一种基于FPF的高速可调谐激光器

An FPF-based high-speed tunable laser

下载PDF

导出

摘要为了克服FPF(法布里-珀罗滤波器)在高频扫描时驱动能力不足易产生失真的问题,设计了一种推挽式的FPF驱动电路,扫描频率可达1kHz。利用TINA软件对该驱动电路建模,仿真研究了PZT(压电陶瓷)容性负载对驱动电路的影响,找出了对其进行容性补偿的方法。使用该方法消除了驱动电路自激振荡的隐患,解决了高频信号驱动大容抗负载时易产生失真的问题。通过测试可知,基于所设计的驱动电路的FPF高速可调谐激光器性能优良,在1kHz高频工作条件下,其波长解调误差小于±10pm。 In order to solve the problem of Fabry-Perot Filter (FPF)distortion resulted from the insufficient driving capability in high-frequency scanning,this paper designs a push-pull driving circuit with a scanning frequency of 1 kHz for a FPF-based tunable laser.It performs the modeling of the driving circuit by the TINA software,analyzes by simulation the impacts of the capacitive load of piezoelectric ceramics on this circuit and finds the method for its capacitive compensation.By using this meth-od,it removes the hidden trouble of its self-excited oscillation,thus solving the problem of distortion generated when high-fre-quency signals drive a large capacitive reactance load.The test results show that with this driving circuit-based FPF,the high-speed tunable laser has good performance and its wavelength demodulation error is less than ± 10 pm in high frequency of 1 kHz.

作者杨迎卯

机构地区温州市铁路与轨道交通投资集团有限公司

出处《光通信研究》北大核心 2015年第5期51-54,共4页 Study on Optical Communications

关键词高速法布里-珀罗滤波器驱动能力容性补偿 high-speed FPF driving-capability capacitive compensation

分类号 TN248 [电子电信—物理电子学]

引文网络
相关文献

参考文献5

1黄芳.能增强光通信灵活性的可调谐激光器[J].光机电信息,2004(10):14-14. 被引量：2
2陈明惠.可调谐激光光源的研制[D].浙江:浙江大学,2011.
3LittrellR ,HallNA ,OkandanM ,etal.Impactofrelativeintensitynoiseofvertical-cavitysurface-emittinglasersonoptics-based micromachinedaudioandseismicsensors[J].ApplOpt,2007,(7):11-12.
4TimGreen.OperationalAmplifierStability[M].Texas:TIcompany,2007.
5蒋林,谢晓燕.片内光通信技术综述[J].通信技术,2008,41(11):69-71. 被引量：6

二级参考文献6

1Chen Guoqing. On-Chip Copper-Based vs. Optical Interconnects: Delay Uncertainty, Latency, Power, and Bandwidth Density Comparative Predictions[C]. In: Proceedings of the IEEE International Interconnect Technology Conference, [s. l.]: IEEE, June 2006:39-41.
2Ian O'Connor, Ecole Centrale de Lyon. On-Chip Optical Interconnect for Low-Power[R]. Paris France:Europe Design and Automation Association, February 2004.
3Ian O ' Connor. Optical Solutions for SystemLevel Interconnect[C]. In: International Workshop on System-Level Interconnect Prediction, Paris France, February 2004.
4Assaf Shacham, Keren Bergman, Luca P. Carloni. Photonic Networks-on-Chip for Future Generations of Chip Multi-Processors[J]. IEEE Transactions On Computers, 2008,57(05):686-701.
5Nevin Klrman, Meyrem Klrman, Rajeev K. Dokania. Leveraging Optical Technology in Future Bus-based Chip Multiprocessors[C]. In: Proc. Int'l Symp. Microarchitecture (Micro 06),[s.l.]: IEEE CS Press, 2006:492-503.
6ShachamA, Bergman K, Carloni L P. Maximizing GFLOPS-per-Watt: High-Bandwidth, Low Power Photonic On-Chip Networks [C]. In: P=ac^2 Conference, Yorktown Heights, New York, Oct. 2006.

共引文献5

1沈皓,韩国栋,黄万伟.片上网络路由技术研究[J].通信技术,2009,42(5):125-127. 被引量：2
2李振宇.可调谐激光器在光通信网络中的应用[J].通信技术,2009,42(8):4-5. 被引量：9
3王哲宇,王庆康.纳米科技在未来通信产业中的应用[J].纳米科技,2010,7(4):67-70.
4王哲宇.纳米科技在空间通信领域的应用初探[J].通信技术,2011,44(1):164-167.
5郭春辉,孙雪娇,郭凯,张晓娜,王兵,魏同波,王申,苏晋荣,闫建昌,刘乃鑫.紫外光通信用日盲型LED研究进展[J].发光学报,2023,44(10):1849-1861.

1李智勇,王肇颖,王永强,贾东方,李世忱.基于100m色散位移光纤的超连续谱实验研究[J].光子学报,2004,33(9):1064-1067. 被引量：5
2白燕,延凤平,孙景辉,尹智.基于F-P滤波器和饱和吸收体的单纵模掺铥激光器[J].科技导报,2016,34(16):104-107. 被引量：2
3毛玉蓉.智能功率因数监测与补偿系统设计[J].石油仪器,2008,22(3):12-13. 被引量：1
4汤广强,于晋龙,王耀天,张艳冬,朱利凯,吴海静,高卿.基于法布里-珀罗滤波器的40GHz全光时钟提取实验[J].光子学报,2007,36(10):1853-1857. 被引量：7
5闫哲峰.Tina软件解电路——求解直流和交流电路[J].电子制作,2004,12(12):39-42.
6黄义文.TINA软件在电路分析中的应用[J].机械职业教育,2003(10):45-46.
7童杏林,吕大娟,刘恋,吴薇,胡文彬.新型全光纤型可调法-珀滤波器的制备与实验[J].武汉理工大学学报,2009,31(1):132-134. 被引量：2
8廖小军,杨亚培,戴基智.啁啾布喇格光栅法布里-珀罗滤波器[J].激光技术,2007,31(6):568-570.
9潘洪刚,于晋龙,杨秀峰,王文睿,杨恩泽.傅立叶域锁模光纤激光器的研究新进展[J].光通信技术,2011,35(8):53-55. 被引量：1
10梁丽,杨晓宏.PAL制色度信号的解调误差对图象质量影响的函数分析[J].电视技术,1997(6):34-35.

光通信研究

2015年第5期

浏览历史

内容加载中请稍等...

一种基于FPF的高速可调谐激光器

参考文献5

二级参考文献6

共引文献5

相关作者

相关机构

相关主题

浏览历史