版权说明:本文档由用户提供并上传,收益归属内容提供方,若内容存在侵权,请进行举报或认领
文档简介
DepartmentofOpticalEngineering,ZJUFiber-OpticCommunicationsTechnologyHistoricalPerspectiveSmoke<1500Semaphoredevice1500-1800Mechaniccoding1792ClaudeChappeDepartmentofOpticalEngineering,ZJUOptoelectronicTechnologyinOurLifeEverydayDepartmentofOpticalEngineering,ZJUIntroductionWhygodigital?Advantage:
lessmisinterpretationDisadvantage: requiresmorechannelcapacityMajordemandHighercapacityLowercostDepartmentofOpticalEngineering,ZJUShannon-HartleytheoremCapacityv.s.bandwidth(1948)Capacity(bits/sec)=BW(Hz)xlog2(1+SNR)Channelbandwidthv.s.Carrier-signalfreq
Channelbandwidth(Hz)
0.1XCarrier-signalfreq.(Hz)DepartmentofOpticalEngineering,ZJUFromcopperwiretoopticalfiberCarrier-signalfreq.limit:Copperwire 1MHzCoaxialcable 100MHzRadiofreq. 500KHzto100MHzMicrowave: 100GHzLight: 100-1000THz!DepartmentofOpticalEngineering,ZJUDepartmentofOpticalEngineering,2008CapacityofCommercialLightwaveSystemsDoubledAnnuallyWorldrecordcapacity2012WorldRecordindatatransmissionoverasinglefiber1Petabitpersecondfibertransmissionover50kilometershasbeenachievedincollaborationbetweenNipponTelegraphandTelephoneCorporation,FujikuraLtd.,HokkaidoUniversity,Japan,andDTUFotonik’sHigh-SpeedOpticalCommunicationsGroup(HSOC).Thistechnologymakesitpossibletosend5000HDTVvideospersecondoverasinglefiber!DepartmentofOpticalEngineering,2008EnablingTechnologiesforOpticComm.Threemajordevelopmentsareresponsibleforrejuvenationofoptics&itsapplicationinmoderntechnology:
1-InventionofLaser2-Fabricationoflow-lossopticalFiber3-DevelopmentofSemiconductorOpticalDeviceAsaresult,newdisciplineshaveemerged&newtermsdescribingthemhavecomeintouse,suchas:-Electro-Optics:isgenerallyreservedforopticaldevicesinwhichelectricaleffectsplayarole,suchaslasers,electro-opticmodulators&switches.DepartmentofOpticalEngineering,2008DepartmentofOpticalEngineering,ZJUWhyOpticalCommunications?Extremelywidebandwidth:highcarrierfrequency(awavelengthof1552.5nmcorrespondstoacenterfrequencyof193.1THz!)ordersofmagnitudeincreaseinavailabletransmissionbandwidth&largerinformationcapacity.OpticalFiberssmallsize&lightweight.immunetoelectromagneticinterference(highvoltagetransmissionlines,radarsystems,powerelectronicsystems,airbornesystems,…)lowEMIcrosstalkbetweenchannelsAvailabilityofverylowlossFibers(0.25to0.3dB/km),highperformanceactive&passivephotoniccomponentssuchastunablelasers,verysensitivephoto-detectors,couplers,filters,LowcostsystemsfordataratesinexcessofGbit/s.DepartmentofOpticalEngineering,2008ThreegreatinventionsLaserFiberAmplifierFiveGenerationsInformationrevolution:internetOver420,000kmofunderseafibertojoinustogetherLow-lossfiber:30yearsofendeavor10%oflightremainsafter50kmtravelinginfiber19695dBat850nmImagetransmittedviaopticalinter-satellitelinkSatelliteconstellationnetworksFromMarstoEarthOpticalCommunicationforComputingOpticalInterconnectsParallelTx/Rxforlinks>10Gb/sIntelOpticalCablesDepartmentofOpticalEngineering,2008BWdemandsincommunicationsystemsType&applicationsFormatUncompressedCompressedVoice,digitaltelegraphy4kHzvoice64kbps16-32kbpsAudio16-24kHz512-748kbps32-384kbps(MPEG,MP3)Videoconferencing176X144or352X288frames@10-30frames/s2-35.6Mbps64kbps-1.544Mbps(H.261coding)Datatransfer,E-commerce,Videoentertainment1-10MbpsFull-motionbroadcastvideo720X480frames@30frames/s249Mbps2-6Mbps(MPEG-2)HDTV1920X1080frame@30frames/s1.6Gbps19-38Mbps(MPEG-2)SystemsConceptsOpticalCommunicationsystemuseseveralMultiplexingtechniques;allincludeTDM(TimeDivisionMultiplexing)TDMstandards(SONET,SDH):ex.OC-192=STM-64=10Gb/sModulationisISK–IntensityShiftedKeyingandNRZformatDWDMsystemsuseGb/slasersatdifferentwavelengthsAggregatedbitrate=NxBChannelspacing50-100GHz;ITUgridTotalopticalbandwidthlimitedbybandwidthofopticalamplifiersWDM:Wavelength-DivisionMultiplexingWDMcombinesmultiplesignalsintoasinglefiberbytransmittingsignalatdifferentwavelengthsSinglechannelcapacity40Gb/s,nchannelsn40Gb/sDepartmentofOpticalEngineering,2008EarlyapplicationoffiberopticcommunicationDigitallinkconsistingoftime-division-multiplexing(TDM)of64kbpsvoicechannels(early1980).OpticalFibercommunications,3rded.,G.Keiser,McGrawHill,2000DepartmentofOpticalEngineering,2008SONET&SDHStandardsSONET(SynchronousOpticalNETwork)isthenetworkstandardusedinnorthAmericaSDH(SynchronousDigitalHierarchy)isusedinotherpartsoftheworld.Thesedefineasynchronousframestructureforsendingmultiplexeddigitaltrafficoverfiberoptictrunklines.ThebasicbuildingblockofSONETiscalledSTS-1(SynchronousTransportSignal)with51.84Mbpsdatarate.Higher-rateSONETsignalsareobtainedbybyte-interleavingNSTS-1frames,whicharescramble&convertedtoanOpticalCarrierLevelN(OC-N)signal.ThebasicbuildingblockofSDHiscalledSTM-1(SynchronousTransportModule)with155.52Mbpsdatarate.Higher-rateSDHsignalsareachievedbysynchronouslymultiplexingNdifferentSTM-1toformSTM-Nsignal.DepartmentofOpticalEngineering,2008SONET&SDHtransmissionratesSONETlevelElectricallevelLinerate(Mb/s)SDHequivalentOC-1STS-151.84-OC-3STS-3155.52STM-1OC-12STS-12622.08STM-4OC-24STS-241244.16STM-8OC-48STS-482488.32STM-16OC-96STS-964976.64STM-32OC-192STS-1929953.28STM-64OpticalFibercommunications,3rded.,G.Keiser,McGrawHill,2000DepartmentofOpticalEngineering,2008GlobalOpticalCommunicationsRevenueandProjectionDepartmentofOpticalEngineering,2008NetworkTraffic:TheShifttoDataDepartmentofOpticalEngineering,2008TypicalFiberOpticalCommunicationSystemDepartmentofOpticalEngineering,2008InstallationofFiberopticsDepartmentofOpticalEngineering,2008OpticalFibercommunications,3rded.,G.Keiser,McGrawHill,2000DepartmentofOpticalEngineering,2008PartsforFiber-opticCommunicationSystemsTransmission-fibercableMux/DemuxAdd/DropmultiplexerAmplificationOpticalMonitoringSwitchingCoupling/SplittingConnectorsOpticalFibersDepartmentofOpticalEngineering,2008HomeworkProblemsforchapter1-3Reviewthesummaryofeachchapter2.6,2.73.12,3.22,3.25,3.7,3.21,3.29,3.30,3.47DepartmentofOpticalEngineering,2008PartsforFiber-opticCommunicationSystemsConnectorsDepartmentofOpticalEngineering,2008PartsforFiber-opticCommunicationSystemsTransceiver,FiberChannelandGigabitEthernet,SmallFormFactor
KeyFeatures1.GigabitEthernetandFibreChannelperformancecapabilitiesinasinglecomponentShort(850nm)andlong(1310nm)wavelengthoperationSingle3.3Vpowersupply(150mAtypical)HighreliabilityLowbiterrorrateDepartmentofOpticalEngineering,2008PartsforFiber-opticCommunicationSystems10Gb/sTransponder,TDM/DWDM,SmallFormFactor
