Parameter Compare WBTS WBTS4.0 F, WBTS6.0 F

Reference InformationDocument Type Parameter

Date 2011-03-23 11:22

Compare scope WBTS WBTS4.0 F / WBTS6.0 F

Managed Object P

ANTL

ANTL

ANTL

ANTL

ANTL

ANTL

ANTL

ANTL

ANTL

ANTL

ANTL

ANTL

ANTL

ANTL

ANTL

BTSSC

BTSSC

BTSSC

BTSSC

AnAntAntAntCabFeeFeeFleMulMulMulMulProTotVelAssAutBTSBTS

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSBTSCabCanComConDesDesExtExtExtGPSHSDHSDHSDHSDHSDHSUHSUHW In In Ini

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

IntIubLinLinMaiMaxMidMinModModModModModNamNumPasPatPolProProQoSRNCRes

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

BTSSC

LCEL

LCEL

LCEL

LCEL

LCEL

LCEL

LCEL

LCEL

LCEL

LCEL

LCEL

SchSerSevShaSitStaTimUniUniUniVarVerAlloAntCell DefExpFiltIntLocMapMaxRAC

LCEL

LCEL

LCELG

LCELG

LCELG

LCELG

LCELG

LCELG

LCELG

LCELG

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

ShuShuAccCell Cell DedHSUHSUHSULoc3GPAISActAntAntAntAntAntAntAntAntBasCon

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

DowFauGaiInsInsLNAMHAMHAMHAMHAMaxMinProScaSecSerSubTMATMATMATMATMAUpli

MHA

RET

RET

RET

RET

RET

RET

RET

RET

RET

RET

RET

RET

RET

RET

RET

RET

RET

RET

RET

RET

RET

RET

WMH3GPActAntAntAntAntAntAntAntAntAntAntAntAntBasConInsInsProRETScaSec

RET Ser

Parameter

2011-03-23 11:22

WBTS WBTS4.0 F / WBTS6.0 F

Abbreviated name

antId

antlId

antennaRoundTripDelay

antennaTotalLoss

cableLength

feederLoss

feederVoltage

frId

multiplexerType

multiplexerAmount

multiplexerLoss

multiplexerTotalDelay

mrcProdCode

phsFilterTotalDelay

velocityFactor

assocMaxRetrans

autoConfBlocked

btsName

btsConfiguration

btsId

btsscId

cabinetType

cancelDelay

comment

commissioningRequired

descr

descr

ext2M048ClkInUse

extCtrlList

extAlList

gpsInUse

hsdpa16QAMSupport

hsdpaBbResAllocation

hsdpaFairPacketSched

qosSchedList

ccPolicy

happyBitUphThreshold

happyBitPingFiltUse

autoConHWId

inUse

inUse

initState

intShutdownInUse

iubClkInUse

id

id

mainsPowerAlarmId

maxIubDelayThreshold

midIubDelayThreshold

minIubDelayThreshold

mod

module

module

moduleList

modLocation

name

numOfLines

passUnitList

pathMaxRetrans

polarity

prodCode

prodCode

id

rncType

resetToTestDedicated

weight

serNum

severity

sharedHsdpaSheduler

autoConSiteId

startDelay

timeZone

unitList

unitName

unitNumber

variant

version

allowedCarrierList

antlIdList

cellRange

defaultCarrier

expirationTime

filterCenterTx

intShutdownTimeout

lCelId

hspaMapping

maxCarrierPower

rachCapacity

shutdownStepAmount

shutdownWindow

accessBbCapacity

lCellGId

cellGroupName

dedicatedBbCapacity

hsupaBbDecodCapacity

hsupaBbMinimumUsers

hsupaBbSharingInUse

lCelIdList

releaseId3Gpp

aisgProtocol

active

antBandList

antBeamwidth

antBearing

antlId

antModel

antOperFreqBand

antOperGain

antSerial

baseStationID

connection

downlinkDelay

alarmThresholdLevel

gainResolution

installDate

installerID

lnaNumber

mhaAlarmDetection

mhaGain

mhaId

mhaType

maxGain

minGain

prodCode

scannedAntennaInterface

sectorID

serNum

substance

tmaSubunitRxFreqBandMax

tmaSubunitRxFreqBandMin

tmaSubunitTxFreqBandMax

tmaSubunitTxFreqBandMin

tmaSubunitType

uplinkDelay

wmhConnector

releaseId3Gpp

active

antOperFreqBand

antBandList

antBeamwidth

antBearing

antHeight

antlIdList

antLocation

antModel

antOperGain

antSerial

antTechnology

antType

baseStationID

connection

installDate

installerID

prodCode

retId

scannedAntennaInterface

sectorID

serNum

3GPP name

Beamwidth in each operating band in band order

Antenna Bearing

Antenna model number

Antenna operating band(s)

Gain in each operating band in band order

Antenna serial number

Base Station ID

Installation Date

Installer's ID

Sector ID

TMA Subunit receive frequency band

TMA Subunit receive frequency band

TMA Subunit transmit frequency band

TMA Subunit transmit frequency band

TMA Subunit type

Antenna operating band(s)

Beamwidth in each operating band in band order

Antenna Bearing

Antenna model number

Gain in each operating band in band order

Antenna serial number

Base Station ID

Installation Date

Installer's ID

Sector ID

Parameter group

Category

Operation and Maintenance

Operation and Maintenance

Multiplicity:

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

6

20

1

1

1

1

16

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

5

1

1

1

100

1

1

1

1

1

1

1

1

1

1

1

1

1

1

200

1

1

1

1

4

3

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

6

1

1

1

4

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

4

1

1

1

2

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

Description

Identifies the specific antenna port in Flexi Radio Module for antenna line.

Identifies the specific antenna line.

This parameter contains the total loss calculated from the feederLoss and passive units.

Defines the feeder loss of the antenna cable.

Identifies the specific Flexi Radio module for antenna line.

Defines a multiplexer type.

Defines how many diplexers connected as a series there can be in the antenna line.

Defines the diplexer loss.

Defines the product code of the unit in question.

Defines association maximum retransmissions (1-15 attempts, default 5).

This parameter indicates if auto configuration is allowed or blocked in auto configuration case.

This parameter can be used for identification of the WCDMA BTS (Node B).

A free text field for defining the used BTS configuration. For example: 1+1+1 20 W.

The delay of the all passive units of antenna line can be entered into this parameter, which is then used as the RTT value instead of calculating and defining value for each related parameter (ANTL: cableLength, multiplexerAmounth, multiplexerType, phsFilterTotalDelay, velocityFactor; MHA: active, downlinkDelay, mhaType, UplinkDelay). If related

Defines the antenna RF cable length in meters. This parameter is used by BTS Site Manager to calculate antenna round trip delay. The delay is 4.5 ns/m. The value for this parameter must be left away if the RTT value has already been entered in the antennaRoundTripDelay parameter. The antennaRoundTripDelay value is then used instead of

Defines the voltage level supplied to the antenna line. The values entered for this parameter depend on the MHA type. Non-AISG NSN MHAs: WMHA, WMHB: 12 WMHC: BTS1 Automatic value (Manual voltage override is allowed: possible values [0 V / +12 V/ +24V/ +28 V (+24 /+28 only for Main branch, value depends on the radio module type)]),

Defines the diplexer total delay both in up- and downlink direction. This parameter is used in BTS Manager to calculate diplexer signal propagation delay.

Total delay due to filter use. Filter's total delay is summed automatically to antennaRoundTripDelay when BTS Site Manager is used - otherwice summing needs to be done manuallly.

The Velocity factor is used to calculate RTT more exactly. The velocity factor can be obtained from the specifications of the used cable.

