BSC6900 GSM V900R011C00 Parameter Reference
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Purpose
This document provides information about the BSC6900 parameters,
including the meaning, value, and usage of th
Intended AudienceNetwork planners Field engineers System
engineers Shift operators
OrganizationEach parameter is described in the following
aspects. Description Parameter ID Parameter Name NE MML Command
Meaning Feature ID Feature Name Value Type GUI Value Range Actual
Value Range Unit Default Value Recommended Value Impact Parameter
Relationship Access Service Interrupted After Modification
Interruption Scope Interruption Duration (min)
Caution Validation of Modification Impact on Radio Network
Performance Introduced in Version Attribute
about the BSC6900 parameters, including the meaning, value, and
usage of the parameters.
ollowing aspects. Remarks Simple string for identifying a
parameter Full name of the parameter NEs on which the parameter is
set Commands for setting the parameter, and optional/mandatory
attribute of the parameter in each command Functions, functioning
ways, and protocols of the parameter Relevant feature ID Features
using the parameter Parameter value type Parameter value range
displayed on the GUI Actual parameter value range corresponding to
the GUI Value Range. For example, the GUI Value Range is 0, and the
corresponding Actual Value Range is OFF. Parameter value unit
Initial value provided by the system Values recommended in
different scenarios Parameter impact scope, that is, objects
specified when the parameter is set Relationship between this
parameter and other parameters. For example, to use this parameter,
you need to set related switches and parameters. Whether this
parameter is read/write or read only Whether modifying the
parameter value may interrupt the existing services Possible
interruption scope in the case that modifying the parameter value
may interrupt the existing services Possible interruption duration
in the case that modifying the parameter value may interrupt the
existing services
Cautions to be taken during the modification Requirements on how
to validate the modification of the parameter. For example, you may
need to reset the device to validate the modification. Impact of
the radio parameter on the network performance Version in which
this parameter is introduced Whether this parameter is a radio
parameter, a transport parameter, or an equipment parameter
Parameter ID
Parameter Name
NE
MML Command
Meaning
ABCDownQuality
ABCUpQuality
Downlink Quality Threshold in Assigning Better Cell BSC6900
Uplink Quality Threshold in Assigning Better Cell BSC6900 Maximum
Better Cell Assigning Duration BSC6900
SET Downlink quality level threshold for GCELLHOAD( the MS to be
assigned with a Optional) channel of the better cell. SET Uplink
quality level threshold for the GCELLHOAD( MS to be assigned with a
channel Optional) of the better cell. The maximum duration for the
BSC to select the best cell according to SET MRs in the MS
assigning GCELLHOAD( procedure. The BSC assigns the Optional)
channel of the serving cell to the Whether to enable the BTS to
support bypass function. HDLC ADD BTS and IP BTS do not support
BTS(Optional) this parameter. Whether to permit Abis flow control.
SET The flow control function helps in GCELLCCCH( better call
management. If Optional) congestion occurs, theFlow Control Used
along with "Abis system Timer 2" to control the change in SET cell
flow control levels.When the BSCTMR(Opti flow control level in the
cell onal) changes, the values ofFlowMAX Used along with "Abis MS
Control Timer 1" to control the change in SET cell flow control
levels.When the BSCTMR(Opti flow control level in the cell onal)
changes, the values of MS MAX This parameter controls the SET
strategy for idle timeslot selection BTSOTHPAR and optimization by
the PS A(Optional) channels. This parameter controls whether the
strategy for timeslot SET configuration and optimization is
BTSOTHPAR started. When this parameter is set A(Optional) to ON,
the for enabling the BTS Threshold bundled idle timeslots local
switching. When the SET congestion rate at the Abis BSSLS(Option
interface exceeds this threshold, al) the BTS local switching
iswhether This parameter specifies enabled. SET to enable the Abis
resource BTSFLEXABI adjustment TCHH function. SPARA(Optio It
specifies whether the TCHH is nal) preferentially allocated to the
MS Interval between detection of the Abis timeslot being in idle
state and SET releasing of the Abis timeslot. GCELLPSCH When
channels are idle, the timer M(Optional) is started. When the timer
expires,
ABCWaitMaxTime
Abis ByPass ABISBYPASSMODE Mode
BSC6900
ABISFCEN
SDCCH Congestion Flow Control Allowed BSC6900
AbisFCTimer1
Abis Flow Control Timer 1 BSC6900
AbisFCTimer2
Abis Flow Control Timer 2 BSC6900
Abis Idle TS ABISIDLETSALLOC Allocate Strategy BSC6900
ABISIDLETSCFGS WITCH
Abis Idle TS Configure Switch BSC6900
Abis Jam Rate AbisJamThreshold2 for BTS Local StartLs Switch
BSC6900
ABISRESADJTCHH TCHH Function FUNSW Switch Timer of Releasing
Abis Timeslot
BSC6900
ABISTSFREETM
BSC6900
AbisVer
Abis Interface Tag
BSC6900
SET BSCBASIC(O Phase tag for GSM protocols that ptional) the
Abis interface supports ADD AISSCFG(Opti onal) Duration available
for the BTS to collect the AB after the TRX or channel is activated
(threshold) for Mean opinion score judging an abnormal call. The
BTS SET computes the MOS of a call OTHSOFTPA periodically and
reports the call RA(Optional) MOS to pulse type of the PRACH,
Access the BSC in custom uplink PTCCH and packet control SET
acknowledge message of the MS. GCELLPSBA 8bit: 8 bit pulse access
mode; SE(Optional) 11bit: 11 bit pulse access mode. SET GCELLPRAC
H(Optional) Access control class of the MS Subcell preferred during
the incoming inter-BSC handover to SET the concentric cell. In the
case of GCELLHOIUO incoming inter-BSC handover to (Optional) the
concentric cell, the channels in SET GCELLPSOT HERPARA(Op Whether
the initial service is uplink, tional) downlink to compress the
address ADD Whether or neutral PPPLNK(Opti and control fields. If
this parameter onal) is set to ENABLE, the address and ADD control
area compression is MPGRP(Optio enabled. If this parameter is set
to ADD BTSPPPLNK( Optional) A flag bit indicates Whether to ADD
support the compression of the BTSMPGRP( address and control
fields. This parameter specifies whether SET to receive the CS
paging request BSCPSSOFT from A interface when the MS uses
PARA(Optiona a PS service. This parameter is l) used to control
theMSs where to Used for notifying paging retrieve relevant
parameters during SET cell reselection. GCELLIDLEA The default
value of this parameter D(Optional) is 0 in system set (ACS)[F],
Active coding message 3 and, has indicates a set of full-rate
coding SET rates currently available for calls. GCELLCCAM The AMR
is a set of multiple R(Optional) speech coding and decoding
rates.
ABLASTTIME
Duration of BTS Collecting AB[100 Millisecond] BSC6900
AbnormalMosThresh Abnormal Voice old MOS Threshold
BSC6900
ACCBURST
Access Burst Type
BSC6900
ACCCONTROLCLA Access Control SS Class
BSC6900
ACCESSOPTILAY
Incoming-to-BSC HO Optimum Layer BSC6900
AccStaServiceType
PS Initial Access Service Type BSC6900 Address and control field
compress
ACFC
BSC6900
ACFC
Support Address and Control Field Compress BSC6900
A Interface ACOOPERATPAGIN Paging CoGSWITCH ordination Switch
BSC6900 Additional Reselect Parameter ACS Indication BSC6900
ACTCDSETF
AMR ACS[F]
BSC6900
ACTCDSETH
AMR ACS[H]
BSC6900
ACTCDSETWB
AMR ACS[WB]
BSC6900
ACTL2REEST
Activate L2 Reestablishment Valid Time of BTS Resource
Activation
BSC6900
Active coding set (ACS)[H], indicates set of half-rate coding
SET rates currently available for calls. GCELLCCAM The AMR is a set
of multiple R(Optional) speech coding and decoding rates. Active
coding set (ACS)[WB], indicates a set of wide-band coding SET rates
currently available for calls. GCELLCCAM The AMR is a set of
multiple R(Optional) speech coding and decoding rates. Whether to
activate the function of L2 re-establishment. If this function SET
is activated, the BSC starts the GCELLSOFT( attempt of L2
re-establishment Optional) when the BSC receives an ERR ADD
AISSCFG(Opti Valid duration of the reserved TRX onal) or timeslot
alarm lower threshold. AC voltage When the input AC voltage is
lower SET than the value of this parameter, an BTSAPMUBP( alarm
indicating the abnormal AC Optional) is reported. SET The BTS
reports an alarm if the AC BTSDPMUBP( voltage exceeds the value of
this Optional) parameter. SET BTSDPMUBP( Optional) SET BTSAPMUBP(
Optional) The BTS reports an alarm if the AC voltage is lower than
the value of this parameter. an alarm if the AC The BTS reports
voltage exceeds the value of the AC voltage alarm upper threshold.
When the input AC voltage is higher than the value of this Whether
to hand over an MS to another channel during an intra-cell handover
through the assignment process Communication address of the CBUS3
on the bus 485. The configuration of this parameter must be
consistent with the actual physical connection. Otherwise, the
Interval for requesting the bandwidth for the secondary link when
the system is not in congestion state
ACTTIME
BSC6900
ACVLTHD
AC Voltage Lower Threshold BSC6900
ACVOLALARMH
AC Overvoltage Alarm Threshold BSC6900
ACVOLALARML
AC Undervoltage Alarm Threshold BSC6900
AC Voltage ACVUTHD Upper Threshold BSC6900 Assignment Procedure
in ADAPTASSIGNMEN Intra-Cell HO TFLOW Allowed BSC6900
ADDR
AddTransBwInt
AddTransBwNum
Communication Address Sub-Link Bandwidth Request Interval When
Not Congested Bandwidth for Secondary Link When Not Congested
BSC6900
BSC6900
BSC6900
SET GCELLSOFT( Optional) SET BTSFMUABP( Optional) SET BTSAPMUBP(
SET BSCPSSOFT PARA(Optiona l) SET BSCPSSOFT Bandwidth requested
each time for PARA(Optiona the secondary link when the l) system is
not in congestion state
ADJBSCDPC
Adjacent BSC DPC
BSC6900
ADJMODE
Adjustment Mode BSC6900
Support EGPRS ADJUSTULMCSTYP Uplink MCS E Dynamic Adjust Auto
Download Active Function Switch
BSC6900
ADLDACT
BSC6900
ADMODE
Auto Download Mode
BSC6900
ADMSTAT
Administrative State
BSC6900
ADMSTAT
Administrative State
BSC6900
ADMSTAT
Administrative State Offset Time Adjustment End Time Load
Threshold of Offset Adjustment Offset Time Adjustment Switch
BSC6900
ADD EXTNCELL(M andatory) COL BSCSYNCINF SET BTSEXCURSI
ON(Mandatory ) SET SET GCELLEGPR SPARA(Optio nal) SET BTSAUTODL
DACTINFO(O ptional) SET BTSAUTODL DACTINFO(O ptional) SET GCELLADMS
TAT(Mandator y) SET GTRXADMST AT(Mandatory ) SET GTRXCHANA
DMSTAT(Man datory)
The destination signaling point (DSP) of the adjacent BSC must
be an Iur-g DSP.
