GB 51158-2015 GB51158-2015通信線路工程設(shè)計(jì)規(guī)范:英文_第1頁
GB 51158-2015 GB51158-2015通信線路工程設(shè)計(jì)規(guī)范:英文_第2頁
GB 51158-2015 GB51158-2015通信線路工程設(shè)計(jì)規(guī)范:英文_第3頁
GB 51158-2015 GB51158-2015通信線路工程設(shè)計(jì)規(guī)范:英文_第4頁
GB 51158-2015 GB51158-2015通信線路工程設(shè)計(jì)規(guī)范:英文_第5頁
已閱讀5頁,還剩71頁未讀, 繼續(xù)免費(fèi)閱讀

付費(fèi)閱讀全文

版權(quán)說明:本文檔由用戶提供并上傳,收益歸屬內(nèi)容提供方,若內(nèi)容存在侵權(quán),請(qǐng)進(jìn)行舉報(bào)或認(rèn)領(lǐng)

文檔簡(jiǎn)介

專用

人人文庫(kù)

NATIONALSTANDARD

OFTHEPEOPLESREPUBLICOFCHINA

CodeforDesignofTelecommunication

CableLineEngineering

GB51158-2015

ChiefDevelopmentDepartment:MinistryofIndustryand

InformationTechnologyofthePeoplesRepublicofChina

ApprovalDepartment:MinistryofHousingandUrbanRural

-

DevelopmentofthePeoplesRepublicofChina

ImplementationDate:Jun1,2016專用

人人文庫(kù)

ChinaPlanningPress

Beijing2019

ChineseeditionfirstpublishedinthePeoplesRepublicofChinain2016

EnglisheditionfirstpublishedinthePeoplesRepublicofChinain2019

byChinaPlanningPress

rd專用

3Floor,CTower,GuohongBuilding

No.A11,Muxidi-Beili,XichengDistrict

Beijing,100038

PrintedinChinabyBeijingJingyintangGraphicPrintingCenter

?2016byMinistryofHousingandUrban-RuralDevelopmentof

thePeoplesRepublicofChina

Allrightsreserved.Nopartofthispublicationmaybereproducedortransmittedinanyformor

byanymeans,graphic,electronic,ormechanical,includingphotocopying,recording,

oranyinformationstora人人文庫(kù)geandretrievalsystems,withoutwrittenpermissionofthepublisher.

Thisbookissoldsubjecttotheconditionthatitshallnot,bywayoftradeorotherwise,belent,

resold,hiredoutorotherwisecirculatedwithoutthepublisherspriorconsentinanyformof

blindingorcoverotherthanthatinwhichthisispublishedandwithoutasimilarcondition

includingthisconditionbeingimposedonthesubsequentpurchaser.

ISBN978-7-5182-1083-1

Foreword

Accordingtotherequirementsof"NoticeonPrintingtheDevelopmentandRevisionPlanof

NationalEngineeringConstructionStandardsin2010"(Jianbiao〔2010〕No.43),issuedbyMinistryof

HousingandUrbanRuralDevelopment,thecodeisdevelopedandcompletedbyChinaInformation

-

TechnologyDesigningandConsultingInstituteCo.,Ltd.(CITC),inconjunctionwiththeparticipating

developmentorganizations.

Extensiveresearchandinvestigationwereconductedduringtheformulationprocessofthe

specifications.Byreferencingandanalyzingbestpracticesandrelevantstandardsbothathomeand

abroadaswellasconsultingwithvariousparties,theworkinggroupconfirmedthelastversionupon

multiplereviewsandexaminations.

Thecodeconsistsof9chapterswiththemaincontentsasfollows:Generalprovisions,

abbreviations,telecommunicationcablelinenetwork,optical,coppercablesandterminalequipment

selection,cablerouteselection,installationofopticalcable,installationofcoppercable,protectionof

optical(copper)cablelines,stationpositionselectionandbuildingrequirements.

Theprovisionsprintedinboldfontarecompulsoryandmustbeenforcedstrictly.