Defines the BTS in question.

Defines specific Base Station site.

Defines the cabinet type. The allowed value is: FlexiBTS: 17.

Sets the cancellation delay for the fault.

Free text about the passive unit in question.

This parameter indicates if BTS requires configuration in auto configuration case.

Defines the external fault description.

Defines the external fault description.

Defines the usage of the external 2.048MHz synchronisation reference.

The list defines the external fault input signals.

Defines the usage of the GPS.

This parameter enables HSDPA 16QAM feature (RAN764).

HSDPA Quality of Service scheduling for SPI classes

System Module Core Assembly serial number : always present in FSM HW.

Defines if the external control line is in use or not in use.

Defines if the EAC line is in use or not in use.

The list defines the external fault output signals.

Defines how HSDPA users are allocated. The options are Full, BTS and Cell. If the selected option is BTS, it is possible to set 1 - 3 HSDPA cells, each of them situated in the same FSP. The total amount of the HSDPA users cannot exceed 16. The HSDPA capacity requirement is 32 channel elements from FSP. If the selected option is Cell, it This parameter enables the high-speed downlink packet access (HSDPA) Proportional Fair Resource Packet scheduler feature.

This parameter is used to select how the HSDPA Congestion Control (when enabled) treats different traffic classes in case of Iub overload. 0: This setting is intended for Background and Interactive NRT traffic classes. In case of Iub overload, congestion control is allowed to reduce the bit rate on Iub frame protocol level down to 0 credits, if needed. Parameter defines threshold value for UE Power Headroom (UPH) values in Happy bit ratio measurement. Happy bits that are associated to UPH values that are below the defined threshold, are not taken into account in Happy bit ratio measurement. The target for filtering is to filter out power limited situation from Happy bit ratio measurement as they Parameter is used to to define filtering for Happy bit ratio measurement. If filtering is active, then Happy bit ratio counter is not updated based on Happy bit preceding DTX frame/subframe. The target for filtering is to filter out small data bursts (such as ping) from Happy bit ratio measurement as they do not give reliable information of UE allocation.

Defines the initial state of the external control line after a reset of the BTS. The options are "On" and "Off". If the initial state is "On", current is going through.

Defines the usage of the Iub synchronization reference.

Defines the module where EAC inputs are commissioned. Allowed modules are FSM1, FR1, FR2 and FR3

Defines the module where EAC outputs are commissioned. Allowed modules are FSM1, FR1, FR2 and FR3.

The list defines the module and its location e.g. place or address.

Defines the name of the passive unit in question.

Defines the number of external fault lines reserved by Mains break. The allowed values are 0,1 and 3.

The list defines commissioned passive units.

Defines path maximum retransmissions (1-15 attempts, default 5).

Defines the product code of the passive unit in question.

Defines the type of the RNC. If a NSN RNC is in use, there is no need to fill in any other RNC parameters.

This parameter indicates if BTS should automatically go to "Test Dedicated" state in start-up.

Defines the usage of the Intelligent shutdown feature. If intelligent shutdown has been selected in use (intShutdownInUse gets value true) then intelligent shutdown timeout (intShutdownTimeout) is mandatory for local cells (LCEL).

Defines the external fault lines. module, inUse, description, polarity and severity must be defined for input signals. There are 14 input signals in FlexiBTS system module. Lines 13 and 14 are reserved for the Flexi Power Module and cannot be assigned to other use. Values 1-14 are allowed. In WN5.0 and onwards input signals can be defined also Defines the external fault lines.

module, inUse, description and initialState must be defined for Control Signals. There are 6 output signals in FlexiBTS Defines the starting external fault line for the mains power fault when Intelligent shutdown is in use. Default values: Flexi Power Module: 13 NSN BBU: 1 Other BBU: a value between 1-12 can be chosen.

The maximum delay threshold after the system is interpreted to be in very severe congestion and propability to reduce credits is 100%. Threshold defines the deviation of arrival interval from the TTI given to Iub. Note: Thmin < Thmid < Thmax.The middle delay threshold after the system is interpreted to be in more severe congestion and MECN procedure is more aggressive. Threshold defines the deviation of arrival interval from the TTI given to Iub. Note: Thmin < Thmid < Thmax.Defines the minimum delay threshold after the MECN procedure activates. Threshold defines the deviation of arrival interval from the TTI given to Iub. Note: Thmin < Thmid < Thmax.

Defines a one of the following Flexi modules: Module="FSM1" | Module ="FSM2" | Module ="FR1" | Module ="FR2" | Module ="FR3" Location information can be defined to these modules.

Defines the location of Flexi module in free text with maximum 50 characters or has the value -1 (Not defined). The value -1 (Not defined) is not used at the commissioning file. Location can be e.g. place or address of the module.

Defines the used polarity of the external fault line: normally open or normally closed. Normally_open: when the connector is open, there is no alarm. Normally_closed: when the connector is closed, there is a fault.

Defines the product code of the module (radio module or system module). Parameter is used in offline mode commissioning in BTS Site Manager and in prevalidation in NetAct.

HSDPA Quality of Service Scheduling Priority Indicator (SPI) class identifier (0-15). This is standard defined identification of a priority class with zero being the lowest priority and 15 the highest.

Defines the serial number of the passive unit in question.

Defines the seriousness of the external fault condition in question. Minor = 1 Major = 2 Critical = 3.

Site ID inserted by operator during autoconnection.

Sets the activation delay for the fault.

Defines the version of the passive unit in question.

This parameter sets the SIB7 expiration timer for the UE. The allowed values are 1,2,4,8,16,32,64,128, and 256.

Defines a scheduling weight for priority queues with specific SPI value. When there are no services with Guaranteed Bit Rate (GBR) in a cell, the weights are used to define the proportion in which the queues in a cell are scheduled in proportion to each other (the proportion is roughly the weight of queue divided by the sum of the weights of all

This parameter enables simultaneous HSDPA transmission to (max) three HSDPA-capable cells by using a single UltraSite WSPC card or one submodule in FlexiBTS.

Defines the used Time Zone.

The format is predefined, for example for Helsinki "(GMT+2) Europe/Helsinki".The list defines the unit information for offline mode commissioning in BTS Site Manager and for prevalidation in NetAct. unitList must contain radio modules and system modules from BTS site HW configuration. Defines the unit name of the module (radio module or system module) in question. unitName is FR for radio modules and FSM for system modules. Parameter is used in offline mode commissioning in BTS Site Manager and in prevalidation in NetActDefines the number of the module (radio module or system module) in the BTS. Radio module are numbered according to master system module's RF interfaces. Radio module connected to RF interface #1 gets unitNumber 1, Defines the name of the module (radio module or system module) in the BTS. Example: variant for FRGF is GF. Example: variant for FSMD is D.

Based on the hardware in the BTS, the BTS Site Manager checks which carrier values are allowed for BTS testing in each cell.

Defines the antenna line ID assigned to the local cell. Sector Configuration Type F (Single Antenna Receiving) is using only one antId per radio module. Sector Configuration Type A, B and C are using two antIds per radio module.Type C uses antennas from two radio modules,1 per radio module. The radius of one cell. The maximum range of the cell, i.e. the maximum distance from the cell site where a MS can have a radio connection to the cell including soft handover situations. The value is given in meters for non-NSN RNCs.

This parameter defines the default carrier used in tests for local cells. The UARFCN values used are operator-specific and defined by the 3GPP. For example, for the 2100 MHz frequency, the allowed values are 10562-10838.

This parameter defines absolute Tx frequency in kHz for overriding normal Filter center frequency tuning.