Whether to adjust the BTS offset manuallydynamically adjusting
the Mode of or automatically EGPRS uplink encoding scheme. Value 0
indicates dynamic adjustment of EGPRS uplink coding scheme is not
supported; This parameter specifies whether to enable the BTS
software autoloading and auto-activation function. If this
parameter is set to Yes, parameter specifies the This the BTS
software is automatic load mode of the BTS software. If this
parameter is set to common download, common loading is performed on
the
Administrative state of a cell
Administrative state of the TRX
Administrative state of the channel
ADTET
BSC6900
ADTLOD
BSC6900
ADD AISSCFG(Opti End time for adjusting the offset onal) time
Cell load threshold for adjusting the ADD offset time. If the load
threshold is AISSCFG(Opti exceeded, the offset time is not onal)
adjusted. ADD AISSCFG(Ma ndatory) Offset Time Adjustment Switch ADD
AISSCFG(Opti Start time for adjusting the offset onal) time
ADTON
BSC6900
ADTST
Offset Time Adjustment Start Time BSC6900
Advanced Alarm ADVALMMGRULET Management P Rule Type BSC6900
ADVER1
BTS Software Version 1
BSC6900
ADVER2
BTS Software Version 2
BSC6900
ADD BTSALMMGM RULE(Mandat ory) SET BTSAUTODL DACTINFO(O ptional)
SET BTSAUTODL DACTINFO(O ptional)
AEC_Echo_Path_De AEC Echo Path lay Delay
BSC6900
Advanced alarm management rule type parameter specifies the This
software version 1 that is automatically loaded and activated. The
version of the BTS software stored on the OMU must be This
parameter specifies the software version 2 that is automatically
loaded and activated. The BTS software stored on the OMU echo path
is traced,with echo If the must be consistent the this is judged
and controlled according SET to the trace result of the echo path
TCPARA(Opti parameters. Otherwise, the echo is onal) judged and
controlled according to SET This parameter is used for echo
TCPARA(Opti judgment and control when the onal) echo parameters are
notis lower If the local input voltage traced. than the value of
this parameter SET and the remote end transmits the TCPARA(Opti
voice signal, the AEC function uses onal) the comfort due toto
replace the Extra delay noise the transmission line. This parameter
should be set SET according to the actual conditions TCPARA(Opti
and is applicable to satellite onal) transmission. is used to This
parameter determine whether there are SET speech signals at the
local end. If TCPARA(Opti the local SNR is lower than the onal)
value of this parameter, echo SET This parameter indicates whether
TCPARA(Opti the acoustic echo cancellation onal) (AEC) functional
switch is on or off. SET TCPARA(Opti Threshold for detecting the
AEC onal) performance SET TCPARA(Opti Time for detecting the AEC
onal) performance Counter for radio link failures during an AMR
full rate call. See SET the description of "Radio Link GCELLCCBA
Timeout" in "SET SIC(Optional) GCELLCCBASIC".
AEC_Echo_Return_ AEC Echo Return Loss Loss BSC6900
AEC_Nlp_Gate
AEC Nlp Gate
BSC6900
AEC_Path_Delay
AEC Path Delay
BSC6900
AEC_SNR_Gate
AEC SNR Gate
BSC6900
AEC_Switch
AEC Switch
BSC6900
AEC Detect AECDetectThreshold Threshold
BSC6900
AECDetectTime
AEC Detect Time BSC6900
AFRDSBLCNT
AFR Radio Link Timeout
BSC6900
AFRSAMULFRM
AFR SACCH Multi-Frames
BSC6900
Number of SACCH multiframes during an AMR full rate call. See
SET the description of "SACCH MultiGCELLCCBA Frames" in "SET
SIC(Optional) GCELLCCBASIC". ADD GPS(Mandato ry) GPS receiver ID
ADD GPS(Mandato ry) GPS receiver type. failures Counter for radio
link during an AMR half rate call. See SET the description of
"Radio Link GCELLCCBA Timeout" in "SET SIC(Optional) GCELLCCBASIC".
multiframes Number of SACCH during an AMR half rate call. See SET
the description of "SACCH MultiGCELLCCBA Frames" in "SET
SIC(Optional) GCELLCCBASIC". SET ALMPORT(Ma ndatory) Alarm ID SET
ALMBLKPAR A(Mandatory) SET ALMLVL(Man datory) SET ALMSHLD(Ma
AGPSRECEIVERID GPS ID
BSC6900
AGPSRECEIVERTY PE GPS type
BSC6900
AHRDSBLCNT
AHR Radio Link Timeout
BSC6900
AHRSAMULFRM
AHR SACCH Multi-Frames
BSC6900
AID
Alarm ID
BSC6900
AID
Alarm ID
BSC6900
Alarm ID Identifier of the alarm. This parameter uniquely
identifies an alarm.
AID
Alarm ID
BSC6900
AID
Alarm ID
BSC6900
ADD Identifier of the alarm. This OBJALMSHL parameter uniquely
identifies an D(Optional) alarm. SET ENVALMPAR A(Mandatory) SET
BTSENVALM PORT(Option al) ADD BTSOBJALM SHLD(Mandat ory) Identifier
of the alarm. This parameter uniquely identifies an alarm.
AID
Alarm ID
BSC6900
AID
Alarm ID.
BSC6900
Alarm ID
AID
Alarm ID.
BSC6900
Alarm ID
AIDDELAYPROTEC Aiding Delay TTIME Protect Time
BSC6900
Delay time for mutual-aid detection on a cell after the cell is
initialized. SET When the cell initialization has just GCELLSOFT(
finished, the cell is in an unstable Optional) state. Mutual-aid
detection at this ADD OBJALMSHL D(Optional) ADD BTSOBJALM
SHLD(Mandat ory) SET OTHSOFTPA RA(Mandatory )
AIDST
Alarm Select Type
BSC6900
Type of alarm selection
AIDST
Alarm Select Type A Interface Msg [End2end User Tracing]
BSC6900
AInterMsgTrace
BSC6900
Alarm selection mode Whether to trace A-interface messages
during end-to-end user tracing. The end-to-end tracing is conducted
throughout the network. The A-interface tracing results can
A IF FC Discard AINTFFCDISCLUEN LOC UP Enable
BSC6900
SET Whether to allow flow control for BSCFCPARA( the location
update services during Optional) the A interface flow control SET
whether to allow flow control for the BSCFCPARA( mobile-originated
services during Optional) the A interface flow control SET
BSCFCPARA( Optional) Whether to allow flow control for the
mobile-terminated services during the Aallow flow flow control
Whether to interface control for the other services including SET
emergency call, call re-establish, BSCFCPARA( and LMU services
during the A Optional) interface flow control SET Whether to enable
the A interface BSCFCPARA( flow control mechanism in the Optional)
BSC6900 method used by the Flow control BSC6900. Flow control
method at SET the Abis interface: When receiving BSCFCPARA( a
channel request message, the Optional) BSC6900 begins flow control
on SET BSCFCPARA( Rate of discarded services in level Optional) 1
of the A interface flow control SET BSCFCPARA( Rate of discarded
services in level Optional) 2 of the A interface flow control
AINTFFCDISCMOC A IF FC Discard EN MOC Enable
BSC6900
AINTFFCDISCMTC A IF FC Discard EN MTC Enable A IF FC Discard
Other Service Enable
BSC6900
AINTFFCDISCOSE N
BSC6900
AINTFFCEN
A Interface Flow Control Enable
BSC6900
AINTFFCMETHOD
A Interface Flow Control Method
BSC6900
A IF FC Service AINTFFCRSRATE1 Rate in Level 1
BSC6900
A IF FC Service AINTFFCRSRATE2 Rate in Level 2
BSC6900
A IF FC Service AINTFFCRSRATE3 Rate in Level 3
BSC6900
SET BSCFCPARA( Rate of discarded services in level Optional) 3
of the A interface flow control SET BSCFCPARA( Rate of discarded
services in level Optional) 4 of the A interface flow control SET
BSCFCPARA( Rate of discarded services in level Optional) 5 of the A
interface flow control SET BSCFCPARA( Rate of discarded services in
level Optional) 6 of the A interface flow control CSD service
redundancy level, SET which is configured to decrease the
BSCBASIC(O data loss rate during transmission ptional) in A over IP
mode. SET TCPARA(Opti onal) Fixed gain value in fixed gain mode SET
TCPARA(Opti onal) Target level in fixed level the This parameter
restrains mode maximum gain to the input signal. It SET is valid
only when "ALC Mode" is TCPARA(Opti "FIXEDLEVEL" or "ADAPTIVE". If
onal) the parameter is set to a small SET TCPARA(Opti Maximum
target level in adaptive onal) ALC mode SET TCPARA(Opti Mimumum
target level in adaptive onal) ALC mode SET TCPARA(Opti onal) ALC
level control mode SET TCPARA(Opti Whether to enable the adaptive
onal) level control (ALC) function
A IF FC Service AINTFFCRSRATE4 Rate in Level 4
BSC6900
A IF FC Service AINTFFCRSRATE5 Rate in Level 5
BSC6900
A IF FC Service AINTFFCRSRATE6 Rate in Level 6 CSD Service
AIPCSDSRVRDNDL Redundancy EV Level
BSC6900
BSC6900
ALC_Fix_Gain
ALC Fix Gain
BSC6900
ALC_Fix_Target_Le ALC Fix Target vel Level
BSC6900
ALC_Max_Gain
ALC Max Gain
BSC6900
ALC_Max_Target_L ALC Max Target evel Level BSC6900
ALC_Min_Target_Le ALC Min Target vel Level
BSC6900
ALC_Mode
ALC Mode
BSC6900
ALC_Switch
ALC Switch
BSC6900
ALIVERETRY
Alive Retry
BSC6900
Retry times after the timer for the reply from the peer expires
during SET the NSVC live test. If the reply is BSCNSPARA( not
received after the system Optional) resends the message according
to SET BSCNSPARA( Optional) Duration of the timer to wait for the
reply from the peer during the NSVC livethe bandwidth occupied
Specifies test when the " transmission resource ADD group type " is
IP and the " RSCGRP(Man bandwidth mode " is datory) HALF_DUPLEX.
SET BSCPSSOFT PARA(Optiona Whether to reassign the TBF for a l)
different Trx When this parameter is set to ON, the GMM/SM
signaling service is SET assigned only one PDCH; GCELLPSCH
otherwise, the GMM/SM signaling M(Optional) service is assigned one
or more Maximum ratio of the number of SET AMR half rate channels
to the total GCELLCHMG number of channels in a cell. When
BASIC(Option the resource allocation principle is al) determined
allow EDA multiplex. Whether to by the BSC, no AMR SET "Not Allow":
the TBF of the EDA BSCPSSOFT cannot be multiplexed with other
PARA(Optiona TBR; "Allow": the TBF of the EDA l) can be multiplexed
measure report Number of allowed with other TBF. missed. If the
number of allowed SET measure report missed exceeds GCELLNC2P this
value, the previous measure ARA(Optional) report is invalid.of the
number of Maximum ratio SET half rate channels to the total
GCELLCHMG number of channels in a cell. When BASIC(Option the
resource allocation principle is al) determined by the BSC, that
all Value ALLCIC indicates no half E1/T1 timeslots on the A
interface ADD must be set with the start CIC. AE1T1(Manda Value
ALLNULL indicates that all tory) E1/T1 ALLCIC indicates that all
Value timeslots on the A interface E1/T1 timeslots on the PB
interface ADD must be set with the start CIC. PBE1T1(Optio Value
ALLNULL indicates that all nal) E1/T1 timeslots on the PB interface
If the feed current of the TMA on SET tributary 0 is smaller than
the value BTSDATUBP( of this parameter, the TMA Low Optional)
Temperature alarm is triggered.
