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基于色散光纤的光学波束形成网络的插损特性 被引量:2

Insertion Loss of Optical Beam FormingNetwork Based on Dispersion Fiber
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摘要 光学波束形成网络相对于传统电学波束形成网络具有带宽大、传输损耗小、抗电磁干扰等特性。国内在多通道射频信号输入情况下,基于色散光纤体制的光学波束形成网络的插损变化规律研究较少。假设光子探测器达到饱和阈值的前提下,分别计算了单通道微波光子链路与双通道光学波束形成网络的插损。推导得到,随着输入射频通道数的成倍增加,采用色散光纤体制的光学波束形成网络的插损也成倍增加。搭建了实验系统,发现当输入射频通道数为2、4、8、16时,对应插损分别为-26.0dB、-30.8dB、-34.3dB、-46.0dB。 Optical beam forming network has the characteristics of large bandwidth,low transmission loss,and antielectromagnetic interference,compared with the traditional electrical beam forming network.In the case of multichannel radio frequency signal input,the law of insertion loss of optical beam forming networks based on the dispersion fiber system is less studied.Assuming that the photon detector reaches the saturation threshold,the insertion losses of the single-channel microwave photon link and the dual-channel optical beam forming network are calculated.It is deduced that as the number of input radio frequency channels increases by multiple folds,the insertion loss of the optical beam forming network using a dispersion fiber also increases in an alike manner.A test system was set up,and verification was carried out.When the number of input radio frequency channels was 2,4,8,and 16,the corresponding insertion loss was-26.0 dB,-30.8 dB,-34.3 dB,and-46.0 dB,respectively.
作者 贺文干 陈尔东 胡元奎 梅理 陈信伟 崇毓华 He Wengan;Chen Erdong;Hu Yuankui;Mei Li;Chen Xinwei;Chong Yuhua(No.38 Research Institute of CETC,Hefei,Anhui 230088,China)
机构地区 中国电子科技集团公司第三十八研究所
出处 《激光与光电子学进展》 CSCD 北大核心 2020年第7期167-172,共6页 Laser & Optoelectronics Progress
关键词 光纤光学 色散光纤 光学波束形成网络 射频通道 插损 fiber optics dispersion fiber optical beam forming network radio frequency channel insertion loss
分类号 O439 [机械工程—光学工程]
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  • 1贾春燕,李冬文,叶莉华,崔一平.相控阵雷达与光控相控阵雷达[J].电子器件,2006,29(2):598-601. 被引量:9
  • 2Ng W,Walston A,Tangonan G L.The first demonstration of an optically steered microwave phasedarray antenna using true~time~delay[J].Lightwave Technology,1991,9(9):1124~1131
  • 3Ng W,Walston A,Tangonan G L.Wideband fibre-optic delay network for phased array antenna steering [J].Electronics Letters,1989,25(21):1456~1457
  • 4Fetterman H R,Chang Y,Scott D C et al..Optically controlled phased array radar receiver using SLM switched real time delays[J].IEEE Microwave and Guided Wave Letters,1995,5(11):414~416
  • 5Sullivan C T,Mukherjee S D,Hibbs-Brenner M K.Switched time delay elements based on AlGaAs/GaAs optical waveguide technology at 1.32 μm for optically controlled phased array antennas [C].Proceedings of the SPIE,1992,1703:264~271
  • 6Toughlian E N,Zmuda H.A photonic variable RF delay line for phased array antennas [J].Journal of Lightwave Technology,1990,8(12):1824~1828
  • 7Gab-Yong Lee,Yeon-Bong Choi,Jong-Dug Shin.4-b True time-delay feeder using MEMS switches for linear phased-array antennas[C],OFC 2002,738~740
  • 8Jemison W D,Yost T,Herczfeld P R.Acoustooptically controlled true time delays:experimental results [J].IEEE.Microwave and Guided Wave Letters,1996,6(8):283~285
  • 9Judit Reményi,Pál Maák,István F et al..Demonstration of continuously variable true-time delay in frequency dependent phase compensation system with acousto-optics and liquid crystal modulator [J].Optics Communications,2003,226:211~220
  • 10Esman R D,Frankel Michael Y,Dexter J L et al..Fiber-optic prism true time -delay antenna feed [J].IEEE Photonics Technology Letters,1993,5(11):1347~1349

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激光与光电子学进展
2020年 第7期

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