MinistryofHousingandUrbanRuralDevelopmentisinchargeof專用theadministrationofthecode

-

andtheexplanationofthecompulsoryprovisionswhileCITCisresponsiblefortheexplanationof

specifictechnicalcontents.Duringtheimplementationprocessofthecode,suggestionsand

recommendationsarewelcomeandcanbemailedtoCITC.(Address:Building#3,ZhuYuBusiness

Center,No.9,SouthShoutiRoad,HaidianDistrict,Beijing,P.R.ChinaPostalCode:100048).

TheChiefDevelopmentOrganization,ParticipatingDevelopmentOrganizations,ChiefDrafting

Staff,andChiefExaminersofthecode:

ChiefDevelopmentOrganization:

ChinaInformationTechnologyDesigningandConsultingInstituteCo.,Ltd

ParticipatingDevelopmentOrganizations:

GuangdongPlanningandDesigningInstituteofTelecommunicationsCo.,Ltd.

JiangsuPostsandTelecommunicationsPlanningandDesigningInstituteCo.,Ltd.

ChiefDraftingStaff:

YongtaoHeZhaoxuCuiWanhuChenGuiyueXieBingMaoKezhengFeng

人人文庫(kù)BeihangChen

ChiefExaminers:

KaiLiangLiangShenRuilinChangXiaodongSunHongqiangZou

WeiboZhangDongmeiHanQiHuangJianqiaoCuiXiaohongLi

XiaoyingLiuKejianYangPengSun

Contents

1GeneralProvisions……………(1)

2Abbreviations…………………(2)

3TelecommunicationCableLineNetwork………(3)

3.1TelecommunicationCableLineNetworkArchitecture………………(3)

3.2TelecommunicationCableLineNetworkDesign……………………(3)

4Optical,CopperCablesandTerminalEquipmentSelection…………………(7)

4.1GeneralPrinciples………………(7)

4.2OpticalCableSelection…………(7)

4.3CopperCableSelection…………(8)

4.4TerminalEquipmentSelection……………………(9)

5CableRouteSelection…………(11)

5.1GeneralPrinciples………………(11)

5.2OpticalCableRouteSelection……………………(11)

5.3CopperCableRouteSelection……………………專用(12)

6InstallationofOpticalCables…………………(13)

6.1GeneralPrinciple………………(13)

6.2InstallationRequirementsforDirectlyBuriedOpticalCables…………(14)

6.3InstallationRequirementsforDuctOpticalCables…………………(16)

6.4InstallationRequirementsforAerialOpticalCables…………………(17)

6.5InstallationRequirementsforUnderwaterOpticalCables……………(21)

6.6Splicing,EntryandTerminationofOpticalCables…………………(25)

6.7InstallationRequirementsforSiliconcorePlasticPipes………………(26)

-

6.8InstallationRequirementsforOpticalCrossConnectionCabinets………(29)

6.9TransmissionDesignCriteriaforOpticalCableLines………………(30)

7InstallationofCopperCables…………………(32)

7.1GeneralPrinciple………………(32)

7.2InstallationRequirementsforDirectlyburiedCables…………………(32)

-

7.3InstallationRequirementsforDuctCopperCables…………………(33)

7.4InstallationRequirements人人文庫(kù)forAerialCopperCables…………………(33)

7.5InstallationRequirementsforCrossconnectionAreas……………(35)

-

7.6InstallationRequirementsforWiringZones…………(37)

7.7LeadinginCables………………(38)

-

7.8CopperCableSplicing……………(38)

7.9TransmissionDesignCriteriaforCopperCableLines………………(39)

8ProtectionofOptical(Copper)CableLines……………………(41)

8.1Optical(Copper)CableLineProtectionfromStrongElectricityDangers………………(41)

8.2Optical(Copper)CableLineProtectionfromStrongElectricityInterference……………(42)

1··

8.3Optical(Copper)CableLineProtectionfromThundersandLightning…………………(43)

8.4CableLineProtectionfromOtherInfluences………(45)

9StationPositionSelectionandBuildingRequirements………(46)

9.1StationPositionSelectionPrinciples……………(46)

9.2BuildingRequirements…………(46)

ExplanationofWordinginThisCode……………(47)

ListofQuotedStandards…………(48)

Addition:ExplanationofProvisions………………(49)

專用

人人文庫(kù)

2··

1GeneralProvisions

Thecodeisformulatedwithaviewtostandardizedocumentsontelecommunicationcableline

1.0.1

engineeringdesignandimprovetheengineeringdesignandmanagementoftelecommunicationcable

line.