ALIVETIMER
Alive Timer
BSC6900
AllBw
Bandwidth Resource Reallocation to Different Trx
BSC6900
ALLOCDIFFTRX
BSC6900
Allocate One ALLOCSINGLEPDC PDCH for HFORSIGNALLING Signaling
Data
BSC6900
ALLOWAMRHALFR ATEUSERPERC Ratio of AMR-HR BSC6900
ALLOWEDADAMUL Allow EDA TIPLEX Multiplex
BSC6900
Allowed Measure ALLOWEDMEASRP Report Missed TMISSEDNUM Number
BSC6900
ALLOWHALFRATE USERPERC
Ratio of TCHH
BSC6900
ALLTSTYPE
Timeslot Type
BSC6900
ALLTSTYPE
Timeslot Type Feed Tri. 0 TMA Low Current Alarm Threhold
BSC6900
ALMD0
BSC6900
ALMD1
Feed Tri. 1 TMA Low Current Alarm Threhold Feed Tri. 2 TMA Low
Current Alarm Threhold Feed Tri. 3 TMA Low Current Alarm Threhold
Feed Tri. 4 TMA Low Current Alarm Threhold Feed Tri. 5 TMA Low
Current Alarm Threhold
BSC6900
ALMD2
BSC6900
ALMD3
BSC6900
ALMD4
BSC6900
ALMD5
BSC6900
ALMDISACDUR
Alarm Disappear Accumulate Duration BSC6900
ALMENABLE
Alarm Enable Flag
BSC6900
AlmId
Alarm ID.
BSC6900
ALMID
Alarm ID.
BSC6900
ALMLMTDOWN
Lower Alarm
BSC6900
ALMLMTUP1
Upper Alarm
BSC6900
ALMLMTUP2
Upper Alarm
BSC6900
If the feed current of the TMA on SET tributary 1 is smaller
than the value BTSDATUBP( of this parameter, the TMA Low Optional)
Temperature alarm is triggered. If the feed current of the TMA on
SET tributary 2 is smaller than the value BTSDATUBP( of this
parameter, the TMA Low Optional) Temperature alarm is triggered. If
the feed current of the TMA on SET tributary 3 is smaller than the
value BTSDATUBP( of this parameter, the TMA Low Optional)
Temperature alarm is triggered. If the feed current of the TMA on
SET tributary 4 is smaller than the value BTSDATUBP( of this
parameter, the TMA Low Optional) Temperature alarm is triggered. If
the feed current of the TMA on SET tributary 5 is smaller than the
value BTSDATUBP( of this parameter, the TMA Low Optional)
Temperature alarm is triggered. Alarm clearance accumulated ADD
failure duration.Threshold for the BTSALMMGM accumulated duration
in which the RULE(Mandat alarm persists. If the accumulated ory)
duration exceeds this threshold, an SET Whether the configuration
of alarm BTSAPMUBP( parameters is allowed. Optional) In multi-mode
scenario, the value SET of this parameter must be the BTSDPMUBP(
same as the value of the parameter SET BTSALMFLAS HTHD(Mandat ory)
ID of the intermittent alarm. ADD BTSALMMGM RULE(Mandat ory) Alarm
ID If the input current of the antenna SET feeder is smaller than
the value of BTSDGPSBP( this parameter, an alarm related to
Optional) the GPS antenna is reported. If the input current of the
antenna feeder is greater than the value of SET this parameter and
"GPS or RGPS" BTSDGPSBP( is set to "GPS", an alarm related to
Optional) the GPS antenna is reported. If the input current of the
antenna feeder is greater than the value of SET this parameter and
"GPS or RGPS" BTSDGPSBP( is set to "RGPS", an alarm related
Optional) to the RGPS antenna is reported.
ALMOCACDUR
Alarm Occurrence Accumulate Duration
BSC6900
Alarm Occur AlmOccurAccuTime Accumulative HThd Time Threshold
Alarm Clear AlmOccurAccuTime Accumulative LThd Time Threshold
BSC6900
BSC6900
AlmOccurTimesHTh Alarm Occur d Times Threshold BSC6900
AlmOccurTimesLTh Alarm Clear d Times Threshold BSC6900 Alarm
Parameter Configuration Enabled BSC6900
ALMPARACFGFLA G
ALMTP
Alarm Type
BSC6900
ALPHA
ALPHA
BSC6900
Accumulated alarm occurrence duration.Threshold for the
accumulated duration in which the alarm persists. If the
accumulated duration exceeds this threshold, an Alarm Occur
Accumulative Time refers to the percentage of the alarm occurrence
accumulative time to "Flash Statis Alarm Raise Time Window". If the
alarm Alarm Clear Accumulative Time refers to the percentage of the
alarm clearance accumulative time to "Flash Statis Alarm Clear Time
Window". If the alarm clearance If the number of alarm flashes
exceeds the value of this parameter within the time specified by
"Flash Statis Alarm Raise Time Window", the BTS Statistical Alarm
If the number of alarm flashes is smaller than the value of this
parameter within the time specified by "Flash Statis Alarm Clear
Time Window",the configuration of alarm Whether the BTS Statistical
Alarm parameters is allowed. The value SET "YES" indicates that the
BTSDHEUBP( configuration is allowed, and the Optional) value "NO"
indicates that the EXP ALMLOG(Opti onal) STA Type of the alarm. The
alarm can ALMLOG(Opti be aused to perform open loop It is fault
alarm or an event alarm. SET power control. Alpha parameter is
GCELLPSPW used by the MS to calculate the PARA(Optiona output power
PCH of the uplink l) PDCH. This parameter is used to ADD BTSALMMGM
RULE(Mandat ory) SET BTSALMFLAS HTHD(Option al) SET BTSALMFLAS
HTHD(Option al) SET BTSALMFLAS HTHD(Option al) SET BTSALMFLAS
HTHD(Option al) SET GCELLLCS(O Decimal part of the antenna ptional)
altitude ADD GPS(Mandato Height of the specified GSP ry) receiver
antenna SET GCELLLCS(O ptional) Integer part of the antenna
altitude ADD GPS(Mandato Height of the specified GSP ry) receiver
antenna
ALTIDECI
Antenna Altitude Decimal Part BSC6900
ALTITUDE
GPS antenna altitude
BSC6900
ALTITUDE
Antenna Altitude Int Part BSC6900
ALTITUDEIMP
GPS antenna altitude
BSC6900
ALVL
Alarm Severity
BSC6900
ALVL
Alarm Severity
BSC6900
EXP ALMLOG(Opti onal) SET ALMLVL(Man datory) SET ALMSCRN(M
Alarm severity. One or more severities can be selected. By
default, all severities are selected. Alarm severity. One or more
severities can be selected. By default, all severities are
selected.
AMPC0
Feed Tri. 0 TMA Configuration
BSC6900
SET BTSDATUBP( Whether to supply power to the Optional) TMA on
tributary 0 SET BTSDATUBP( Whether to supply power to the Optional)
TMA on tributary 1 SET BTSDATUBP( Whether to supply power to the
Optional) TMA on tributary 2 SET BTSDATUBP( Whether to supply power
to the Optional) TMA on tributary 3 SET BTSDATUBP( Whether to
supply power to the Optional) TMA on tributary 4 SET BTSDATUBP(
Whether to supply power to the Optional) TMA on tributary 5 SET
Maximum degree by which the GCELLPWR2( BSC can control the power of
the Optional) AMR BTS dynamically Whether to enable the III power
SET control algorithm for AMR calls. If GCELLPWR3( enabled, power
control is Optional) performed on AMRthe adaptive Whether to enable
calls. adjustment function of AMR SET downlink threshold. After
this GCELLCCAM function is enabled, the BTS R(Optional) estimates
the long-term voice Number of measurement reports sampled for
averaging downlink SET AMR signal strength. A single GCELLPWR2(
measurement report may not Optional) reflect the actual network
situations
AMPC1
Feed Tri. 1 TMA Configuration
BSC6900
AMPC2
Feed Tri. 2 TMA Configuration
BSC6900
AMPC3
Feed Tri. 3 TMA Configuration
BSC6900
AMPC4
Feed Tri. 4 TMA Configuration
BSC6900
AMPC5
Feed Tri. 5 TMA Configuration
BSC6900
AMR BTS PC AMRBTSPWRNUM Class
BSC6900
AMRCALLPCALLO WED
AMRDADTHAW
Allow III Power Control For AMR BSC6900 AMR Downlink Adaptive
Threshold Allowed BSC6900 AMR Filter Length for DL RX_LEV
AMRDLLEVFTLEN
BSC6900
AMR DL MR. Number AMRDLPREDLEND Predicted
BSC6900
SET GCELLPWR2( Optional) SET GCELLPWR2( Optional) SET GCELLPWR2(
Optional) SET GCELLPWR2( Optional) SET GCELLPWR2( Optional) SET
GCELLPWR2( Optional) SET GCELLPWR2( Optional) SET GCELLPWR2(
Optional)
AMRDLQHTHRED
AMR DL Qual. Upper Threshold BSC6900
AMRDLQLTHRED
AMR DL Qual. Lower Threshold BSC6900
AMR Filter Length for DL AMRDLQUAFTLEN Qual. AMR DL Qual
AMRDLQUALBADT Bad Trig RIG Threshold
BSC6900
BSC6900
AMRDLQUALBADU AMR DL Qual PLEV Bad UpLEVDiff
BSC6900
AMR DL RX_LEV AMRDLSSHTHRED Upper Threshold BSC6900
AMR DL RX_LEV AMRDLSSLTHRED Lower Threshold BSC6900
Number of downlink AMR measurement reports that the BSC
predicts. The BSC takes a while to confirm the power control effect
of a powerlevel threshold for Thus, Quality control command.
decreasing downlink AMR signal power. If the BTS transmits AMR
signals at a quality level less than "AMR DL Qual. Upper for
Quality level threshold Threshold", increasing downlink AMR signal
power. If the BTS transmits AMR signals at a quality level greater
than "AMR measurement reports Number of DL Qual. Lower sampled for
averaging downlink AMR signal quality. A single measurement report
may not reflect the actual power control, if During downlink
network situations the downlink receive quality level is equal to
or greater than this threshold, "AMR DL RX_LEV Upper Threshold" is
increased by During downlink power control, if the downlink receive
quality level is equal to or greater than "AMR DL Qual Bad Trig
Threshold", "AMR DL RX_LEV Upper Threshold" is Upper threshold for
downlink AMR signal strength. If the downlink received AMR signal
level is greater than this threshold, a power decrease is Lower
threshold for downlink AMR signal strength. If the downlink
received AMR signal level is less than this threshold, a power
increase is
AMRFULLTOHALFH AMR F-H Ho OALLOW Allowed AMR F-H Ho
AMRFULLTOHALFH ATCB Adjust OATCBADJSTEP Step
BSC6900
BSC6900
AMRFULLTOHALFH AMR F-H Ho OATCBTHRESH ATCB Threshold BSC6900 AMR
F-H Ho AMRFULLTOHALFH Pathloss Adjust OPATHADJSTEP Step
BSC6900
SET Whether to enable the algorithm for GCELLHOBA the load-based
AMR handover SIC(Optional) between full rate and half rate With
"F-H Ho Period" and the duration for triggering handover SET from
full rate to half rate, this GCELLHOBA parameter determines the
current SIC(Optional) ATCB offset by which toAMR threshold for the
choose handover from full rate to half rate. SET If the ATCB of an
AMR full rate call GCELLHOBA is equal to or greater than this
SIC(Optional) threshold, Ho Period" and handed With "F-H the AMR
call is the duration for triggering handover SET from full rate to
half rate, this GCELLHOBA parameter determines the current
SIC(Optional) path loss offset by which to choose
AMR F-H Ho AMRFULLTOHALFH Pathloss OPATHTHRESH Threshold
BSC6900
SET GCELLHOBA SIC(Optional) SET GCELLHOBA SIC(Optional) SET
GCELLHOBA SIC(Optional) SET GCELLHOBA SIC(Optional) SET GCELLHOBA
SIC(Optional) SET GCELLHOBA SIC(Optional) SET GCELLHOBA
SIC(Optional) SET GCELLHOBA SIC(Optional)
AMRFULLTOHALFH AMR F-H Ho OQUALTHRESH Qual. Threshold
BSC6900
AMRFULLTOHALFH AMR F-H Traffic OTHRESH Threshold
BSC6900
AMRHALFTOFULLH AMR H-F Ho OATCBTHRESH ATCB Threshold BSC6900 AMR
H-F Ho AMRHALFTOFULLH Pathloss OPATHTHRESH Threshold
BSC6900
AMRHALFTOFULLH Allow AMR H-F OQUALALLOW Quality-based HO
BSC6900
AMRHALFTOFULLH AMR H-F Ho OQUALTHRESH Qual. Threshold
BSC6900
AMRHALFTOFULLH AMR H-F Traffic OTHRESH Threshold
BSC6900
Path loss threshold for the AMR handover from full rate to half
rate. If the path loss of an AMR full rate call is equal to or less
than this threshold, the AMR call is handed Quality threshold for
the AMR handover from full rate to half rate. If the uplink and
downlink receive quality levels of an AMR full rate call are equal
tofor the AMR this Load threshold or less than handover from full
rate to half rate. If the cell load is greater than this threshold,
the AMR full rate calls are handed over for half AMR ATCB threshold
to the rate. handover from half rate to full rate. If the ATCB of
an AMR half rate call is less than this threshold, the AMR loss is
handed for the AMR Path call threshold over from half handover from
half rate to full rate. If the path loss of an AMR half rate call
is greater than this threshold, the AMR call is handed over from
Whether to enable the algorithm for the uplink and downlink receive
quality based AMR handover from half rate to full rate the AMR
Quality threshold for handover from half rate to full rate. If the
receive quality level of an AMR half rate call is greater than this
threshold, the AMR call is Load threshold for the AMR handover from
half rate to full rate. If the cell load is less than this
threshold, the AMR half rate calls are handed over to full
rate.
