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采用双平行马赫曾德调制器的四倍频信号产生

Frequency-quadruple signal generation based on dual-parallel Mach-Zehnder modulator
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摘要 采用了一种基于双平行马赫曾德调制器(DPMZM)产生四倍频微波信号的方法。理论分析了微波四倍频的基本原理,双平行马赫曾德调制器的上臂子MZM加载射频信号,且上臂子MZM工作在最大传输点,下臂子MZM直通光载波,使DPMZM最终工作在载波抑制的偶次边带调制模式,结合光学带通滤波器滤除高阶杂散边带,提升四倍频信号的纯净度。搭建了基于双平行马赫曾德调制器的四倍频微波光子链路,并对四倍频系统的性能进行测试,实验结果表明系统的光边带抑制比和射频杂散抑制比分别达到了21.09dB和28.41dB。由于链路未引入额外的电子器件,系统可以产生高达80GHz的微波信号。基于双平行马赫曾德调制器产生四倍频微波信号的方法结构简单,易于控制,具有良好的倍频性能,可实现高纯净度和高频率的四倍频信号的产生。 A frequency-quadruple microwave signal method based on dual-parallel Mach-Zehnder modulator(DPMZM)was proposed.The frequency-quadruple principle was theoretically analyzed.The upper sub-MZM of the DPMZM was modulated by RF signal and operated at the maximum transmission point(MATP),while only an optical carrier was obtained from the bottom sub-MZM of the DPMZM.Then the DPMZM worked at the carrier-suppressed even-order sideband modulation mode.In order to improve the purity of quadruple frequency signal,optical bandpass filter(OBPF)was used to remove the high-order spurious sideband.Microwave photonic frequency-quadruple system was built based on DPMZM,and its performance was tested experimentally.The results demonstrate that the optical sideband suppression ratio(OSSR)and radio frequency spurious suppression ratio(RFSSR)can reach 21.09 dB and 28.41 dB,respectively.Since no extra electronic devices were used,the system can generate radio frequency with frequency up to 80 GHz.DPMZM based microwave photonic frequency-quadruple system had the advantages of simple structure,convenient operation and good frequency-quadruple performance,which can realize high purity and high frequency quadruple frequency generation.
作者 王云新 许家豪 周涛 王大勇 杨登才 钟欣 Wang Yunxin;Xu Jiahao;Zhou Tao;Wang Dayong;Yang Dengcai;Zhong Xin(College of Applied Sciences,Beijing University of Technology,Beijing 100124,China;Beijing Engineering Research Center of Precision Measurement Technology and Instruments,Beijing 100124,China;Science and Technology on Electronic Information Control Laboratory,Chengdu 610036,China)
机构地区 北京工业大学应用数理学院 北京市精密测控技术与仪器工程技术研究中心 电子信息控制重点实验室
出处 《红外与激光工程》 EI CSCD 北大核心 2018年第9期346-353,共8页 Infrared and Laser Engineering
基金 国家自然科学基金(61372061) 北京市青年拔尖创新人才(CIT&TCD201504020)
关键词 微波光子 双平行马赫曾德调制器 四倍频 微波信号产生 microwave photonic dual-parallel Mach-Zehnder modulator frequency quadrupling generation of microwave signal
分类号 TN929.11 [电子电信—通信与信息系统]
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红外与激光工程
2018年 第9期

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