Parameter can be used to override normal filter tuning to minimize noise to neighbouring frequency band. If parameter Defines the backup time after which the cell starts to shut down itself. This parameter is used only when battery backup is used. The time is given in seconds. 0 is immediate and 599940 is infinite. Note that BTS Site Manager UI values are in minutes (0...9999).The Local cell resource is an object, which consists of the HW required by one cell for transmission and receiving. Local cell resource identifier is used to address one particular local cell resource at the BTS. The lCelId is unique within a BTS. With the Configuration Data message the local cell resource can be associated to the cell identifier (C-With the Mapping HSPA cell to HW parameter, the user can map HSPA local cells to baseband HW resources (to different system modules). Parameter can have values FSM1, FSM2 AND None. By default None value is used.

The maximum TX carrier power for the local cell in dBm. The value is shown in watts in the BTS Site Manager. The allowed values are 39.0, 40.0, 41.8, 43.0, 44.8, 46.0 and 47.8.

RACH Capacity defines the HW capacity reserved for a RACH transport channel in the BTS. RACH Capacity is given as a number of decoded RACH messages in a 10 ms or 20 ms radio frame. The options are 1,2,3 and 4.

Cell group identification.

User definable name for Cell Group. 1-20 characters.

Defines Minimum HSUPA decoding capacity per LCG in Mbit/s.

Defines minimum amount of users allocate to baseband in HSUPA.

This parameter defines HSUPA BB sharing usage.

Defines the list of local cells belonging to the local cell groups.

A list containing: operating frequency band, beamwidth and the operation gain

Antenna Bearing

Identifies the specific antenna line assigned to the MHA.

Antenna model number

Antenna serial number

Base Station ID

Defines the connection type for MHA/LNA. Expected values: Internal | Shared | External

A 3GPP Iub parameter for the gradual shutdown procedure. Indicates in how many steps the transmission power for CPICH, BCH and all other common physical and transport channels is shut down within the shutdown window.

A 3GPP Iub parameter for the shutdown procedure. Indicates how long the actual shutdown procedure for CPICH, BCH and all other common physical and transport channels lasts. The time is given in seconds. If the value is 0, the gradual shutdown procedure is not used at all.Defines the LCGs access to Baseband Capacity from 0 to 100%, when BB Parameter Supports.Flexible.Bb.Configuration is TRUE for all Modules. If at least one of the used modules has BPF parameter Supports.Flexible.Bb.Configuration equal to FALSE, then the LCG access to BB capacity is fixed according to BB Bus

Defines the quaranteed CE capacity for each LCG in MORAN case (Optional feature).

BTS Manager shall allow dedicated Baseband options in percentages from 0 to 100%. The sum of all dedicated

3GPP protocol version

Note: Parameter is not seen in upload file in this release, because BTS SW is not providing those due to feature AISG protocol version

Note: Parameter is not seen in upload file in this release, because BTS SW is not providing those due to feature Defines MHA as AISG MHA or Non-AISG MHA. Selectable values is 0 (false)= Non-AISG MHA and 1 (true )= AISG MHA .

The antenna beamwidth for the band. Some RET types may automatically update the beamwidth information based on the configuration data downloaded into the RET device. Some devices may also restrict ovewriting the field.

Antenna operating band(s): 1 - 3GPP band I: 2100 MHz2 - 3GPP band II: 1900 MHzThe antenna gain for the band. Some RET types may automatically update the gain information based on the configuration data downloaded into the RET device. Some devices may also restrict ovewriting the field.

Installation Date

Installer's ID

Parameter for MHA telling LNA number inside one MHA. For Non AISG MHAs is used -1 (not defined).

Defines the gain of the mast-head amplifier.

Defines the specific mast-head amplifier unit. The value is given as consecutive numbers starting from 1.

Defines the product code of the unit in question.

Sector ID

Defines the serial number of the unit in question.

Defines the "other" type of MHA delay in the downlink direction. If the BTS Site Manager is used to calculate RTT delay, this value must be specified for an "Other" type MHA.

Defines a configurable fault threshold level for the mast-head amplifier, used if the MHA fault detection parameter has the value 1 (in use). Default value is depending on Flexi Filter (FF).

Gain resolution given as the gain resolution figure expressed in dB.

Note: Parameter is not seen in upload file in this release, because BTS SW is not providing those due to feature

Defines if fault detection is used or not. The options are 0 (false) and 1 (true). Default values for Non-AISG MHAs and AISG MHAs in passive mode: 1 Default values for AISG and third party MHAs:0 Note: Configurable MHA faults are allowed only for passive MHAs

Defines the type of the MHA. The supported MHA types are: WMHA, WMHB, WMHC, WMHD, MDTA, MDPA, MDGA, MDDA, FLJA, DTMAFV1, DTMAFV3, DTMAFV4, DTMARETFV1, DTMARETFV2, DTMARETFV3, DTMARETFV4, SDTMARETFV1, SDTMARETFV2, SDTMARETFV3, TMAFV1, TMAFV3, TMAFV4, TMARETFV1 and other.Maximum supported gain given as gain figure expressed in dB.

Note: Parameter is not seen in upload file in this release, because BTS SW is not providing those due to feature Minimum supported gain given as gain figure expressed in dB.

Note: Parameter is not seen in upload file in this release, because BTS SW is not providing those due to feature

Defines which antenna interface is scanned. Expected value: FRx-ANTx and empty string where FRx: 1...3 and ANTx: 1...6 It is depending on radio module type which antennas are capable for scanning / AISG device detection.

Substance version number

Note: Parameter is not seen in upload file in this release, because BTS SW is not providing those due to feature TMA Subunit receive frequency band

Note: Parameter is not seen in upload file in this release, because BTS SW is not providing those due to feature TMA Subunit receive frequency band

Note: Parameter is not seen in upload file in this release, because BTS SW is not providing those due to feature TMA Subunit transmit frequency band

Note: Parameter is not seen in upload file in this release, because BTS SW is not providing those due to feature TMA Subunit transmit frequency band

Note: Parameter is not seen in upload file in this release, because BTS SW is not providing those due to feature TMA Subunit type

Note: Parameter is not seen in upload file in this release, because BTS SW is not providing those due to feature Defines the MHA delay in the uplink direction for an "Other" type MHA. If the BTS Site Manager is used to calculate antenna round trip time delay, this value must be specified.

A list containing: operating frequency band, beamwidth and the operation gain.

Antenna bearing

Antenna height

Identifies the specific antenna line(s) assigned to the RET.

Antenna location

Antenna model number

Antenna serial number

Antenna type according to the user scheme

Base Station ID

Defines the connection type for TILT. Expected values: Internal | Shared | External.

Installation date

Installer's ID

Defines the product code of the unit in question. Mandatory for 3GPP RET.

Defines the specific RET (Remote Electrical Tilting) wich is vertical tilting for antenna.

Sector ID

Defines the MHA connector in question of WMHC and TMARET MHA types. The options are BTS1 (Pass-through) and BTS2 (Power) for WMHC, NODEB0 and NODEB1 for TMARET MHA types. If other than WMHC or TMARET MHA types are used then wmhConnector parameter value is None3GPP protocol version

Note:In this release parameter uploading is possible only by NetAct.Defines RET as AISG RET or Non-AISG RET.

Selectable values is 0 (false)= Siemens AISG1.1, Antenna operating band(s): 1 - 3GPP band I: 2100 MHz2 - 3GPP band II: 1900 MHz

The antenna beamwidth for the band. Some RET types may automatically update the beamwidth information based on the configuration data downloaded into the RET device. Some devices may also restrict ovewriting the field.

The antenna gain for the band. Some RET types may automatically update the gain information based on the configuration data downloaded into the RET device. Some devices may also restrict ovewriting the field.