AMR MAX Up AMRMAXADJPCVA Adj. PC Value by L Qual. BSC6900 AMR
MAX Down Adj. Value Qual. Zone 0 BSC6900 AMR MAX Down Adj. Value
Qual. Zone 1 BSC6900 AMR MAX Down Adj. Value Qual. Zone 2
BSC6900
AMRMAXSTEP0
AMRMAXSTEP1
AMRMAXSTEP2
SET Maximum step by which the power GCELLPWR2( can be increased
according to Optional) received signal by which the power Maximum
step quality can be decreased when the SET received signal quality
belongs to GCELLPWR2( quality zone 0. Optional) Huawei power
control algorithm Maximum step by which the power can be decreased
when the SET received signal quality belongs to GCELLPWR2( quality
zone 1. Optional) Huawei power control algorithm Maximum step by
which the power can be decreased when the SET received signal
quality belongs to GCELLPWR2( quality zone 2. Optional) Huawei
power control algorithm
AMR MAX Up AMRMAXVALADJR Adj. PC Value by X RX_LEV BSC6900 AMR
MR. Compensation AMRMRCOMPREG Allowed
BSC6900
SET Maximum step by which the power GCELLPWR2( can be increased
according to Optional) received signal level Whether to enable the
compensation of AMR SET measurement reports in Huawei GCELLPWR2(
power control algorithm generation Optional) II SET Minimum
interval between two GCELLPWR2( consecutive AMR power control
Optional) commands SET GCELLPWR2( Optional) SET GCELLPWRB
ASIC(Optional ) SET GCELLCHMG AD(Optional) SET GCELLCHMG
AD(Optional) SET GCELLCCAM R(Optional) SET GCELLPWR2( Optional) SET
GCELLPWR2( Optional) SET GCELLPWR2( Optional) SET GCELLPWR2(
Optional) Maximum step by which the power can be decreased
according to received of levels by which the BTS Number signal
quality increases the power of an SACCH frame. This parameter is
used for SACCH power control. When sending an SACCHthe BSCthe BTS
Whether to enable frame, to assign AMR half rate channels
preferentially according to the channel types allowed by the MSC
and the current for assigning ratio Load threshold TCH seizure half
rate channels preferentially. If the current TCH seizure ratio of
the cell is greater than this threshold, AMR half rate channels are
assigned Whether to enable the adaptive adjustment function of AMR
uplink threshold. After this function is enabled, the BTS estimates
the long-term voice quality (indicated Number of measurement
reports sampled for averaging uplink AMR signal strength. A single
measurement report may not reflect the actual network situations
Number of uplink AMR measurement reports that the BSC predicts. The
BSC takes a while to confirm the power control effect of a
powerlevel threshold for Thus, Quality control command. decreasing
the power of an uplink AMR call. If the MS transmits AMR signals at
a quality level less than "AMR ULQual. Upper Threshold", Quality
level threshold for increasing the power of an uplink AMR call. If
the MS transmits AMR signals at a quality level greater than "AMR
UL Qual. Lower
AMRPCADJPERIOD AMR PC Interval BSC6900 AMR MAX Down Adj. PC
Value by Qual. BSC6900
AMRQUALSTEP
AMR SACCH AMRSADLUPGRAD Downlink Power E Upgrade
BSC6900
AMRTCHHPRIORAL AMR TCH/H LOW Prior Allowed AMR TCH/H Prior Cell
Load Threshold AMR Uplink Adaptive Threshold Allowed AMR Filter
Length for UL RX_LEV
BSC6900
AMRTCHHPRIORL OAD
BSC6900
AMRUADTHAW
BSC6900
AMRULLEVFTLEN
BSC6900
AMR UL MR. Number AMRULPREDLEND Predicted
BSC6900
AMRULQHTHRED
AMR UL Qual. Upper Threshold BSC6900
AMRULQLOWTHRE AMR UL Qual. D Lower Threshold BSC6900
AMR Filter Length for UL AMRULQUAFTLEN Qual AMR UL Qual.
AMRULQUALBADT Bad Trig RIG Threshold
BSC6900
SET GCELLPWR2( Optional) SET GCELLPWR2( Optional) SET GCELLPWR2(
Optional) SET GCELLPWR2( Optional) SET GCELLPWR2( Optional) SET
OTHSOFTPA RA(Optional) SET AITFOTHPAR A(Optional) SET TCPARA(Opti
onal)
BSC6900
AMRULQUALBADU AMR UL Qual. PLEV Bad UpLEVDiff
BSC6900
AMR UL RX_LEV AMRULSSHTHRED Upper Threshold BSC6900
AMR UL RX_LEV AMRULSSLTHRED Lower Threshold BSC6900 MAX Retrans
Reset Circle Msg on A-I BSC6900 MAX Reset Mesg Retransmission on
A-I BSC6900
AN19
AN4
ANC_Max_Gain
ANC Max Gain
BSC6900
Number of measurement reports sampled for averaging uplink AMR
signal quality. A single measurement report may not reflect the
actual network situations During uplink power control, if the
uplink receive quality level is equal to or greater than this
threshold, "AMR UL RX_LEV Upper Threshold" is increased by "AMR
During uplink power control, if the uplink receive quality level is
equal to or greater than "AMR UL Qual. Bad Trig Threshold", "AMR UL
RX_LEV Upper Threshold"AMR Upper threshold for uplink is signal
strength If the uplink received AMR signal level is greater than
this threshold, a power decrease isuplink AMR Lower threshold for
computed. signal strength. If the uplink received AMR signal level
is less than this threshold, a power increase is computed. Then,
Maximum number of retransmissions of the A-interface circuit reset
message. When an Ainterface circuit of the BSC is reset, the BSC
sends theof times of Maximum number reset message resending a reset
message at the A interface. When the BSC6900 is reset, the BSC6900
sends a reset message to theto the signals from Maximum gain MSC
and starts a the remote end. If the parameter is set to a small
value, the target SNR may be restrained when the signal arrives at
the local end.
ANC_Switch
ANC Switch
BSC6900
ANC_Target_SNR
ANC Target SNR BSC6900
ANGLE
RET Antenna Tilt Angle BSC6900
ANI
Adjacent Node ID BSC6900
SET TCPARA(Opti Whether to enable the adaptive onal) noise
cancel (ANC) function The system adjusts the remote SET input so
that the ratio of the remote TCPARA(Opti signal to the local noise
is above onal) the value of this parameter. SET BTSANTANG
LE(Mandatory ) Tilt angle of the RET antenna ADD ADJNODE(Ma
ndatory) ADD Uniquely identifies an adjacent IPPATH(Mand node
ANI
Adjacent node ID BSC6900
ADD IPMUX(Manda tory) ADD Adjacent node identifier of this IP
IPPATHBIND( path SET ENVALMPAR A(Optional) New name of the alarm
SET TCPARA(Opti onal) ANR parameter determines the This mode noise
depression degree. A large SET absolute value of this parameter
TCPARA(Opti corresponds to a strong onal) depression. SET
TCPARA(Opti onal) ANR target noise level SET TCPARA(Opti Whether to
enable the adaptive onal) noise restrain (ANR) function SET
GCELLLCS(O ptional) SET BTSDGPSBP( Optional) SET BTSUSCUBP( SET
BTSDGPSBP( Optional) SET BTSUSCUBP(
ANM
Alarm Name
BSC6900
ANR_Mode
ANR Mode
BSC6900
ANR_Noise_Reducti ANR Noise on_Level Reduction Level
BSC6900
ANR_Noise_Target_ ANR Noise Level Target Level
BSC6900
ANR_Switch
ANR Switch
BSC6900
ANTAANGLE
Antenna Azimuth Angle BSC6900
ANTENNALONG
GPS Antenna Delay
BSC6900
Size of the azimuth angle of the cell antenna the feeder cable.
The Length of GPS satellite card is connected to the antenna
through feeder cables. The transmission delay on the feeder cable
can be calculated on
ANTENNAPOWERS Antenna Power WITCH Supply Switch
BSC6900
Power supply switch of the GPS antenna feeder
ANTIERRFLAG
E1T1 anti-error switch
BSC6900
ADD MPGRP(Optio nal) E1T1 anti-error switch. SET BTSTHEFTAL
Whether to enable the BTS to clear M(Optional) the burglar alarm
automatically LOD RETANTCFG( Mandatory) SET BTSANTANG Number of the
antenna
AntiTheftAllow
Burglar Alarm Auto Clear Permit BSC6900
ANTNO
Antenna No.
BSC6900
ANTPASSNO
Antenna Pass No BSC6900 Sub-Location Group Antenna Pass No.
ANTPASSNO
BSC6900
AORB
Down TRX1 A or B BSC6900
ADD TRXBIND2PH YBRD(Mandat Number of the antenna feeder ory)
channel mapped to the RXU of a Antenna pass No. of the RXU
sub-location group. The parameter ADD is configured only when the
MRRU BTSBINDLOC or GRRU is used in the subGRP(Optional) location
group. ADD BTSANTFEE DERBRD(Man datory) Antenna pass number of the
SET downlink tributary ADD MTP3LNK(Ma Number of a port on the A
interface ndatory) board layer application type of the Upper SCTP
link. The upper layer ADD application type of A and LB SCTPLNK(Ma
interface is M3UA. In the BSC ndatory) disaster tolerance, the
application ADD SEMILINK(Ma ndatory) SET BSCPSSOFT PARA(Optiona l)
SET BSCPSSOFT PARA(Optiona l) SET BSCPSSOFT PARA(Optiona l) SET
BSCPSSOFT PARA(Optiona l) SET BSCPSSOFT PARA(Optiona l) SET
BSCPSSOFT PARA(Optiona l)
APN
A interface port No.