Thecodeisapplicabletonewconstruction,renovationandextensionoflandtelecommunications

1.0.2

transmissionsystemsforoutdoorcablelineengineeringdesign.

Engineeringdesignsshallbeincompliancewiththenationalfundamentalconstructionguidelines

1.0.3

andpoliciesoneffectiveuseofresources,includingland,energyandrawmaterials.Thespecifications

alsoattachgreatimportancetotheprotectionofhistoricalrelics,naturalenvironmentandlandscape.

Duringtheconstructionoftelecommunicationcablelines,fullconsiderationshallbegiventothe

1.0.4

overallplanning,jointconstructioneffortsandresourcesharingamongmultiplepartiesinordertosatisfy

therequirementsofbuildingaresourceconservingandenvironmentalfriendlysociety.

--

Theengineeringdesignshallensuretheoverallcommunicationqualityofthenetwork,supported

1.0.5

byadvancedtechnology,costeffectivenessandsecurityandreliability.Inaddition,multipledesigns

-

shallbeproposedandcomparedinordertoachieveeconomicefficiencyand專用reduceprojectcosts.

Theengineeringdesignshallbecombinedwithcommunicationdevelopmentplanningtoleverage

1.0.6

theexistinginfrastructureandequipmentofthenetwork.Theconstructionscheme,technologyscheme

andequipmentselectionshallbebasedonthenetworkdevelopmentplanningwithfullconsiderationto

bothmidtermandlongtermdemandanddevelopmentobjectives.

--

Theseismicperformanceofthecommunicationsnetworkshallbeconsideredduringthe

1.0.7

telecommunicationcablelineconstructioninregionswhereover7(inclusive)degreesofseismic

fortificationisrequiredinChina.

Inadditionaltoobservethiscode,besides,telecommunicationcablelineengineeringdesignshall

1.0.8

complywiththenationalactiverelevantstandardsalso.

人人文庫(kù)

1··

2Abbreviations

AcronyminEnglishFullnameinEnglish

ADSSAllDielectricSelfSupporting

CPNCustomerPremisesNetwork

DPDistributionPoint

FPFlexiblePoint

MDFMainDistributionFrame

ODFOpticalDistributionFrame

OPGWOpticalFiberCompositeOverheadGroundWire

PMDPolarizationModeDispersion

SNService專用Node

人人文庫(kù)

2··

3TelecommunicationCableLineNetwork

3.1TelecommunicationCableLineNetworkArchitecture

Telecommunicationcablelinenetwork(Figure3.1.1)shallincludelongdistancelines,local

3.1.1-

linesandaccesslines,usingtransmissionmediasuchasopticalcablesandcoppercables.

Corenetwork

AccessAccess

LocallinesLocallines

linesLongdistancelineslines

ChannelLocalLongLongLocalChannel

terminalnodedistancedistancenodeterminal

nodenode

Figure3.1.1Referencemodelforcommunicationsnetworks

Theaccessnetworkpart(Figure3.1.2)shallincludeprimarycables,secondarycablesanduser

3.1.2

dropwires,usingtransmissionmediasuchasopticalcablesandcoppercables.

Treference

Vreference

point

point專用

FPDP

SNCPN

PrimarySecondaryUserdrop

cablescableswires

Accessnetworklines

Figure3.1.2Structureofaccessnetworklines

3.2TelecommunicationCableLineNetworkDesign

Designofopticalcablelinenetworkshallcomplywiththefollowingprinciples:

3.2.1

Opticalcablelinesshallbesafeandreliable,extendingdownwardgraduallytoprovide

1

communicationsservicestoendusers.

Inadditiontosupportthecommunicationsdevelopmentplanning,thecapacityandroutingof

2

theopticalcablelinenetworkshallalsoconsiderlongtermbusinessdemandanddevelopmenttrendsof

-

networkingtechnology人人文庫(kù)inordertodetermineconstructionscale.

