10Gbit/s伪随机序列光纤通信系统PMD补偿

PMD Compensation for 10 Gbit/s Pseudo Random Sequence of Optical Fibre Communication System

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摘要光纤通信线路检测到的电功率随差分群延迟变化,可作为PMD补偿的反馈控制信号。给出了这一变化关系的理论计算和曲线并通过实验验证这一关系,确定电压信号与DGD的变化关系。建立了一套完整的实验系统,并考虑了影响反馈电压信号的多种因素以及减小这些影响的措施。通过眼图给出的实验结果说明了补偿的效果,还通过误码测试仪测量了补偿前后的接收灵敏度的改变以定量说明补偿的效果,最后比较了不同情况下的补偿结果。 Electrical power,changing with differential group delay (DGD) and detected from an optical communication link,can be used as feedback signals of compensating for PMD. Theoretical calculations and curves are given representing the change of electrical power with DGD.Experimental results confirming the theoretical calculations are presented for voltage V changing with DGD.A setup is built for experiments of PMD compensations.Several factors affecting the feedback signals are proposed and methods given to make the fluctuations less.Results of PMD compensation prototype for a 10 Gbit/s pseudo random sequence are shown through eye patterns.These results are also shown by receiver sensitivity improvements after compensation. Receiver sensitivity under 3 different bit error rates are measured using BER measuring equipment.Comparisons of results using different fibers are made,confirming the effectiveness of compensation.

作者王剑张立台

机构地区中国民用航空学院空中交通管理学院天津大学电子信息工程学院

出处《中国民航学院学报》 2004年第2期51-54,共4页 Journal of Civil Aviation University of China

基金 863计划资助项目(2001AA312220) 天津市自然科学基金重点基金资助项目(023800711).

关键词偏振模色散动态补偿差分群延迟线偏振控制器 polarization mode dispersion dynamic compensation differential group delay polarization controller

分类号 V243.1 [航空宇航科学与技术—飞行器设计] O436.3 [机械工程—光学工程]

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1Karlsson M. Polarization Mode dispersion Mitigation-Performance of Various approaches[R]. Anaheim, CA, USA:OFC'2002,2002.231-233.
2Corbel E,Lanne S.Improvement of First-order Optical PMD Compensator by Relevant Control of Input State of Polarization[C]. Anaheim, CA, USA:OFC'2002,2002.301 -302.
3Heismarm F. Automatic compensation of First-order Polarization Mode Dispersion in a 10 Gbit/s Transmission System[R].Madrid,Spain:ECOC'98,1998.529-530.
4Denis P,Stephanie L.Reducing PMD Impairments[R]. USA:OFC'2001,2001 .Tup- 1.
5Hok Y P.An adaptive flint order polarization mode dispersion compensation system aided by polarization scrambling:theoryand demonstration [J].Journal of Lightwave Technology,2000,18(6) :832-844.
6Liu Jianfei,Wang Jian,Yu Jinlong.The Effect of PMD Induced Pulse Broadening on Sensitivity and Frequency Spectrum [C]. 北京 : SPIE, 2001.431 -436.
7Hok Y P.An adaptive first order polarization mode dispersion compensation system aided by polarization scrambling:theory and demonstration [J].Journal of Lightwave Technology,2000,18(6) :832-844.
8Karlsson M. Polarization Mode dispersion Mitigation-Performance of Various approaches[R]. Anaheim,CA,USA:OFC′2002,2002.231-233.
9Corbel E,Lanne S.Improvement of First-order Optical PMD Compensator by Relevant Control of Input State of Polarization[C]. Anaheim, CA, USA:OFC′2002,2002.301-302.
10Heismann F. Automatic compensation of First-order Polarization Mode Dispersion in a 10 Gbit/s Transmission System[R].Madrid,Spain:ECOC′98,1998.529-530.

1汪佳俊,潘时龙,贾佳,杨彦甫,娄采云.PMD compensation based on a new type dynamic first-order PMD compensator[J].Chinese Optics Letters,2006,4(4):202-204. 被引量：1
2邓杨保,邓曙光,熊翠秀,张光富.基于四波混频效应的太赫兹波产生研究[J].湖南城市学院学报（自然科学版）,2013,22(1):53-56.
3张倩,段高燕,张晓光,蒋达娅.PSO算法用于WDM系统多信道PMD补偿的研究[J].光子学报,2008,37(9):1829-1832. 被引量：3
4杨生胜,张英,顾克伟,达道安.光纤通信系统中器件的总剂量效应研究进展[J].真空与低温,2002,8(4):197-200. 被引量：5
5张晓光,于丽,郑远,沈昱,周光涛,席丽霞,陈林,张建忠,苑铁成,杨伯君.可补偿二阶偏振模色散的两级自适应补偿器研究[J].中国激光,2004,31(11):1391-1397. 被引量：1
6彭昌黎.飞机剩余电功率的估计[J].飞行试验,1990(2):53-56.
7胡瑾.光纤通信在空管系统的运用及维护体会[J].民航科技,2006(6):38-40.
8王晶,苗洪利.20Gbit/s偏振模色散和高阶色散对孤子传输的影响[J].量子光学学报,2001,7(2):58-62.
9龙海,徐英鹏,陈林.偏振模色散补偿的2种反馈控制信号特性比较[J].激光技术,2008,32(6):655-658. 被引量：1
10刘汉奎,杨莉,戚淮兵.偏振度方法跟踪偏振模色散性能的研究[J].西华师范大学学报（自然科学版）,2004,25(2):152-155.

中国民航学院学报

2004年第2期

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10Gbit/s伪随机序列光纤通信系统PMD补偿

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