BSC6900
APP
Application type
BSC6900
APPTYPE
Application Type BSC6900
AqmM
AQM N Update Interval
BSC6900
AqmMaxTh
AQM Maximum Threshold
BSC6900
AqmMinTh
AQM Congestion Threshold BSC6900 AQM Packet Discard Initial
Interval
AqmNinit
BSC6900
AqmNLowerBound
AQM Packet Discard Interval Lower Threshold BSC6900 AQM Packet
Discard Interval Upper Threshold BSC6900
AqmNUpBound
Application type of the semipermanent link Update frequency of
the value N (packet drop interval), indicating that the packet drop
interval is updated after N packets are transmitted. threshold of
the TBF Upper length buffer queue. If the length of the TBF buffer
queue exceeds this threshold, whether the packets are discarded
isthreshold of the TBF Congestion determined according buffer
queue. If the congestion level in the TBF buffer queue exceeds this
threshold, whether the packets are of the interval Initial value
discarded actively is (indicated by N) at which the packets in the
TBF buffer queue are discarded. The value N indicates the frequency
of Lower threshold of the interval for discarding the packets in
the TBF buffer queue, that is, the minimum value of N (packet drop
interval). Upper threshold of the interval for discarding the
packets in the TBF buffer queue, that is, the maximum value of N
(packet drop interval).
AqmSwitch
AQM Switch
BSC6900
AqmTarTh
AQM Target Threshold
BSC6900
SET BSCPSSOFT PARA(Optiona l) AQM switch SET BSCPSSOFT
PARA(Optiona Target threshold of the TBF buffer l) queue SET
BSCBASIC(O ptional) CMP BRDAREA(Op tional) LOD PATCH(Optio LOD
BRD(Optional) SYN BRDAREA(Op tional) SET GTRXRLALM( Optional) SET
GTRXRLALM( Optional) SET GTRXRLALM( Optional) STR IPCHK(Option
al)
AreaCode
Area Code
BSC6900
Local area code, for example, 021 for Shanghai
AREAFLAG
Area flag
BSC6900
Area flag
AREAFLAG
Area flag Abnormal Release Threshold
BSC6900
AREDISTHD
BSC6900
ARELBASE
Abnormal Release Statistic Base BSC6900
ARELWTHD
Abnormal Warn Threshold
BSC6900
ARPRETRY
ARP packet resend times
BSC6900
Area flag for reporting the Threshold recovery alarm for the
abnormal release alarm. If the percentage of the abnormal channel
releases is equal to or less than this threshold, Release
statistics base for subchannels. This parameter indicates the
number of times that a subchannel is activated. In a timeslot, the
release statistics Threshold for reporting the abnormal release
alarm. In a timeslot, the release statistics base, B, multiplied by
the number of channels, N, is the channel Retransmission times upon
ARP timeout. When the ARP request times exceeds the retransmission
time without a response, the ARP/BFD detection failure alarm is
ARPTIMEOUT
ARP packet timeout[100ms] BSC6900
STR IPCHK(Option al) ARP packet timeout time ADD MTP3LNK(Ma
ndatory) ADD ATERSL(Opti onal) ADD ATERCONSL(
ASN
A interface slot No.
BSC6900
Number of the slot where the A interface board is located
ASN
A interface slot No.
BSC6900
Number of the slot where the A interface board is located
ASRN
A interface subrack No.
BSC6900
ASS
Event Type
BSC6900
ADD MTP3LNK(Ma ndatory) EXP ALMLOG(Opti onal) STA
ALMLOG(Opti
Number of the subrack where the A interface board is located
Network management type of the alarm. By default, all network
management types are selected.
ASS
Event Type
BSC6900
SET Network management type of the ENVALMPAR alarm. By default,
all network A(Optional) management types are selected. SET Switch
for assigning the channel of GCELLHOAD( a better cell to the MS
during MS Optional) access. parameter is set to When this ENABLE,
if the cell supports direct SET retry and the current cell load is
GCELLCCBA equal to or larger than the value of SIC(Optional) "Cell
direct retry forbidden SET GCELLCHMG AD(Optional) SET BTSAPMUBP(
Optional) SET BTSDEMUBP( Offset relative to the level threshold for
determining whether to assign a channel in the overlaid where the
Number of the cabinet subcell associated RXU board is installed.
This parameter is valid for DRRU, MRRU, GRRU, or BTS3900E board in
of the cabinet where the Number the remote monitoring associated
RXU board is installed. SET This parameter is valid for DRRU,
BTSRXUBP(M MRRU, GRRU, or BTS3900E andatory) board in the remote
monitoring SET BTSAPMUBP( Optional) SET Number of the slot where
the BTSDEMUBP( associated RXU board is installed. SET BTSRXUBP(M
andatory) SET BTSAPMUBP( Optional) SET BTSDEMUBP(
AssignBetterCellEn
Assigning Better Cell Allowed Assignment Cell Load Judge
Enable
BSC6900
ASSLOADJUDGEE N
BSC6900
Assign to ASSOLRXLEVOFFS Overlayer RxLev ET Offset BSC6900
ASSORXUCN
Associated RXU Board CN
BSC6900
ASSORXUCN
Associated RXU Board CN
BSC6900
ASSORXUSN
Associated RXU Board SN
BSC6900
ASSORXUSN
Associated RXU Board SN
BSC6900
Number of the slot where the associated RXU board is
installed.
ASSORXUSRN
Associated RXU Board SRN
BSC6900
Number of the subrack where the associated RXU board is
installed.
ASSORXUSRN
Associated RXU Board SRN
BSC6900
SET BTSRXUBP(M Number of the subrack where the andatory)
associated RXU board is installed.
ASSThres
Absolute Signal Strength Threshold
BSC6900
SET OTHSOFTPA RA(Optional) SET GCELLTMR( Optional) SET
BSCTMR(Opti onal) SET BSCAITFTMR (Optional) SET BSCAITFTMR
(Optional) SET BSCAITFTMR (Optional) SET BSCTMR(Opti onal) SET
BSCTMR(Opti onal)
ASSTIMER
T3107
BSC6900
AT1
T1
BSC6900
AT13
T13 -s
BSC6900
AT17
T17 -s
BSC6900
AT18
T18 -s
BSC6900
AT19
T19
BSC6900
AT20
T20
BSC6900
Absolute level threshold for automatic optimization of neighbor
cells and frequencies. The measurement results in measurement
reports are screened After the BSC6900 delivers an assignment
command, the T3107 timer starts. If the BSC6900 receives an
assignment complete message waiting forscheduled Timer for within
the a single Ainterface circuit blocking or unblocking answer. The
BSC6900 starts this T1 timer after sending a single timer, that is,
MSC reset protection A-interface interval between the time when the
BSC6900 receives an MSC reset message and the time when the BSC6900
answerreceiving an MSC T17 timer. When to the MSC. overload message
or a single point congestion message for the first time, the
BSC6900 increases the leveltimer. When receiving an MSC T18 of the
A interface flow control overload message or a single point
congestion message for the first time, the BSC6900 increases the
level of the A interface flow control Timer for waiting for an
A-interface circuit reset answer. The BSC6900 starts this timer
after sending an A-interface circuit reset message.waiting thisan
A-interface Timer for When for timer expires circuit group blocking
or unblocking answer. After sending a CIC group blocking/unblocking
message over the A interface, the BSC6900 starts
AT4
T4 -s
BSC6900
ATCBHOEN
ATCBHYST
ATCBTHRED
Concentric Circles ATCB HO Allowed BSC6900 Distance Hysteresis
Between Boundaries BSC6900 Distance Between Boundaries of Subcells
BSC6900
SET BSCAITFTMR Timer for waiting for an A-interface (Optional)
reset answer Whether to enable the ATCB handover algorithm for the
SET concentric cell. According to the GCELLHOBA neighbor cell
signal, the ATCB SIC(Optional) handover algorithm determines the
Hysteresis in the distance between SET the boundary of the overlaid
subcell GCELLHOED and the boundary of the underlaid BPARA(Optio
subcell. This parameter helps to nal) adjust "Distance Between
Distance between the boundary of SET the overlaid subcell and the
GCELLHOED boundary of the underlaid subcell. BPARA(Optio This
parameter specifies the nal) difference between the coverage of
Ater8KSw
Switch of 8K on Ater
BSC6900
AterCongHRFlag
HR Allocation Flag
BSC6900
AterCongstRatio
Congestion Ratio on Ater Resource BSC6900
ATERIDX
Ater connection path index
BSC6900
AterJamThreshold2S Ater Jam Rate for tartLs BSC Local Switch
BSC6900
ATERMASK
Ater Mask
BSC6900
ATEROMLFLAG
Whether or not for OML
BSC6900
SET Whether to enable the BSC to use OTHSOFTPA a 8 kbit/s
timeslot to transmit 8 RA(Optional) kbit/s data at the Ater
interface Whether to enable the BSC to SET assign half rate
channels OTHSOFTPA preferentially when the Ater RA(Optional)
interface isthat determines whether Threshold congested the Ater
interface is congested. SET The BSC determines whether to OTHSOFTPA
assign full or half rate channels RA(Optional) preferentially
according to the ADD MTP3LNK(Ma ndatory) ADD ATERE1T1(M Index of an
Ater connection path Threshold for enabling the BSC local
switching. When the SET congestion rate at the Ater BSSLS(Option
interface exceeds this threshold, al) the function is enabled. ADD
MTP3LNK(Ma ndatory) ADD ATERSL(Man Ater interface timeslotthe Ater
OML Whether to configure mask link used for the TC subrack for the
ADD port. If it is actually configured and SEMILINK(Ma you specify
that it is not configured, ndatory) the TC subrack fails to start.
If it is ADD ATEROML(Ma ndatory) Ater maintenance link index ADD
ATEROML(Ma ndatory) ADD ATERSL(Opti onal) ADD ATERCONSL( Ater
connection path index,The index is set through the ADD ATERCONPATH
command.
ATEROMLINX
Ater OML Index
BSC6900
ATERPIDX
Ater Connection Path Index
BSC6900
ATERSLID
Ater Signaling Channel ID
BSC6900
Indentifies an Ater signaling channel
Ater Interface ATERTRANSMODE Transfer Mode
BSC6900
SET Transport mode of the Ater BSCBASIC(M interface. The Ater
interface can andatory) be in TDM or in IP transport mode. STR
Number of the RF port on the RF BTSVSWRTS front-end board of the
BTS. The T(Optional) number is unique in a board.
ATN
Antenna Tributary No. BSC6900
ATSMASK
A interface timeslot mask
BSC6900
ATT
Attach-detach Allowed
BSC6900
ADD MTP3LNK(Ma ndatory) SET GCELLIDLEB ASIC(Optional )
A interface timeslot mask Attach-detach Allowed (ATT). If this
parameter is set to YES, when an MS is powered off, the network
does not process any call connection for the MS as a called
ATTENFACTOR1
Antenna Tributary 1 Factor BSC6900
SET BTSRXUBP(O TMA attenuation factor of antenna ptional)
tributary 1 SET BTSRXUBP(O TMA attenuation factor of antenna
ptional) tributary 2 SET E1T1LOP(Opti onal) It specifies the
loopback duration. STR E1T1TST(Opti onal) It specifies the test
duration. SET SSLAUTHMO DE(Mandatory SSL authentication mode of the
) peer certificate ADD PPPLNK(Man Validation mode of the PPP or MP
datory) link negotiation ADD MPGRP(Mand atory) ADD BTSPPPLNK(
Mandatory) ADD BTSMPGRP(
ATTENFACTOR2
Antenna Tributary 2 Factor BSC6900
AUSTOP
Loop time[min]
BSC6900
AUSTOP
Test time[min]
BSC6900
AUTHMODE
Authentication Mode
BSC6900
AUTHMODE
Validate mode
BSC6900
AUTHMODE
Validate mode
BSC6900
Validation mode of the PPP or MP link negotiation The PPP or MP
link is as server or client when it negotiates with peer link.
