Huawei 5G

 

5GRAN

CellManagementFeatureParameter Description Issue

DraftA

Date

2018-12-30

HUAWEITECHNOLOGIESCO.,L HUAWEITECHNOLOGIESCO., LTD. TD.

 

Copyright©HuaweiTechnologiesCo.,Ltd.2019.Allrightsreserved. Nopartofthisdocumentmaybereproducedortransmittedinanyformor Nopartof thisdocumentmaybereproducedortransmittedinanyformorbyanymeanswithoutpriorwritten byanymeanswithoutpriorwritten consentofHuaweiTechnologiesCo.,Ltd.

TrademarksandPermissions andotherHuaweitrademarksaretrademarksofHuaweiTechnologiesCo.,Ltd. Allothertrademarksandtrade Allothertrademarksandtradenamesmen namesmentionedinthi tionedinthisdocumenta sdocumentarethepropertyo rethepropertyoftheirrespective ftheirrespective holders.

Notice Thepurchasedproducts,servicesandfeaturesarestipulatedbythecontractmadebetweenHuaweiandthe customer.All customer  .Allorpartof orpartoftheproducts,servicesandfeaturesdescribedinthisdocumentmaynotbe theproducts,servicesandfeaturesdescribedinthisdocumentmaynotbewithinthe withinthe purchasescopeortheusagescope.Unlessotherwisespecifiedinthecontract,allstatements,informatio purchasescopeortheusagescope.Unlessotherwisespecifiedinthecontract,all statements,information, n, andrecommendationsinthisdocumentareprovided"ASIS"withoutwarranties,guaranteesor representationsofany representationsofanykind,eitherexpressorimplied. kind,eitherexpressorimplied. Theinformationinthisdocumentissubjecttochangewithoutnotice.Everyefforthasbeenmadeinthe preparationofthisdocumenttoensureaccuracyofthecontents,butallstatements,information,and preparationofthisdocumenttoensureaccuracyofthecontents,but allstatements,information,and recommendationsinthisdocumentdonotconstitutea recommend ationsinthisdocumentdonotconstituteawarrantyofanykind,expressor warrantyofany warranty ofanykind,express kind,expressorimplied. orimplied. implied.

HuaweiTechnologiesCo.,Ltd. Address: Address:

HuaweiIndustrialBase HuaweiIndustrialBase Bantian,Longgang Shenzhen518129 People'sRepublicofChina

Website: Website: Email: Email:

h http://www.huawei.com ttp://www.huawei.com s [email protected] [email protected]

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Co Cop o py pyr  yri r ig igh ght ht ©  H Hu  u ua aw awe wei ei T  eec ch ch hn no nol ollo o og g giie ies es C Co o o...,, Lt L  ttd d d..

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5GRAN Ce Cel ellll Ma M  aan n naag ag geeem m meen en ntt Fe F ea eat attu ur  ure r e Pa P aar  ra r aam m me et etteeerr De D  eessscccr  ri r ip i pt pti tio io on n

C Co o on n ntte teen n ntts ts

Contents 1Change History.............. History.............. History..................................... ............................................. ....................... ............................................ ...................... ............................................ ...................... ............................................ ...................... ........................ 1 ...................... 1 1Change  History.............. 1.15GRAN2.1DraftA 1.15GRAN2 .1DraftA(2018-12-30).................................................................................................. .1DraftA (2018-12-30).................................................................................................. ............................... 1

2General Statements............ 2General  Statements............ Statements............ Statements.................................. ............................................ ...................... ............................................. ...................... ............................................. ....................... ........................................ ...................... .................. 3 3CellManagement.......... 3CellMa nagement................................ nagement.......... ............................................ ...................... ............................................. ...................... ............................................. ....................... ............................................ ...................... ........................5 ...................... ..5 3.1Principles........................................................................................ 3.1Principles ........................................................................................ ................................................................................ 5 3.1.1Definition.....................................................................................................................................................................5 3.1.1Definiti on.....................................................................................................................................................................5 3.1.2Related   Concepts......................................................................... 3.1.2Related Concepts......................................................................................................................................................... 5 3.1.2.1Cell............................................................................................................................................................................6 3.1.2.1Cell.... ........................................................................................................................................................................6 3.1.2.2Sector........................................................................................... ........................................................................................... ............................................................................. 7 3.1.2.3SectorEquipment................................................................................. 3.1.2.3Sector Equipment................................................................................. ....................................................................  7 7 3.1.2.4RFEquipment...........................................................................................................................................................7 3.1.2.4RFEq uipment...........................................................................................................................................................7 3.1.2.5BasebandEquipment.............................. 3.1.2.5Baseb andEquipment.................................................................................................................................... andEquipment.............................. ...................................................................................................... ............ 7 3.1.2.6NRDUCellTRP......................................................................................................................................................7 3.1.2.6NRD UCellTRP......................................................................................................................................................7 3.1.2.7NRDUCellCoverageArea................................... 3.1.2.7NRD UCellCoverageArea..................................................................................................................................... UCellCoverageArea................................... .................................................................................................. 7 3.1.3Typical   Scenarios.........................................................................................................................................................7 3.1.3Typical Scenarios.........................................................................................................................................................7 3.1.3.1Common 3.1.3.1Comm on onCell..................................................................................... Cell..................................................................................... .......................................................................8 3.1.3.2Combined-RRU 3.1.3.2Combi ned-RRUCell............................................................................... ned-RRU Cell............................................................................... .................................................................  8 8 3.1.3.3CellsinMulti-Carrier 3.1.3.3Cellsi nMulti-CarrierSectors.............................................................................................. nMulti-Carrier Sectors.............................................................................................. .....................................8 3.1.3.4UplinkandDow andDownlinkDecoupling andDownlinkDecoupling nlinkDecouplingCells................................................................................................. Cells................................................................................................. ................. ................. 9  9 9 3.1.3.5RFCombinationCell............................................................................................................................................ 3.1.3.5RFCo mbinationCell............................................................................................................................................ ....9 .... 9 3.1.4Cell-related 3.1.4Cell-rela tedParameters...................................................................................... ted Parameters...................................................................................... ........................................................10 3.1.4.1FrequencyBand.............................................................................................................. 3.1.4.1Freque ncyBand.............................................................................................................. ........................................ 10 3.1.4.2NARFCN........................................................................................ 3.1.4.2NARF CN........................................................................................ ........................................................................ 10 3.1.4.3SSBFrequency-DomainPosition...........................................................................................................................12 3.1.4.3SSBF requency-DomainPosition...........................................................................................................................12 3.1.4.4CellBandwidth............................................................................ ........................................................................... 13 3.1.4.5Subcarrier 3.1.4.5Subca rrierSpacing.......................................................................... rrier Spacing.......................................................................... ........................................................................13 3.1.4.6Uplink-DownlinkSlotConfiguration.....................................................................................................................13 -DownlinkSlotConfiguration.....................................................................................................................13 3.1.4.7Transmit/Receive 3.1.4.7Trans mit/ReceiveMode........................................................................................... mit/Receive Mode........................................................................................... ...............................................13 3.1.4.8MaximumTransmitPower..................................................................................................................................... 3.1.4.8MaximumTransmitPower.................................................................................. ................................................... 13 3.2NetworkAnalysis............................................................................................................ 3.2NetworkA nalysis............................................................................................................ ............................................. 14 3.2.1Benefits............................................................................................................................... ....................................... 14 3.2.2Impacts................................................................................................... 3.2.2 Impacts................................................................................................... ....................................................................14

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5GRAN Cell Cell Manageme Mana  gement nt Feat Feature  ure Param Parameter  eter D  escription

Contents

3.3Requirements................................................................................................................................................................14 3.3.1Licenses.............................................................................. 3.3.1Licenses....................................................... ...................................................... ...................................................................... ........................................................ ................. 14 3.3.2Software.....................................................................................................................................................................14 3.3.3Hardware................................................................................................................................................................... 15 3.4OperationandMaintenance..........................................................................................................................................16 3.4.1DataConfiguration................................................................ 3.4.1DataConfiguration....................................................................................... ...................................................... ............................................................. .............................. 17 3.4.1.1DataPreparation......................................................................................... 3.4.1.1DataPreparation.................................................................. .............................................................. ............................................................ ..................... 17 3.4.1.2UsingMMLCommands.........................................................................................................................................23 3.4.1.3UsingtheCME...................................................................................... 3.4.1.3UsingtheCME................................................ ..................................................................... ...................................................... .................................. ........... 29 3.4.2ActivationObservation..............................................................................................................................................29

4Glossary......... 4Glossa ry.................................. ...................................................... ........................................................ ......................................................... ...............................................30 .................30 5Reference 5Refer enceDocuments......... Documents............................... .................................................. ....................................................... ......................................................31 ...........................31

Issue D Draft  raft A  ( 2018-12-30)

Copyrig right ©  H Huawei  uawei T Technologies  echnologies C Co.,  o., L  td.

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5GRAN CellManagementFeatureParameterDescription

1ChangeHistory

1

ChangeHistory

Thissectiondescribeschanges Thissectiondescribes changesnotinc notincluded luded inthe"Paramete inthe"Parameters","Count rs","Counters","Glossa ers","Glossary",and ry",and "ReferenceDocuments"chapters.Thesechangesinclude: l

Technicalchanges Changesinfunctionsandtheircorrespondingparameters

l

Editorialchanges Improvementsorrevisionstothedocumentation

1.15GRAN2.1DraftA(2018-12-30) Thisissueintroduce Thisissue introducesthefo sthefollowingch llowingchangesto angesto5GRAN2.001(2018-10-10). 5GRAN2.001(2018-10-10).

TechnicalChanges Chan Ch ange ge D  escription

Parameter C  hange

Base Station S  tation Model

ChangedthenameoftheMO NRCell containingthe  TrackingAreaIdparameterto parameterto NRDUCELL .Fordetails,see:

NRDUCell.Tracking AreaId

5900seriesbase stations

Addedthefollowing parameters:

5900seriesbase stations

l

3.4.1.1DataPreparation

l

3.4.1.2UsingMMLCommands

Addedtheconfigurationsforthefrequencydomainpositionofthesynchronizationsignal block(SSB).Fordetails,see 3.1.4.3SSB Frequency-DomainPosition.

AddedfeaturesupportforLampSitebase stations.Fordetails,see: l

3.1.3.5RFCombinationCell

l

3.4.1.2UsingMMLCommands

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l

NRD NRDUCel UCelll.SsbDe SsbDe scMethod

l

NRD NRDUCel UCelll.SsbFr SsbFr eqPos

NA

Copyright ©  H Huaw  uawei ei T  echn echnolog ologies ies C  o., L  td.

DBS5900 LampSitebase stations

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5GRAN CellManagementFeatureParameterDescription

1ChangeHistory

EditorialChanges OptimizeddescriptionsforconfiguringtheSSBcenterfrequency.Fordetails,see NARFCN.

3.1.4.2

Addedsupportforthetypicalscenarioofcombined-RRU/RFU-sectorcells.Fordetails,see 3.1.3.2Combined-RRUCell.

Is Issu suee D Draf  raftt A  (2018-12-30)

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5GRAN CellManagementFeatureParameterDescription

2GeneralStatements

2

GeneralStatements

Purpose FeatureParameterDescriptiondocumentsareintendedtoacquaintreaderswith: l

Thetechnicalprinciplesoffeaturesandtheirrelatedparameters

l

Thescenarioswherethesefeaturesareused,thebenefitstheyprovide,andtheimpact theyhaveonnetworksandfunctions

l

Requirementsoftheoperatingenvironmentthatmustbemetbeforefeatureactivation

l

Parameterconfigurationrequiredforfeatureactivation,verificationoffeatureactivation, andmonitoringoffeatureperformance NOTE

Thisdocumentonlyprovidesguidanceforfeatureactivation.Featuredeploymentandfeature gainsdependonthespecificsofthenetworkscenariowherethefeatureisdeployed.Toachieve thedesiredgains,contactHuaweiprofessionalserviceengineers.

SoftwareInterfaces Anyparameters,alarms,counters,ormanagedobjects(MOs)describedinFeatureParameter Descriptiondocumentsapplyonlytothecorrespondingsoftwarerelease.Forfuturesoftware releases,refertothecorrespondingupdatedproductdocumentation.

TrialFeatures Trialfeaturesarefeaturesthatarenotyetreadyforfullcommercialreleaseforcertain reasons.Forexample,theindustrychain(terminals/CN)maynotbesufficientlycompatible. However,thesefeaturescanstillbeusedfortestingpurposesorcommercialnetworktrials. AnyonewhodesirestousethetrialfeaturesshallcontactHuaweiandenterintoa memorandumofunderstanding(MoU)withHuaweipriortoanofficialapplicationofsuch trialfeatures.Trialfeaturesarenotforsaleinthecurrentversionbutcustomersmaytrythem forfree. Customersacknowledgeandundertakethattrialfeaturesmayhaveacertaindegreeofrisk duetoabsenceofcommercialtesting.Beforeusingthem,customersshallfullyunderstandnot onlytheexpectedbenefitsofsuchtrialfeaturesbutalsothepossibleimpacttheymayexerton thenetwork.Inaddition,customersacknowledgeandundertakethatsincetrialfeaturesare free,Huaweiisnotliableforanytrialfeaturemalfunctionsoranylossesincurredbyusingthe trialfeatures.Huaweidoesnotpromisethatproblemswithtrialfeatureswillberesolvedin Is Issu suee D Draf  raftt A  (2018-12-30)

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5GRAN CellManagementFeatureParameterDescription

2GeneralStatements

thecurrentversion.Huaweireservestherightstoconverttrialfeaturesintocommercial featuresinlaterR/Cversions.Iftrialfeaturesareconvertedintocommercialfeaturesinalater version,customersshallpayalicensingfeetoobtaintherelevantlicensespriortousingthe saidcommercialfeatures.Ifacustomerfailstopurchasesuchalicense,thetrialfeature(s) willbeinvalidatedautomaticallywhentheproductisupgraded.