Antenna technology:0: voice; 1: data;

Defines which antenna interface is scanned. Expected value: FRx-ANTx and empty string where RFx: 1...3 and ANTx: 1...6 It is depending on radio module type which antennas are capable for scanning / AISG device detection.

Defines the serial number of the unit in question. Mandatory for 3GPP RET.

Range:

0 (ANT1), 1 (ANT2), 2 (ANT3), 3 (ANT4), 4 (ANT5), 5 (ANT6)

1..18

4.5..45077.5

-214748364..0

1..9999

-99.9..0

-1 (Automatic), 0 (0), 1 (12), 2 (24), 3 (28)

0 (FR1), 1 (FR2), 2 (FR3)

-1 (None), 0 (Diplexer), 1 (Triplexer)

1..3

-99..0

0..1000

1..80

0..1000

0.01..0.99

1..15

0 (false), 1 (true)

1..80

1..64

1..65534

1..1

17..17

0..86400

1..60

0 (false), 1 (true)

1..64

1..64

0 (false), 1 (true)

-

-

0 (false), 1 (true)

0 (false), 1 (true)

0 (BTS), 1 (Cell), 2 (Full)

0 (false), 1 (true)

-

0..2

1..31

0..1

1..11

0 (false), 1 (true)

0 (false), 1 (true)

0 (On), 1 (Off)

0 (false), 1 (true)

0 (false), 1 (true)

1..20

1..6

1..13

0..5000

0..5000

0..5000

0 (FSM1), 1 (FSM2), 2 (FR1), 3 (FR2), 4 (FR3)

0 (FSM1), 1 (FR1), 2 (FR2), 3 (FR3)

0 (FSM1), 1 (FR1), 2 (FR2), 3 (FR3)

-

0..50

1..60

0..3

-

1..15

0 (Normally_open), 1 (Normally_closed)

1..20

0..60

0..15

0 (NSN), 1 (Other)

0 (false), 1 (true)

0..100

0..60

1 (Minor), 2 (Major), 3 (Critical)

0 (false), 1 (true)

0..50

0..86400

-

1..80

1..99

0..60

1..20

0..16383

1..18

100..180000

0..16383

0 (1), 1 (2), 2 (4), 3 (8), 4 (16), 5 (32), 6 (64), 7 (128), 8 (256)

0..3000000

0..9999

0..268435455

-1 (None), 0 (FSM1), 1 (FSM2)

0 (39.0), 1 (40.0), 2 (41.8), 3 (43.0), 4 (44.8), 5 (46.0), 6 (47.8)

1..4

0 ((GMT-11) Etc/GMT+11), 1 ((GMT-11) MIT), 2 ((GMT-11) Pacific/Apia), 3 ((GMT-11) Pacific/Midway), 4 ((GMT-11) Pacific/Niue), 5 ((GMT-11) Pacific/Pago_Pago), 6 ((GMT-11) Pacific/Samoa), 7 ((GMT-11) US/Samoa), 8 ((GMT-10) America/Adak), 9 ((GMT-10) America/Atka), 10 ((GMT-10) Etc/GMT+10), 11 ((GMT-10) HST), 12 ((GMT-10)

1..16

0 (0), 1 (5), 2 (10), 3 (15), 4 (20), 5 (25), 6 (30), 7 (35), 8 (40), 9 (45)

0..100

1..4

1..20

0..100

0 (0 Mbit/s), 1 (less than 1.4 Mbit/s), 2 (1.4 Mbit/s), 3 (2.8 Mbit/s), 4 (4.2 Mbit/s), 5 (5.6 Mbit/s)

0..24

0 (false), 1 (true)

0..268435455

0..255

2..255

0 (false), 1 (true)

-

0..360

0..359.9

1..18

0..15

0..25.5

0..17

0..32

0 (Internal), 1 (Shared), 2 (External)

1 (Band I), 2 (Band II), 3 (Band III), 4 (Band IV), 5 (Band V), 6 (Band VI), 7 (Band VII), 8 (Band VIII), 9 (Band IX), 10 (Band X), 11 (Band XI), 12 (Band XII), 13 (Band XIII), 14 (Band XIV)

0..1000

120..775

0..99

0..6

0..5

-1 (Not Defined), 0 (LNA1), 1 (LNA2)

0 (false), 1 (true)

0..99

1..255

0..99

0..99

1..80

0..32

1..80

2..255

0..6553500

0..6553500

0..6553500

0..6553500

0..1000

0 (WMHA), 1 (WMHB), 2 (WMHC), 3 (WMHD), 4 (MDTA), 5 (MDPA), 6 (MDGA), 7 (MDDA), 8 (FLJA), 9 (DTMAFV1), 10 (DTMAFV3), 11 (DTMAFV4), 12 (DTMARETFV1), 13 (DTMARETFV2), 14 (DTMARETFV3), 15 (DTMARETFV4), 16 (SDTMARETFV1), 17 (SDTMARETFV2), 18 (SDTMARETFV3), 19 (TMAFV1), 20 (TMAFV3), 21 (TMAFV4), 22

-1 (NONE), 0 (FR1-ANT1), 1 (FR1-ANT3), 2 (FR1-ANT5), 3 (FR2-ANT1), 4 (FR2-ANT3), 5 (FR2-ANT5), 6 (FR3-ANT1), 7 (FR3-ANT3), 8 (FR3-ANT5)

Bit 0: Bypass, Bit 1: VSWR, Bit 2: spare (Always 0), Bit 3: spare (Always 0), Bit 4: spare (Always 0), Bit 5: spare (Always 0), Bit 6: spare (Always 0), Bit 7: spare (Always 0)

-1 (None), 0 (BTS1), 1 (BTS2), 2 (NODEB0), 3 (NODEB1)

0..255

0 (false), 1 (true)

-

0..360

0..359.9

0..999

1..18

0..31

0..15

0..25.5

0..17

0 (voice), 1 (data), 2 (voice/data)

1 (Type 1), 2 (Type 2), 3 (Type 3), 4 (Type 4), 5 (Type 5), 6 (Type 6), 7 (Type 7), 8 (Type 8), 9 (Type 9)

0..32

0 (Internal), 1 (Shared), 2 (External)

0..6

0..5

1..80

1..255

0..32

1 (Band I), 2 (Band II), 3 (Band III), 4 (Band IV), 5 (Band V), 6 (Band VI), 7 (Band VII), 8 (Band VIII), 9 (Band IX), 10 (Band X), 11 (Band XI), 12 (Band XII), 13 (Band XIII), 14 (Band XIV)

-1 (NONE), 0 (FR1-ANT1), 1 (FR1-ANT3), 2 (FR1-ANT5), 3 (FR2-ANT1), 4 (FR2-ANT3), 5 (FR2-ANT5), 6 (FR3-ANT1), 7 (FR3-ANT3), 8 (FR3-ANT5)

1..80

Step:

-

1

0.1

0.1

1

0.1

-

-

-

1

0.1

1

-

1

0.01

1

-

-

-

1

1

1

1

-

-

-

-

-

-

-

-

-

-

-

-

1

1

1

-

-

-

-

-

-

1

1

1

10

10

10

-

-

-

-

-

-

1

-

1

-

-

-

1

-

-

1

-

-

-

-

1

-

-

-

1

-

-

1

1

100

1

-

1

1

1

-

-

1

1

-

1

1

-

1

-

1

-

1

1

1

-

-

1

0.1

1

-

-

0.1

-

-

-

1

1

0.01

-

-

-

-

0.01

1

-

0.01

0.01

-

-

-

-

1

100

100

100

100

-

1

-

1

-

-

-

1

0.1

1

1

1

-

0.1

-

-

-

-

-

-

-

-

1

-

-

-

Unit:

