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高功率圆波导多孔阵列定向耦合器设计 被引量:9

Design of high power circular multi-aperture array directional coupler
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摘要 设计了一种应用于8mm回旋管输出功率测量和频谱监测的圆波导-矩形波导多孔阵列耦合定向耦合器。利用弱耦合波理论推导了多孔阵列耦合公式,从数值计算和模拟仿真两个方面对比分析了8孔孔径阵列分别呈正反分布的等孔径、二项式、切比雪夫和高斯分布的耦合特性。在此基础上,结合等孔径分布耦合度带内波动小和切比雪夫分布高定向性的优点,提出了复合孔径阵列的设计思想。模拟结果显示:复合孔径阵列很好地兼顾了多种孔径阵列分布的优势,带内耦合度波动较小,有效频带范围较宽,且定向性优越。同时对定向耦合器的方向性改善进行了探讨,可以看出,适当的孔径分布阵列如切比雪夫分布和阵列边缘尾孔间距的调整都可以有效地提高定向性。 A multi-aperture array coupling directional coupler was designed to measure the output power and monitor the spectrum for the 8 mm-band gyrotron. The formulas of multi aperture coupling coefficient were derived based on loose-coupling theory. Coupling characteristics of equal radius, binomial, Chebyshev and Gauss distributions were compared by numerical computation with Matlab and simulation with CST code, respectively. Then the composite distribution was proposed. The simulations demonstrate that the composite distribution obtains the advantages of multiple distributions simultaneously. It is beneficial for the improvement of directivity and has smaller ripples in inband coupling coefficient along with broader effective band. In addition, appropriate distribution of multi-aperture array such as Chebyshev distribution and proper distance between the two holes closest to the edge can improve the directivity effectively.
作者 刘国 罗勇 王建勋 蒲友雷
机构地区 电子科技大学物理电子学院
出处 《强激光与粒子束》 EI CAS CSCD 北大核心 2012年第2期417-422,共6页 High Power Laser and Particle Beams
基金 微波电真空器件国家级重点实验室基金项目(9140C0502010904)
关键词 定向耦合器 多孔阵列耦合 复合分布 回旋管 directional coupler multi-aperture array coupling composite distribution gyrotron
分类号 TN722 [电子电信—电路与系统]
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参考文献11

  • 1Wang Wenxiang,Gong Yubin,Yu Guofen,et al.Mode discriminator based on mode-selective coupling[J].IEEE Trans on MicrowaveTheory and Techniques,2003,51(1):55-63.
  • 2Wang Wenxiang,Yue Lingna,Zhao Guoqing,et al.Discrimination and analysis of microwave modes in high power systems[J].Internatio-nal Journal of Infrared and Millimeter Waves,2005,26(2):147-161.
  • 3曹乃胜,罗勇,王建勋.圆波导-矩形波导小孔耦合定向耦合器设计[J].强激光与粒子束,2008,20(4):637-640. 被引量:15
  • 4王文祥.H_(01)~○—H_(10)~□高功率定向耦合器的改进设计[J].电子科技大学学报,1990,19(5):492-498. 被引量:3
  • 5石爱民,王贤武,文良华,冯勇.基于定向耦合器的高频功率测量[J].强激光与粒子束,2011,23(4):1061-1064. 被引量:8
  • 6Bethe H A.Theory of diffraction by small holes[J].Phys Rev,1944,66(7/8):163-182.
  • 7Cohn S B.Microwave coupling by large apertures[C] //Proceedings of the IRE.1952:696-699.
  • 8Levy R.Analysis and synthesis of waveguide multi-aperture directional couplers[J].IEEE Trans on Microwave Theory and Techniques,1968,16(12):995-1006.
  • 9Ning Yuemin,Jiang Wansheng.The effects of mechanical tolerances on multi-aperture waveguide directional couplers[C] //ISAPE 8thInternational Symposium on Antennas,Propagation and EM Theory.2008:534-537.
  • 10Oraizi H.Optimum design of multi-hole directional couplers with arbitrary aperture spacing[J].IEEE Trans on Microwave Theory andTechniques,1998,46(4):331-342.

二级参考文献9

  • 1Ludwig R, Bretchko P. RF circuit design, theory and application[M]. New York: Academic Press, 2002:26-61.
  • 2郭宝玺.大功率新型短波发射机射放技术[M].北京:中国广播电视出版社,2003:102-153.
  • 3张学田,何正声,魏瑞发.广播电视技术手册发射分册[K].广州:当代中国音像出版社,2000:70-90.
  • 4清华大学通信教研组.高频电路(上册)[M].北京:人民邮电出版社,1977.364-370.
  • 5Elliott R S, Kim Y U. Improved design of multi-hole directional couplers using an iterative technique[J]. IEEE Transactions on Microwave Theory and Techniques, 1990, 38(4):411-416.
  • 6Wang W X. Improved design of a high power mode selective directional coupler[J]. Int J Electronics, 1988,26(3):123-125.
  • 7Riblet H J. A mathematical theory of directional couplers[J]. Proc of the Institute of Radio Engineers,1947,33(5):661-719.
  • 8Cohn S B. Microwave coupling by large apertures[J]. Proc of the Institute of Radio Engineers, 1952,40(6):696-699.
  • 9Hancock K E. The design and manufacture of waveguide Tchebycheff directional couplers[J]. Electronic Engineering, 1967, (5):292-297.

共引文献22

同被引文献40

  • 1石德万,王文祥,宫玉彬,魏彦玉.一种带状线定向耦合器场分布的求解[J].强激光与粒子束,2007,19(6):947-950. 被引量:4
  • 2Oraizi H. Optimum design of multihole directional couplers with arbitrary spacing[J]. IEEE Trans on Microwave Theory and Techniques, 1998,46(4): 331-342.
  • 3Teppati V, Ferrero A. A new class of nonuniform, broadband, nonsymmetrical rectangular coaxial-to-microstrip directional couplers for high power applications[J]. IEEE Microwave and Wireless Components Letters, 2003,13(4) : 152-154.
  • 4Mirzaei H, Nasr-Azadani A, Safian R, et al. A novel broadband high power coaxial-to-CPW directional coupler[-C]//Proeeedings of the 39th European Microwave Conference. 2009 : 1152-1155.
  • 5Teppati V, Goano M, Ferrero A. Conformal-mapping design tools for coaxial couplers with complex cross section[J]. IEEE Trans on Mi- crowave Theory and Techniques, 2002,50(10):2339-2345.
  • 6. Teppati V, Goano M, Ferrero M, et al. Broad-band coaxial directional couplers for high-power applications[J]. IEEE Trans on Microwave Theory and Techniques, 2003,51(3) : 994-997.
  • 7Watson P M, Gupta K C. EM-ANN modeling and optimal chamfering of 90° CPW bends with air-bridges[,C]//IEEE MTT'S Digest. 1997: 1603-1606.
  • 8周希朗,黎宏洪.H波导与微带间的小孔耦合特性的理论和实验研究[C]//1987年全国微波会议论文集(中).1987:431-434.
  • 9Chang Chao, Shao Hao, Chen Changhua, et al. Single and repetitive short-pulse high-power microwave breakdown[J]. Phys Plasmas, 2010,17: 053301.
  • 10Earley L M, Ballard W P, Wharton C B. New directional couplers for multimode circular waveguides applied to intense pulse microwave sys- tems[J]. IEEE Trans on Nucl Sci, 1985, 32:2921-2923.

引证文献9

二级引证文献21

强激光与粒子束
2012年 第2期

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