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5GRAN CellManagementFeatureParameterDescription

3CellManagement

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CellManagement

3.1Principles 3.1.1Definition Cellmanagementreferstomanagementofcommunicationsresourcesbyestablishingcells andconfiguringrelatedparameters.

3.1.2RelatedConcepts Figure3-1illustratesthecomponentsinvolvedincellmanagement.

Is Issu suee D Draf  raftt A  (2018-12-30)

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5GRAN CellManagementFeatureParameterDescription

3CellManagement

Figure3-1Componentsinvolvedincellmanagement

3.1.2.1Cell Acellisanareawhereradiocommunicationsservicesareprovided.Itisthefundamentalunit ofaradionetwork.Runthe ADDNRCELLand ADDNRDUCELLcommandstoaddcell resourcesforNRnetworks.Coverageoftheentireradionetworkisprovidedbycells.

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5GRAN CellManagementFeatureParameterDescription

3CellManagement

3.1.2.2Sector Asectorisanareacoveredbyantennas.Asectorisaddedbyrunningthe ADDSECTOR command.Eachsectorusesoneormoreradiocarrierstoprovidecoverage.Asectorcanbe omnidirectionalordirectional,dependingontheantennatype. l

Omnidirectional Anomnidirectionalsectorusesomnidirectionalantennastoprovide360°coveragewith theantennaatthecenter.Inlight-trafficareas,thedeploymentofomnidirectionalsectors meansfewerantennasneedtobedeployed,whichreducesequipmentcost.

l

Directional Adirectionalsectorusesdirectionalantennastoprovidecoverage.Eachdirectional antennacoversa60°or120°sectorarea,dependingonwhethertherearesixorthree sectorsconfiguredonthegNodeB.Theazimuthofeachsectorisslightlyover60or120 degreesinactualscenariossothatthesectorscanoverlaptoensureseamlesscoverage. Inheavy-trafficareas,thedeploymentofdirectionalsectorssupportsmoretraffic volume.Directionalsectorsallowforgreaterflexibilityinareaandsectorplanning.

3.1.2.3SectorEquipment Sectorequipmentisasetofantennasthatareusedtoprovidecoverageforthesamesector.A sectorislinkedtoasetofantennascomprisingaspecificpieceofsectorequipmentby runningthe ADDSECTORand and ADDSECTOREQMcommands.

3.1.2.4RFEquipment RFequipmentisasetofRFprocessingunits,suchasremoteradiounits(RRUs)oractive antennaunits(AAUs).RFequipmentisaddedandassociatedwithCPRIportsonbaseband processingunits(BBPs)byr processingunit s(BBPs)byrunningthe unningthe ADDRRUCHAIN and ADDRRUcommands.

3.1.2.5BasebandEquipment AsetofbasebandequipmentconsistsofoneormoreBBPs.ABBPisaddedbyrunningthe ADDBRDcommand.Itcanbeaddedtoapieceofbasebandequipmentbyrunningthe ADD BASEBANDEQMcommand. ThebasebandequipmentforNRmustsupportbothuplinkanddownlinktransmissions.

3.1.2.6NRDUCellTRP AnNRDUcelltransmissionreceptionpoint(TRP)specifiesthebasebandequipmentusedby acell.IfnobasebandequipmentisspecifiedfortheNRDUcellTRP,theBBPdirectly connectedtotheRRUorAAUisusedbydefault.AnNRDUcellTRPisaddedbyrunning the ADDNRDUCELLTRPcommand.EachcommoncellcorrespondstoonlyoneNRDU cellTRP.

3.1.2.7NRDUCellCoverageArea AnNRDUcellcoverageareareferstoaradiocoverageareaofanNRDUcell.Youcanrun the ADDNRDUCELLCOVERAGE commandtoaddanNRDUcellcoveragearea.

3.1.3TypicalScenarios Is Issu suee D Draf  raftt A  (2018-12-30)

Copyright ©  H Huaw  uawei ei T  echn echnolog ologies ies C  o., L  td.

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5GRAN CellManagementFeatureParameterDescription

3CellManagement

3.1.3.1CommonCell AcommoncellisacellthatisestablishedinasectorservedbyanRFmodule.Thecell shownin Figure3-2isacommoncell. Figure3-2Commoncell

3.1.3.2Combined-RRUCell Acombined-RRUcellisservedbytwoRRUsconnectedtothesameantennatocoverthe samearea.Th samea rea.This is networkingapplies networkingappliesonlyto onlytoNRSUL(supplementary NRSUL(supplementaryuplink) uplink)cells.SUL cells.SULcells cells supportscombinationof1T2Ror2T2RRRUs. Figure3-3Combined-RRU-sectorcell(using2T2RRRUsasanexample)

IfcombinationofRRUsin Ifcombinationof RRUsinstartopologyapplies startopologyappliestothree tothreeSULsec SULsectors,sixC tors,sixCPRIportsare PRIportsare required.Ifthebasebandprocessingunit(BBP)cannotprovideenoughCPRIports,cascading networkingorLNRCPRIMUXnetworkingisanoption.Incascadingnetworking,thefiber opticcablebetweentwoRRUstobecascadedmustbelessthan100m.TwocombinedRRUs mustbeconnectedtothesameBBP. 3.1.3.3CellsinMulti-CarrierSectors Inthisscenario,cellsworkingondifferentfrequenciesaresetupinasinglesector,asshown in Figure3-4.Thissolutionhelpstoexpandsystemcapacitywithouthavingtodeploy additionalbasestations. Figure3-4Cells Cellsinamulti-carrier inamulti-carriersector sector

Is Issu suee D Draf  raftt A  (2018-12-30)

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5GRAN CellManagementFeatureParameterDescription

3CellManagement

Multi-carriersectorsareusedindenselypopulatedareaswheretrafficincreasesrapidly,such asexhibitioncenters,airportwaitingareas,shoppingmalls,centralbusinessdistricts,and high-endresidentialareas. Fordetailsaboutcarrierspecifications,seeRRUtechnicaldescriptionsin BaseStationProductDocumentation.

3900&5900Series

3.1.3.4UplinkandDownl 3.1.3.4Upli nkandDownlinkDecoupling inkDecouplingCells Cells Uplinkanddownlinkdecouplingcellsarecellsthatusehighbands(suchas3.5GHz)for downlinkandlowbands(suchas1.8GHz/700MHz)foruplinktoimproveuplinkcoverage. Figure3-5illustratesanuplinkanddownlinkdecouplingcell. Figure3-5Uplinkanddownlinkdecouplingcell

3.1.3.5RFCombinationCell InaLampSitescenario,RFsignalsfrommultiplepRRUsarecombinedintheRHUBtoform anRFcombinationcell.Thatis,pRRUsconnectedtothesameordifferentRHUBsare combinedtoserveonecell,extendingcellcoverage.See Figure3-6. Figure3-6RFcombinationcell

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5GRAN CellManagementFeatureParameterDescription

3CellManagement

3.1.4Cell-relatedParameters Thischapterdescribesthefollowingcell-relatedparameters:frequencyband,NRabsolute radiofrequencychannelnumber(NARFCN),SSBfrequency-domainposition,cell bandwidth,subcarrierspacing,uplink-downlinkslotconfiguration,transmit/receivemode, andmaximumtransmitpower. Fordetailsaboutotherparametersofacell,seethecorrespondingfeaturedocumentation.For example,fordetailsaboutCPRIcompression,see CPRICompression. Thisversionsupports Thisversi onsupportsonlyTDD onlyTDDcellsan cellsandSULcells. dSULcells.

3.1.4.1FrequencyBand Thefrequencybandofacellisspecifiedbythe   NRCell.FrequencyBandand and  NRDUCell parameters.Thetwoparametersmustbesettothesamevalue.  Table3-1liststhefrequency bandssupportedbyNRce bandssupported byNRcells.Fordetails,see lls.Fordetails,seesec section5.2"Operati tion5.2"Operatingba ngbandsforNR"in3GPP ndsforNR"in3GPP TS38.104V15.2.0. Table3-1FrequencybandssupportedbyNRcells

Frequency

UplinkFrequencyRange

DownlinkFrequencyRange

Duplex

Band

(LowestandHighest Frequencies)

(LowestandHighest Frequencies)

Mode

n77

3300 M  Hz

4200 M  Hz

3300 M  Hz

4200 M  Hz

TDD

n78

3300 M  Hz

3800 M  Hz

3300 M  Hz

3800 M  Hz

TDD

n79

4400 M  Hz

5000 M  Hz

4400 M  Hz

5000 M  Hz

TDD

n80

1710 MHz

1785 MHz

N/A

N/A

SUL

n82

832 MH  z

862 MH  z

N/A

N/A

SUL

n83

703 MH  z

748 MH  z

N/A

N/A

SUL

n84

1920 MHz

1980 MHz

N/A

N/A

SUL

n86

1710 MHz

1780 MHz

N/A

N/A

SUL

3.1.4.2NARFCN TheNARFCN,centerfrequencyofthecellcarrier,isusedtodeterminethecenterfrequencydomainpositionofanNRDUcell.AnNARFCNisclassifiedintouplinkNARFCNand downlinkNARFCN. TheuplinkNARFCNmustbeconfiguredforanSULcellbasedonthenetworkplan.Itis specifiedby  NRDUCell .UlNarfcn.Fornon-SULcells,whethertoconfiguretheuplink NARFCNisbasedonthevalueofthe NRDUCell .UlNarfcnConfigIndparameter. l

If  NRDUCell   NRDUCell.UlNarfcnConfigInd issetto  CONFIG,configuretheuplinkNARFCN anddownlinkNARFCNbyrespectivelyspecifyingthe  NRDUCell.UlNarfcnand NRDUCell.DlNarfcn DlNarfcnparametersbasedonthenetworkplan.

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5GRAN CellManagementFeatureParameterDescription l

3CellManagement

If  NRDUCell.UlNarfcnConfigIndissetto NOT_CONFIG ,calculatetheuplink NARFCNanddownlinkNARFCNbasedonthestartandendfrequenciesofthecell. Thecalculationprocedureisasfollows: a.

Determine Determinethed thedownli ownlinkce nkcenter nterfreq frequenc uencyof yoface acellba llbasedo sedonthe nthedownl downlinkst inkstart art frequencyanddownlinkbandwidthofthecell. Cell'sdownlinkcenterfrequency(DLCELL REF)=Celldownlinkstartfrequency

b.

(MHz)+Celldownlinkbandwidth(MHz)/2 Determin Determineth etheupl euplinkc inkceenterfreq nterfrequenc uencyo yofac facell ellbase basedon donthe theupli uplinkst nkstartf artfrequ requency ency anduplinkbandwidthofthecell. Cell'suplinkcenterfrequency(ULCELL REF)=Celluplinkstartfrequency(MHz)+ Celluplinkbandwidth(MHz)/2

c.

Calculate Calculatethed thedownli ownlinkan nkandupli duplinkce nkcenter nterNARF NARFCNso CNsofthe fthecell cellbase basedon donthec thecell ell downlinkcenterfrequency(DLCELL REF)andthecelluplinkcenterfrequency (ULCELLREF),respectively. Cell'sdownlinkcenterNARFCN(N REF-DLCELL)=Int{(DLCELL REF-FREF-Offs )/ ΔFGlobal+NREF-Offs } Cell'suplinkcenterNARFCN(N REF-ULCELL)=Int{(ULCELL REF-FREF-Offs )/ ΔFGlobal+NREF-Offs } Table3-2 RequirementsforavailableNARFCNs

Frequency ncyB Band

Sub SubcarrierS rSpacing

AvailableN eNARFCN

n41

30 kHz

The  NARFCN  m ust  be  an  integralmultipleof6.

n77

30 kHz

The  NARFCN  m ust  be  an  evennumber.

n78

30 kHz

The  NARFCN  m ust  be  an  evennumber.

n79

30 kHz

The  NARFCN  m ust  be  an  evennumber.

n257

120 kHz

The  NARFCN  m  ust  be  an  odd  number.

n258

120 kHz

The  NARFCN  m  ust  be  an  odd  number.

n260

120 kHz

The  NARFCN  m  ust  be  an  odd  number.

Parametersinvolvedintheformulaarelistedin Table3-3.

