HFSS零极点匹配方法在频率选择表面中的应用
毕业论文关键词: 频率选择表面 EBG 零极点匹配 传输线网络 周期表面
Title A Pole-Zero Matching Method for EBGSurfaces Composedof a Dipole FSS Printed on a Grounded Dielectric SlabAbstractFrequency selective surface (FSS) has the frequency selective properties fordifferent working frequencies、polarization and incident angles.It plays anImportant role in electromagnetic stealth,electromagnetic compatibility,military telecommunication, electromagnetic counter work, etc. To be differentfrom the previous frequency selective surface analysis method,this article putforward a view which includes solving EBG Surfaces Composed of a Dipole FSSproblems with the pole-zero matching method.The steps are mainly about simulatingthe units with transmission line networks,then extract the opposite pole-zeroby the phase curve of the S parameter.Next,work out the constant 0 C in theadmittance equation with the matlab according to the related formula. And inversethe phase curve of the S parameter to contrast the simulated phase curve.Choosethe most optimized 0 C .At the same time,according to the different pole-zero ofthe different incident angle,fit the relationship of iP - and iZ - .therefore,assoon as the incident angle is given,we can count out 0 C 、 iP 、 iZ ,and then getthe admittance equation.This method is more simple than others.
Keywords Frequency selective surfaces(FSS),electromagnetic bandgapstructures(EBG),pole-zero matching,transmission line networks,periodic surfaces
目 次
1 绪论 1
11 频率选择表面的基本概念 1
12 频率选择表面的国内外研究现状 2
13 全文的研究内容与章节安排 2
14 本章小结 3
2 电磁带隙结构频率选择表面基本理论 4
21 电磁带隙结构 4
22 频率选择表面的工作机理 4
23 频率选择表面的影响参数 4
24 本章小结 5
3 频率选择表面的基本设计思路 6
31 EBG 结构的频率选择表面设计 6
32 入射波的角度与平面特性 6
33 FSS 传输线网络及公式推导 7
34 零极点综合 9
35 本章小结 10
4 传输线结构的频率选择表面仿真与分析 11
41 CST 中模型建立及仿真设置 11
42 CST 中仿真结果分析 13
43 matlab仿真结果分析 16
44 优化仿真结果 24
45 本章小结 26
5 零极点匹配法结果整理 27
51 入射角度与零极点频率的关系整理 27
52 入射角度与与 0 C 的关系整理 34
53 本章小结 35
结论 37
致谢 38
参考文献 39
附录 A 40
1 绪论
1.1 频率选择表面的基本概念
频率选择表面(Frequency Selective Surface),简称 FSS 。FSS 是一种由谐振单元在介质层上按二文周期性排列构成的单层或多层准平面结构,FSS 可分为两类:贴片型和缝隙型【1】。
在本篇论文中主要研究的是缝隙型FSS。
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