-

-

ns

dB

m

dB

-

-

-

pcs

dB

ns

characters

ns

-

-

-

characters

characters

-

-

-

s

characters

-

characters

characters

-

-

-

-

-

-

-

-

-

-

-

characters

-

-

-

-

-

-

-

-

ms

ms

ms

-

-

-

-

characters

characters

-

-

-

-

characters

characters

-

-

-

-

characters

-

-

characters

s

-

-

characters

-

characters

characters

-

-

m

-

-

kHz

min

-

-

-

-

-

-

%

-

characters

%

-

-

-

-

-

-

-

-

deg

deg

-

characters

-

dBi

characters

characters

-

ns

mA

dB

characters

characters

-

-

dB

-

-

dB

dB

characters

-

characters

characters

-

kHz

kHz

kHz

kHz

-

ns

-

-

-

-

-

deg

deg

meters

-

-

characters

dBi

characters

-

-

characters

-

characters

characters

characters

-

-

characters

characters

Formula for getting internal value

= UI_value

= UI_value * 10

= UI_value * 10

= UI_value

= UI_value * 10

= UI_value

= UI_value * 10

= UI_value

= UI_value

= UI_value * 100

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value * 60

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value * 10

= UI_value

= UI_value * 10

= UI_value

= UI_value

= UI_value * 100

= UI_value * 100

= UI_value

= UI_value * 100

= UI_value * 100

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value * 10

= UI_value

= UI_value

= UI_value

= UI_value * 10

= UI_value

Default value

-3

-3

1

-0.5

25

0

0.82

5

false

1

17

0

false

false

true

0

true

10

1

false

false

1

false

false

13

250

150

50

5

1

0

false

true

0

20000

0

0

2

10

3

0

0

0

0

false

0

165

0

0

Default value notes

Auto configuration is not blocked.

1 (filtering active)

Start-up normally.

Required on creation

Mandatory

Mandatory

Mandatory

Mandatory

Optional

Mandatory

Mandatory

Mandatory

Optional

Optional

Optional

Optional

Optional

Optional

Optional

Optional

Value set by the system

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Optional

Optional

Value set by the system

Mandatory

Mandatory

Mandatory

Optional

Optional

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Optional

Optional

Value set by the system

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Optional

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Optional

Optional

Optional

Optional

Optional

Optional

Mandatory

Mandatory

Optional

Mandatory

Mandatory

Optional

Mandatory

Optional

Mandatory

Mandatory

Value set by the system

Optional

Mandatory

Mandatory

Optional

Mandatory

Optional

Optional

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Optional

Optional

Mandatory

Mandatory

Mandatory

Mandatory

Optional

Optional

Mandatory

Mandatory

Optional

Optional

Mandatory

Mandatory

Mandatory

Mandatory

Value set by the system

Value set by the system

Mandatory

Optional

Mandatory

Optional

Mandatory

Optional

Mandatory

Mandatory

Optional

Optional

Mandatory

Mandatory

Mandatory

Value set by the system

Optional

Optional

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Value set by the system

Value set by the system

Mandatory

Mandatory

Optional

Mandatory

Value set by the system

Value set by the system

Value set by the system

Value set by the system

Value set by the system

Value set by the system

Mandatory

Mandatory

Value set by the system

Mandatory

Mandatory

Optional

Mandatory

Optional

Optional

Mandatory

Optional

Optional

Mandatory

Optional

Optional

Optional

Optional

Mandatory

Optional

Optional

Optional

Mandatory

Mandatory

Optional

Optional

Special value

0

0

0

0

Related functions

System information

Modification

cellShutdown

unmodifiable

onLine

onLine

unmodifiable

onLine

onLine

onLine

onLine

onLine

onLine

cellShutdown

unmodifiable

onLine

onLine

onLine

onLine

onLine

onLine

onLine

onLine

onLine

onLine

onLine

onLine

onLine

onLine

onLine

onLine

onLine

onLine

onLine

unmodifiable

onLine

onLine

onLine

onLine

onLine

unmodifiable

unmodifiable

onLine

onLine

onLine

onLine

onLine

onLine

onLine

onLine

unmodifiable

onLine

onLine

unmodifiable

unmodifiable

onLine

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

onLine

onLine

onLine

onLine

onLine

onLine

onLine

onLine

onLine

onLine

onLine

onLine

onLine

onLine

onLine

Modified

Modification via BTS commissioning.

Pronto 45125ESPE04 Change range from 0...31 to 1...31.

Modification via BTS commissioning.

Related parameters

- cableLength of ANTL - Cable lenght and velocity factor is used for RTT delay calculation for feeder cable. - velocityFactor of ANTL - Cable lenght and velocity factor is used for RTT delay calculation for feeder cable. - multiplexerAmount of ANTL - This is multiplier for RTT delays for multiplexerTotalDelay for other typ and Nokia type

- antennaRoundTripDelay of ANTL - Cable lenght and velocity factor is used for RTT delay calculation for feeder cable. If these parameters is defined then there must use same values when RTT total delay is calculated for antennaRoundTripDelay parameter.

- antennaRoundTripDelay of ANTL - When multiplexer type is Diplexer/Triplexer then default RTT delay needs to be summent to the antennaRoundTripDelay.

- antennaRoundTripDelay of ANTL - This is multiplier for RTT delays for multiplexerTotalDelay for other typ and Nokia type of multiplexer default RTT delay.

- antennaRoundTripDelay of ANTL - If multiplexer type is other than "none" multiplexerTotalDelay must be defined and also calculated to the antennaRoundTripDelay.

- antennaRoundTripDelay of ANTL - When phsFilterTotalDelay is defined it needs to be summend to the antennaRoundTripDelay.

- antennaRoundTripDelay of ANTL - Cable lenght and velocity factor is used for RTT delay calculation for feeder cable. If these parameters is defined then there must use same values when RTT total delay is calculated for antennaRoundTripDelay parameter.

- id of BTSSC - If SPI class id is 0...12 then ccPolicy default value is 0 and if SPI class id is 13...15 then ccPolicy default value is 1.

- intShutdownTimeout of LCEL - intShutdownTimeout is mandatory when intShutdownInUse gets value true.

- antlId of ANTL - Identifies the specific antenna line and it's ID assigned to the local cell.

- intShutdownInUse of BTSSC - If intelligentShutdownInUse parameter value is false then this parameter is optional.

- id of BTSSC - Relation between SPI class id and scheduling weight default value is following: id => weight 0 => 1

- antlId of ANTL - Identifies the specific antenna line id assigned to the MHA.

- mhaType of MHA - If Active parameter value is false there is relation to MHA type and delay values used in RTT (antennaRoundTripDelay).

- antennaRoundTripDelay of ANTL - Delays from passive mode MHA is added to antennaRoundTripDelay value by formula defined in antennaRoundTripDelay parameter description. - mhaType of MHA - When passive mode "other" type MHA is used, Downlink delay needs to be defined other cases

- antennaRoundTripDelay of ANTL - RTT delay default values for Nokia MHAs is defined in antennaTripDelay parammeter description. Only "other" - type of MHAs delay value needs to be defined.- active of MHA - Only passsive mode MHAs delay values needs to be defined. Delay from active mode Nokia MHA is

- antennaRoundTripDelay of ANTL - Delays from passive mode MHA is added to antennaRoundTripDelay value by formula defined in antennaRoundTripDelay parameter description.- mhaType of MHA - When passive mode "other" type MHA is used, Uplink delay needs to be defined other cases

- antlId of ANTL - Identifies the specific antenna line(s)id assigned to the RET.