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5GRAN CellManagementFeatureParameterDescription

3CellManagement

Table3-3 ParametersrelatedtoN REF-CELL

Frequency Range(MHz)

ΔFGlobal(MHz)

FREF-Offs(MHz)

NREF-Offs

0–3000

0.005

0

0

3000–24250

0.015

3000

600000

24250–100000

0.06

24250.08

2016667

3.1.4.3SSBFrequency-DomainPosition InanNRsystem,anSSBcomprisesaprimarysynchronizationsignal(PSS),secondary synchronizationsignal(SSS),andPBCH.EachSSBprovides240consecutivesubcarriers.A UEsearchesforcellsbasedonreceivedPSSandSSSsignalsandobtainsnecessary informationfromthereceivedbroadcastsystemmessages.Then,theUEselectsthemost appropriatecelltocamponusingthereceivedinformation. TheSSBfrequency-domainpositionindicatestheSSBcenterfrequencypositionofacell.It isspecifiedbythe  NRDUCell .SsbDescMethod SsbDescMethodand  NRDUCell.SsbFreqPos SsbFreqPosparameters.The SSBfrequency-domainpositionisnotconfiguredforSULcells,butmustbeconfiguredfor TDDcells. WhentheSSBfrequency-domainpositionisconfigured, NRDUCell.SsbDescMethod SsbDescMethodisonly isonly SsbFreqPosspecifiestheNARFCN setto   SSB_DESC_TYPE_NARFCN .  NRDUCell.SsbFreqPos correspondingtotheSSBcenterfrequency. Table3-4liststhe NRDUCell .SsbFreqPos SsbFreqPos settings. Table3-4SSBfrequency-domainpositionconfigurations

Frequency Band

Cell B  andwidth

SSB Frequency-Domain F requency-Domain Position

n41

20 MHz, 50 MHz, 70MHz, 80 MHz, 90 MHz,and100MHz

Valueof NRDUCELL .DlNarfcn DlNarfcn minus36

n41

30MHz, 40  M  Hz, 60  a nd M  Hz

V alue of   NRDUCELL .DlNarfcn DlNarfcn

n77,n78,and n79

20MHz,50MHz,70MHz,80MHz,90 MHz,and100MHz

Valueof NRDUCELL .DlNarfcn DlNarfcn minus12

n77,n78,and n79

30 M MHz, 4 40 M MHz, 6 60 aand M MHz

Value o of  NRDUCELL .DlNarfcn DlNarfcn

n257,n258,and n260

100 M  Hz, a nd 2 00 M  Hz

Value of   NRDUCELL .DlNarfcn DlNarfcn

Is Issu suee D Draf  raftt A  ( 2018-12-30)

Copyright ©  H Huaw  uawei ei T  echn echnolog ologies ies C  o., L  td.

12

 

5GRAN CellManagementFeatureParameterDescription

3CellManagement

3.1.4.4CellBandwidth Theuplinkanddownlinkbandwidthsofacellarerespectivelyspecifiedbythe NRDUCell.UlBandwidth NRDUCell. UlBandwidthand  NRDUCell.DlBandwidth DlBandwidthparameters.Theuplinkand downlinkbandwidthsofacellmustbethesame. Table3-5liststhebandwidthsupportedbyanNRcell. Table3-5Bandwidt Bandwidthsupported hsupportedbyan byanNRcell NRcell

Duplex Mode

Supported Cell Bandwidth

TDD

40 M  Hz, 60  M  Hz, 80  M  Hz, 1 00 MHz 

SUL

15 M Hz, 20  MHz 

3.1.4.5SubcarrierSpacing SubcarrierSpacingparameter. Thesubcarrierspacingofacellisspecifiedbythe   NRDUCell.SubcarrierSpacing parameter. l l

ThesubcarrierspacingofTDDcellsmustbesetto30kHz. ThesubcarrierspacingofSULcellsmustbesetto15kHz.

3.1.4.6Uplink-DownlinkSlot 3.1.4.6Upli nk-DownlinkSlotConfiguration Configuration ForaTDDcell,theuplink-downlinkslotconfigurationmustbespecified.Fordetails,see StandardsCompliance.. StandardsCompliance

3.1.4.7Transmit/ReceiveMode NRDUCellTrp.TxRxModeparameter. Thetransmit/receivemodeofacellisspecifiedbythe   NRDUCellTrp.TxRxMode Table3-6liststhetransmit/receivemodessupportedbyNRcells. Table3-6Transmit/receivemodessupportedbyNRcells

Duplex xM Mode

Supported dT Transmit/Recei ceive eM Mode

TDD

8T8R, 1T1R, 2T2T, 4T4R, 32T32R, and 64T64R 

SUL

SUL s stands ffor ssupplementary u uplink. S SUL c cells, w which a are limitedtouplink limited touplinkreception, reception,support2R support2Rand4R. and4R.

NOTE

ThecellmusthavethesameTX/RXmodeastheAAU/RRU.

3.1.4.8MaximumTransmitPower Themaximumtransmitpowerofasingleantenna(P max_out)isspecifiedbythe NRDUCellTRP.MaxTransmitPower MaxTransmitPowerparameter.Thetotaltransmitpowerofacell(P parameter.Thetotaltransmitpowerofacell(P Cell)is determinedbythemaximumtransmitpowerofasingleantenna(P max_out)andthenumberof Is Issu suee D Draf  raftt A  ( 2018-12-30)

Copyright ©  H Huaw  uawei ei T  echn echnolog ologies ies C  o., L  td.

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5GRAN CellManagementFeatureParameterDescription

3CellManagement

transmitantennas(N Tx).NTxisconfiguredbythe NRDUCellTRP.TxRxModeparameter.The totaltransmitpowerofacelliscalculatedasfollows:P Cell=Pmax_out+10xlog10(NTx). IfmultiplecellsareservedbythesameRRUorAAU,thesumofP max_outofthesecellsmust belessthanorequaltoth belessthanoreq ualtothemaximumtr emaximumtransmitpowero ansmitpoweroftheRRU'sorAAU'stra ftheRRU'sorAAU'stransmit nsmit channel.Otherwise,ALM-29870NRDUCellTRPUnavailableisgenerated. NOTE l

l

FordetailsaboutthemaximumtransmitpowerofRRUsorAAUswhendifferentquantitiesof carriersareconfigured,seethefollowingsectionin 3900&5900SeriesBaseStationProduct Documentation:: 3900&5900SeriesBaseStationTechnicalDescription > TypicalPower Documentation ConfigurationReferenceforRFModules. SULcellsinvolveonlyuplinktransmissionandthereforerequirenotransmitpowerconfigurations.

3.2NetworkAnalysis 3.2.1Benefits TheprimaryfunctionofgNodeBsistoprovideradiocellcoverageforUEs.Cellmanagement ismandatory.

3.2.2Impacts NetworkImpacts None

FunctionImpacts None

3.3Requirements 3.3.1Licenses Cellestablishmentrequiresavalidcapacitylicense.Fordetailsaboutcapacitylicensecontrol items,seeLicenseManagement items,see LicenseManagement.

3.3.2Software PrerequisiteFunctions None

MutuallyExclusiveFunctions None Is Issu suee D Draf  raftt A  ( 2018-12-30)

Copyright ©  H Huaw  uawei ei T  echn echnolog ologies ies C  o., L  td.

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5GRAN CellManagementFeatureParameterDescription

3CellManagement

3.3.3Hardware BaseStationModels l

5900seriesbasestations

l

DBS5900LampSitebasestations

Boards OnlytheUBBPfw1andUMPTeboardssupportthisfunction.FordetailsabouttheRATs supportedbyboards,see BBU5900HardwareDescription BBU5900HardwareDescriptionin in 3900&5900SeriesBase StationProductDocumentation.. StationProductDocumentation RFModules AllNR-capable AllNR-c apableAAUs/RRUs/pRRUs AAUs/RRUs/pRRUssupportt supportthisfunction. hisfunction. l

FordetailsaboutNR-capableAAUs,see AAUTechnicalSpecifications AAUTechnicalSpecifications..

l

RRUTechnicalSpecifications.. FordetailsaboutNR-capableRRUs,see RRUTechnicalSpecifications

l

FordetailsaboutNR-capablepRRUs,see DBS3900LampSite DBS3900LampSite&DB &DBS5900LampSite S5900LampSite TechnicalDescription.. TechnicalDescription

CommonCells Requirementsforsettingupcommoncellsareasfollows: l

l

ThehardwareresourcesofBBPs,CPRIports,andRFmodulesmeetthecell requirementsbeforethecellisestablished.Forthehardwarerequirementsofmacrobase stations,seethefollowingsectionin 3900& 3900&5900Serie 5900SeriesBase sBaseStationProduct StationProduct Documentation:: 3900&5900SeriesBaseStationTechnicalDescription > Product Documentation Specifications. Thetransmit/receivemodeofthecellmustmatchthenumberoftransmit/receive channelsoftheRFmoduleorthecellwillnotworknormally.Fordetailsaboutthe numberoftransmit/receivechannelssupportedbyRFmodules,seethefollowing sectionsin 3900&5900SeriesBaseStationProductDocumentation : 3900&5900 SeriesBaseStationTechnicalDescription > ProductSpecifications> Technical SpecificationsofRRUsand TechnicalSpecificationsofAAUs.

l

TheCPRIdataratesfortheBBPopticalmodulesmustmatchthecellbandwidthsand transmit/receivemodeswhenselectingopticalmodulesforBBPs.Fortheconstraints betweentheCPRIdataratesandthecellbandwidthsandtransmit/receivemodes,seethe followingsectionin 3900&5900SeriesBaseStationProductDocumentation : 3900& 5900SeriesBaseStationTechnicalDescription > ProductSpecifications> Technical SpecificationsoftheBBU5900 .

l

BandwidthsofthecellsservedbytheRRUs/AAUsmustfallwithinthefrequencybands supportedbytheRRUs/AAUs.

l

AAUsmustbeusedtoestablish32T32Ror64T64Rcells.

l

RRUsmustsupport8T8 RRUsmust support8T8Rtoestablish8-ante Rtoestablish8-antennacell nnacells. s.

ThefollowingtabledescribesextrarequirementsforconfiguringTDDcells. Is Issu suee D Draf  raftt A  ( 2018-12-30)

Copyright ©  H Huaw  uawei ei T  echn echnolog ologies ies C  o., L  td.

15

 

5GRAN CellManagementFeatureParameterDescription

3CellManagement

l

IfTDDcellsunderabasestationhavedifferentuplink-downlinkslotconfigurations, theymustbeboundtodifferentBBPs.Theuplink-downlinkslotconfigurationsofall TDDcellsonthesameBBPmustbethesame.

l

IfTDDcellsunderabasestationhavedifferentsubcarrierspacing,theymustbebound todifferentBBPs.ThesubframespacingofallTDDcellsonthesameBBPmustbethe same.

l

IfTDDcellsunderabasestationhavedifferentbandwidths,theymustbeboundto differentBBPs.ThebandwidthsofallTDDcellsonthesameBBPmustbethesame.

l

IfbotheCPRI64T64RTDDcellsandCPRI64T64RTDDcellsareservedbythesame basestation,theymustbeboundtodifferentBBPs.TheRFmodulemodelsofallTDD cellsonthesameBBPmustbethesame.

l

IfTDDcellsunderabasestationhavedifferenttransmit/receivemodes,theymustbe boundtodifferentBBPs.Thetransmit/receivemodesofallTDDcellsonthesameBBP mustbethesame.

Thefollowingrequirementsforconfiguringhigh-frequencycellmustapply: CellsmustbeestablishedontheBBPdirectlyconnectedtheRRU/AAUovertheCPRI/eCPRI opticfiber,andsuchcellsmustalsobeboundtothisBBP,ifrequired.

CellsinaMulti-CarrierSector Requirementsforsettingupcellsinmulti-carriersectorsareasfollows: l

TheRRUs/AAUsmustsupportmultiplecarriers.FordetailsaboutRRUs/AAUsthat supportmultiplecarriers,seethefollowingsectionin 3900&5900SeriesBaseStation ProductDocumentation:: 3900&5900SeriesBaseStationTechnicalDescription > ProductDocumentation ProductSpecificatio Product Specifications ns> TechnicalSpecificationsofRRUsor  Technical SpecificationsofAAUs.

l

Thefrequencyrangeofthetwocellsmustbewithinthefrequencybandssupportedby theRRUs/AAUs.

l

WhentwocellsareconfiguredforthesameRFmodule,thebandwidthsofthetwocells mustbethesame.

l

Thefrequencyrangeofthetwocellscannotoverlap.

UplinkandDownlinkDecouplingCells Requirementsforestablishinguplinkanddownlinkdecouplingcellsareasfollows: l

Oneofthefollowingbandcombinationsisused. 3.5GHz/3.7GHz(subcarrierspacingof30kHz)+1800MHz(subcarrierspacingof15 kHz) 4.9GHz(subcarrierspacingof30kHz)+1800MHz(subcarrierspacingof15kHz)

l

TheTDDcellsandSULcellsmustmeetthefollowingcondition: TheyareservedbythesameBBPs.

3.4OperationandMaintenance Is Issu suee D Draf  raftt A  ( 2018-12-30)

Copyright ©  H Huaw  uawei ei T  echn echnolog ologies ies C  o., L  td.

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5GRAN CellManagementFeatureParameterDescription

3CellManagement

3.4.1DataConfiguration 3.4.1.1DataPreparation Thefollowingtabledescribestheparametersthatmustbesetina SECTORMOtoconfigure MOtoconfigure asector.