Thenumberoffibersforlongdistanceopticalcablesshallbedeterminedbylongtermdemand,

3-

whilelocalnetworksandaccessnetworksshallbeconfiguredbasedonmidtermdemandwithsufficient

-

redundancyforpotentialdemand.

Designofopticalcablelinesforaccessnetworksshallbeconducteduponthebasisof

4

distributionofserviceaccesspoints,natureofsubscribers,developmentquantity,density,geographical

locationsandtimeframes.Inthemeantime,fullconsiderationshallbegiventovariousfactorsincluding

geographicalenvironment,ductandpoleresources,capacityoforiginalcables,andconstructionmethods

ofbroadbandopticalaccessnetworkswhilstselectingappropriaterouting,topologyandfiber

3··

distributionpatterns.Thiswouldbeinstrumentalinbuildinganetworkthatallowsflexiblearrangement

andscheduling,effectiveutilizationofopticalfibersandinvestmentsavingandsupportsfuture

developmentandnetworkmaintenance.

Whileconstructingnewopticalcable(copper)lines,requirementsforcoconstructionand

3.2.2-

sharingshallbetakenintoconsideration.

Ductmethodsshallbefirstchosenwhenlayingopticalcablelinesincitiesandurbanareas.In

3.2.3

placeswhereductmethodsarenotfeasible,plasticpipeprotection,conduitsorothersuitablewaysmay

beadopted.

Ductordirectlyburiedmethodsshouldbeadoptedwhenlayingopticalcablelinesinnonurban

3.2.4-

areas,whileaerialmethodsmayalsobeappliedaccordingtothelocalnaturalenvironmentand

conditionsofeconomicandsocialdevelopment.

Aerialmethodsmaybeappliedunderthefollowingconditions:

3.2.5

Inareassuchascanyons,deepditchesandvalleys,steepmountainsetc.whereductordirectly

1

buriedmethodscannotguaranteesafety.

Inareaswhereotherexistingfacilities,eitherundergroundoraboveground,createdifficulties

2

forconstruction,ownersoftheoriginalfacilitiesdonotpermitconstructionorcompensationcostsare

excessivelyhigh.

Inareaswhereotherlayingmethodscannotbeadoptedduetoreasonssuchasprotectionofthe

3

environmentandculturalrelics.專用

Inareaswherelongtermconstructioncannotbeconductedduetoplanningforother

4-

constructions.

Inareaswherethegroundsurfaceissinkingandthegeologicalenvironmentisunstable.

5

Inareaswhereconstructioncostsofductordirectlyburiedmethodsaretoohigh,aerialmethods

6

canguaranteethesafetyofthelinesandwhilstmaintainingthelocallandscapeviewandthenatural

environment.

Opticalcablestypemaystayunchangedwhenductordirectlyburiedmethodsareappliedover

3.2.6

longrangeandaerialmethodsareadoptedforspecificlocations.

Opticalcablesacrossriversshouldadoptbridgeducts,conduitsorhanginginstallationmethods.

3.2.7

Whencablelayingcannotusebridgestogetcrossrivers,methodsshallbedeterminedaccordingtothe

followingprinciplesconsideringsiteconditionstoensuresafetyandstability:

Directionaldrillingorunderwateropticalcablesmaybeusedinriverswithsuitableriverbed

1

conditions.Peractualsituations,structureofopticalcablesmaystayunchangedwhenusingdirectional

drillingmethods.

Aerialmethods人人文庫(kù)maybeadoptedinsteadofunderwaterlayingtoensuresafetyofopticalcables.

2

Thishappensincaseswhereriverbedisunstablesiltingchangessignificantly,otherconstruction

planningexistsalongtheriverroutesortheriverbedsoilisnotappropriateforconstruction.

Theconstructionofcoppercablelinenetworkshalltakeintoaccountthedevelopmenttrend

3.2.8

ofhighspeedaccesstechnologyandopticalaccessreplacingcopperaccesstechnology.Thenetwork

shallbeconstructedbasedonthecapacityoflocalswitchingequipmentwhilstalsoconsidering

scopeofuserdemand,outgoingdirectionofthecables,routingaswellasdistributionareaofthe

cables.