AUTHMODE
Validate Mode
BSC6900
AUTHNAME
Validate user name
BSC6900
ADD PPPLNK(Man Username to validate, for the PPP datory) or MP
link negotiation ADD MPGRP(Mand Username to validate, for the PPP
atory) or MP link negotiation
AUTHNAME
Validate user name
BSC6900
AUTHNAME
Validate User Name
BSC6900
ADD BTSPPPLNK( Mandatory) ADD Username to validate, for the PPP
BTSMPGRP( or MLPPP link negotiation ADD PPPLNK(Man Password to
validate, upon PPP or datory) MP link negotiation ADD MPGRP(Mand
atory) ADD BTSPPPLNK( Mandatory) ADD BTSMPGRP(
AUTHPWD
Validate password
BSC6900
AUTHPWD
Validate password
BSC6900
Password to validate, upon PPP or MP link negotiation
AUTHPWD
Validate Password
BSC6900
Password to validate, upon PPP or MLPPP link negotiation
AUTHTYPE
Validate protocol type BSC6900
ADD PPPLNK(Opti Type of validation protocol for the onal) PPP or
MP link negotiation ADD MPGRP(Optio nal) ADD BTSPPPLNK( Optional)
ADD BTSMPGRP(
AUTHTYPE
Validate protocol type BSC6900
Type of validation protocol for the PPP or MP link
negotiation
AUTHTYPE
Validate Protocol Type BSC6900
AUTO
Auto negotiation
BSC6900
Type of the validation protocol for the PPP or MLPPP link
negotiation Whether the self-negotiation mode is adopted SET 1.
When the FG2 board is used ETHPORT(Op and the port type is GE, the
selftional) negotiation mode must be adopted.
AUTOADDSRCON
Add inter-subrack path automatically BSC6900
Auto Adjust UL AUTOADJULTHHYS TH and TF Hysteresis [F] Auto
Adjust UL AUTOADJULTHHYS TH and TH Hysteresis [H]
BSC6900
BSC6900
ADD Whether inter-subrack path can be BRD(Optional) added
automatically Whether to allow automatic SET adjustment for the
uplink threshold GCELLCCAM and hysteresis of full rate AMR call
R(Optional) rates Whether to allow automatic SET adjustment for the
uplink threshold GCELLCCAM and hysteresis of half rate AMR call
R(Optional) rates SET OTHSOFTPA Whether to enable the BSC to
RA(Optional) obtain BTS logs automatically
AutoGetBtsLogFlag
Support Auto Obtaining of BTS Logs BSC6900
AUTONEG
Automatic Negotiation Mode BSC6900 Work Mode for Auto Download
Activation
AUTOTYPE
BSC6900
SET BTSETHPOR T(Optional) SET BTSAUTODL DACTINFO(O ptional)
Whether to enable the autonegotiation mode The parameter
specifies the work mode for the automatic download and activation
of the BTS software. BTS Software Auto DL and ACT indicates that
the BTS boards are
AUTOULKSW
Auto Unlock Switch
BSC6900
LCK SCHTSK(Opti onal) Auto unlock switch SET Duration of time
after which the PWDPOLICY( locked user is unlocked Optional)
automatically optical adaptation type between SET high-order path
and multiplex OPT(Optional) section. for GSM protocols Phase tag
supported by the A interface. The SET value of this parameter is
chosen BSCBASIC(O according to the A interface phase ptional) tag
provided by the MSC. SET ALMPORT(Op tional) SET BTSENVALM
PORT(Option al)
AutoUnlockTime
Auto Unlock Time BSC6900
AUTYPE
Administration unit type
BSC6900
AVer
A Interface Tag
BSC6900
AVOL
Alarm level
BSC6900
Alarm level for a digital port
AVOL
Alarm VOL. B1B2 signal degraded threshold
BSC6900
B1B2SDTHRD
BSC6900
SET OPT(Optional)
B1B2SFTHRD
B1B2 signal fail threshold B3 signal degrade threshold
BSC6900
SET OPT(Optional)
B3SDTHRD
BSC6900
SET OPT(Optional)
B3SFTHRD
B3 signal fail threshold
BSC6900
SET OPT(Optional)
Alarm level. It is valid for the digital port. Threshold of B1
and B2 signal degrade. This parameter specifies the generation
threshold and the recovery threshold of the B1B2 signal degradation
threshold in Threshold of B1 and B2 signal failure. This parameter
specifies the generation threshold and the recovery threshold of
the B1B2 signal failure B3 signal degrade. Threshold of threshold
in SDH This parameter specifies the generation threshold and the
recovery threshold of the B3 signal degradation threshold in SDH
This Threshold of B3 signal failure. parameter specifies the
generation threshold and the recovery threshold of the B3 signal
failure threshold in SDH frames at the
BACK8KCLKSW1
Switch of backplane LINE1 BSC6900
SET CLK(Optional) Switch of backplane LINE1
BACK8KCLKSW2
Switch of backplane LINE2 BSC6900
SET CLK(Optional) Switch of backplane LINE2 BKP LOGDB(Optio nal)
Directory for saving the backup file
BackupPath
Backup Path
BSC6900
BACKUPPATH
Path of Backup File
BSC6900
BKP DB(Optional) SET GCELLSOFT( Optional) SET BSCPSSOFT
PARA(Optiona l) ADD BTSESN(Opti onal)
Bad Quality BADQUALDISCTHR Disconnection ES Threshold
BSC6900
bAdvEstDlTbf
Support Advance Downlink TBF Establishment BSC6900 BTS Interface
Board Bar Code 2
BAKDEVTAB
BSC6900
Path (complete path) of the backup file. Quality threshold for
determining that a call is disconnected because of poor quality. If
the uplink quality or downlink quality in the measurement reports
during the Whether the downlink TBF can be established in advance.
Downlink TBF establishment in advance indicates that the downlink
TBF is established of the interface board of Bar code 2 immediately
after the the BTS. This parameter is the electronic serial number
of the standby PTU board. An electronic serial number uniquely
identifies an
BAKIP
Backup port IP address
BSC6900
STR IPCHK(Option al) IP address of the backup port STR
IPCHK(Option al) Mask of the backup port the This parameter
specifies method of saving the BTS backup SET power. BTSBAKPWR When
this parameter is set to (Mandatory) "Turn off TRX", specifies the
This parameter the BSC backup power saving policy of the SET BTS.
BTSBAKPWR When this parameter is set to (Optional) "Cover
Priority", the BTS shuts SET Whether the cells at the 1900
GCELLSOFT( frequency support high frequency Optional) 1900
BAKMASK
Backup port mask
BSC6900
BAKPWRSAVMETH Backup Power OD Saving Method
BSC6900
BAKPWRSAVPOLIC Backup Power Y Saving Policy High Band
BANDINDICATOR19 Indicator of Cell 00 1900
BSC6900
BSC6900
High Band BANDINDICATOR85 Indicator of Cell 0 850 High Band
BANDINDICATOR90 Indicator of Cell 0 900
BSC6900
SET Whether the cells at the 850 GCELLSOFT( frequency support
high frequency Optional) 1900 SET GCELLSOFT( Optional) Whether the
cells at the 900 frequency support high frequency 1900 Duration in
which intra-cell handover is forbidden after the SET number of
consecutive intra-cell GCELLHOAD( handovers reaches the maximum.
Optional) Intra-cell handover can be SET BTSRACKBC( List of bar
codes of all the cabinets Mandatory) in the BTS ADD The reference
BTS must support AISSCFG(Ma the Um interface software ndatory)
synchronization. Number of the temperature sensor corresponding to
a battery group. SET You can choose sensor 1 BTSAPMUBP(
(Battery1Temp) or sensor 2 Optional) (Battery2Temp). Number of the
temperature sensor corresponding to a battery group. SET In
multi-mode scenario, the value BTSDPMUBP( of this parameter in one
mode Optional) must becapacity. as the value of Battery the same In
multi-mode scenario, the value SET of this parameter in one mode
BTSDPMUBP( must be the same as the value of Optional) the
corresponding parameter in Whether the configuration of external
battery is allowed. The SET value "YES" indicates that the
BTSDPMUBP( external battery can be configured, Optional) and the
value "NO" indicates that SET Allowed percentage of the battery
BTSAPMUBP( discharging. After the AC power Optional) supply is cut
and the power of the SET battery is discharged by the value
BTSDPMUBP( of this parameter, the diesel engine Battery type. In
multi-mode scenario, the value SET of this parameter in one mode
BTSDPMUBP( must be the same as the value of Optional) the
corresponding parameter in SET SCTPSRVPO Number of the BBAP service
RT(Optional) listening port
BSC6900
BANTIME
Forbidden time after MAX Times BSC6900
BARCODLST
Cabinet Bar Code List BSC6900
BASEBTSID
Reference BTS Index
BSC6900
Temperature BASETEMPERATU Basis for RE Compensation Temperature
BASETEMPERATU Basis for RE Compensation
BSC6900
BSC6900
BATTCAPACITY
Battery Capacity BSC6900 Battery Configuration Enabled
BATTENABLEDIN
BSC6900
BATTERYDISCHAR Battery Discharge GEDEPTH Depth BSC6900
BATTTYPE
Battery Type
BSC6900
BBAPSRVPN
BBAP service listening port No. BSC6900
BBDIF
Up Down Balance Basic Difference
BSC6900
SET GTRXRLALM( Optional) SET BTSAPMUBP( Optional) ADD
GCELL(Option al)
BC
Battery Capcity
BSC6900
BCC
BCC
BSC6900
BCC
BCC
BSC6900
BCC
BCC
BSC6900
ADD GEXT2GCEL L(Mandatory) ADD GCELLQUICK BTS color code. It
uniquely SETUP(Optio identifies different BTSs that are nal)
adjacent and use the same TRX. ADD GEXT2GCEL L(Mandatory) ADD
GCELLQUICK SETUP(Mand atory) SET GCELLHOPQ UICKSETUP( Mandatory)
SET BSCPSSOFT PARA(Optiona l) SET BSCPSSOFT PARA(Optiona l) SET
BSCPSTCDS CPMAP(Optio nal) STR FRPORTLOO P(Mandatory) BLK
BC(Mandatory
Reference difference between uplink and downlink levels. This
parameter works with "Up Down Balance Floating Range" to count
uplink-downlink imbalances. Battery capacity. The battery capacity
should be set according to the vendor specification. If it is
improperly configured, the battery life may be shortened. (BCC) of
a Base station color code cell, provided by the network planning
department. It is used for differentiating the neighboring cells
using station color code (BCC) of a Base the same BCCH frequency.
cell, provided by the network planning department. It is used for
differentiating the neighboring cells using the same BCCH
frequency.
BCCH
BCCH FD
BSC6900
BCCH frequency of the cell
BCCHFREQ
Main BCCH Frequency
BSC6900
Frequency of the BCCH TRX
BCCHTRXHP
Frequency Hopping Mode of BCCH TRX BSC6900
BCCONGESTALMB BC Congestion OUND Alarm Threshold BSC6900 BC
Congestion BCCONGESTRESA Restore Alarm LMBOUND Threshold
BSC6900
Frequency hopping mode of the TRX that carries the BCCH BC
Threshold for reporting the congestion alarm. When the BC
congestion level exceeds the threshold, the BC congestion alarm is
reported. clearing the BC Threshold for congestion alarm. When the
BC congestion level is below the threshold, the BC congestion alarm
is cleared.
