基于MEMS的VOA的技术分析及应用
Analysis and application of reflection-type variable optical attenuator based on MEMS
摘要
基于MEMS技术,对斜45°放置反射镜型、折叠反射式镜型和椭圆凹面反射镜型反射式MEMS VOA的结构及工作原理进行了详细分析,并对MEMS VOA在EDFA增益平坦放大器、EDFA光增益钳制、VMUX模块结构及ROADM系统中的几种具体应用进行了详细介绍。
出处
《光通信技术》
CSCD
北大核心
2008年第1期35-38,共4页
Optical Communication Technology
参考文献7
-
1施向华,邱怡申,李高明,徐惠真.基于微电机械系统的反射式可变光衰减器的研究与设计[J].福建师范大学学报(自然科学版),2006,22(2):46-48. 被引量:3
-
2AYMEN Bashir,PEKKA Katila,NICOLAS Ogier,et al.A MEMS-Based VOA with Very Low PDL[J].IEEE PHOTONICS TECHNOLOGY LETTERS,2004,16(4):1047-049.
-
3LIM Tae-Sun,JI Chang-Hyeon,OH Chang-Hoon,et al.Electrostatic MEMS Variable Optical Attenuator With Rotating Folded Micromirror[J].IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRON-ICS,2004,10(3):558-562.
-
4CAI H,ZHANG X M,Member,et al.Linear MEMS Variable Optical Attenuator Using Reflective Elliptical Mirror[J].IEEE PHOTONICS TECHOLOGY LETTERS,2005,17(2):402-404.
-
5CAI H,ZHANG X M,LU C,et al.Wide-Range Linear Attenuation Via Elliptical Mirror For Variable Attenuator Application[J].IEEE,2005,05:84-87.
-
6周亚凌,万骏俊,张明德,孙小菡.掺铒光纤放大器的动态增益均衡[J].电子器件,2003,26(2):186-189. 被引量:2
-
7伍浩成.EDFA的增益控制及平坦技术研究[J].飞通光电子技术,2002,2(4):215-224. 被引量:2
二级参考文献22
-
1Tonguz Ozan K, and Flood Felton A. Gain Equalization of EDFA Cascades [J]. Lightwave Technol, 1997,15,1832-1841.
-
2Wysocki Paul F , Judkins Justin B, Espindola Rolando P,Matthew Andrejco, and Ashish M. Vengasarkar. Broad-Band Erbium-Doped Fiber Amplifier Flattened Beyond 40 nm Using Long-Period Grating Filter [J]. IEEE Photon Technol, 1997,9, 1343- 1345.
-
3Lee Y W, Nilsson J, Hwang S T, and Kim S J. Experimental Characterization of a Dynamically Gain-Flattened Erbium-Doped Fiber Amplifier [J]. IEEE Photon Technol, 1996,8,1612- 1614.
-
4Seok Hyun Yun, Bong Wan Lee, Hyang Kyun Kim and Byoung Yoon Kim. Dynamic Erbium-Doped Fiber Amplifier Base on Active Gain Flattening with Fiber Acoustooptic Tunalbe Filters [J]. IEEE Photon Technol, 1999, 11, 1229 -1231.
-
5Tomlinson W J. Dynamic gain equalization for next-generation DWDM transports systems [C]. In: 2001 Digest of the LEOS Summer Topical Meetings, 2001,35 - 36.
-
6Noriyuki Takeda, Noborn Edagawa, and Masatoshi Suzui.Active gain equalization for transoceanic WDM transmission systems [C]. In: 0FC'99 San Diego, CA, Feb 1999 Paper WM43.
-
7Nakaji H, er al. Ultra-wide dynamic range ebrium doped fiber amplifiers employing variable attenuation slope compensation [ C] .In: Optical Amplifiers and Their Applications, OSA Technical Digest(Optical Society of America, Washington DC 1999, 167 - 169.
-
8Li Shenping, Chiang K S, Gambling W A. Dynamic gain flattening of an erbium-doped fiber amplifier using a high-birefringence fiber loop fairer. [C]. In: Optical Fiber Communication Conference and Exhibit, 2001,2,TuAS- T1 - 3.
-
9Offrein B J, Horst F, Bona G L, Getmann R, Salemink H W M, and Bcyeler R. Adaptive Gain Equalizer in High-Index-Contrast SiON Technology [J]. IEEE Photon Technol, 2000,12,504 - 506.
-
10Hyo Snag Kim, Seok Hyun Yun, Hyang Kyun Kim,Namkyoo Park, and Byoung Yoon Kim. Actively Gain-Flattened Erbium-Doped Fiber Amplifier Over 35 nm by Using All-Fiber Acoustooptic Tunalbe Filters [ J ]. IEEE Photon Technol, 1998,10, 790 - 792.
共引文献4
-
1高凡,陈学卿,赵灏,覃波.增益平坦滤波器的几种实现技术[J].光通信技术,2011,35(4):34-36. 被引量:4
-
2朱静,尹邦政.一种基于SFP封装的数字可调光衰减器的实现[J].现代电子技术,2013,36(18):134-135.
-
3郭跃,江镭,刘静,李楚钟,金操帆,汪衍景,张翔.基于双耦合器采样的光纤放大器光谱倾斜度控制[J].光纤与电缆及其应用技术,2022(5):22-26.
-
4关春雨,虞舒琬,王莹.采用精密电动位系统的激光能量衰减器[J].通信电源技术,2023,40(11):21-24.
-
1曹炼铿.ROADM在波分系统中的应用[J].广东通信技术,2011,31(9):59-61.
-
2程成,马养武.具有最大输出功率的CO_2激光器谐振腔[J].激光技术,2002,26(5):346-349. 被引量:4
-
3李建和,于春香,卢剑寒.一种视频放大与自动箝位电路的设计[J].集成电路通讯,2013(2):11-14.
-
4占生宝,秦知红,张杰,江善河,王鹏.双包层EYDFA增益钳制效果的理论研究[J].激光杂志,2013,34(6):20-21. 被引量:3
-
5姚英,巩稼民.具有级联增益光纤的增益平坦喇曼光纤放大器[J].西安邮电学院学报,2006,11(1):26-28. 被引量:3
-
6在不提高运营费用的情况下增加用户量——RADGSM优化解决方案[J].中国新通信,2007,9(15):58-58.
-
7杨祖慎,郭兆祥,戴康.一种发散角极小的 He-Ne 激光器[J].大连理工大学学报,1997,37(S2):52-52.
-
8陈灼英.凹面反射镜焦面的精确标定和提高激光产品光轴平行性的方法[J].激光技术,1991,15(2):93-96.
-
9曹斌,马孝江,张志新.增益钳制掺铒光纤放大器特性研究[J].激光与红外,2006,36(5):345-347.
-
10杨兆华,雷非.利用FEC解码纠错计数进行ROADM的自动色散补偿[J].电信科学,2008,24(1):76-78.