Parameter Name

Parameter ID

Setting Notes

SectorID

SECTOR.SECTORID SECTORID

Setthisparametertoauniquevalue.

SectorName   

SECTOR.SECNAME SECNAME

N/A

LocationName   

SECTOR.LOCATIONN LOCATIONN AME

N/A

UserLabel

SECTOR.USERLABEL

N/A

AntennaAzimuth    SE SECT CTOR OR.ANTAZIMUT ANTAZIMUT H

N/A

 



 



Thefollowingtabledescribestheparametersthatmustbesetina SECTOREQMMOto configureapieceofsectorequipment.

Parameter Name

Parameter ID

SectorEquipment ID

SECTOREQM.SECTOR SECTOR N/A EQMID

SectorID

SECTOREQM.SECTOR SECTOR N/A ID

 



Setting Notes

SectorEquipment Antenna

SECTOREQM.SECTOR SECTOR N/A EQMANTENNA

AntennaConfig Mode

SECTOREQM.ANTCF ANTCF GMODE

Setthisparameterto  BEAMonlyfor massiveMIMOcells.

SECTOREQ REQM M.RRUCN RRUCN RRUCabinetNo.    SECTO

N/A

SECTOREQM EQM.RRUSR RRUSR RRUSubrackNo.    SECTOR N

N/A

RRUSlotNo.   

SECTOREQM.RRUSN RRUSN

N/A

BeamShape   

SECTOREQM.BEAMS BEAMS HAPE

Setthisparameterto  SEC_120DEGif ANTCFGMODE the SECTOREQM .ANTCFGMODE parameterissetto BEAM.

BeamLayerSplit    SECT SECTOR OREQ EQM M.BEAML BEAML AYERSPLIT

Is Issu suee D Draf  raftt A  ( 2018-12-30)

Setthisparameterto  Noneifthe SECTOREQM.ANTCFGMODE ANTCFGMODE parameterissetto BEAM.

Copyright ©  H Huaw  uawei ei T  echn echnolog ologies ies C  o., L  td.

17

 

5GRAN CellManagementFeatureParameterDescription

Parameter Name

Parameter ID

BeamAzimuth Offset

SECTOREQM.BEAMA BEAMA ZIMUTHOFFSET

AntennaNumber    SE SECT CTOR OREQ EQM M.ANTNU ANTNU

3CellManagement

Setting Notes Setthisparameterto  Noneifthe SECTOREQM.ANTCFGMODE ANTCFGMODE parameterissetto BEAM. -

M

CabinetNo.of Antenna1

SECTOREQM.ANT1CN ANT1CN

Thisparameterismandatorywhen SECTOREQM.ANTCFGMODE ANTCFGMODEis is setto  ANTENNAPORT.

SubrackNo.of Antenna1

SECTOREQM.ANT1SR ANT1SR N

Thisparameterismandatorywhen SECTOREQM.ANTCFGMODE ANTCFGMODEis is setto  ANTENNAPORT.

SlotNo.of Antenna1

SECTOREQM.ANT1SN ANT1SN

Thisparameterismandatorywhen is SECTOREQM.ANTCFGMODE ANTCFGMODEis setto  ANTENNAPORT.

ChannelNo.of Antenna1

SECTOREQM.ANT1N ANT1N

Thisparameterismandatorywhen SECTOREQM.ANTCFGMODE ANTCFGMODEis is setto  ANTENNAPORT.

Antenna1RX/TX Mode

SECTOREQM.ANTTYP ANTTYP E1

Thisparameterismandatorywhen SECTOREQM.ANTCFGMODE ANTCFGMODEis is setto  ANTENNAPORT.

Thefollowingtabledescribestheparametersthatmustbesetina  gNBOperator MOto configureanoperator.

Parameter Name

Parameter ID

OperatorID

gNBOperator.OperatorI N/A d

 



Setting Notes

OperatorName   

gN gNBO BOpe pera rato torr.Operator Name

N/A

MobileCountry Code

gNBOperator.Mcc Mcc

N/A

MobileNetwork Code

gNBOperator.Mnc Mnc

N/A

gNBTrackingAreaMOto Thefollowingtabledescribestheparametersthatmustbesetina   gNBTrackingArea configureatrackingareaforanoperator.

Is Issu suee D Draf  raftt A  ( 2018-12-30)

Copyright ©  H Huaw  uawei ei T  echn echnolog ologies ies C  o., L  td.

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5GRAN CellManagementFeatureParameterDescription

3CellManagement

Parameter Name

Parameter ID

TrackingAreaID   

gNB gNBTra Tracki ckingA ngArea rea.Track Thesettingofthisparametertakes ingAreaId effectonlyforthegNodeB.The trackingareaidentity(TAI)specified bythisparameterisdifferentfromthe TAIconfiguredinthetrackingarealist (TAL)inthecorenetwork.

gNBTrackingArea rea.Tac TrackingAreaCode    gNBTrackingA

Setting Notes

N/A

Thefollowingtabledescribestheparametersthatmustbesetinan  NRCellMOtoconfigure anNRcell.

Parameter Name

Parameter ID

NRCellID



NRCell.NrCellId NrCellId

N/A



NRCell.CellName

N/A

FrequencyBand   

NRCell.FrequencyBand

N/A

CellID

NRCell.CellId

N/A

DuplexMode   

NRCell.DuplexMode DuplexMode

Setthisparameterto  CELL_TDD.

UserLabel

NRCell.UserLabel

N/A

CellName

   

 



 



Setting Notes

Thefollowingtabledescribestheparametersthatmustbesetinan  NRDUCellMOto configureanNRDUcell.

Parameter Name

Parameter ID

NRDUCellID   

NRDUCel elll.NrDuCellId NrDuCellId

N/A

NRDUCel Celll.NrDuCellNa NrDuCellNa NRDUCellName    NRDU me

N/A

FrequencyBand   

NRDUCel elll.FrequencyB and

N/A

UplinkBandwidth    NR NRDU DUCe Cell ll.UlBandWidt h

N/A

Downlink Bandwidth

NRDUCell.DlBandWidt DlBandWidt h

N/A

DuplexMode   

NRDUCell.DuplexMode DuplexMode

Setthisparameterto  CELL_TDD .

Is Issu suee D Draf  raftt A  ( 2018-12-30)

Setting Notes

Copyright ©  H Huaw  uawei ei T  echn echnolog ologies ies C  o., L  td.

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5GRAN CellManagementFeatureParameterDescription

3CellManagement

Parameter Name

Parameter ID

Setting Notes

CellRadius

NRDUCell.CellRadius

Thevalueofthisparametermustbe greaterthanorequaltotheactualcell radius.Otherwise,UEsatthecelledge mayfailtoaccessthenetwork.

SlotAssignment   

NR NRDU DUCe Cell ll.SlotAssignm SlotAssignm ent

Thisparameterneedstobesetonlyfor TDDcells.

SlotStructure   

NRDUCell.SlotStructure SlotStructure

Thisparameterneedstobesetonlyfor TDDcells.

CellID

NRDUCell.CellId

N/A

NRDU NRDUCe Cell ll.UlNarfcn

N/A

NRDUCel UCelll.DlNarfcn DlNarfcn DownlinkNARFCN    NRD

N/A

 

 





UplinkNARFCN   

PhysicalCellID   

NRDUCel elll.PhysicalCellI PhysicalCellI FortwoNRDUcel FortwoNRDUcellswithoverlapped lswithoverlapped d parts,iftheuplinkfrequ parts,iftheupli nkfrequenciesor enciesor downlinkfrequenciesofthetwocells arethesame,toavoidmutual interferencebetweenthetwocells,the NRDUCell.PhysicalCellId PhysicalCellIdsettingsof thetwocellsmustbedifferent.

NRDU DUCel Celll.SubcarrierSp SubcarrierSp N/A SubcarrierSpacing    NR acing

CyclicPrefixLength    NRDUCell.CyclicPrefix Length

N/A

UplinkNARFCN Configuration Indicator

NRDUCell.UlNarfcnCo nfigInd

N/A

TrackingAreaID   

NR NRDU DUCe Cell ll.TrackingAre aId

Thisparametermustbesettothesame TrackingAreaID valueasthe   TrackingAreaID gNBTrackingArea parameterinthe gNBTrackingArea

SSBFrequency PositionDescribe Method

NRDUCell.SsbDescMet SsbDescMet hod

SSBFrequency Position

NRDUCell.SsbFreqPos SsbFreqPos

MO. Setthisparameterbasedonthe networkplan. Setthisparameterbasedonthe networkplan a.

a:Therequirementsforconfiguring  NRDUCell.SsbFreqPos SsbFreqPosareasfollows: l

  NRDUCell.FrequencyBandissetton3orn28and DlBandwidthissetto If  NRDUCell issetton3orn28and NRDUCell.DlBandwidth 15MHz,  NRDUCell.SsbFreqPos SsbFreqPosmustbesettothevalueof  NRDUCell.DlNarfcn DlNarfcn   NRDUCell.FrequencyBandissetton41and DlBandwidthis minus18.If  NRDUCell issetton41and  NRDUCell .DlBandwidth

Is Issu suee D Draf  raftt A  ( 2018-12-30)

Copyright ©  H Huaw  uawei ei T  echn echnolog ologies ies C  o., L  td.

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5GRAN CellManagementFeatureParameterDescription

3CellManagement

setto20MHz,50 MHz,70MHz,80MHz setto20MHz,50 MHz,70MHz,80MHz,90MHz, ,90MHz,or100MHz, or100MHz, NRDUCell.SsbFreqPos SsbFreqPosmustbesettothevalueof  NRDUCell.DlNarfcn DlNarfcnminus36. l

  NRDUCell.FrequencyBandissetton77,n78,orn79,and DlBandwidth If  NRDUCell issetton77,n78,orn79,and NRDUCell.DlBandwidth issetto20MHz,50MHz, issetto20 MHz,50MHz,70MHz,80MHz 70MHz,80MHz,90MHz,or1 ,90MHz,or100MHz, 00MHz, NRDUCell.SsbFreqPos SsbFreqPosmustbesettothevalueof  NRDUCell.DlNarfcn DlNarfcnminus12.

l

  NRDUCell.FrequencyBandissetton3orn28and DlBandwidthisnot If  NRDUCell issetton3orn28and NRDUCell.DlBandwidth SsbFreqPosmustbesettothevalueof setto15MHz,  NRDUCell.SsbFreqPos NRDUCell.DlNarfcn DlNarfcn.

l

If  NRDUCell   NRDUCell.FrequencyBandissetton41and issetton41and NRDUCell.DlBandwidth DlBandwidthisnotsetto SsbFreqPos 20MHz,50MHz,70 20MHz,5 0MHz,70MHz,80MHz,90MHz,o MHz,80MHz,90MHz,or100MHz r100MHz,,   NRDUCell.SsbFreqPos mustbesettothevalueof  NRDUCell.DlNarfcn DlNarfcn.

l

  NRDUCell.FrequencyBandissetton77,n78,orn79,and DlBandwidth If  NRDUCell issetton77,n78,orn79,and NRDUCell.DlBandwidth isnotsetto20MHz,50 isnotsett o20MHz,50MHz,70MHz,8 MHz,70MHz,80MHz,90MHz, 0MHz,90MHz,or100MHz, or100MHz, NRDUCell.SsbFreqPos SsbFreqPosmustbesettothevalueof  NRDUCell.DlNarfcn DlNarfcn.

l

  NRDUCell.FrequencyBandissetton257,n258,orn260, SsbFreqPos If  NRDUCell issetton257,n258,orn260, NRDUCell.SsbFreqPos mustbesettothevalueof  NRDUCell.DlNarfcn DlNarfcn.

Thefollowingtabledescribestheparametersthatmustbesetinan  NRDUCellTrpMOto configuretheTRPforanNRDUcell.

Parameter Name

Parameter ID

Setting Notes

NRDUCellTrp Trp.NrDuCel NrDuCel N/A NRDUCellTRPID    NRDUCell lTrpId

NRDUCellID   

NRDU NRDUCe Cell llTr Trp p.NrDuCel NrDuCel N/A lId

Transmitand ReceiveMode

NRDUCellTrp.TxRxMo de

N/A

Baseband EquipmentID

NRDUCellTrp.Baseban Baseban dEqmId

Ifthisparameterissetto  255 ,no basebandequipmentisspecified.In thiscase,aTDDcellcanonlyuse basebandequipmentdirectly connectedtotheRFunitofthecell.

NRDUCellTrp Trp.MaxTran MaxTran N/A MaxTransmitPower  NRDUCell smitPower

CPRICompression    NRD NRDUCel UCellTrp lTrp.CpriCom N/A pression

Thefollowingtabledescribestheparametersthatmustbesetinan   NRDUCellCoverageMO toconfiguretheinformationaboutthecoverageareaofanNRDUcell.