Parameter relationships

If SPI class id is 0...12 then ccPolicy default value is 0 and if SPI class id is 13...15 then ccPolicy default value is 1.

intShutdownTimeout is mandatory when intShutdownInUse gets value true.

Identifies the specific antenna line and it's ID assigned to the local cell.

If intelligentShutdownInUse parameter value is false then this parameter is optional.

Relation between SPI class id and scheduling weight default value is following: id => weight 0 => 1

Identifies the specific antenna line id assigned to the MHA.

Identifies the specific antenna line(s)id assigned to the RET.

Related features

RAN1299 BTS Auto Configuration (optional)

RAN1299 BTS Auto Configuration (optional)

RAN1093 HSDPA 16QAM SW Licence Support (optional) RAN764 HSDPA 16QAM Support (optional)

RAN849 HSDPA Proportional Fair Resource Packet Scheduler (optional)

RAN1298 BTS Auto Connection (optional) RAN1299 BTS Auto Configuration (optional)

RAN1299 BTS Auto Configuration (optional)

RAN1034 Shared HSDPA Scheduler for Baseband Efficiency (optional)

RAN1298 BTS Auto Connection (optional) RAN1299 BTS Auto Configuration (optional)

RAN1671 Enhanced UltraSite Base Band (EUBB) (optional)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

RAN1852 RET Device Naming (standard)

Interfaces

- EM <-> WBTS

- EM <-> WBTS

- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp

- WBTS -> RAC- RAC -> RACApp

- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp

- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- RAC <-> RACApp- WBTS <-> RAC- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- WBTS -> RAC- RAC -> RACApp

- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- WBTS -> RAC- RAC -> RACApp

- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp

- EM <-> WBTS

- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp

- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS

- EM <-> WBTS

- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- WBTS -> RAC- RAC -> RACApp

- EM <-> WBTS- RAC <-> RACApp- WBTS <-> RAC- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp

- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp

- WBTS -> RAC

- WBTS -> RAC

- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp

- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp

- WBTS -> RAC

- WBTS -> RAC

- WBTS -> RAC

- WBTS -> RAC

- WBTS -> RAC

- WBTS -> RAC

- WBTS -> RAC

- WBTS -> RAC

- WBTS -> RAC

- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp

- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp

- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp

- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp

- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp

- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp

- EM <-> WBTS- WBTS <-> RAC- RAC <-> RACApp

References

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- Undefined:1462

- Undefined:1439

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- Undefined:1469

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- Undefined:1447

- Undefined:1475- Undefined:1484

- Undefined:1473- Undefined:1482

- Undefined:1474- Undefined:1482

- Undefined:1464- Undefined:1465

- Undefined:1464- Undefined:1465

- Undefined:1476- Undefined:1486

- Undefined:1462

- Undefined:1447

- Undefined:1448

- Undefined:1449

- Undefined:1464

- Undefined:1464

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- Undefined:1448

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- Undefined:3155 (public)

- Undefined:1447

- Undefined:1458

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- Undefined:1450- Undefined:1449

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- Undefined:1460

Struct parameter

extAlList

passUnitList

extCtrlList

extAlList

qosSchedList

extCtrlList

extAlList

extCtrlList

extAlList

extCtrlList

moduleList

extAlList

extCtrlList

moduleList

passUnitList

extAlList

unitList

passUnitList

qosSchedList

qosSchedList

passUnitList

extAlList

extAlList

unitList

unitList

unitList

passUnitList

antBandList

antBandList

antBandList

antBandList

antBandList

antBandList

Reference InformationDocument Type Parameter

Date 2011-03-23 11:23

Compare scope WBTS WBTS4.0 F / WBTS6.0 F

Managed Object P

ANTENNA_HW

ANTENNA_HW

ANTENNA_HW

ANTENNA_HW

ANTENNA_HW

ANTENNA_HW

ANTENNA_HW

ANTENNA_HW

ANTENNA_HW

ANTENNA_HW

ANTENNA_HW

ANTENNA_HW

ANTENNA_HW

ANTENNA_HW

ANTENNA_HW

ANTENNA_HW

ANTENNA_HW

ANTENNA_HW

ANTENNA_HW

AnAntAntCabDipDipDipDipDipDipFeeFeePHSPHSSamSamTotTriVel

CELL_GROUP

CELL_GROUP

CELL_GROUP

CELL_GROUP

CELL_GROUP

CELL_GROUP

CELL_GROUP

FILEMODE_UNIT

FILEMODE_UNIT

FILEMODE_UNIT

INPUT_EAC

INPUT_EAC

INPUT_EAC

INPUT_EAC

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

Cell HSUHSUHSULCRWSPWSPFileUniVarDesLinPolSevActAlaAntConDowLNAMHAMHAMHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

MHA

OUTPUT_EAC

OUTPUT_EAC

OUTPUT_EAC

PASSIVE_UNIT

PASSIVE_UNIT

PASSIVE_UNIT

PASSIVE_UNIT

PASSIVE_UNIT

TILT

TILT

TILT

TILT

TILT

TILT

MHAMHAMHAMHAProScaSerUpliWMHDesIniLinComPasProSerVerAntConConManProSca

TILT

TILT

WBTS

WBTS

WBTS_HW

WBTS_HW

WBTS_HW

WBTS_HW

WBTS_HW

WBTS_HW

WBTS_HW

WBTS_HW

WBTS_HW

WBTS_HW

WBTS_HW

WBTS_HW

WBTS_HW

WBTS_HW

WBTS_HW

WBTS_HW

WBTS_HW

WBTS_HW

WBTS_HW

SerTILWBTWCDASCAutAutBS CabCabComFR1FR2FR3FSMFSMFileFileFileFileHSDHSDInt

WBTS_HW

WBTS_HW

WBTS_HW

WBTS_HW

WBTS_HW

WCEL

WCEL_HW

WCEL_HW

WCEL_HW

WCEL_HW

WCEL_HW

WCEL_HW

WCEL_HW

WCEL_HW

WCEL_HW

WCEL_HW

WCEL_HW

WCEL_HW

WCEL_HW

MaiNumRNCTimWBTLocAlloCell Cell ConDefExpExpFR IntMaxRACShuShu

Parameter

2011-03-23 11:23

WBTS WBTS4.0 F / WBTS6.0 F

Abbreviated name

AntennaId

AntennaRoundTripDelay

AntennaTotalLoss

CableLength

DiplexerAmount

DiplexerInUse

DiplexerType

DiplexerType

DiplexerLoss

DiplexerTotalDelay

FeederLoss

FeederVoltage

PHSFilterInUse

PHSTotalDelay

SBCInUse

SBCProductCode

PHSTotalDelay

TriplexerInUse

VelocityFactor

CellGroupId

HSUPABBDecodingCapacity

HSUPABBMinimumUsers

HSUPABBSharingInUse

LcrId

WspId

WspId

FuName

UnitNumber

Variant

InputAlarmDescription

InputLineId

InputSignalPolarity

InputAlarmSeverity

Active

AlarmThresholdLevel

AntennaId

Connection

DownlinkDelay

LNANumber

MHAAlarmDetection

MhaGain

MhaAntennaId

MhaAntennaId

MHAType

MHAType

MHAType

ProductCode

ScannedAntennaInterface

SerialNumber

UplinkDelay

WMHConnector

OutputAlarmDescription

InitialOutputAlarmState

OutputLineId

Comment

PuName

ProductCode

SerialNumber

PuVersion

AntennaId

ConfigFile

Connection

Manufacturer

ProductCode

ScannedAntennaInterface

SerialNumber

TILTAntennaId

WBTSId

WBTSName

AscuIpAddress

AuthenticationServerIpAddress

AuthenticationServerName

BsConfigurationIdentifier

CabinetIdInLargeWBTS

CabinetType

CommissioningMode

Fr1ModuleLocation

Fr2ModuleLocation

Fr3ModuleLocation

Fsm1ModuleLocation

Fsm2ModuleLocation

FileAuthor

FileCreationDate

FileVersionIdentification

FileVersionIdentification

HSDPABBResourceAllocation

HSDPABBResourceAllocation

IntelligentShutdownInUse

MainsPowerAlarmId

MainsPowerAlarmLines

RNCType

TimeZone

Version

LcrId

AllowedCarrier

CellRange

CellRange

Concept

DefaultCarrier

ExpirationTime

ExpirationTime

FrAntId

IntelligentShutdownTimeout

MaxCarrierPower

RACHCapacity

ShutdownStepAmount

ShutdownWindow

3GPP name

Parameter group

Category

Multiplicity:

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

12

3

6

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

2

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

4

1

1

1

1

1

1

12

1

1

1

1

1

Description

This parameter contains the total loss calculated from the Feeder.Loss and Diplexer.Loss values.

