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高功率微波同轴阻抗变换器优化设计及功率计算 被引量:5

Optimal design and power capacity calculation for high power microwave coaxial impedance convertor
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摘要 在高功率微波应用中,同轴线的阻抗匹配十分重要。通过同轴线内导体的渐变,可以实现阻抗变换与阻抗匹配。内导体渐变可以采用多项式、余弦、指数等函数形式。用时域有限差分方法计算同轴线的反射系数,以同轴线内导体渐变段的长度和反射系数达到最小为目标,采用遗传算法优化渐变段的结构参数,得到了反射系数为0. 015、渐变长度为148mm的同轴线阻抗变换结构。在一套具有16节点的Beowulf型并行计算机系统上采用主从式并行计算技术完成了计算,缩短了遗传算法搜索时间。最后计算和分析了该同轴线阻抗变换结构的带宽和微波功率容量,该结构峰值功率达8. 734MW。 The coaxial impedance convertor plays a very important role in the field of high power microwave. The impedance of a coaxial line can be converted by gradually changing the diameter of the inner conductor of the coaxial line, and some functions such as the polynomial, the cosine, the exponent and etc,can be applied to describe the curve of the diameter variation. In this paper, the finite-difference time-domain method (FDTD) was used to calculate the reflection coefficient in the coaxial line, and Genetic Algorithm (GA) was adopted to optimize the curve in order to design a convertor with a shortest length of the diameter-changing inner conductor and a minimal reflection coefficient. The optimization calculation of the GA was parallelized in the master-slave model and run in a Beowulf system with 16 nodes to improve its efficiency. As a result, a convertor was designed, whose reflection coefficient is 0.015 and the length of the conductor is 148 mm. The power capacity and bandwidth of the convertor were computed and analyzed. Results show its power capacity is as high as 8.734 MW.
作者 陈依军 叶君永 黄卡玛
机构地区 四川大学电子信息学院
出处 《强激光与粒子束》 EI CAS CSCD 北大核心 2005年第4期586-590,共5页 High Power Laser and Particle Beams
基金 国家杰出青年科学基金资助课题(60125102)
关键词 同轴线 遗传算法 时域有限差分法 阻抗变换器 并行运算 Coaxial line Genetic algorithm FDTD Impedance convertor Parallel calculation
分类号 TN624 [电子电信—电路与系统]
  • 相关文献

参考文献8

  • 1Bandler J W,Macdonald P A. Optimization of microwave networks by razor search[J]. IEEE T Trans Microwave Theory Tech, 1969,17(8):552-562.
  • 2Michalewicz Z. Genetic Algorithms + Data Structure = Evolution Programs[M]. Berlin: Spring-Verlag, 1996.
  • 3Sullivan D M. Electromagnetic simulation using the FDTD method[M]. New York: IEEE Press,2000.
  • 4王仁富.数值逼近[M].北京:高等教育出版社,1996..
  • 5Mahfoud S W, Goldberg D E. Parallel problem solving from nature[M]. Amsterdam: Elsevier, 1989.
  • 6陈星,黄卡玛,闫丽萍,赵翔.变形螺旋天线的自动设计[J].强激光与粒子束,2004,16(5):636-640. 被引量:7
  • 7Booton R C. Computational methods for electromagnetic and microwaves[M]. New York: John Wiley-Insterscience Publication, 1992.
  • 8周光镒,朱红刚.高功率微波脉冲大气传输的一些规律[J].强激光与粒子束,1996,8(4):485-490. 被引量:17

二级参考文献8

  • 1Kuo S P,Phys Fluids B,1991年,3卷,10期,2906页
  • 2King H E, Wong J L. Characteristics of 1 to 8 wavelength uniform helical antennas[J]. IEEE Trans Ant Propag, 1980, 28: 291-296.
  • 3Nakano H, Junji Y, Mimaki H. Backfire radiation from a monofilar helix with a small ground plane[J]. IEEE Trans Ant Propag,1988, 36(10): 1359-1364.
  • 4Emerson D T. Antenna compendium volume 4 [M]. USA: ARRL, 1995.
  • 5Richie J E,Gangl H R III. EFIE-MFIE hybrid simulation using NEC:VSWR for the WISP experiment[J]. IEEE Trans on Electromag Compat, 1995, 37(2): 293-296.
  • 6Peng J,Balanis C A,Barber G C. NEC and ESP codes: guidelines, limitations, and EMC applications[J]. IEEE Trans on Electromag Compat,1993, 35(2): 125-133.
  • 7Weile D S, Michielssen E. Genetic algorithm optimization applied to electromagnetics: a review[J]. IEEE Trans Ant Propag, 1997, 45(3): 343-353.
  • 8陈星,黄卡玛,赵翔.遗传算法在二维电磁成像病态方程求解中的应用研究[J].强激光与粒子束,2002,14(4):587-590. 被引量:7

共引文献22

同被引文献37

  • 1薛东海,王文祥,岳玲娜,魏彦玉,宫玉彬.曲折圆形槽波导慢波系统的高频特性[J].强激光与粒子束,2006,18(9):1535-1538. 被引量:6
  • 2吴常津.毫米波耦合腔行波管过渡波导的设计[J].真空电子技术,2006,19(6):1-4. 被引量:4
  • 3Keam R B,Williamson A G.Analysis of general coaxial-line/radial-line junction[J].IEEE Trans on Microwave Theory and Techniques,1993,141(3):516-520.
  • 4Krempasky J J.Analysis of TEM mode on a curved coaxial transmission line[J].IEEE Trans on Microwave Theory and Techniques,1990,38(6):327-330.
  • 5Kovalev N F,Khramtsov S P,Kladukhin V V.Coaxial wave transformer with bends[J].IEEE Trans on Microwave Theory and Techniques,2007,26(3):147-153.
  • 6Hese J V,Zutter D D.Modeling of discontinuities in general coaxial waveguide structures by the FDTD-method[J].IEEE Trans on Microwave Theory and Techniques,1992,40(3):472-477.
  • 7Yang Rugui.Electromagnetic field and electromagnetic wave[M].Beijing:Higher Education Press,2003:258-259.
  • 8Marcuvitz N.Waveguide handbook[K].Boston:Office of Scientific Research and Development National Defense Research Committee.1951:217-219.
  • 9Skolnik M I.Radar handbook[K].New York:McGraw-Hill,1990:564-565.
  • 10Booske J H,Converse M C,Kory C L,et al.Accurate parametric modeling of folded waveguide circuit for millimeter-wave traveling wave tubes[J].IEEE Trans on Electron Devices,2005,52(5):685-693.

引证文献5

二级引证文献11

强激光与粒子束
2005年 第4期

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