Parameter Name

Parameter ID

NRDUCellTRPID   NRDUCellCoverage.Nr Nr DuCellTrpId

Is Issu suee D Draf  raftt A  ( 2018-12-30)

Setting Notes N/A

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5GRAN CellManagementFeatureParameterDescription

Parameter Name

Parameter ID

NRDUCell CoverageID

NRDUCellCoverage.Nr Nr DuCellCoverageId

3CellManagement

Setting Notes N/A

Sec N/A SectorEquipmentID   NRDUCellCoverage.Sec torEqmId

Thefollowingtabledescribestheparametersthatmustbesetina  BaseBandEqm MOto configurebasebandequipmentinformation.

Parameter Name

Parameter ID

Setting Notes

Baseband EquipmentID

BASEBANDEQM .BAS BAS EBANDEQMID

Each   BASEBANDEQMID parameter valueidentifiesapieceofbaseband equipment. Onepieceofbasebandequipmentcan includemultipleBBPs. ABBPcannotbelongtomultiple piecesofbasebandequipment.

Baseband EquipmentType

BASEBANDEQM .BAS BAS EBANDEQMTYPE

N/A

Baseband EquipmentBoard

BASEBANDEQM .BAS BAS EBANDEQMBOARD

N/A

UMTSUL DemodulationMode

BASEBANDEQM .UMT Itisrecommendedthatthisparameter SDEMMODE besetto NULLbecauseitisnotused forgNodeBs.

Thefollowingtabledescribestheparametersthatmustbesetinan  NRDUCellPrachMOto configuretheinformationabout  LogicalRootSequenceIndex.

Parameter Name

Parameter ID

Setting Notes

NRDUCellID   

NR NRDU DUCe Cell llPr Prac ach h.NrDu NrDu CellId

-

LogicalRoot SequenceIndex

NRDUCellPrach.RootS RootS equenceIndex

Setthisparameterbasedonthe networkplan a.

a:Therequirementsforconfiguring   NRDUCellPrach.RootSequenceIndex RootSequenceIndexareasfollows: areasfollows: l

Whenthesystemfrequencyissub-6GHzandtheduplexmodeisSUL,settheparameter toavalueintherangeof0to837. Whenthesystemfrequencyisonsub-6GHz,theduplexmodeisTDD,theuplinkdownlinkslotconfigurationis8_2_DDDDDDDSUU,thesubcarrierspacingis30kHz,

Is Issu suee D Draf  raftt A  ( 2018-12-30)

Copyright ©  H Huaw  uawei ei T  echn echnolog ologies ies C  o., L  td.

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5GRAN CellManagementFeatureParameterDescription

3CellManagement

andthePRACHconfigurationindexis0to7,12,16,or65535,settheparametertoa valueintherangeof0to837. Iftwoneighboringcellswiththesamevaluerangeofthe NRDUCellPrach.RootSequenceIndex RootSequenceIndexparameterandoverlappingtimeandfrequency parameterandoverlappingtimeandfrequency resourceshavethisparametersetto Mand andN,respectively,[M,M+x ,respectively,[M,M+x –1]and[N,N+ x –1]mustnotoverlap.Thevalueof xdependsonthecellradius. Ifthecellradiusis0 lradiusis0to0.5km,x to0.5km,xis1. is1. – Ifthecel – Ifthecel Ifthecellradiusis0 lradiusis0.5kmto2.5 .5kmto2.5km,xis2. km,xis2. Ifthecellradiusis2 lradiusis2.5kmto4 .5kmto4km,xis3. km,xis3. – Ifthecel Ifthecellradiusis4 lradiusis4kmto5.5 kmto5.5km,xis4. km,xis4. – Ifthecel

– Ifthecel Ifthecellradiusis5 lradiusis5.5kmto7 .5kmto7km,xis5. km,xis5. Ifthecellradiusis7 lradiusis7.5kmto9.5 .5kmto9.5km,xis6. km,xis6. – Ifthecel

– Ifthecellradiusis9.5kmto12km,xis8. – Ifthecellradiusis12kmto14.5km,xis10. l

Whenthesystemfrequencyissub-6GHz,theduplexmodeisTDD,theuplink-downlink slotconfigurationis4_1_DDDSU,andthesubcarrierspacingis30kHz,setthe parametertoavalueintherangeof0to137. Whenthesystemfrequencyissub-6GHz,theduplexmodeisTDD,theuplink-downlink slotconfigurationis8_2_DDDDDDDSUU,thesubcarrierspacingis30kHz,andthe PRACHconfigurationindexis245or255,settheparametertoavalueintherangeof0 to137. Iftwoneighboringcellswiththesamevaluerangeof RootSequenceIndexparameterandoverlappingtimeand theNRDUCellPrach.RootSequenceIndex parameterandoverlappingtimeand frequencyresourceshavethisparametersetto Mand andN,respectively,[M,M+x ,respectively,[M,M+x –1] and[N,N+x –1]mustnotoverlap.Thevalueof  xdependsonthecellradius.

– Ifthecel Ifthecellradiusis0 lradiusis0to0.5km,x to0.5km,xis6. is6. – Ifthecellradiusis0.5kmto1km,xis10. – Ifthecellradiusis1kmto1.5km,xis13. – Ifthecellradiusis1.5kmto2km,xis16. – Ifthecellradiusis2kmto3km,xis22. – Ifthecellradiusis3kmto4.5km,xis32. Ifthecellradiusis4 lradiusis4.5kmto14.5 .5kmto14.5km,xis64. km,xis64. – Ifthecel – WhenthesystemfrequencyisonmmWave,settheparametertoavalueinthe rangeof0to137. l

Iftwoneighboringcellswiththesamevaluerangeofthe NRDUCellPrach.RootSequenceIndex RootSequenceIndexparameterandoverlappingtimeandfrequency parameterandoverlappingtimeandfrequency resourceshavethisparametersetto Mand andN,respectively,[M,M+x ,respectively,[M,M+x –1]and[N,N+ x –1]mustnotoverlap.Thevalueof xdependsonthecellradius. Ifthecellradiusis0 lradiusis0to0.5km,x to0.5km,xis16. is16. – Ifthecel

– Ifthecellradiusis0.5kmto1km,xis32. – Ifthecel Ifthecellradiusis1 lradiusis1kmto14.5 kmto14.5km,xis64. km,xis64.

3.4.1.2UsingMMLCommands ThissectionprovidestheMMLcommandexamplesindifferentscenarios. Is Issu suee D Draf  raftt A  ( 2018-12-30)

Copyright ©  H Huaw  uawei ei T  echn echnolog ologies ies C  o., L  td.

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5GRAN CellManagementFeatureParameterDescription l

Scenario1:EstablishingaCommonCell

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Scenario2:EstablishingaMulti-CarrierCell

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Scenario3:EstablishingUplinkandDownlinkDecouplingCells

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Scenario4:EstablishingaLampSiteRFCombinationCell

3CellManagement

ThissectionprovidesexamplesofMMLcommandsforsettingupacell.Parametervaluesin thefollowingexamplesareforreferenceonly.Onlivenetworks,theseparametersmustbe configuredbasedontheoperator'snetworkplan. LampSitebasestationssupportonlyscenario1andscenario4.

Process Figure3-7Celldeploymentprocess

Fordetailsabouthowtoconfiguredevicedata,see 3900&5900SeriesBaseStationInitial ConfigurationGuidein ConfigurationGuide in 3900&5900SeriesBaseStationProductDocumentation .

Scenario1:EstablishingaC Scenario1:Est ablishingaCommonCell ommonCell Toestablishacommoncell,performthecommonprocessshownin Figure3-7with necessaryadjustment.Thecommonprocessisasfollows:

Is Issu suee D Draf  raftt A  ( 2018-12-30)

Copyright ©  H Huaw  uawei ei T  echn echnolog ologies ies C  o., L  td.

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5GRAN CellManagementFeatureParameterDescription

3CellManagement

NOTE l

Theantennatransmit/receivemodemustmatchthenumberofantennasinasector.Accordingly,the sectorservingthecellmustbeconfiguredwiththerequirednumberofantennas(specifiedbythe SECTOR.ANTNUM ANTNUMparameter).Forexample,ifacellworksin8T8Rmode,the parameter).Forexample,ifacellworksin8T8Rmode,the SECTOR.ANTNUM ANTNUMparametermustbesetto parametermustbesetto  8 .

l

 ADDSECTORissetto Ifthe SECTOR.CREATESECTOREQMparameterunder  ADDSECTOR issetto TRUE,thereis ADDSECTOREQM noneedtorunthe   FALSE parameterissetto bydefault. command.The  SECTOR.CREATESECTOREQM

Establishinga100MHz8T8RTDDcell //(Optional)Addingsectorsandsecto //(Optional)Adding sectorsandsectorequipment requipment,settingthe ,settingthe   SECTOR .ANTNUM parameterto   8,andconfigu ,andconfiguringeight ringeightantennachan antennachannelsofanRRU nelsofanRRUforthissecto forthissector r whenanRRUisadded ADDSECTOR:SECTORID=0,SECNAM ADDSECTOR:SECTO RID=0,SECNAME="0",USERL E="0",USERLABEL="0" ABEL="0",ANTNUM=8,ANT1C ,ANTNUM=8,ANT1CN=0, N=0, ANT1SRN=60,ANT1SN=0 ANT1SRN =60,ANT1SN=0,ANT1N=R0A, ,ANT1N=R0A,ANT2CN=0,ANT2SRN ANT2CN=0,ANT2SRN=60,ANT2SN= =60,ANT2SN=0,ANT2N=R0B 0,ANT2N=R0B, , ANT3CN=0,ANT3SRN=60 ANT3CN= 0,ANT3SRN=60,ANT3SN=0,ANT3N ,ANT3SN=0,ANT3N=R0C,ANT4CN= =R0C,ANT4CN=0,ANT4SRN=6 0,ANT4SRN=60,ANT4SN=0, 0,ANT4SN=0, ANT4N=R0D,ANT5CN=0, ANT4N=R 0D,ANT5CN=0,ANT5SRN=60, ANT5SRN=60,ANT5SN=0,ANT5N=R ANT5SN=0,ANT5N=R0E,ANT6CN=0 0E,ANT6CN=0,ANT6SRN=60 ,ANT6SRN=60, , ANT6SN=0,ANT6N=R0F, ANT6SN= 0,ANT6N=R0F,ANT7CN=0,ANT7SR ANT7CN=0,ANT7SRN=60,ANT7SN= N=60,ANT7SN=0,ANT7N=R0G 0,ANT7N=R0G,ANT8CN=0, ,ANT8CN=0, ANT8SRN=60,ANT8SN=0,ANT8N=R0 ANT8SRN =60,ANT8SN=0,ANT8N=R0H,CREATESECTO H,CREATESECTOREQM=TRU REQM=TRUE,SECTOREQMID= E,SECTOREQMID=0; 0; //(Optional)Addingbaseb //(Opti onal)Addingbasebandequipmen andequipment t ADDBASEBANDEQM:BASEBANDEQ ADDBASEBANDE QM:BASEBANDEQMID=0,BASEBAN MID=0,BASEBANDEQMTYP DEQMTYPE=ULDL,UMTSDE E=ULDL,UMTSDEMMODE=N MMODE=NULL,SN1=0; ULL,SN1=0; //(Optional)Addingoperatorandtrackingareainformation(ifnotaddedbefore) //(Optional)Addinganoperator ADDGNBOPERATOR:OperatorId ADDGNBOPERAT OR:OperatorId=0,OperatorNa =0,OperatorName="CMC me="CMCC",Mcc="460", C",Mcc="460",Mnc="00"; Mnc="00"; //(Optional)Addingatrackingareafortheoperator ADDGNBTRACKINGAREA:Tracki ADDGNBTRACKI NGAREA:TrackingAreaId ngAreaId=0,Tac=1; =0,Tac=1; //Addinga100MHzTDDcell ADDNRCELL:NrCellId=0,CellName= ADDNRCELL:NrCellI d=0,CellName="CELL1", "CELL1",CellId=1,Frequenc CellId=1,FrequencyBand=N7 yBand=N78, 8, DuplexMode=CELL_TDD; //AddingaTDDDUcell ADDNRDUCELL:NrDuCellId=0,NrDuCellN ADDNRDUCELL:NrDuCell Id=0,NrDuCellName="DU ame="DUCELL1",DuplexM CELL1",DuplexMode=CELL ode=CELL_TDD, _TDD, CellId=1, CellId= 1, Physica PhysicalCellId= lCellId=1, 1, Frequenc FrequencyBand=N yBand=N78, 78, UlNarfcnConfig UlNarfcnConfigInd=NOT_ Ind=NOT_CONFIG, CONFIG, DlNarfcn=634000 DlNarfc n=634000, , UlBandwidth=CEL UlBandwidth=CELL_BW_100 L_BW_100M, M, DlBandwidth=CELL DlBandwidth=CELL_BW_100M _BW_100M, , SlotAssignment= SlotAss ignment=4_1_DDD 4_1_DDDSU, SU, SlotStr SlotStructure=S ucture=SS2, S2, TrackingAreaId TrackingAreaId=0, =0, SsbDescMethod=S SsbDesc Method=SSB_DESC SB_DESC_TYPE_NA _TYPE_NARFCN, RFCN, SsbFreq SsbFreqPos=6339 Pos=633988; 88; //AddingaTRPforanNRDUcell //Addin gaTRPforanNRDUcell,andoption ,andoptionallybindi allybindingbaseban ngbasebandequipmen dequipmentto tto theTRP ADDNRDUCELLTRP:NrDuCellTr ADDNRDUCELLT RP:NrDuCellTrpId=0,NrDuCel pId=0,NrDuCellId=0,TxRxMo lId=0,TxRxMode=8T8R, de=8T8R, MaxTransmitPowe MaxTran smitPower=320, r=320, Baseban BasebandEqmId=0 dEqmId=0, , CpriCompression CpriCompression=3DOT2_ =3DOT2_COMPRESS COMPRESSION; ION; //AddinganNRDUcellcove //Addin ganNRDUcellcoveragearea, ragearea,andbindingse andbindingsectorequip ctorequipmenttotheTRP menttotheTRPof of theNRDUcell ADDNRDUCELLCOVERAGE:NrDuCell ADDNRDUCELLCOV ERAGE:NrDuCellTrpId=0 TrpId=0,NrDuCellCover ,NrDuCellCoverageId=0 ageId=0,SectorEqmId=0 ,SectorEqmId=0; ; //Activatingthecell ACTNRCELL:NrCellId=0;

