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基于渐进空间映射法的同轴腔体滤波器设计 被引量:4

Design of Coaxial Filter Based on Aggressive Space Mapping
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摘要 该文主要介绍了利用渐进空间映射法优化设计同轴腔体交叉耦合滤波器的方法。在HFSS和ADS软件中分别建立了滤波器的结构模型和等效电路模型,在ADS软件中进行了反映模型参数映射关系的参数提取,提取的参数精度高并且速度快。整个设计过程仅需进行5次精确模型仿真与5次粗糙模型仿真,即可优化得到一个十分接近理想响应的高性能四腔交叉耦合滤波器。从而证明了此优化方法的可行,高效。 This paper introduces the method of using aggressive space mapping technique to optimize the coaxial cavity cross-coupled filter.In the HFSS and ADS software,the structure model and the equivalent circuit model of the filter are established respectively,parameter extraction that reflected the mapping relationship was carried out in the ADS software,the extracted parameters is high accuracy and very fast.Throughout the design process only needed five accurate model simulations and five coarse model simulations,optimization can be very close to the ideal response of a high-performance four order cross-coupled filter.It is proved that this optimization method is feasible and efficient.
作者 徐迎虎 项铁铭
机构地区 杭州电子科技大学电子信息学院
出处 《杭州电子科技大学学报(自然科学版)》 2011年第2期29-32,共4页 Journal of Hangzhou Dianzi University:Natural Sciences
关键词 渐进空间映射法 交叉耦合滤波器 参数提取 aggressive space mapping cross coupling filter parameter extraction
分类号 TN713 [电子电信—电路与系统]
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参考文献5

  • 1Bandler J W, Biemacki R M, Chen S H, etal. Space mapping technique for electromagnetic optimization [ J ]. IEEE Trans on Microwave Theory Tech, 1994, 42(12) : 2 536 -2 544.
  • 2Chen Q S, Bandler J W, Kieoal S. Combining coarse and fine models for optimal design [ J ]. IEEE microwave magazine, 2008, 35(10) : 79 -88.
  • 3Koziel S, Bandler J W. Interpolated coarse models for microwave design optimization with space-mapping [ J ]. IEEE Trans on Microwave Theory Tech, 2007, 55(8) : 1 739 - 1 746.
  • 4李刚.基于改进渐进空间映射算法的滤波器设计方法[J].应用科技,2009,36(3):5-7. 被引量:1
  • 5Cameron R J. General coupling matrix synthesis methods for Chebyshev filtering functions [J]. IEEE Trans on Microwave Theory Tech, 1999,47 (4) :433 - 442.

二级参考文献8

  • 1BANDLER J W, CHENG Q S, DAKROURY S A. et al. Space mapping: the state of the art [J]. IEEE Trans on Microwave Theory Tech,2004,52( 10): 337-361.
  • 2KOZIEL S, BANDLER J W, MADSEN K. A space mapping frame work for engineering optimization: theory and implementation [J]. IEEE Trans on Microw Theory Tech, 2007 , 54 ( 10):3721- 3730.
  • 3KOZIEL S, BANDLER J W. Interpolated coarse models for microwave design optimization with spacemapping [J]. IEEE Trans on Microw Theory Tech, 2007,55 ( 8 ): 1739- 1746.
  • 4KOZIEL S, BANDLER J W. Space mapping with multiple coarse models for optimization of microwave components [J]. IEEE Trans on Microwave Theory Tech, 2008, 18( 1 ): 1 - 3.
  • 5LI Gang, DAI Xiwang, LIANG Changhong. Fast synthesis of coupled- resonator filters[J]. Journal of Electromagnetic Waves and Applications, 2008,22 (5):705- 714.
  • 6CAMERON R J. General coupling matrix synthesis methods for Chebyshev filtering functions [J] . IEEE Trans on Microwave Theory Tech, 1999, 47(4): 433-442.
  • 7MENG Wei, WU Keli. Analytical diagnosis and tuning of narrowband muhicoupled resonator filters [J]. IEEE Trans on Microw Theory Teeh, 2006, 54( 10):3765-3771.
  • 8MACCHIARELLA G, TRAINA D. A formulation of the cauchy method suitable for the synthesis of lossless circuit models of microwave filters from lossy measurements [J]. IEEE Microw Wireless Compon Letter, 2006, 16(5 ) : 243- 245.

同被引文献7

引证文献4

二级引证文献7

杭州电子科技大学学报(自然科学版)
2011年 第2期

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