BCDSCP
DSCP of BG[QoS]
BSC6900
BCID
BC Identifier
BSC6900
DSCP corresponding to the background service Identifies one BC
at the Gb interface board. The BCID's value range of PEUa board is
0~255 and that of POUc board is 0~511.
BCLC
Battery Current Limiting Coefficient
BSC6900
SET BTSAPMUBP( Optional) SET BTSAPMUBP( Optional) SET BTSAPMUBP(
Optional) SET GCELLPSCH M(Optional) SET GCELLPSCH M(Optional) SET
GCELLPSCH M(Optional) ADD N7DPC(Mand atory) SET GBSCREDGR
P(Optional) SET GCELLEGPR SPARA(Optio nal) SET GCELLCCUT
RANSYS(Opti onal) SET GCELLHOUT RANFDD(Opti onal) SET
BCV
Boost-Charging Voltage Battery Configuration Enabled
BSC6900
BE
BSC6900
BEARP1PRIWEIGH BestEffort-ARP1 T Priority Weight BSC6900
BEARP2PRIWEIGH BestEffort-ARP2 T Priority Weight BSC6900
BEARP3PRIWEIGH BestEffort-ARP3 T Priority Weight BSC6900
BEARTYPE
DSP bear type
BSC6900
Current limit coefficient of the battery. The maximum charging
current equals the value of "Battery Current Limiting Coefficient"
multiplexed by "Battery Capacity". If Boost-Charging Voltage. See
the vendor specification for the setting of this parameter. In
multi-mode scenario, the value of this parameter in one mode
Whether the configuration of external battery is allowed. In
multi-mode scenario, the value of this parameter in one mode must
be the same as the value of ARP1 priority in the BE service. ARP1
priority weight determines the number of the budget blocks and the
block scheduling priority. ARP2 priority in the BE service. ARP2
priority weight determines the number of the budget blocks and the
block scheduling priority. ARP3 priority in the BE service. ARP3
priority weight determines the number of the budget blocks and the
block scheduling priority. DSP bearer type. MTP3: indicates that
the lower layer bearer is the MTP3 used in ATM/TDM scenario; M3UA:
indicates that the lower Time interval for sending a handshake
message between BSC6900s Average period for sending the measurement
report over the EGPRS channel Number of UTRAN TDD cells that should
be included in measurement report This parameter specifies whether
to allow 3G better cell handover algorithm.
Interval for Sending BEATSENDINGDIS Heartbeat
BSC6900
BEPPERIOD
Bep Period
BSC6900
BESTTDDCELLNU M
Best TDD Cell Number
BSC6900
BET3GHOEN
Better 3G Cell HO Allowed
BSC6900
Better Cell BETTERCELLHOEN Handover Enable BSC6900
SET GCELLHOBA Whether to enable the algorithm for SIC(Optional)
the handover to a better cell
BETTERCELLLAST Better Cell HO TIME Valid Time
BSC6900
BETTERCELLSTAT Better Cell HO TIME Watch Time
BSC6900
BFDDETECTCOUN Detect multiplier T of BFD packet
BSC6900
BFDSN
BFD Session No. BSC6900 Up Down Balance Floating Range BSC6900
Switchback Policy of Baseband FH Mutual Aid BSC6900
BFRANGE
BHPREPOLICY
BITOFFSET
In Frame Bit Offset [1/8 bit]
BSC6900
BackgroundBKGARP1PRIWEIG ARP1 Priority HT Weight
BackgroundBKGARP2PRIWEIG ARP2 Priority HT Weight
BackgroundBKGARP3PRIWEIG ARP3 Priority HT Weight
BSC6900
BSC6900
BSC6900
According to the P/N rule, if the conditions for the handover to
a ADD better cell due to interference are G2GNCELL(O met for P
seconds within N ptional) seconds, the the P/N rule,triggered.
According to handover is if the conditions for the handover to a
ADD better cell due to interference are G2GNCELL(O met for P
seconds within N ptional) seconds, the handover is triggered.
Timeout times of the BFD packet. If STR several consecutive BFD
packets IPCHK(Option are not received, the BFD session al) is set
to the DOWN state. ADD BTSBFD(Man datory) ADD BTSIPRTBIN BFD
Session No. of the Allowed fluctuation difference between uplink
and SET downlink levels relative to the GTRXRLALM( reference
difference. If the Optional) difference between uplink and of
Mutual-aid changeback policy SET baseband frequency hopping (FH).
GCELLCCAC If multiple TRXs in a baseband FH CESS(Optiona group are
faulty and changeback is l) needed after mutual aid of the SET
BTSEXCURSI ON(Mandatory ) Bit offset in the frame of the BTS SET
clock priority in the Background ARP1 service. ARP1 priority weight
SET determines the number of the GCELLPSCH budget blocks and the
block M(Optional) scheduling priority. Background ARP2 priority in
the service. ARP2 priority weight SET determines the number of the
GCELLPSCH budget blocks and the block M(Optional) scheduling
priority. Background ARP3 priority in the service. ARP3 priority
weight SET determines the number of the GCELLPSCH budget blocks and
the block M(Optional) scheduling priority. SET ALMBLKSW(
Optional)
BLKFILTERSW
Alarm switch of blinking filter
BSC6900
BLKPRD
Alarm blink threshold
BSC6900
Base Station Controller alarm blink filter switch filter
threshold. When Alarm blink the interval between the generation SET
and clearance of an alarm is equal ALMBLKPAR to or smaller than the
alarm blink A(Optional) filter threshold, the alarm is filtered
BLKSTATPRD
Observing time window of statistical alarm
BSC6900
SET ALMBLKSW( Optional) SET ALMBLKSW( Optional)
Measurement period of filtered Base Station Controller alarms
Switch controlling whether to perform statistics of Base Station
Controller alarms
BLKSTATSW
Switch of statistics blinking alarm BSC6900
BLOCKRETRY
Block Retry
BSC6900
SET Retry times after the peer response BSCNSPARA( timer expires
during NSVC Optional) blocking SET BSCNSPARA( Optional) ADD
ATERCONPA TH(Mandatory ) ADD ATERCONPA TH(Mandatory ) ADD ATERCONPA
TH(Mandatory )
BLOCKTIMER
Block Timer
BSC6900
BMPN
BM Port No
BSC6900
BMSN
BM Slot No
BSC6900
Duration of the peer response timer during NSVC blocking Number
of the port in the BM subrack where one end of the ATER connection
channel is located Number of the slot in the BM subrack where one
end of the ATER connection channel is located
BMSRN
BM Subrack No Timer Length of BM-TC Flow Control
BSC6900
BMTCFCTimerLen
BSC6900
BORROWDEVIP
Borrow DevIP
BSC6900
Number of the BM subrack where one end of the ATER connection
channel is located Duration of the flow control SET protection
timer enabled during the BSCTMR(Opti flow control between the TCS
and onal) the MPS/EPS subracks ADD Whether to use the device IP
PPPLNK(Man address as the local IP address. datory) When this
parameter is set to ADD "YES", the device IP address is MPGRP(Mand
used as the local IP address of the SET BOXRPT(Man datory) SET
BTSBREAKP OINT(Optional ) SET BTSBREAKP OINT(Optional )
BOXFLG
To Alarm Box Flag
BSC6900
BP1
Position of Break Point 1 BSC6900
BP2
Position of Break Point 2 BSC6900
Whether to report the alarm to the alarm box break point 1 in an
RXU Position of chain. The number of break points must not be
greater than the number of RXU boards in the RXU chain. of break
point 2 in an RXU Position chain. The number of break points must
not be greater than the number of RXU boards in the RXU chain.
BQHOEN
BQ HO Allowed
BSC6900
SET GCELLHOBA SIC(Optional) ADD G2GNCELL(O ptional) ADD
G2GNCELL(O ptional) ADD G2GNCELL(O ptional) STR BKP(Mandator y) SET
FCSW(Manda tory) SET FCCPUTHD(
BQLASTTIME
BQ HO Valid Time
BSC6900
BQMARGIN
BQ HO Margin
BSC6900
BQSTATTIME
BQ HO Watch Time
BSC6900
Whether to enable the bad quality (BQ) handover algorithm.
Whether to trigger BQ handover depends on the uplink and downlink
transmit quality (measured by rule, ifBER). If According to the P/N
using the conditions for emergency BQ handover are met in P of N
measurement reports, the handover is triggered. neighbor If
("downlink level of the cell after filtering" - "downlink level of
the serving cell (after power control compensation)") >
("Intercell HO Hysteresis" - rule, HO According to the P/N "BQ if
the conditions for emergency BQ handover are met in P of N
measurement reports, the handover is triggered.
BRDCLASS
Board Class
BSC6900
Classes of boards classified according to function modules
BRDCLASS
Board Class
BSC6900
Classes of boards classified according to function modules
BRDCLASS
Board Class
BSC6900
ADD BRD(Mandato Classes of boards classified ry) according to
function modules STR BTSLOG(Man datory) Number of the board STR
BTSVSWRTS T(Optional) ADD BTSBRDCAP( Mandatory) ADD BTSRXUBRD( LOD
BTSSW(Mand atory) ADD BTSBRDCAP( Mandatory) ADD BTSRXUBRD(
BRDNO
Board No.
BSC6900
BRDNO
Board No.
BSC6900
BRDRXBW
Receive Bandwidth
BSC6900
Number of the RF front-end board in the BTS threshold of the
total The upper receive bandwidth of all the TRXs bound to the
board, for example, when this value is 250, it means the the total
receive bandwidth
BRDSWTYPE
BTS Board Software Type
BSC6900
BRDTXBW
Forward Bandwidth
BSC6900
Software type of the BTS board The upper threshold of the total
send bandwidth of all the TRXs bound to send pass of board, for
example, when this value is 150, it means the the total send
bandwidth
BRDTYPE
Board Type
BSC6900
SET DPUBRDTYP E(Mandatory) Type of the board
BRDTYPE
Board Type
BSC6900
ADD BRD(Optional) Type of the board SET ETHPORT(Ma ndatory)
Board type ADD PPPLNK(Man datory) Board type ADD MPGRP(Mand atory)
Board type ADD MPLNK(Mand atory) Board type ADD BTSBRDCAP(
Mandatory) Type of the new RXU board.can be board. The type
TMU/DTMU, DTRU, DPTU, QTRU, STR MRRU, GRRU, BTS3900B, MRFU,
BTSLOG(Man GRFU, BTS3900E, DRFU, DRRU, datory) UBRI or UTRP. To
avoid intermittent blinking, the switchover cannot be performed SET
over a certain period of time when BTSRINGATT the OML is
disconnected. That R(Optional) period of time is specified as ring
II SET GCELLSBC(O Contents of a cell broadcast ptional) message SET
GCELLSBC(O Time interval for a cell broadcast ptional) message
Backup mode of the log. If "ENTIRE" is selected, all logs in the
BKP current database are backed up. If LOGDB(Optio "INCREMENTAL" is
selected, the nal) logs generated after last backup
BRDTYPE
Board type.
BSC6900
BRDTYPE
Board type
BSC6900
BRDTYPE
Board type
BSC6900
BRDTYPE
Board type
BSC6900
BrdType
Board Type
BSC6900
BRDTYPE
Board Type
BSC6900
BREAKTIME
Ring II Wait Time Before Switch BSC6900
BROADCASTCONT Broadcast ENT Content
BSC6900
BROADCASTINTER Broadcast VAL Interval
BSC6900
BS
Backup Style
BSC6900
BSAGBLKSRES
CCCH Blocks Reserved for AGCH
BSC6900
BSCDPC
External BSC DPC
BSC6900
BS-AG-BLKS-RES, indicating the number of the CCCH message blocks
reserved for the AGCH. After the CCCHs are configured, the value
ofexternal BSC, which is DPC of the this parameter used for
inter-BSC communication. ADD This parameter can be represented
EXTBSC(Man in decimal, hexadecimal, and datory) binary. By default,
this parameter is SET GCELLIDLEB ASIC(Optional ) SET BSCDSTPA(O
ptional) BLK ACIC(Mandat ory) ADD AE1T1(Manda This parameter
specifies whether to enable the TRX Intelligent Shutdown
feature.