Establishinga100MHz64T64RmassiveMIMOTDDcell //(Optional)AddingsectorsandsectorequipmentinscenarioswhereAAUsare added,withthe   SECTOR .ANTNUMparametersetto   0 //(Optional)Addingasector ADDSECTOR:SECTORID=0,SECNAM ADDSECTOR:SECTO RID=0,SECNAME="0",LOCAT E="0",LOCATIONNAME= IONNAME="0",USERLAB "0",USERLABEL="0", EL="0",ANTNUM=0, ANTNUM=0, CREATESECTOREQM=FALSE; //(Optional)Addingsecto //(Opti onal)Addingsectorequipment requipment ADDSECTOREQM:SECTOREQMI ADDSECTOREQ M:SECTOREQMID=0,SECTORI D=0,SECTORID=0,ANTCFGMO D=0,ANTCFGMODE=BEAM DE=BEAM,RRUCN=0,RRUSRN ,RRUCN=0,RRUSRN=60, =60, RRUSN=0, RRUSN=0 , BEAMSHAP BEAMSHAPE=SEC_12 E=SEC_120DEG,BEAMLAYERSPL 0DEG,BEAMLAYERSPLIT=None, IT=None,  BEAMAZIMUTHOFF BEAMAZIMUTHOFFSET=None SET=None; ; //(Optional)Addingbaseb //(Opti onal)Addingbasebandequipmen andequipment t ADDBASEBANDEQM:BASEBANDEQ ADDBASEBANDE QM:BASEBANDEQMID=0,BASEBAN MID=0,BASEBANDEQMTYP DEQMTYPE=ULDL,UMTSDE E=ULDL,UMTSDEMMODE=N MMODE=NULL,SN1=0; ULL,SN1=0; //(Optional)Addingoperatorandtrackingareainformation(ifnotaddedbefore) //(Optional)Addinganoperator ADDGNBOPERATOR:OperatorId ADDGNBOPERAT OR:OperatorId=0,OperatorNa =0,OperatorName="CMC me="CMCC",Mcc="460", C",Mcc="460",Mnc="00"; Mnc="00"; //(Optional)Addingatrackingareafortheoperator ADDGNBTRACKINGAREA:Tracki ADDGNBTRACKI NGAREA:TrackingAreaId ngAreaId=0,Tac=1; =0,Tac=1; //Addinga100MHzTDDcell ADDNRCELL:NrCellId=0,CellName= ADDNRCELL:NrCellI d=0,CellName="CELL1", "CELL1",CellId=1,Frequenc CellId=1,FrequencyBand=N7 yBand=N78, 8, DuplexMode=CELL DuplexM ode=CELL_TDD, _TDD, UserLabel="CELL UserLabel="CELL1"; 1"; //AddinganNRDUcell ADDNRDUCELL:NrDuCellId=1,NrDuCellN ADDNRDUCELL:NrDuCell Id=1,NrDuCellName="CE ame="CELL1",DuplexMod LL1",DuplexMode=CELL_T e=CELL_TDD, DD, CellId=1,Physic CellId= 1,PhysicalCellI alCellId=1, d=1, FrequencyBand=N FrequencyBand=N78, 78, UlNarfcnConfig UlNarfcnConfigInd=NOT_ Ind=NOT_CONFIG, CONFIG,

Is Issu suee D Draf  raftt A  ( 2018-12-30)

Copyright ©  H Huaw  uawei ei T  echn echnolog ologies ies C  o., L  td.

25

 

5GRAN CellManagementFeatureParameterDescription

3CellManagement

DlNarfcn=634000 DlNarfc n=634000, , UlBandwidth=CEL UlBandwidth=CELL_BW_100 L_BW_100M, M, DlBandwidth=CELL DlBandwidth=CELL_BW_100M _BW_100M, , SlotAssignment=4_1_DDD SlotAssignment= 4_1_DDDSU, SU, SlotStr SlotStructure=S ucture=SS2, S2, TrackingAreaId TrackingAreaId=0, =0, SsbDescMethod=S SsbDesc Method=SSB_DESC SB_DESC_TYPE_NA _TYPE_NARFCN, RFCN, SsbFreq SsbFreqPos=6339 Pos=633988; 88; //AddingaTRPforanNRDUcell //Addin gaTRPforanNRDUcell,andoption ,andoptionallybindi allybindingbaseban ngbasebandequipmen dequipmentto tto theTRP ADDNRDUCELLTRP:NrDuCellTrpId ADDNRDUCELLTRP :NrDuCellTrpId=0,NrDuCellId =0,NrDuCellId=1,TxRxMode=64 =1,TxRxMode=64T64R, T64R, MaxTransmitPowe MaxTran smitPower=300, r=300, CpriCom CpriCompression pression=3DOT2_ =3DOT2_COMPRESS COMPRESSION; ION; //AddinganNRDUcellcove //Addin ganNRDUcellcoveragearea, ragearea,andbindingse andbindingsectorequip ctorequipmenttotheTRP menttotheTRPof of theNRDUcell ADDNRDUCELLCOVERAGE:NrDuCell ADDNRDUCELLCOV ERAGE:NrDuCellTrpId=0 TrpId=0,NrDuCellCover ,NrDuCellCoverageId=0 ageId=0,SectorEqmId=0 ,SectorEqmId=0; ; //Activatingthecell ACTNRCELL:NrCellId=0;

EstablishingaLa Establishing aLampSite10 mpSite100 0 MHz4T4RTDDcell MHz4T4RTDDcell //(Optional)Addingsectorsandsecto //(Optional)Adding sectorsandsectorequipment requipment,settingthe ,settingthe   SECTOR .ANTNUM parameterto   4,andconfig ,andconfiguringfour uringfourantennacha antennachannelsofapRRU nnelsofapRRUforthissecto forthissector r whenapRRUisadded ADDSECTOR:SECTORID=0,SECNAM ADDSECTOR:SECTO RID=0,SECNAME="0",USERL E="0",USERLABEL="0" ABEL="0",ANTNUM=4,ANT1C ,ANTNUM=4,ANT1CN=0, N=0, ANT1SRN=60,ANT1SN=0 ANT1SRN =60,ANT1SN=0,ANT1N=R0A, ,ANT1N=R0A,ANT2CN=0,ANT2SRN ANT2CN=0,ANT2SRN=60,ANT2SN= =60,ANT2SN=0,ANT2N=R0B 0,ANT2N=R0B, , ANT3CN=0,ANT3SRN=60 ANT3CN= 0,ANT3SRN=60,ANT3SN=0,ANT3N ,ANT3SN=0,ANT3N=R0C,ANT4CN= =R0C,ANT4CN=0,ANT4SRN=6 0,ANT4SRN=60,ANT4SN=0, 0,ANT4SN=0, ANT4N=R0D,CREATESECTOREQ ANT4N=R 0D,CREATESECTOREQM=TRUE, M=TRUE,  SECTOREQ SECTOREQMID=0; MID=0; //(Optional)Addingbaseb //(Opti onal)Addingbasebandequipmen andequipment t ADDBASEBANDEQM:BASEBANDEQ ADDBASEBANDE QM:BASEBANDEQMID=0,BASEBAN MID=0,BASEBANDEQMTYP DEQMTYPE=ULDL,UMTSDE E=ULDL,UMTSDEMMODE=N MMODE=NULL,SN1=0; ULL,SN1=0; //(Optional)Addingoperatorandtrackingareainformation(ifnotaddedbefore) //(Optional)AddinganoperatorandconfiguringNRnetworkingasSAorNSA ADDGNBOPERATOR:OperatorId ADDGNBOPERAT OR:OperatorId=0,OperatorNa =0,OperatorName="CMC me="CMCC",Mcc="460", C",Mcc="460",Mnc="00", Mnc="00", OperatorType=PR Operato rType=PRIMARY_O IMARY_OPERATOR, PERATOR,  NrNetwo NrNetworkingOpt rkingOption=SA; ion=SA; //(Optional)Addingatrackingareafortheoperator ADDGNBTRACKINGAREA:Tracki ADDGNBTRACKI NGAREA:TrackingAreaId ngAreaId=0,Tac=1; =0,Tac=1; //Addinga100MHzTDDcell ADDNRCELL:NrCellId=0,CellName= ADDNRCELL:NrCellI d=0,CellName="CELL1", "CELL1",CellId=1,Frequenc CellId=1,FrequencyBand=N7 yBand=N77, 7, DuplexMode=CELL_TDD; //AddingaTDDDUcell ADDNRDUCELL:NrDuCellId=0,NrDuCellN ADDNRDUCELL:NrDuCell Id=0,NrDuCellName="DU ame="DUCELL1",DuplexM CELL1",DuplexMode=CELL ode=CELL_TDD, _TDD, CellId=1, CellId= 1, Physica PhysicalCellId= lCellId=1, 1, Frequenc FrequencyBand=N yBand=N77, 77, UlNarfcnConfig UlNarfcnConfigInd=NOT_ Ind=NOT_CONFIG, CONFIG, DlNarfcn=636666 DlNarfc n=636666, , UlBandwidth=CEL UlBandwidth=CELL_BW_100 L_BW_100M, M, DlBandwidth=CELL DlBandwidth=CELL_BW_100M _BW_100M, , SlotAssignment= SlotAss ignment=4_1_DDD 4_1_DDDSU, SU, SlotStructure=S SlotStructure=SS2, S2, LampSiteCellFla LampSiteCellFlag=YES, g=YES, TrackingAreaId= Trackin gAreaId=0, 0, SsbDescMethod=S SsbDescMethod=SSB_DESC_ SB_DESC_TYPE_NAR TYPE_NARFCN, FCN, SsbFreqPos=6366 SsbFreqPos=636654; 54; //AddingaTRPforanNRDUcell //Addin gaTRPforanNRDUcell,andoption ,andoptionallybindi allybindingbaseban ngbasebandequipmen dequipmentto tto theTRP ADDNRDUCELLTRP:NrDuCellTr ADDNRDUCELLT RP:NrDuCellTrpId=0,NrDuCel pId=0,NrDuCellId=0,TxRxMo lId=0,TxRxMode=4T4R, de=4T4R,BasebandEqmI BasebandEqmId=0, d=0, MaxTransmitPowe MaxTran smitPower=240, r=240, CpriCom CpriCompression pression=3DOT2_ =3DOT2_COMPRESS COMPRESSION; ION; //AddinganNRDUcellcove //Addin ganNRDUcellcoveragearea, ragearea,andbindingse andbindingsectorequip ctorequipmenttotheTRP menttotheTRPof of theNRDUcell ADDNRDUCELLCOVERAGE:NrDuCell ADDNRDUCELLCOV ERAGE:NrDuCellTrpId=0 TrpId=0,NrDuCellCover ,NrDuCellCoverageId=0 ageId=0,SectorEqmId=0 ,SectorEqmId=0; ; //Activatingthecell ACTNRCELL:NrCellId=0;

Scenario2:EstablishingaM Scenario2:Est ablishingaMulti-Carrier ulti-CarrierCell Cell Establishingcellsinatwo-carrierscenarioisusedasanexample

l

l

Signalsofothercarrierswillbeinterruptedintermittentlywhenacarrierisaddedtoor removedfromamulti-carrierRRU.Therefore,youareadvisedtoaddorremoveacarrier inoff-peakhours. Beforeestablishingmulti-carriercells,ensurethatthemulti-carriercapabilitiessupported byRRUsandCPRIportsandtheBBP'scellspecificationsmeettherequirements describedin 3.3.3Hardware.

//(Optional)Addi //(Opti onal)Addingasectorand ngasectorandsectorequip sectorequipmentwhen mentwhenanRRUisadded anRRUisadded ADDSECTOR:SECTORID=0,SECNAM ADDSECTOR:SECTO RID=0,SECNAME="0",LOCAT E="0",LOCATIONNAME= IONNAME="0",USERLAB "0",USERLABEL="0", EL="0",ANTNUM=4, ANTNUM=4,

Is Issu suee D Draf  raftt A  ( 2018-12-30)

Copyright ©  H Huaw  uawei ei T  echn echnolog ologies ies C  o., L  td.

