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基于UC-EBG的吸波结构设计及其在微带天线中的应用

Design of an Absorber Based on UC-EBG and its Application in Microstrip Antenna
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摘要 在共面紧凑型光子晶体结构(Uniplanar Compact Electromagnetic Bandgap,UC-EBG)基础上加载集总电阻,设计出一种新型吸波结构,并分析了其吸波原理。将其加载于微带天线,用于减缩天线带内雷达散射截面(Radar Cross Section,RCS)。仿真结果表明,在谐振频点,该吸波结构的吸波率达到99.8%。加载该结构后,天线的辐射性能基本保持不变,而对于垂直入射的TE波和TM波,其带内RCS分别减缩了26.22 dB和15.08 dB。实测结果与仿真结果较为吻合,证实了该结构可以减缩微带天线的带内RCS,从而提高其带内隐身性能。 A novel absorber is proposed based on Uniplanar Compact Electromagnetic Bandgap(UC-EBG) with lumped resistance, and its operating mechanism is analyzed. The new absorber is loaded on rnierostrip antenna to reduce antenna's in-band Radar Cross Section(RCS). The simulated result shows that its absorptivity reaches 99.8 % at operating frequency. The loaded antenna's radiation performance has not been influenced a lot, while for the incident wave of rITE and TM mode, the in-band RCS of antenna has declined by 26.22 dB and 15.08 dB respectively. There is a good agreement between measured and simulated results, which verifies that this ab- sorber can be used for reduction of antenna's in-band RCS so as to improve its in-band stealth performance.
作者 张浩 曹祥玉 杨欢欢 赵一 郑秋容
机构地区 空军工程大学信息与导航学院
出处 《电讯技术》 北大核心 2013年第7期944-948,共5页 Telecommunication Engineering
基金 国家自然科学基金资助项目(61271100) 陕西省自然科学基础研究重点项目(2010JZ010) 陕西省自然科学基础研究项目(2012JM8003)~~
关键词 微带天线 吸波结构 UC—EBG 带内隐身 RCS缩减 microstrip antenna absorber UC-EBG in-band stealth RCS reduction
分类号 TN82 [电子电信—信息与通信工程]
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参考文献13

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2013年 第7期

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