Allow Dynamic BSCDynSwitchTrxP Shutdown Trx by AAllow BSC
BSC6900
BSCFLAG
BSC Flag
BSC6900
BSCGATEWAYIP
BSCGATHET
BSCGATHST
BSC GateWay IP BSC6900 BSC Offset Information Collection End
Time BSC6900 BSC Offset Information Collection Start Time
BSC6900
It indicates whether the A interface E1/T1 is the primary
BSC6900 or secondary BSC6900.of the Gateway IP address BSC6900.
When the BSC provides ADD the function of simple cell GCBSADDR(
broadcast, the BSC6900 sends cell Mandatory) broadcast messages
through this ADD AISSCFG(Opti End time for collecting the
interonal) BSC offset information ADD AISSCFG(Opti Start time for
collecting the interonal) BSC offset information ADD ADJNODE(Ma
ndatory) ADD GEXT2GCEL L(Optional) ADD EXTBSC(Man
BSCID
BSC ID
BSC6900
Uniquely identifies a BSC in the TC pool
BSCIDX
BSC Index
BSC6900
ID of the BSC that controls the external 2G neighbor cell
BSCINCHPRD
BSC Fine Tuning Period BSC6900
BSCIP
BSC IP
BSC6900
BSCIP
BSC IP
BSC6900
ADD AISSCFG(Opti Period for fine tuning the BTS clock onal)
between BSCs BSC6900. If the IP address of the connection mode of
the BSC6900 ADD and the CBC is to lead cables out GCBSADDR( of the
PIU, the value of this Mandatory) parameter must be the same as ADD
BTSAUTOPL AN(Mandatory ) IP address of an interface board on SET
the BSC6900 side
BscLsStartMode
Options for BSC Local Switch
BSC6900
Conditions for enabling the function of BSC local switching. SET
UNCONDITIONALSTART: The BSSLS(Option function of BSC local
switching is al) enabled without restriction. ADD EXTBSC(Man
datory) Unique name of the external BSC Whether to allow
high-priority calls SET to preempt the radio resources of OTHSOFTPA
low-priority calls when radio RA(Optional) resources are
insufficient. Whether to allow the call during an SET intra-BSC
handover to preempt the OTHSOFTPA radio resources of low-priority
calls RA(Optional) in the target cell. ADD BTSMONITO RTS(Mandator
In-BSC6900 port No. of the y) monitoring timeslot ADD Port number
used for the GCBSADDR( communication between the Mandatory)
BSC6900to allow the eMLPP Whether and the CBC priorities to be
classified into two SET types: high priority and normal OTHSOFTPA
priority. RA(Optional) If this parameter is set to NO, then SET
Whether to allow calls to queue for OTHSOFTPA radio resources when
radio RA(Optional) resources are insufficient. SET Whether to allow
the service during OTHSOFTPA an intra-BSC handover to queue for
RA(Optional) radio resources in the target cell. SET OTHSOFTPA
Reserved parameter 1 that is RA(Optional) effective at the BSC
level SET OTHSOFTPA Reserved parameter 10 that is RA(Optional)
effective at the BSC level SET OTHSOFTPA Reserved parameter 11 that
is RA(Optional) effective at the BSC level
BSCNAME
External BSC Name
BSC6900
BSCPMA
BSCPMAIRAHO
Preemption Allowed Preemption Allowed During Intra-BSC
Handover
BSC6900
BSC6900
BSCPN
In-BSC Port No.
BSC6900
BSCPORT
BSC Port Two eMLPP Priority Classes Allowed
BSC6900
BSCPRICLASS
BSC6900
BSCQAD
Queue Allowed
BSC6900
BSCQADIRAHO
Queuing Allowed During Intra-BSC Handover BSC6900
BSCRESERVEDPA Reserved RA1 parameter 1
BSC6900
BSCRESERVEDPA Reserved RA10 parameter 10
BSC6900
BSCRESERVEDPA Reserved RA11 parameter 11
BSC6900
BSCRESERVEDPA Reserved RA12 parameter 12
BSC6900
SET OTHSOFTPA Reserved parameter 12 that is RA(Optional)
effective at the BSC level SET OTHSOFTPA Reserved parameter 13 that
is RA(Optional) effective at the BSC level SET OTHSOFTPA Reserved
parameter 14 that is RA(Optional) effective at the BSC level SET
OTHSOFTPA Reserved parameter 15 that is RA(Optional) effective at
the BSC level SET OTHSOFTPA Reserved parameter 16 that is
RA(Optional) effective at the BSC level SET OTHSOFTPA Reserved
parameter 17 that is RA(Optional) effective at the BSC level SET
OTHSOFTPA Reserved parameter 18 that is RA(Optional) effective at
the BSC level SET OTHSOFTPA Reserved parameter 19 that is
RA(Optional) effective at the BSC level SET OTHSOFTPA Reserved
parameter 2 that is RA(Optional) effective at the BSC level SET
OTHSOFTPA Reserved parameter 3 that is RA(Optional) effective at
the BSC level SET OTHSOFTPA Reserved parameter 4 that is
RA(Optional) effective at the BSC level SET OTHSOFTPA Reserved
parameter 5 that is RA(Optional) effective at the BSC level
BSCRESERVEDPA Reserved RA13 parameter 13
BSC6900
BSCRESERVEDPA Reserved RA14 parameter 14
BSC6900
BSCRESERVEDPA Reserved RA15 parameter 15
BSC6900
BSCRESERVEDPA Reserved RA16 parameter 16
BSC6900
BSCRESERVEDPA Reserved RA17 parameter 17
BSC6900
BSCRESERVEDPA Reserved RA18 parameter 18
BSC6900
BSCRESERVEDPA Reserved RA19 parameter 19
BSC6900
BSCRESERVEDPA Reserved RA2 parameter 2
BSC6900
BSCRESERVEDPA Reserved RA3 parameter 3
BSC6900
BSCRESERVEDPA Reserved RA4 parameter 4
BSC6900
BSCRESERVEDPA Reserved RA5 parameter 5
BSC6900
BSCRESERVEDPA Reserved RA6 parameter 6
BSC6900
SET OTHSOFTPA Reserved parameter 6 that is RA(Optional)
effective at the BSC level SET OTHSOFTPA Reserved parameter 7 that
is RA(Optional) effective at the BSC level SET OTHSOFTPA Reserved
parameter 8 that is RA(Optional) effective at the BSC level SET
OTHSOFTPA RA(Optional) ADD BTSMONITO RTS(Mandator y) ADD BTSMONITO
RTS(Mandator y) ADD BTSMONITO RTS(Mandator y) SET BSCAISS(Ma
ndatory) ADD ATERE1T1(M andatory) ADD ATERSL(Man SET BSCBASIC(M
andatory) ADD BTSMONITO RTS(Mandator y)
BSCRESERVEDPA Reserved RA7 parameter 7
BSC6900
BSCRESERVEDPA Reserved RA8 parameter 8
BSC6900
BSCRESERVEDPA Reserved RA9 parameter 9
BSC6900
Reserved parameter 9 that is effective at the BSC level
BSCSN
In-BSC Slot No.
BSC6900
In-BSC6900 slot No. of the monitoring timeslot
BSCSRN
In-BSC Subrack No.
BSC6900
BSCSUBTS
In-BSC Sub Timeslot No.
BSC6900
In-BSC6900 subrack No. of the monitoring timeslot In-BSC6900
sub-timeslot No. of the monitoring timeslot. If the added
monitoring timeslot works at 64 kbit/s, the sub-timeslots are
numbered from 0. If the added When the BTS clock is adjusted, the
offset is added to obtain better network performance. ID of the BSC
at the other end of the link. In non-TC pool scenario, this
parameter specifies the ID of the primary BSC. In TC pool scenario,
this parameter specifies
BSCSYMOFF
BSC Symbol Offset
BSC6900
BSCTID
ID of BSC in TC Pool
BSC6900
BSCTID
ID of a BSC in TC Pool
BSC6900
ID of the BSC that supports the TC pool function
BSCTS
In-BSC Timeslot No. BSC6900
BSCVMAX
BS_CV_MAX
BSC6900
In-BSC6900 timeslot No. of the monitoring timeslot This
parameter is used to set the parameter BS_CV_MAX for MS SET
countdown. This parameter is used GCELLPSBA for the MS to calculate
the CV. This SE(Optional) parameter also determines the
BSMSPWRLEV
Transfer BTS/MS Power Class BSC6900
SET Whether to enable the BTS to GCELLHOCT transfer BTS/MS power
class to the RL(Optional) BSC ADD GCELL(Option al) SET GCELLIDLEB
ASIC(Optional )
BSPAGBLKSRES
Number of PAGCH Blocks
BSC6900
BSPAMFRAMS
Multi-Frames in a Cycle on the Paging CH BSC6900
Number of PAGCH blocksa cycle multiframes in on a paging
sub-channel. In fact, this parameter specifies the number of paging
sub-channels that a paging channel in a cell is
BSPBCCHBLKS
Number of PBCCH Blocks
BSC6900
ADD GCELL(Option al) Number of PBCCH blocks ADD GCELL(Option al)
Number strategy of blocks local General of PRACH the BSS switching,
which includes the BSC SET local switching and the BTS local
BSSLS(Option switching. The two functions al) cannot be enabled at
the same Type of the BSS local switching with the cooperation of
the MSC. ADD NONSUPPORT: When performing GCNNODE(O local switching,
the BSS need not ptional) determine whether the MSC allows Whether
to support the paging function of the CS domain of the A SET
interface. Yes: the MS can be GCELLPSBA called upon paging request
on the SE(Optional) A interface when the MS uses the SET
CLK(Mandator y) Type of the board CON PATCH(Mand atory) Type of the
board LOD PATCH(Mand atory) LOD BRD(Mandato Type of the board SET
E1T1LOP(Ma ndatory) SET E1T1(Mandat Board type
BSPRACHBLKS
Number of PRACH Blocks
BSC6900
BssLsGenMode
BSS Local Switching General Strategy BSC6900 MSCCollaborated BSS
Local Switching BSC6900
BSSLSMSCCOOP
BSSPAGINGCOOR BSS Paging CoDINATION ordination
BSC6900
BT
Board type
BSC6900
BT
Board type
BSC6900
BT
Board type
BSC6900
BT
Board type
BSC6900
BT
Board type
BSC6900
LOP E1T1(Mandat ory) Board type STR E1T1TST(Ma ndatory) Board
type SET OPT(Mandato ry) Board type SET COPTLNK(Ma ndatory) Board
type ADD IPLOGICPOR T(Mandatory) Board type CHK E1T1CRS(Ma ndatory)
Boardof the board that controls the Type type RET antenna. ADD 1.
DATU: It may represent the BTSRETANT( DATU or the DATM and is
Mandatory) applicable to the BTS3012, ADD BTSANTFEE DERBRD(Man Type
of the newly added antenna datory) board ADD BTSBRD(Man datory)
Type of the newly added board ADD BTSRXUBRD( Type of the newly
added RXU Mandatory) board ADD BTSTRXBRD( Mandatory) Type of the
board SET BTSANTFEE DERCONNEC T(Mandatory) Type of the board
BT
Board type
BSC6900
BT
Board type
BSC6900
BT
Board Type
BSC6900
BT
Board