摘要如何能够提高信号传输的速率和增大信号在光纤中的容量一直以来都是光纤通信追求的目标。从电子器件的角度来说,能够达到最大的速率也就大约为20Gb/s,现在我们通过使用电时分复用技术(TDM)就可以达到这个极限速率。若想要继续提升信号的传输速率,电子的领域已经无法解决,可以在光域中寻找到解决办法,一般采用的技术主要有两种:波分复用技术(WDM)和光时分复用技术(OTDM)。其中光时分复用技术(OTDM)是通过使光脉冲合成,突破电子设备瓶颈的限制。现在OTDM技术是光通信领域的研究热门之一,也是通信系统中的单信道速率可以达到数百Gb/s的新型技术。本文基于该技术的热门,重点讲述了光时分复用技术的系统组成和工作原理理论上分析了光纤色散的特性,然后以160Gb/s的光时分复用系统为例,讨论了系统的色散补偿方案以使信号可以稳定的传输。在第三章中,则以OTDM系统中的光发射和光接收部分涉及到的若干关键技术问题进行了讨论,如超短脉冲光源、全光时钟提取技术以及全光解复用技术等,这些技术的突破对光时分复用技术的商业化起着至关重要的作用。在文中绪论部分提到了OTDM与WDM技术的结合,如果在未来多媒体用户接入网中使OTDM技术与DWDM(密集型波分复用)技术相结合,则可以发挥各自的优势以获得更高的通信速率及更多的用户数,因而OTDM是一项具有美好应用前景的技术。根据多年的研究来看,许多研究机构和大型通信企业对WDM技术的研究非常多并可以投入到使用当中,也就是说已经十分成熟并实用化,相反OTDM技术还处于实验研究阶段,许多关键技术仍有待解决。只有当这些技术得到充分解决时,OTDM的优势才能得以发挥。关键词:OTDM;DWDM;光纤通信;全光网络;关键技术ABSTRACTHowtoimprovetherateofsignaltransmissionandincreasethecapacityofthesignalinthefiberhasalwaysbeenthegoalofopticalfibercommunication.Fromthepointofviewoftheelectronicdevice,itisabout20Gb/storeachthemaximumrate,andnowwecanreachthislimitratebyusingtimedivisionmultiplexing(TDM).Ifyouwanttocontinuetoenhancethetransmissionrateofthesignal,theelectronicfieldhasbeenunabletosolve,youcanfindasolutioninthelightfield,thegeneraluseofthetechnologytherearetwo:WDMandopticaltimedivisionmultiplexingtechnologyOTDM).Amongthem,opticaltimedivisionmultiplexing(OTDM)isthroughthelightpulsesynthesis,breakthroughthelimitationsofelectronicequipmentbottlenecks.NowOTDMtechnologyisoneofthehotresearchinthefieldofopticalcommunication,anditisalsoanewtechnologyofsinglechannelrateofhundredsofGb/sincommunicationsystem.Basedonthehottechnologyofthistechnology,thispaperfocusesonthesystemcompositionandworkingprincipleofopticaltimedivisionmultiplexingtechnology,andanalyzesthecharacteristicsofopticalfiberdispersion.Then,a160Gb/sopticaltimedivisionmultiplexingsystemistakenasanexampletodiscussthedispersioncompensationschemeofthesystemsothatthesignalcanbetransmissedsteadily.Inthethirdchapter,somekeytechnicalproblemsrelatedtothelightemissionandlightreceptionintheOTDMsystemarediscussed.Forexample,ultrashortpulselightsource,all-opticalclockextractiontechnologyandall-opticaldemultiplexingtechnologyarediscussed.Thebreakthroughofthesetechnologiesplaysanimportantroleinthecommercializationofopticaltimedivisionmultiplexing.IntheintroductionofthetextmentionedinthefutureifthemultimediauseraccessnetworkintheOTDMtechnologyandDWDM(intensivewavelengthdivisionmultiplexing)technologycombined,youcanplaytheirownadvantagestogetahighercommunicationrateandmoreusers,soOTDMisapromisingapplicationofthetechnology.Accordingtomanyyearsofresearch,manyresearchinstitutionsandlarge-scalecommunicationscompaniesontheWDMtechnologyresearchisverymuchandcanbeputintouse,thatisalreadyverymatureand...
