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级联MZI带通巴特沃斯微波光子滤波器的设计 被引量:2

Design of bandpass Butterworth microwave photonic filters using cascaded MZI
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摘要 随着对MPF(微波光子滤波器)的深入研究,设计的方法和滤波器性能都得到了很大改进,但是对于给定参数实现一些典型结构的MPF的报道却很少。在深入研究数字滤波器和MPF结构的基础上,采用数字滤波器的设计方法,给出了带通巴特沃斯MPF的详细设计过程。利用数字滤波器的设计方法得到了所需带通巴特沃斯MPF传递函数的零点和极点。采用光纤环辅助的MZI(马赫-曾德干涉仪)级联,实现滤波器的传递函数,根据传递函数的零点和极点计算确定了各级联MZI的结构参数:耦合系数、臂长差和环长,并对其进行了仿真验证,结果与带通巴特沃斯MPF设计要求基本一致,并进一步研究了不同结构参数对MPF的影响。 With the in-depth research on the Microwave Photonic Filter (MPF), the design methods and MPF performances have been enormously improved, but little reports about the development of some typical filters with given parameters have been made. On the basis of the in-depth research on the digital fiIters and MPF structures, the detailed design process of the band- pass Butterworth MPF using the design method for digital filters is given, obtaining the zeroes and poles of the required trans- fer functions. The filter transfer functions are implemented by using fiber ring-assisted cascading Mach-Zehnder Interferometer (MZI) cascading and the structural parameters of various cascaded MZI such as coupling coefficients, arm length differences and the ring length are determined by the calculation of the zeros and poles of the transfer function. They are verified in simula- tion and the results are basically in agreement with the design requirements. Furthermore, the effects of different structural pa- rameters on MPF are investigated.
作者 王旭 梁晓东 聂奎营
机构地区 河南师范大学物理与信息工程学院
出处 《光通信研究》 北大核心 2012年第5期46-49,共4页 Study on Optical Communications
基金 河南省教育厅科学技术研究重点项目(12A510015)
关键词 微波光子滤波器 马赫-曾德干涉仪 光纤环 传递函数 MPF MZI optical fiber ring transfer function
分类号 TN713.5 [电子电信—电路与系统]
  • 相关文献

参考文献9

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二级参考文献7

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共引文献4

同被引文献9

  • 1Capmany Jose, Dalma Novak. Microwave photonics combines two worlds [J]. Nature Photonics, 2007, 1 (3) :319-330.
  • 2Capmany Jose, Ortega Beatriz, Pastor Daniel. A tuto- rial on microwave photonic filters [J]. Lightwave Technology, 2006,24(1) 201-229.
  • 3Erwin H, Chan W. High-Order Infinite Impulse Re- sponse Microwave Photonic Filters [J]. Lightwave Technologyogy, 2011,29(12) 1775-1782.
  • 4Minasian Robert A. Photonic signal processing of mi- crowave signals [J]. IEEE Trans Microw Theory Tech, 2006,54(2) 832-846.
  • 5Erwin H, Chan W. Cascaded Multiple Infinite Impulse Response Optical Delay Line Signal Processor WithoutCoherent Interference [ J ]. Lightwave Technology, 2011,29(9) :1401-1406.
  • 6Joshi Himanshu, Sigmarrsson Hjalti H. High-Q Fully Reconfigurable Tunable Bandpass Filters [J] Trans- chions on microwave theory and techniques, 2009, 57 (12) :3525-3533.
  • 7Zhu Kun, Ou Haiyan, Fu Hongyan,et al. A simple and tunable single-bandpass microwave photonic filter of adjustable shape[J]. IEEE Photon Technol Lett, 2008,20(23):1917-1919.
  • 8胡勇,孙军强.基于光子学方法的负系数微波带通滤波器[J].激光技术,2008,32(2):143-146. 被引量:3
  • 9肖云,赵文义,朱坤,付宏燕.基于光纤环结构的微波光子滤波器[J].浙江大学学报(工学版),2009,43(6):1168-1171. 被引量:2

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光通信研究
2012年 第5期

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