Defines how many diplexers connected as a series there can be in the antenna line.

Defines usage of the diplexer in the antenna path.

Defines the diplexer loss.

Defines the Diplexer total delay both in up- and downlink direction.

Defines the feeder loss of the antenna cable.

Defines usage of external filter.

Defines total delay for PHS filter.

This parameter defines Same Band Combiner Usage.

Same Band Combiner Product Code

The RTT delay caused by one diplexer.

Identifies the specific antenna.

The delay of the entire antenna line can be entered into this parameter, which is then used as the RTT value instead of calculating the value using the BTS Site Manager.

Defines the antenna RF cable length in metres.

This parameter is used by BTS Site Manager to calculate antenna round trip delay. The delay is 4.5 ns/m. The value

The type of the diplexer in the antenna line.

The options are FDIA and Other.The type of the diplexer in the antenna line.

The used value is Other.

Defines the voltage level supplied to the antenna line.

The values entered for this parameter depend on the MHA type:

Defines the usage of triplexer in the antenna path.

If used, the delay added is 25 ns. If the BTS Site Manager is used to calculate antenna round trip time delay, this The velocity factor is used to calculate RTT more exactly. The velocity factor can be obtained from the specifications of the used cable.

Minimum HSUPA decoding capacity per LCG in Mbit/s

Defines Minimum amount of Users allocate to BaseBand in HSUPA.

This parameter defines HSUPA BB Sharing Usage.

Defines the external alarm description.

Defines is MHA active (AISG mode) or passive (Current mode).

Parameter for MHA telling LNA number inside one MHA

Divides WCELs into two groups. Baseband pooling is currently not supported, so all resources are allocated to the first group.

Defines WCELs which belong to a cell group; this links the WCELs to the cell groups. The LCR ID must be unique in the BTS.

Defines the FSP unit belonging to the local cell group.

The allowed values are FSM1/FSP1, FSM1/FSP2, FSM1/FSP3, -1 (Not defined).Defines the FSP unit belonging to the local cell group.

The allowed values are FSM1/FSP1, FSM1/FSP2, FSM1/FSP3, FSM2/FSP1, FSM2/FSP2, FSM2/FSP3 -1 (Not The name of the unit/module in the BTS.

This parameter is used in the offline commissioning mode of the BTS Site Manager.The number of the unit/module in the BTS.

This parameter is used in the offline commissioning mode of the BTS Site Manager.The variant of the unit/module.

This parameter is used in the offline commissioning mode of the BTS Site Manager.

Defines the external alarm lines.

In Use, Description, Polarity and Severity must be defined for input signals. There are 14 input signals in FlexiBTS. Defines the used polarity of the external alarm line: normally open or normally closed.

Normally_open: when the connector is open, there is no alarm.Defines the seriousness of the external alarm condition in question, for example:

Minor = 1

A configurable alarm threshold level for the mast-head amplifier, used if the MHA Alarm Detection parameter has the value 1 (in use).

Identifies the specific antenna.

The value is given as FR<id>-ANT<id>, where FRid=1..3 and ANTid=1..4. For example, FR1-ANT1.Defines the connection type for MHA/LNA.

Expected values: Internal | External | SharedDefines the MHA delay in the downlink direction.

If the BTS Site Manager is used to calculate RTT delay, this value must be specified for an "Other" type MHA. If the

Defines if alarm detection is used or not.

The options are 0 and 1.Defines the gain of the mast-head amplifier.

Defines the specific mast-head amplifier unit.

The value is given as FR<id>/MHA<id>, where FRid=1..3 and MHAid=1..4. For example, FR1/MHA1.

Defines the product code of the unit in question.

Defines the serial number of the unit in question.

Defines the external alarm description.

Free text about the passive unit in question.

Defines the name of the passive unit in question.

Defines the product code of the passive unit in question.

Defines the serial number of the passive unit in question.

Defines the version of the passive unit in question.

Defines the configuration file name what is used for each TILT in RET configuration.

Defines the product code of the unit in question.

Defines the specific mast-head amplifier unit.

The value is given as FR<id>/MHA<id>/EXTERNAL<id>, where FRid=1..3 and MHAid=1..4, EXTERNALid=1...4 . For Defines the type of the MHA.

The supported MHA types are: WMHA, WMHB, WMHC, FLIA and Other.Defines the type of the MHA.

The supported MHA types are: WMHA, WMHB, WMHC, MDTA, MDPA, MDGA, MDDA and Other.Defines the type of the MHA.

The supported MHA types are: WMHA, WMHB, WMHC, WMHD, MDTA, MDPA, MDGA, MDDA, DTMAFV1,

Defines which antenna interface is scanned.

Expected value: FR<id>-ANT<id> and empty string

Defines the MHA delay in the uplink direction for an "Other" type MHA.

If the BTS Site Manager is used to calculate antenna round trip time delay, this value must be specified. If the RTT Defines the WMH connector in question for WMHC.

The options are BTS1 (Pass-through) and BTS2 (Power).

Defines the initial state of the external control line after a reset of the BTS.

The options are "On" and "Off". If the initial state is "On", current is going through.Defines the external alarm lines.

Description, In Use and Initial State must be defined for Control Signals. There are 6 output signals in FlexiBTS.

Identifies the specific antenna.

The value is given as FR<id>-ANT<id>, where FRid=1..3 and ANTid=1..4. For example, FR1-ANT1.

Defines the connection type for TILT.

Expected values: Internal | External | SharedManufacturer of TILT. Only two character vendor codes should be accepted, vendor codes are specified in AISG standard version 2.0

Defines wich antenna interface is scanned.

Expected value: FR<id>-ANT<id> and empty string

Defines the serial number of the unit in question.

This parameter identifies the WBTS uniquely under its controlling RNC.

This parameter can be used for identification of the WCDMA BTS (Node B).

This parameter is currently not used.

This parameter is currently not used.

Defines the specific cabinet at the BTS site.

Defines the cabinet type.

Defines the name of the commissioning engineer

Defines the date of the commissioning. Expected type of date: yyyy.mm.dd.

Defines the specific Antenna tilting unit.

The value is given as FR<id>/TILT<id>/EXTERNAL<id>, where FRid=1..3 and TILTid=1..4, EXTERNALid=1...4 . For

Defines the RET IP address.

Note: At Netact Plan Editor, ASCU IP Address is represented by the parameters AscuIpAddress1 and

A free text field for defining the used BTS configuration. For example: 1+1+1 20 W.

Defines the mode of the commissioning.

