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基于非均匀设计的高口径效率Fabry-Perot谐振腔天线 被引量:1

A novel Fabry-Perot resonant antenna with high aperture efficiency based on non-uniform design
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摘要 Fabry-Perot(F-P)谐振腔天线通常易实现高增益,但由于口径场非均匀的电磁场分布,使得其在大口径尺寸下的口径效率较低。本文设计了一种新型的F-P谐振腔天线,该天线采用非均匀特异媒质覆盖层实现口径场等幅分布,并通过非均匀特异媒质反射地实现口径场同相分布,从而提升F-P谐振腔天线在大口径尺寸下的口径效率。基于射线追踪法,推导了非均匀覆盖层和非均匀反射地的设计公式。本文设计、加工并测试了一款口径尺寸为5.18λ(λ为自由空间波长)的圆形F-P谐振腔天线。仿真和测试结果吻合良好,|S11|<-10 d B的阻抗带宽为4.14%(5.740~5.980 GHz);在工作频点5.8 GHz处,该新型F-P谐振腔天线的增益为23.8 d Bi,与传统F-P谐振腔天线相比,其口径效率从78.9%提高到90.5%。 Due to the non-uniform Electromagnetic(EM)field distribution over the superstrate,the Fabry-Perot Resonant Antenna(FPRA)is normally with high directivity but relatively low aperture efficiency when its aperture size is electrically large.A novel FPRA is proposed,both of whose superstrate and ground are designed to be non-uniform metamaterial,so as to realize the equal amplitude and cophasal distributions respectively for its aperture electromagnetic field,and thus enhance its aperture efficiency when its aperture size is electrically large.Based on the ray-tracing method,a set of formula for designing the non-uniform superstrate and ground are deduced.As a sample,a cylindrical FPRA with an aperture diameter of 5.18λ(λis the free space wavelength)is designed,fabricated and measured.Measured results agree well with simulated ones.It possesses an impedance bandwidth of 4.14%(5.740-5.980 GHz)when|S 11|<-10 dB.At working frequency of 5.8 GHz,its directivity is 23.8 dBi.In comparison with a conventional FPRA with uniform superstrate and ground,the proposed FPRA increases the aperture efficiency from 78.9%to 90.5%.
作者 文鸿 陈星 WEN Hong;CHEN Xing(School of Electronic and Information Engineering,Sichuan University,Chengdu Sichuan 610065,China)
机构地区 四川大学电子信息学院
出处 《太赫兹科学与电子信息学报》 北大核心 2018年第1期115-118,125,共5页 Journal of Terahertz Science and Electronic Information Technology
关键词 口径效率 F-P谐振腔天线 非均匀特异媒质覆盖层 非均匀特异媒质反射地 aperture efficiency Fabry-Perot Resonant Antenna Non-uniform Metamaterial Inspired Superstrate Non-uniform Metamaterial Inspired Ground
分类号 TN828 [电子电信—信息与通信工程]
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  • 1Foroozesh A,Shafai L. Modeling, simulation, design and fabrication of a high-gain cavity resonance antenna having ahighly-reflective patch-type FSS superstrate[C]// Antenna Technology and Applied Electromagnetics and the CanadianRadio Science Meeting, 2009. Toronto:IEEE, 2009:1-4.
  • 2Mateo-Segura C,Feresidis A P,Goussetis G. Analysis of broadband highly-directive Fabry-Perot cavity leaky-waveantennas with two periodic layers[C]// Antennas and Propagation Society International Symposium(APSURSI), 2010.Toronto:IEEE, 2010:1-4.
  • 3Feresidis A P,Goussetis G,WANG S,et al. Artificial magnetic conductor surfaces and their application to low-profile highgainplanar antennas[J]. IEEE Transactions on Antennas & Propagation, 2005,53(1):209-215.
  • 4ZHU L,Joishi I,Yamashita E. Characterization of microstrip patch antennas suspended by a dielectric superstrate with highpermittivity[C]// Antennas and Propagation Society International Symposium,1996. Baltimore,MD,USA:IEEE, 1996:704-707.
  • 5Foroozesh A,Shafai L. Investigation into the effects of the patch-type FSS superstrate on the high-gain cavity resonanceantenna design[J]. IEEE Transactions on Antennas & Propagation, 2010,58(2):258-270.
  • 6Mittra R,LI Y,Yoo K. A comparative study of directivity enhancement of microstrip patch antennas with using threedifferent superstrates[J]. Microwave & Optical Technology Letters, 2010,52(2):327–331.
  • 7Weily A R,Esselle K P,Sanders B C,et al. High-gain 1D EBG resonator antenna[J]. Microwave & Optical TechnologyLetters, 2005,47(2):107–114.
  • 8Foroozesh A,Shafai L. On the design of high-gain resonant cavity antennas using different highly-reflective frequencyselective surfaces as the superstrates[C]// Antennas and Propagation Society International Symposium (APSURSI), 2010.Toronto:IEEE, 2010:1-4.
  • 9Foroozesh A,Shafai L. Investigation into the application of artificial magnetic conductors to bandwidth broadening, gainenhancement and beam shaping of low profile and conventional monopole antennas[J]. IEEE Transactions on Antennas &Propagation, 2011,59(1):4-20.
  • 10Trentini G V. Partially reflecting sheet arrays[J]. IEEE Transactions on Antennas & Propagation Ire, 1956,4(4):666-671.

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太赫兹科学与电子信息学报
2018年 第1期

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