26

 

5GRAN CellManagementFeatureParameterDescription

3CellManagement

ANT1CN=0,ANT1SRN=60 ANT1CN= 0,ANT1SRN=60,ANT1SN=0,ANT1N ,ANT1SN=0,ANT1N=R0A,ANT2CN= =R0A,ANT2CN=0,ANT2SRN=6 0,ANT2SRN=60,ANT2SN=0, 0,ANT2SN=0, ANT2N=R0B,ANT3CN=0,ANT3SRN=60, ANT2N=R0B,ANT3CN=0, ANT3SRN=60,ANT3SN=0,ANT3N=R ANT3SN=0,ANT3N=R0C,ANT4CN=0 0C,ANT4CN=0,ANT4SRN=60 ,ANT4SRN=60, , ANT4SN=0,ANT4N=R0D,CREATESECTO ANT4SN= 0,ANT4N=R0D,CREATESECTOREQM=TRU REQM=TRUE,SECTOREQMID= E,SECTOREQMID=0; 0; //(Optional)Addingbaseb //(Opti onal)Addingbasebandequipmen andequipment t ADDBASEBANDEQM:BASEBANDEQ ADDBASEBANDE QM:BASEBANDEQMID=0,BASEBAN MID=0,BASEBANDEQMTYP DEQMTYPE=ULDL,UMTSDE E=ULDL,UMTSDEMMODE=N MMODE=NULL,SN1=0; ULL,SN1=0; //(Optional)Addingoperatorandtrackingareainformation(ifnotaddedbefore) //(Optional)Addinganoperator ADDGNBOPERATOR:OperatorId ADDGNBOPERAT OR:OperatorId=0,OperatorNa =0,OperatorName="CMC me="CMCC",Mcc="460", C",Mcc="460",Mnc="00"; Mnc="00"; //(Optional)Addingatrackingareafortheoperator ADDGNBTRACKINGAREA:Tracki ADDGNBTRACKI NGAREA:TrackingAreaId ngAreaId=0,Tac=1; =0,Tac=1; //Establishingce //Estab lishingcell1,ensurin ll1,ensuringthatthefreq gthatthefrequencyban uencybandsofthetwocell dsofthetwocellsdonot sdonot overlap ADDNRCELL:NrCellId=0,CellName= ADDNRCELL:NrCellI d=0,CellName="CELL1", "CELL1",CellId=1,Frequenc CellId=1,FrequencyBand=N7 yBand=N77, 7, DuplexMode=CELL_TDD; //AddinganNRDUcellforcell1 ADDNRDUCELL:NrDuCellId=0, ADDNRDUCELL: NrDuCellId=0,NrDuCellName= NrDuCellName="DUCELL "DUCELL1",CellId=1,Physic 1",CellId=1,PhysicalCellI alCellId=0, d=0, FrequencyBand=N77,DlNar Frequen cyBand=N77,DlNarfcn=6230 fcn=623000, 00, UlBandwi UlBandwidth=CEL dth=CELL L _BW_40M, DlBandwidth=CEL DlBandw idth=CELL_BW_40 L_BW_40M, M, DuplexM DuplexMode=CELL ode=CELL_TDD, _TDD, TrackingAreaId TrackingAreaId=0, =0, SsbDescMethod=S SsbDesc Method=SSB_DESC SB_DESC_TYPE_NA _TYPE_NARFCN, RFCN, SsbFreq SsbFreqPos=6230 Pos=623000; 00; //AddingaTRPforcell1's //Addin gaTRPforcell1'sNRDUcell,andopt NRDUcell,andoptionally ionallybindingbase bindingbasebandequip bandequipment ment totheTRP ADDNRDUCELLTRP:NrDuCellTr ADDNRDUCELLT RP:NrDuCellTrpId=0,NrDuCel pId=0,NrDuCellId=0,TxRxMo lId=0,TxRxMode=4T4R, de=4T4R,BasebandEqmI BasebandEqmId=0, d=0, MaxTransmitPowe MaxTran smitPower=320, r=320, CpriCom CpriCompression pression=3DOT2_ =3DOT2_COMPRESS COMPRESSION; ION; //AddinganNRDUcellcove //Addin ganNRDUcellcoveragearea, ragearea,andbindingse andbindingsectorequip ctorequipmenttotheTRP menttotheTRPof of theNRDUcell ADDNRDUCELLCOVERAGE:NrDuCell ADDNRDUCELLCOV ERAGE:NrDuCellTrpId=0 TrpId=0,NrDuCellCover ,NrDuCellCoverageId=0 ageId=0,SectorEqmId=0 ,SectorEqmId=0; ; //Establishingce //Estab lishingcell2,ensurin ll2,ensuringthatthefreq gthatthefrequencyban uencybandsofthetwocell dsofthetwocellsdonot sdonot overlap ADDNRCELL:NrCellId=1,CellName= ADDNRCELL:NrCellI d=1,CellName="CELL2", "CELL2",CellId=2,Frequenc CellId=2,FrequencyBand=n4 yBand=n41, 1, DuplexMode=CELL_TDD; //AddinganNRDUcellforcell2 ADDNRDUCELL:NrDuCellId=1, ADDNRDUCELL: NrDuCellId=1,NrDuCellName= NrDuCellName="DUCELL "DUCELL2",CellId=2,Physic 2",CellId=2,PhysicalCellI alCellId=0, d=0, FrequencyBand=N Frequen cyBand=N77, 77, DlNarfcn DlNarfcn=625666, =625666,  UlBandw UlBandwidth=CEL idth=CELL_BW_40M L_BW_40M, , DlBandwidth=CEL DlBandw idth=CELL_BW_40 L_BW_40M, M, DuplexM DuplexMode=CELL ode=CELL_TDD, _TDD, TrackingAreaId TrackingAreaId=0, =0, SsbDescMethod=S SsbDesc Method=SSB_DESC SB_DESC_TYPE_NA _TYPE_NARFCN, RFCN, SsbFreq SsbFreqPos=6256 Pos=625666; 66; //AddingaTRPforcell2's //Addin gaTRPforcell2'sNRDUcell,andopt NRDUcell,andoptionally ionallybindingbase bindingbasebandequip bandequipment ment totheTRP(thesettingsof NRDUCellCoverage.SectorEqmIdarethesameforthese arethesameforthese cells.) ADDNRDUCELLTRP:NrDuCellTr ADDNRDUCELLT RP:NrDuCellTrpId=1,NrDuCel pId=1,NrDuCellId=1,TxRxMo lId=1,TxRxMode=4T4R, de=4T4R,BasebandEqmI BasebandEqmId=0, d=0, MaxTransmitPowe MaxTran smitPower=0, r=0, CpriComp CpriCompression ression=3DOT2_C =3DOT2_COMPRESSI OMPRESSION; ON; //AddinganNRDUcellcove //Addin ganNRDUcellcoveragearea, ragearea,andbindingse andbindingsectorequip ctorequipmenttotheTRP menttotheTRPof of theNRDUcell ADD NRDUCELLCOVERA NRDUCELLCOVERAGE:NrDuCellTr GE:NrDuCellTrpId=1,NrDuCel pId=1,NrDuCellCovera lCoverageId=0,Sector geId=0,SectorEqmId=0 EqmId=0; ; //Activatingthetwocells ACTNRCELL:NrCellId=0; ACTNRCELL:NrCellId=1;

Scenario3:EstablishingUplink Scenario3:Est ablishingUplinkandDownlink andDownlinkDecouplingCell DecouplingCellss

UplinkanddownlinkdecouplingcellscorrespondtooneNRcellandtwoNRDUcells. //ForTDDcells //(Optional)Addi //(Opti onal)Addingasectorand ngasectorandsectorequip sectorequipmentwhen mentwhenanRRUisadded anRRUisadded ADDSECTOR:SECTORID=0,SECNAM ADDSECTOR:SECTO RID=0,SECNAME="0",LOCAT E="0",LOCATIONNAME= IONNAME="0",USERLAB "0",USERLABEL="0", EL="0",ANTNUM=0, ANTNUM=0, CREATESECTOREQM=FALSE; //(Optional)Addingsecto //(Opti onal)Addingsectorequipment requipment ADDSECTOREQM:SECTOREQMI ADDSECTOREQ M:SECTOREQMID=0,SECTORI D=0,SECTORID=0,ANTCFGMO D=0,ANTCFGMODE=BEAM DE=BEAM,RRUCN=0,RRUSRN ,RRUCN=0,RRUSRN=60, =60, RRUSN=0, RRUSN=0 , BEAMSHAP BEAMSHAPE=SEC_12 E=SEC_120DEG,BEAMLAYERSPL 0DEG,BEAMLAYERSPLIT=None, IT=None,  BEAMAZIMUTHOFF BEAMAZIMUTHOFFSET=None SET=None; ; //(Optional)Addingbaseb //(Opti onal)Addingbasebandequipmen andequipment t ADDBASEBANDEQM:BASEBANDEQ ADDBASEBANDE QM:BASEBANDEQMID=0,BASEBAN MID=0,BASEBANDEQMTYP DEQMTYPE=ULDL,UMTSDE E=ULDL,UMTSDEMMODE=N MMODE=NULL,SN1=0; ULL,SN1=0; //(Optional)Addingoperatorandtrackingareainformation(ifnotaddedbefore) //(Optional)Addinganoperator ADDGNBOPERATOR:OperatorId ADDGNBOPERAT OR:OperatorId=0,OperatorNa =0,OperatorName="CMC me="CMCC",Mcc="460", C",Mcc="460",Mnc="00"; Mnc="00";

Is Issu suee D Draf  raftt A  ( 2018-12-30)

Copyright ©  H Huaw  uawei ei T  echn echnolog ologies ies C  o., L  td.

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5GRAN CellManagementFeatureParameterDescription