Thedesignofthecoppercablelinenetworkshallcomplywiththefollowingprinciples:

3.2.9

4··

Shallgivefullconsiderationtothedevelopmentofcommunicationstechnology,evaluateand

1

analyzethenecessityofcablenetworkconstruction,andstrictlycontrolthecoveragescopeofcopper

cables.

Thecapacityandroutingofthecoppercablelinenetworkshallbedeterminedinlinewiththe

2

overallcommunicationsplanning,consideringtheneedtomeetrequirementsforanumberofyearsand

additionally,theneedtosupporttheexistingandpotentialprojects.

Shallconsidertheintegrityofthelinenetworkandproactivelyadoptnewtechnologyandnew

3

equipmentinordertomeetthedevelopmentandchangesoftheservicesandtheusersandensurethe

networkisreliable,flexibleandcosteffective.

Ductlayingmethodshallbepreferredincityareasandshallgraduallydeployingtheline

4

networkhiddeninthegroundinordernottodamagethenaturalenvironmentandlandscape.

Thedesignofprimarycablesforusersshallbebasedontheanalysisofuserquantity,

5

geographiesandtimeframe.Technicalmeasuresforsuchaspectsasdifferentdistributionmethods,

routing,capacity,pointofpairsdiminishingandconstructionmethodsshouldbeadoptedsothatthese

cablescanconstituteanetworkthatcanscheduleflexibly,offerhighpairsutilizationrate,save

investmentaswellasfacilitatingfuturedevelopment,operation,andmanagement.

Thecoppercableexpansionsmayonlybeconductedwhentherearenewbusinessrequirements

3.2.10

thatcannotbesupportedthroughadjustingtheexistingnetwork.

Thecapacityofcablesonthesamerouteshallbeplannedoncomprehensive專用basisandsetting

3.2.11

multipleseparatecablesisnotadvised.

Thedistributionofthecoppercablelinenetworkshallgiveprioritytocrossconnecting

3.2.12

methods,supplementedbyfeedthroughandfreedistributionandshouldnotusemultipleconnections.

-

Crossconnectionsshouldadoptonelevelcrossconnectingandapplytofixedcrossconnectingareas.

Thedirectserviceareaswithin500metersaroundthestationsmayadopteitherfeedthroughorfree

-

distribution.Freedistributionmethodsshouldbeusedforfullcoloredallplasticcablelines.Forthe

--

originalexistingcablelines,ifnotmuchadjustmentisneeded,theoriginaldistributionmethodmaybe

maintained.

Multipleconnectionshallnotbeusedforprimarycables,neitherthesecondarycablesthat

3.2.13

adoptcrossconnectingmethods.

Theutilizationrateofeachcablepairsforvarioussectionsinthedesignofcoppercableline

3.2.14

networkshouldcomplywiththespecificationsoutlinedinTable3.2.14.

Table3.2.14Theultimateutilizationrateofcablepairs

人人文庫(kù)CablelayingsectionsUtilizationrateofthepairs(%)

Telephoneswitchingofficecrossconnectcabinet85-90

-

Crossconnectcabinetterminaldistributionequipmentwithoutmultipleconnecting60-80

-

Telephoneswitchingofficeterminaldistributionequipment60-80

-

Thecablepairsshouldnotdeclinetoofrequently.Forthefollowingsituationstheyshouldnot

3.2.15

decline:

Inareaswhereextensionisdifficult;

1

Inareaswherefuturedevelopmentmaybeplannedandwherethelineequipmentneedstobe

2

flexible.

5··

Inareaswheretheductandpiperesourcesareconstrained.

3

Thecapacityofdistributionequipmentmaybechosenaccordingtofinallycovereduser

3.2.16

quantitymultipliedby1.2to1.5,combinedwiththenominalseriesoftheequipment.

Thepartitionofcablecrossconnectionareashallgiveprioritytothegeographicalconditions

3.2.17

andtheuserquantitycovered.Thedistributionareashallbepartitioned,devisedormergedinlinewith

longtermandshorttermneedandbalancedapproachoftechnologyandeconomy.Itshallconsidernot

--

onlytheadministrationsectionsofcommunityandneighborhoodsunderoverallcityplanning,butalso

theoriginalcrossconnectingareaordistributionarea,distributionandroutingofcablesandoptical

cables.Thescopeofdistributionareasshouldnotexceedthecertainthresholdforthesakeofsecondary

cableshortening.

