over FE/GE 2

END






START


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Configuring TDM/HDLC Transmission

Data

ADD BTSCONNECT: <IDTYPE>, <BTSID>, <INPN>, <DESTNODE>,

<SRN>, <SN>, <PN>;

INPN: Number of a BTS port

INCN: Number of the in-port cabinet on a BTS

INSRN: Number of the in-port subrack on a BTS

INSN: Number of the in-port slot on a BTS

DESTNODE: Type of the object that connects to the BTS. Value range:

BTS, BSC6900, and DXX


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ADD BTSCONNECT:

SRN: Number of the subrack where the BSC6900 board connected to the

BTS is located

SN: Number of the slot

PN: Number of the port through which the BTS is connected to the

BSC6900

EXAMPLE

ADD BTSCONNECT: IDTYPE=BYID, BTSID=1, INPN=0, DESTNODE=BSC,

SRN=11, SN=0, PN=1;

Configuring TDM/HDLC Transmission

Data


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Step 1 ADD DEVIP: <SRN>, <SN>, <DEVTYPE >, <IPADDR >, <MASK >

Run the ADD DEVIP command to add the device IP address of the FG2a

board.

Step 2 ADD ETHIP: <SRN>, <SN>, <PN >, <IPINDEX>, <IPADDR >, <MASK

>

Run the ADD ETHIP command to add the port IP address of the FG2a

board.

Step 3 ADD IPRT: <SRN>, <SN>, <DSTIP >, <DSTMASK >, <NEXTHOP>

(Optional)

When the BSC6900 and the BTS are on different network segments, run

the ADD IPRT command to add an IP route to the BSC6900.

Configuring IP Over FE/GE

Transmission Data


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Step 4 SET BTSETHPORT : <IDTYPE>, <BTSID>, <PN >, <RATE >,

<MTU>

Run the SET BTSETHPORT command to set the port attributes of the BTS.

Step 5 SET BTSIP : <IDTYPE>, <BTSID>, <BTSIP >, <BSCIP>,

Run the SET BTSIP command to set the IP address of the BTS.

Step 6 ADD BTSIPRT: <IDTYPE>, <BTSID>, <DSTIP >, <DSTMASK >,

<NEXTHOP> (Optional)

When the BSC6900 and the BTS are on different network segments, run

the ADD BTSIPRT command to add an IP route to the BTS.


Transmission Data


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Step 7 ADD BTSESN: <IDTYPE>, <BTSID>, <DEVTYPE>,

<MAINDEVTAB>, <BAKDEVTAB>

Run the ADD BTSESN command to add the Equipment Serial

Number of the BTS..

Step 8 Add an adjacent node : ADD ADJNODE : <ANI>,

<NAME>, <NODET>

ANI: Adjacent Node ID

NAME: Node Name

NODET: Node Type


Transmission Data


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Step 9 Add an IP path ADD IPPATH :<ANI>, <PATHID >, <ITFT >,

<TRANST> ,< PATHT>,<IPADDR> , <PEERIPADDR >, <TXBW> , <RXBW

>

ANI: Adjacent Node ID

PATHID: IP path ID

ITFT: Interface Type

TXBW: Forward Bandwidth

RXBW: Backward Bandwidth


Transmission Data


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SET BTSIPCLKPARA 1

SET BTSCLK 2

END






START


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Set BTS IP Clock Server

Set BTS IP Clock Server SET BTSIPCLKPARA :<BTSID>, <

CLKPRTTYPE >, < SYNMODE >,< SYNTIMEDAY >,< SYNTIMEHOUR >,

< SYNTIMEMIN >,< MASTERIPADDR >,

BTSID: BTD Index

CLKPRTTYPE : Clock Protocol Type

SYNMODE : Clock Synchronization Mode

SYNTIMEDAY : Days of Inter Sync Period

SYNTIMEHOUR : Hours of Inter Sync Period

SYNTIMEMIN : Minutes of Inter Sync Period

MASTERIPADDR : Master Clock Server IP Address


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Set Clock Type of BTS SET BTSCLK (Optional): <BTSID>

<ClkType> <TRANSTYPE>

BTSID: BTS Index

CLOCK TYPE: INT_CLK(Internal Clock), TRCBSC_CLK(Trace BSC

Clock), EXTSYN_CLK(External Sync clock), IP_TIME(IP Clock),

IP_TRANSFER(Trace Transport Clock), TRCGPS_CLK(Trace GPS

Clock), UM_CLK(Um Clock), PEER_CLK(Peer Clock),

SYNETH_CLK(SynEth Clock)

TRANS TYPE: E1(E1), T1(T1), FE(FE)

Set Clock Type of BTS


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ACT BTS

END






START


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CHK BTS: <IDTYPE>, <BTSID>;

Use this command to check the BTS data integrity.

ACT BTS: <IDTYPE>, <BTSID>;

IDTYPE: Index type of the BTS.

BTSID: ID of the BTS.

BTSNAME: Name of the BTS


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Summary

The concept of Web LMT

Initial GSM data configuration steps of BTS3900

Configuring the Equipment Data, Logical Data, Transmission

Data, Clock Data


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OMB321410 MBTS GSM V100R004 Initial Data Configuration Based on LMT ISSUE1.00

Documents

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transmission data configuring

set clock type