Expexted values: Manual | Planned | Template | Reconfiguration.The location of the FR1 module.

Note: This parameter defines the location of the module or has the value -1 (Not defined). The value -1 (Not defined) The location of the FR2 module.

Note: This parameter defines the location of the module or has the value -1 (Not defined). The value -1 (Not defined) The location of the FR3 module.

Note: This parameter defines the location of the module or has the value -1 (Not defined). The value -1 (Not defined) The location of the FSM1 module.

Note: This parameter defines the location of the module or has the value -1 (Not defined). The value -1 (Not defined) The location of the FSM2 module.

Note: This parameter defines the location of the module or has the value -1 (Not defined). The value -1 (Not defined)

Defines the structure version of the Site Configuration File (SCF).

For FlexiBTS, the allowed file versions start from 380.Defines the structure version of the Site Configuration File (SCF).

For FlexiBTS, the allowed file versions start from 380.Defines how HSDPA users are allocated. The options are BTS and Cell.

If the selected option is BTS, it is possible to set 1 - 3 HSDPA cells, each of them situated in the same FSPA. The Defines how HSDPA users are allocated. The options are Full, BTS and Cell.

If the selected option is BTS, it is possible to set 1 - 3 HSDPA cells, each of them situated in the same FSPA. The Defines the usage of the Intelligent Shutdown feature.

If there are external batteries used this is "1" and intelligent shutdown timeout is filled in for local cells.

Defines the type of the RNC. If a Nokia RNC is in use, there is no need to fill in any other RNC parameters.

Defines the WBTS SW version.

Defines the starting external alarm line for the mains power alarm when the intelligent shutdown is in use.

Default values:The number of mains power alarm lines.

The allowed values are 0,1 and 3.

Defines the used Time Zone.

The format is predefined, for example for Helsinki "(GMT+2) Europe/Helsinki".

The Local cell resource is an object, which consists of the HW required by one cell for transmission and receiving. Local cell resource id is used to address one particular local cell resource at the BTS. The LCR Id is unique within a BTS.Based on the hardware in the BTS, the BTS Site Manager checks which carrier values are allowed for BTS testing in each cell.

The radius of one cell.

The maximum range of the cell, i.e. the maximum distance from the cell site where a MS can have a radio connection The radius of one cell.

The maximum range of the cell, i.e. the maximum distance from the cell site where a MS can have a radio connection Defines the used configuration concept.

The options are:This parameter defines the default carrier used in tests for local cells.

The UARFCN values used are operator-specific and defined by the 3GPP. For example, for the 2100 MHz frequency, This parameter sets the SIB7 expiration timer for the UE. If a Nokia RNC is in use, this parameter can be left empty.

The allowed values are 1,2,4,8,16,32,64,128, and 256.This parameter sets the SIB7 expiration timer for the UE. If a Nokia RNC is in use, this parameter can be left empty.

The allowed values are 1,2,4,8,16,32,64,128, and 256.The antenna ID of the radio module assigned to the local cell.

Note: At Netact Plan Editor, FR ANT ID is represented by parameters FrAntId1, FrAntId2,...FrAntId12. The value is The backup time after which the cell starts to shut down itself.

This parameter is used only when battery backup is used. The time is given in seconds. 0 is immediate and 599940 is The maximum TX carrier power for the local cell in dBm.

The value is shown in Watts in the BTS Site Manager.RACH Capacity defines the HW capacity reserved for a RACH transport channel in the BTS.

RACH Capacity is given as a number of decoded RACH messages in a 10 ms or 20 ms radio frame. If a Nokia RNC A 3GPP Iub parameter for the gradual shutdown procedure.

Indicates in how many steps the transmission power for CPICH, BCH and all other common physical and transport A 3GPP Iub parameter for the shutdown procedure.

Indicates how long the actual shutdown procedure for CPICH, BCH and all other common physical and transport

Range:

8

1..65000

-99..0

0..9999

1..3

0 (false), 1 (true)

4..5

4..5

-99..0

0..1000

-99..0

0..2

0 (false), 1 (true)

0..1000

0 (false), 1 (true)

1..20

0..1000

0 (false), 1 (true)

1..99

1..20

0 (0 Mbit/s), 1 (less than 1.4 Mbit/s), 2 (1.4 Mbit/s), 3 (2.8 Mbit/s), 4 (4.2 Mbit/s), 5 (5.6 Mbit/s)

0..24

0 (false), 1 (true)

0..268435455

2..9

2..9

1..60

1..99

1..20

1..64

1..14

13..15

1 (Minor), 2 (Major), 3 (Critical), 4 (Notice)

0 (Current mode MHA), 1 (AISG MHA)

120..775

8

1..20

0..1000

0 (LNA1), 1 (LNA2)

0 (false), 1 (true)

0..99

8

8

4..5

4..5

4..11

1..80

1..20

1..80

0..1000

4

1..64

2..3

1..6

1..60

1..60

1..60

1..60

1..20

8

0..216

1..20

2

1..80

1..20

1..80

8

1..65534

1..15

2..15

7..15

1..50

1..64

1..4

1..80

6..15

0..50

0..50

0..50

0..50

0..50

1..20

1..20

1..10

1..10

3..4

3..4

0 (false), 1 (true)

1..12

0..3

5

1..80

1..20

0..268435455

0..16383

100..60000

100..180000

1..10

0..16383

1..256

1..256

2..8

0..599940

39..46

2..8

1..16

5..45

Step:

-

1

0.1

1

1

-

-

-

0.1

1

0.1

-

-

1

-

-

1

-

1

-

-

1

-

1

-

-

-

1

-

-

1

-

-

-

1

-

-

1

-

-

0.1

-

-

-

-

-

-

-

-

1

-

-

-

1

-

-

-

-

-

-

-

-

-

-

-

-

-

1

-

-

-

-

-

1

-

-

-

-

-

-

-

-

-

-

-

-

-

-

1

1

-

-

-

1

1

100

100

-

1

1

1

-

1

1

1

1

5

Unit:

characters

ns

dB

m

-

-

characters

characters

dB

ns

dB

characters

-

ns

-

characters

ns

-

-

characters

-

-

-

-

characters

characters

characters

-

characters

characters

-

characters

-

-

mA

characters

characters

ns

-

-

dB

characters

characters

characters

characters

characters

characters

characters

characters

ns

characters

characters

characters

-

characters

characters

characters

characters

characters

characters

characters

characters

characters

characters

characters

characters

characters

-

characters

characters

characters

characters

characters

-

characters

characters

characters

characters

characters

characters

characters

characters

characters

characters

characters

characters

characters

-

-

-

characters

characters

characters

-

-

m

m

characters

-

-

-

characters

s

dBm

-

-

s

Formula for getting internal value

= UI_value

= UI_value * 10

= UI_value

= UI_value

= UI_value * 10

= UI_value

= UI_value * 10

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value * 10

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

= UI_value

Default value

-3

2

Other

Other

-0.5

25

-3

false

0

25

82

0

0

false

215

Internal

12

BTS1

Off

Internal

1

381

404

BTS

WN3.2

20000

20000

1

120

43

2

10

15

Default value notes

Only two character vendor codes should be accepted, vendor codes are specified in AISG standard version 2.0

Required on creation

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Optional

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Mandatory

Special value

-1

-1

Related functions

System information

Modification

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

unmodifiable

Modified

Related parameters

- MHAAlarmDetection of MHA - null- FileVersionIdentification of WBTS_HW - null

Parameter relationships

The parameter is used when the MHA Alarm Detection parameter has the value 1 (in use).

The parameter is used at commissioning file only when FileVersionIdentification >= 381.

Related features

Interfaces

- EM <-> WBTS

References

Struct parameter