Thearrangementofcablewireorderanddistributionequipmentshallstartfromfartonear,and

3.2.18

fromsmalltolarge.

專用

人人文庫(kù)

6··

4Optical,CopperCablesandTerminalEquipmentSelection

4.1GeneralPrinciples

Singlemodulefibershallbeusedinopticaltransmissionnetwork.

4.1.1

Theconfigurationofthenumberoffibersinopticalcablesshallfullyconsiderthenetwork

4.1.2

redundancyrequirements,thefuturesystemtypeexpected,thenumberoftransmissionsystems,

networkreliability,developmentofnewservices,structureofopticalcables,resourcesharingofoptical

fibersandotherfactors.

Fiberinopticalcablesshallpassthefullscreeningfortensionthatshouldbenolessthan0.69GPa.

4.1.3

Basedontheapplications,opticalfibersshouldbeselectedaccordingtothefollowingprinciples:

OpticalcablesforlongdistancenetworksshouldadoptG.652orG.655opticalfibers.

1

OpticalcablesforlocalnetworksshouldadoptG.652opticalfibers.

2

OpticalfibersforaccessnetworksshouldadoptG.652opticalfiberswhilstG.657opticalfibers

3

shouldbeadoptedtomeetspecialmicrobendneed.

Thecapacityofcablesshallbebasedonselectionofappropriatecables,consideringthe

4.1.4

distributionofusersanduserdemandalongwiththenominalseriesofcables專用inordertofullyleverage

thepairutilizationrate.

Multicorecablesshallbeadoptedforductprimarycablesofcablelinenetworkinorderto

4.1.5-

increasethenumberofpairsinoneduct.

4.2OpticalCableSelection

Opticalcablesshouldadoptaloosetube,centraltubestructure,ormayadoptaslottedcore

4.2.1

structureorotherbetterstructures.Thefibersinoneopticalcableshouldbeofthesametypeas

opposedtonotmixedtypes.

Opticalcablelinesshouldadopttheopticalcableswithoutmetalpairs.Accordingtoproject

4.2.2

requirements,inalightningdisturbanceorhighvoltageharmseriousregion,nonmetalcomponent

-

opticalcablesmaybechoseninareaswherelightningorhighvoltagerisksarefrequent.Forareaswhere

termitesandmouseharmseriousproblems,antitermiteandantimouseopticalcablesmaybe

--

considered.

溫馨提示

  • 1. 本站所有資源如無特殊說明,都需要本地電腦安裝OFFICE2007和PDF閱讀器。圖紙軟件為CAD,CAXA,PROE,UG,SolidWorks等.壓縮文件請(qǐng)下載最新的WinRAR軟件解壓。
  • 2. 本站的文檔不包含任何第三方提供的附件圖紙等,如果需要附件,請(qǐng)聯(lián)系上傳者。文件的所有權(quán)益歸上傳用戶所有。
  • 3. 本站RAR壓縮包中若帶圖紙,網(wǎng)頁內(nèi)容里面會(huì)有圖紙預(yù)覽,若沒有圖紙預(yù)覽就沒有圖紙。
  • 4. 未經(jīng)權(quán)益所有人同意不得將文件中的內(nèi)容挪作商業(yè)或盈利用途。
  • 5. 人人文庫(kù)網(wǎng)僅提供信息存儲(chǔ)空間,僅對(duì)用戶上傳內(nèi)容的表現(xiàn)方式做保護(hù)處理,對(duì)用戶上傳分享的文檔內(nèi)容本身不做任何修改或編輯,并不能對(duì)任何下載內(nèi)容負(fù)責(zé)。
  • 6. 下載文件中如有侵權(quán)或不適當(dāng)內(nèi)容,請(qǐng)與我們聯(lián)系,我們立即糾正。
  • 7. 本站不保證下載資源的準(zhǔn)確性、安全性和完整性, 同時(shí)也不承擔(dān)用戶因使用這些下載資源對(duì)自己和他人造成任何形式的傷害或損失。

評(píng)論

0/150

提交評(píng)論