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InGaAs/InP台面型pin高速光电探测器
引用本文:韩孟序,齐利芳,尹顺政. InGaAs/InP台面型pin高速光电探测器[J]. 微纳电子技术, 2021, 0(3): 196-200
作者姓名:韩孟序  齐利芳  尹顺政
作者单位:中国电子科技集团公司第十三研究所
摘    要:
介绍了一种应用于5G通信系统的高速光电探测器,设计了InP基台面型pin高速光电探测器材料结构,通过理论计算及软件模拟得到响应度和带宽随耗尽层厚度的变化规律,并对材料结构进行优化.制备了光敏面直径为20 μm及耗尽层厚度分别为1.0、1.3和1.5μm的器件.对比响应度和带宽的理论值与实测值,结果表明实测值与理论值相符...

关 键 词:光电探测器  InGaAs/InP  光通信  响应度  带宽  小信号模型

InGaAs/InP Mesa pin High-Speed Photodetector
Han Mengxu,Qi Lifang,Yin Shunzheng. InGaAs/InP Mesa pin High-Speed Photodetector[J]. Micronanoelectronic Technology, 2021, 0(3): 196-200
Authors:Han Mengxu  Qi Lifang  Yin Shunzheng
Affiliation:(The 13^(th)Research Institute,China Electronics Technology Group Corporation,Shijiazhuang 050051,China)
Abstract:
A high-speed photodetector used in 5G communication system was introduced.The material structure of an In Pbased-mesa pin high-speed photodetector was designed.The variation laws of the responsivity and bandwidth with the depletion layer thickness were obtained by theoretical calculation and software simulation,and the material structure was optimized.The devices with a photosensitive surface diameter of 20μm and depletion layer thickness of 1.0,1.3 and 1.5μm were fabricated.The theoretical and measured values of the responsivity and bandwidth were compared.The result shows that the measured values agree with the theoretical values.When the depletion layer thickness is 1.3μm,the responsivity can reach 0.89 A/W and the bandwidth can be up to 23 GHz,which can meet the transmission rate requirement of 25 Gibit/s.The small signal model of the detector was established to simulate bandwidth characteristics of the device.The simulation result is consistent with the theoretical value,which further verifies the correctness of the theoretical analysis.
Keywords:photodetector  InGaAs/InP  optical communication  responsivity  bandwidth  small signal model
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