3CellManagement

//(Optional)Addingatrackingareafortheoperator ADDGNBTRACKINGAREA:Tracki ADDGNBTRACKI NGAREA:TrackingAreaId ngAreaId=0,Tac=1; =0,Tac=1; //Addinga100MHzTDDcell ADDNRCELL:NrCellId=0,CellName= ADDNRCELL:NrCellI d=0,CellName="CELL1", "CELL1",CellId=1,Frequenc CellId=1,FrequencyBand=N7 yBand=N78, 8, DuplexMode=CELL DuplexM ode=CELL_TDD, _TDD, UserLabel="CELL UserLabel="CELL1"; 1"; //AddinganNRDUcell ADDNRDUCELL:NrDuCellId=1,NrDuCellN ADDNRDUCELL:NrDuCell Id=1,NrDuCellName="CE ame="CELL1",DuplexMod LL1",DuplexMode=CELL_T e=CELL_TDD,CellId=1, DD,CellId=1, PhysicalCellId= Physica lCellId=1, 1, Frequenc FrequencyBand=N yBand=N78, 78, UlNarfc UlNarfcnConfig nConfigInd=NOT_ Ind=NOT_CONFIG, CONFIG, DlNarfcn=634000 DlNarfc n=634000, , UlBandwidth=CEL UlBandwidth=CELL_BW_100 L_BW_100M, M, DlBandwidth=CELL DlBandwidth=CELL_BW_100M _BW_100M, , SlotAssignment= SlotAss ignment=4_1_DDD 4_1_DDDSU, SU, SlotStr SlotStructure=S ucture=SS2, S2, TrackingAreaId TrackingAreaId=0, =0, SsbDescMethod=S SsbDesc Method=SSB_DESC SB_DESC_TYPE_NA _TYPE_NARFCN, RFCN, SsbFreq SsbFreqPos=6339 Pos=633988; 88; //AddingaTRPforanNRDUcell //Addin gaTRPforanNRDUcell,andoption ,andoptionallybindi allybindingbaseban ngbasebandequipmen dequipmentto tto theTRP ADDNRDUCELLTRP:NrDUCellTrpId ADDNRDUCELLTRP :NrDUCellTrpId=0,NrDuCellId =0,NrDuCellId=1,TxRxMode=64 =1,TxRxMode=64T64R,BasebandE T64R,BasebandEqmId=0, qmId=0, MaxTransmitPowe MaxTran smitPower=300, r=300, CpriCom CpriCompression pression=3DOT2_ =3DOT2_COMPRESS COMPRESSION; ION; //AddinganNRDUcellcove //Addin ganNRDUcellcoveragearea, ragearea,andbindingse andbindingsectorequip ctorequipmenttotheTRP menttotheTRPof of theNRDUcell ADDNRDUCELLCOVERAGE:NrDuCellTr ADDNRDUCELLCOVE RAGE:NrDuCellTrpId=0,NrDuCellC pId=0,NrDuCellCoverage overageId=0,SectorEqmId Id=0,SectorEqmId=0; =0; //ForSULcells //(Optional)Addi //(Opti onal)Addingasectorwhe ngasectorwhenanRRUisadded nanRRUisadded ADDSECTOR:SECTORID=1,SECNAM ADDSECTOR:SECTO RID=1,SECNAME="1",USERL E="1",USERLABEL="1" ABEL="1",ANTNUM=4,ANT1C ,ANTNUM=4,ANT1CN=0, N=0, ANT1SRN=61,ANT1SN=0 ANT1SRN =61,ANT1SN=0,ANT1N=R0A, ,ANT1N=R0A,ANT2CN=0,ANT2SRN ANT2CN=0,ANT2SRN=61,ANT2SN= =61,ANT2SN=0,ANT2N=R0B 0,ANT2N=R0B, , ANT3CN=0,ANT3SRN=61 ANT3CN= 0,ANT3SRN=61,ANT3SN=0,ANT3N ,ANT3SN=0,ANT3N=R0C,ANT4CN= =R0C,ANT4CN=0,ANT4SRN=6 0,ANT4SRN=61,ANT4SN=0, 1,ANT4SN=0, ANT4N=R0D, ANT4N=R 0D, CREATESECTOREQM CREATESECTOREQM=FALSE; =FALSE; //(Optional)AddingsectorequipmentwhenanRRUisadded ADDSECTOREQM:SECTOREQMID= ADDSECTOREQM :SECTOREQMID=1,SECTORID=1, 1,SECTORID=1,ANTCFGMODE=A ANTCFGMODE=ANTENNAPO NTENNAPORT,ANTNUM=4, RT,ANTNUM=4, ANT1CN=0,ANT1SRN=61, ANT1CN= 0,ANT1SRN=61,ANT1SN=0,ANT1N=R0A ANT1SN=0,ANT1N=R0A,ANTTYPE1=RX ,ANTTYPE1=RX_MODE,ANT2CN= _MODE,ANT2CN=0, 0, ANT2SRN=61,ANT2SN=0, ANT2SRN =61,ANT2SN=0,ANT2N=R0B,ANTTYPE2 ANT2N=R0B,ANTTYPE2=RX_MOD =RX_MODE,ANT3CN=0,ANT3SRN E,ANT3CN=0,ANT3SRN=61, =61, ANT3SN=0,ANT3N=R0C,ANTTYP ANT3SN= 0,ANT3N=R0C,ANTTYPE3=RX_MO E3=RX_MODE,ANT4CN=0, DE,ANT4CN=0,ANT4SRN=61,ANT4SN= ANT4SRN=61,ANT4SN=0,ANT4N=R0D, 0,ANT4N=R0D, ANTTYPE4=RX_MODE; //AddinganSULDUcell ADDNRDUCELL:NrDuCellId=2,NrDuCellN ADDNRDUCELL:NrDuCell Id=2,NrDuCellName="SU ame="SUL",DuplexMode= L",DuplexMode=CELL_SUL CELL_SUL, , FrequencyBand=N Frequen cyBand=N80, 80, UlNarfcn UlNarfcnConfigIn ConfigInd=CONFI d=CONFIG, G, UlNarfcn=35000 UlNarfcn=350000, 0, UlBandwidth=CELL_BW_20M; //AddingaTRPforanNRDUcell //Addin gaTRPforanNRDUcell,andoption ,andoptionallybindi allybindingbaseban ngbasebandequipmen dequipmentto tto theTRP ADDNRDUCELLTRP:NrDuCellTr ADDNRDUCELLT RP:NrDuCellTrpId=1,NrDuCel pId=1,NrDuCellId=2,TxRxMo lId=2,TxRxMode=4R,Baseban de=4R,BasebandEqmId= dEqmId=0, 0, CpriCompression=NO_COMPRESSION; //AddinganNRDUcellcove //Addin ganNRDUcellcoveragearea, ragearea,andbindingse andbindingsectorequip ctorequipmenttotheTRP menttotheTRPof of theNRDUcell ADDNRDUCELLCOVERAGE:NrDuCell ADDNRDUCELLCOV ERAGE:NrDuCellTrpId=1 TrpId=1,NrDuCellCover ,NrDuCellCoverageId=0 ageId=0,SectorEqmId=1 ,SectorEqmId=1; ; //AddinganSULcarrierforanNRDUcell ADDNRDUCELLSUL:NrDuCellId=1, ADDNRDUCELLSUL :NrDuCellId=1,SulNrDuCellId SulNrDuCellId=2; =2; //Setting ULandDLDecouplingSwitchto On MODNRDUCELLALGOSWITCH: MODNRDUCELLALGO SWITCH:  NrDuCell NrDuCellId=1,UlDlDecoup Id=1,UlDlDecouplingSwi lingSwitch=ON; tch=ON; //ConfiguringthelogicalrootsequenceindexofthePRACH MODNRDUCellPrach:NrDuCellId= MODNRDUCellPra ch:NrDuCellId=1,RootSequenc 1,RootSequenceIndex=8 eIndex=80; 0; MODNRDUCellPrach:NrDuCellId= MODNRDUCellPra ch:NrDuCellId=2,RootSequenc 2,RootSequenceIndex=8 eIndex=82; 2; //Activatingthecell ACTNRCELL:NrCellId=0; //RedeployingtheNRDUcell STRNRDUCELLREDEPLOY:NrDuCellId=1;

Scenario4:EstablishingaLa Scenario4:Est ablishingaLampSiteRFC mpSiteRFCombinationCel ombinationCelll EstablishingaLampSite100MHz4T4RTDDRFcombinationcell //(Optional)Addingsectorsandsectorequipment,settingthe .ANTNUM SECTOR parameterto 4,andconfigu ,andconfiguringfouran ringfourantennachann tennachannelsofapRRUfo elsofapRRUforthissector rthissector whenapRRUisadded(anRFcomb whenapRRUisad ded(anRFcombinationce inationcellrequire llrequiresmultiple smultiplesectorsand sectorsandsector sector equipment.) ADDSECTOR:SECTORID=0,SECNAM ADDSECTOR:SECTO RID=0,SECNAME="0",USERL E="0",USERLABEL="0" ABEL="0",ANTNUM=4,ANT1C ,ANTNUM=4,ANT1CN=0, N=0, ANT1SRN=60,ANT1SN=0 ANT1SRN =60,ANT1SN=0,ANT1N=R0A, ,ANT1N=R0A,ANT2CN=0,ANT2SRN ANT2CN=0,ANT2SRN=60,ANT2SN= =60,ANT2SN=0,ANT2N=R0B 0,ANT2N=R0B, , ANT3CN=0,ANT3SRN=60 ANT3CN= 0,ANT3SRN=60,ANT3SN=0,ANT3N ,ANT3SN=0,ANT3N=R0C,ANT4CN= =R0C,ANT4CN=0,ANT4SRN=6 0,ANT4SRN=60,ANT4SN=0, 0,ANT4SN=0, ANT4N=R0D,CREATESECTOREQ ANT4N=R 0D,CREATESECTOREQM=TRUE, M=TRUE,  SECTOREQ SECTOREQMID=0; MID=0; ADDSECTOR:SECTORID=1,SECNAM ADDSECTOR:SECTO RID=1,SECNAME="1",USERL E="1",USERLABEL="1" ABEL="1",ANTNUM=4,ANT1C ,ANTNUM=4,ANT1CN=0, N=0, ANT1SRN=61,ANT1SN=0 ANT1SRN =61,ANT1SN=0,ANT1N=R0A, ,ANT1N=R0A,ANT2CN=0,ANT2SRN ANT2CN=0,ANT2SRN=61,ANT2SN= =61,ANT2SN=0,ANT2N=R0B 0,ANT2N=R0B, , ANT3CN=0,ANT3SRN=61 ANT3CN= 0,ANT3SRN=61,ANT3SN=0,ANT3N ,ANT3SN=0,ANT3N=R0C,ANT4CN= =R0C,ANT4CN=0,ANT4SRN=6 0,ANT4SRN=61,ANT4SN=0, 1,ANT4SN=0, ANT4N=R0D,CREATESECTOREQ ANT4N=R 0D,CREATESECTOREQM=TRUE, M=TRUE,  SECTOREQ SECTOREQMID=1; MID=1;

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5GRAN CellManagementFeatureParameterDescription

3CellManagement

//(Optional)Addingbasebandequipmen //(Optional)Addingbaseb andequipment t ADDBASEBANDEQM:BASEBANDEQ ADDBASEBANDE QM:BASEBANDEQMID=0,BASEBAN MID=0,BASEBANDEQMTYP DEQMTYPE=ULDL,UMTSDE E=ULDL,UMTSDEMMODE=N MMODE=NULL,SN1=0; ULL,SN1=0; //(Optional)Addingoperatorandtrackingareainformation(ifnotaddedbefore) //Addinganoperator //Addin ganoperatorandconfigu andconfiguringNRnetwo ringNRnetworkingasSAor rkingasSAorNSA NSA ADDGNBOPERATOR:OperatorId ADDGNBOPERAT OR:OperatorId=0,OperatorNa =0,OperatorName="CMC me="CMCC",Mcc="460", C",Mcc="460",Mnc="00", Mnc="00", OperatorType=PR Operato rType=PRIMARY_O IMARY_OPERATOR, PERATOR,  NrNetwo NrNetworkingOpt rkingOption=SA; ion=SA; //Addingatrackingar //Addin gatrackingareafortheoper eafortheoperator ator ADDGNBTRACKINGAREA:Tracki ADDGNBTRACKI NGAREA:TrackingAreaId ngAreaId=0,Tac=1; =0,Tac=1; //Addinga100MHzTDDcell ADDNRCELL:NrCellId=0,CellName= ADDNRCELL:NrCellI d=0,CellName="CELL1", "CELL1",CellId=1,Frequenc CellId=1,FrequencyBand=N7 yBand=N77, 7, DuplexMode=CELL_TDD; //AddingaTDDDUcell ADDNRDUCELL:NrDuCellId=0,NrDuCellN ADDNRDUCELL:NrDuCell Id=0,NrDuCellName="DU ame="DUCELL1",DuplexM CELL1",DuplexMode=CELL ode=CELL_TDD, _TDD, CellId=1, CellId= 1, Physica PhysicalCellId= lCellId=1, 1, Frequenc FrequencyBand=N yBand=N77, 77, UlNarfcnConfig UlNarfcnConfigInd=NOT_ Ind=NOT_CONFIG, CONFIG, DlNarfcn=636666 DlNarfc n=636666, , UlBandwidth=CEL UlBandwidth=CELL_BW_100 L_BW_100M, M, DlBandwidth=CELL DlBandwidth=CELL_BW_100M _BW_100M, , SlotAssignment= SlotAss ignment=4_1_DDD 4_1_DDDSU, SU, SlotStructure=S SlotStructure=SS2, S2, LampSiteCellFla LampSiteCellFlag=YES, g=YES, TrackingAreaId= Trackin gAreaId=0, 0, SsbDescMethod=S SsbDescMethod=SSB_DESC_ SB_DESC_TYPE_NAR TYPE_NARFCN, FCN, SsbFreqPos=6366 SsbFreqPos=636654; 54; //AddingaTRPforanNRDUcell //Addin gaTRPforanNRDUcell,andoption ,andoptionallybindi allybindingbaseban ngbasebandequipmen dequipmentto tto theTRP ADDNRDUCELLTRP:NrDuCellTr ADDNRDUCELLT RP:NrDuCellTrpId=0,NrDuCel pId=0,NrDuCellId=0,TxRxMo lId=0,TxRxMode=4T4R, de=4T4R,BasebandEqmI BasebandEqmId=0, d=0, MaxTransmitPowe MaxTran smitPower=240, r=240, CpriCom CpriCompression pression=3DOT2_ =3DOT2_COMPRESS COMPRESSION; ION; //AddinganNRDUcellcove //Addin ganNRDUcellcoveragearea, ragearea,andbindingse andbindingsectorequip ctorequipmenttotheTRP menttotheTRPof of theNRDUcell(anRFcombinat theNRDUcell(a nRFcombinationcellreq ioncellrequiresmult uiresmultipleNRDUcell ipleNRDUcellcoverage coverage areas,witheachbound areas,wit heachboundtoonepieceofsec toonepieceofsectorequipm torequipment.) ent.) ADDNRDUCELLCOVERAGE:NrDuCell ADDNRDUCELLCOV ERAGE:NrDuCellTrpId=0 TrpId=0,NrDuCellCover ,NrDuCellCoverageId=0 ageId=0,SectorEqmId=0 ,SectorEqmId=0; ; ADDNRDUCELLCOVERAGE:NrDuCell ADDNRDUCELLCOV ERAGE:NrDuCellTrpId=0 TrpId=0,NrDuCellCover ,NrDuCellCoverageId=1 ageId=1,SectorEqmId=1 ,SectorEqmId=1; ; //Activatingthecell ACTNRCELL:NrCellId=0;

DeactivationCommandExamples //Deactivatingacell DEANRCELL:NrCellId=0;

3.4.1.3UsingtheCME Fordetailedoperations,seeCME-basedFeatureConfiguration.

3.4.2ActivationObservation Step1 Runthe DSPNRCELLcommandtocheckthecellstatus. Ifthevalueof  CellAvailabilityStateinthecommandoutputis Available,thecellhasbeen successfullysetup.

Step2 UseaUEtoaccessthiscell.IftheUEsuccessfullyaccessesthecell,thecellisworking properly. ----End

Is Issu suee D Draf  raftt A  ( 2018-12-30)

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5GRAN CellManagementFeatureParameterDescription

4Glossary

4

Glossary

Fortheacronyms,abbreviations,terms,anddefinitions,see  Glossary  Glossary..

Is Issu suee D Draf  raftt A  ( 2018-12-30)

Copyright ©  H Huaw  uawei ei T  echn echnolog ologies ies C  o., L  td.

30