KeyFeaturesThreeconfigurationsTDMSR2/IR2/LR2(25,40,80km)SupportsDWDMSmallformfactor(2.2”x3.0”x0.53”)Lowpowerconsumption:4.8Wtypical,6.8WmaximumforTDM70CmaxoperatingtemperatureHighsensitivityPINorAPDreceiversDepartmentofOpticalEngineering,2008PartsforFiber-opticCommunicationSystemsMUX/DEMUX:AWG,100GHz40ChannelDepartmentofOpticalEngineering,2008PartsforFiber-opticCommunicationSystemsCommunicationmodule:20dBm,ControlledEDFAKeyFeatures:Variablegain,10to26dBVariableopticalattenuator(VOA)Constantgain,power,andcurrentmodeAlarmsDepartmentofOpticalEngineering,2008PartsforFiber-opticCommunicationSystemsSwitch1x4and1x8bidirectionallatchingconfigurationsHermeticpackageLowinsertionlossNull(blocking)stateDepartmentofOpticalEngineering,2008TelecomBubblesDepartmentofOpticalEngineering,2008TelecomMarketMainlandChinaFiberMarketGrowth:~12%/yearDepartmentofOpticalEngineering,2008ConsolidationofTelecomSuppliersDepartmentofOpticalEngineering,2008OpticalFibersGuidedlightTotalinternalreflectionRefractiveindexν=c/nPuresilicancld=1.4572AddingGeO2toincrease
n,B2O3tolowernCriticalangleofpropagation
αc=arcsin[1-(ncld/ncore)2]1/2Acceptanceangle
nasinΘa=ncoresinαcNumericalaperture
NA=sinΘaDepartmentofOpticalEngineering,2008SingleModeFiberSMfiberexampleDepartmentofOpticalEngineering,2008AttenuationDefinition:DecreaseinlightpowerduringlightpropagationalonganopticalfiberReasons:Bendinglosses–resultingfromchangeinindexprofileMicrobending–testedonsandpaperMacrobending–e.g.diameter31-50mmcoilsScatteringAbsorptionDepartmentofOpticalEngineering,2008AttenuationCalculationDefinition:Loss=Pout/Pin Loss(dB)=10log(Pout/Pin)1dBloss=20%loss0.5dBloss=10.9%lossLoss(dBforLkm)=loss(dBperkm)L(km)Example:@1.55μmsmf:0.2dB/kmUnits:PowerindBm=10log(P/1mW)Example0dBm=1mW1dBm=1.25mW10dBm=10mW
Loss=Pout(dBm)-Pin(dBm)DepartmentofOpticalEngineering,2008ThreetypesofFiber:SI,GI,andSM(step-index,gradient-index,single-mode)Phenomenon:
Lightcanpropagateinsideanopticalfiberonlyasasetofseparatebeams(rays),atdistinctpropagatingangles,,rangingfromzerotoc.Modes:thesedifferentbeams
N=V2/2step-index N=V2/4graded-index
Vnumber=dN.A./
ExamplePhysicsofmodes:1.wave2.differentmodesdifferentphaseshifts3.fibersupportsonlycertainwavesDispersion:intermodalandchromaticDepartmentofOpticalEngineering,2008LossindBv.s.PercentLossDepartmentofOpticalEngineering,2008GIFiberModeNumberDepartmentofOpticalEngineering,2008ModalDispersioninSIfiberSIfiberpulsespreadbymodaldispersionFastpath:straightlinet0=L/v,v=c/n1Slowpath:zig-zaglinestc=L/vcoscSpread:tSI=tc-t0=(Ln1/c),=(n1-n2)/n2tSI/L=400ns/kmSIfiberMaximumbitrate1/tSI=12Mbits/snotimpressiveexampleDepartmentofOpticalEngineering,2008GradedIndex(GI)fiberTh
温馨提示
- 1. 本站所有资源如无特殊说明,都需要本地电脑安装OFFICE2007和PDF阅读器。图纸软件为CAD,CAXA,PROE,UG,SolidWorks等.压缩文件请下载最新的WinRAR软件解压。
- 2. 本站的文档不包含任何第三方提供的附件图纸等,如果需要附件,请联系上传者。文件的所有权益归上传用户所有。
- 3. 本站RAR压缩包中若带图纸,网页内容里面会有图纸预览,若没有图纸预览就没有图纸。
- 4. 未经权益所有人同意不得将文件中的内容挪作商业或盈利用途。
- 5. 人人文库网仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对用户上传分享的文档内容本身不做任何修改或编辑,并不能对任何下载内容负责。
- 6. 下载文件中如有侵权或不适当内容,请与我们联系,我们立即纠正。
- 7. 本站不保证下载资源的准确性、安全性和完整性, 同时也不承担用户因使用这些下载资源对自己和他人造成任何形式的伤害或损失。
最新文档
- 社区房屋买卖合同的签订策略
- 产品服务合同的合同变更
- 优化采购合同管理的技巧
- 家具采购协议书样式
- 家政服务合同风险防范
- 补充合同内容范例
- 地区代理招商合同文本
- 签订劳务分包合同的要点分析
- 地坪工程劳务分包
- 购销合同中英文版谈判技巧
- 2023年安徽新华发行控股有限公司社会招聘笔试真题
- 2024年四川省眉山市公开招聘警务辅助人员(辅警)笔试专项训练题试卷(3)含答案
- 软件专业职业生涯规划
- 2025蛇年春联带横批
- 湖南工业大学《自然语言处理》2022-2023学年第一学期期末试卷
- 护理各类风险评估及防范
- 娱乐产业法律服务行业市场现状分析及未来三至五年行业预测报告
- 专题06 非连续性阅读(开放题型)-2023-2024学年八年级语文下学期期中专题复习(北京专用)(原卷版)
- 电力变压器生产项目可行性研究报告
- 充电桩知识培训
- 2024-2030年地质勘察行业市场前景与发展预测
评论
0/150
提交评论