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低频补偿超宽带TEM喇叭天线的研究与设计 被引量:1

Research and Design on Low Frequency Compensated Ultra-wideband TEM Horn Antenna
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摘要 设计和仿真了一种组合式的超宽带TEM喇叭天线。通过采用指数渐变的TEM喇叭天线与矩形框的组合形式,扩展了天线的低频截止频率。同时,为了提高高频端天线的增益,对天线口面做圆弧过渡。使用电磁仿真软件CST Microwave Stu-dio。进行建模与仿真分析。根据仿真结果制作了天线,在微波暗室内进行测试。结果表明,天线在0.78~20GHz的频带内反射损耗小于2.5,比带宽达到了25.6:1,在整个工作频段内平均增益为10dBi,达到了预期的设计目的。 A composite uhra-wideband TEM horn antenna is designed and simulated. A exponentially gradient TEM horn antenna is combined with a rectangular frame, in order to extend the lowest working frequency. Mean- while, to enhance the antenna gain in the higher frequency range, an arc transition is adopted at the aperture. Modeling and simulation is carried out with the help of EM simulation software CST Microwave Studio. According to the simulation results, the antenna prototype is manufactured and tested in the chamber. The results show that VSWR is lower than 2.5 in the frequency range of 0. 78 -20 GHz, resulting in the bandwidth ratio of 25.6: 1. The average gain is 10dBi in the whole frequency range, which meets the prospective requirement.
作者 特尼格尔 张宁 邱景辉
机构地区 哈尔滨工业大学电子与信息工程学院
出处 《科学技术与工程》 北大核心 2014年第8期186-189,共4页 Science Technology and Engineering
关键词 超宽带TEM喇叭天线 阻抗匹配 UWB TEM horn antenna impedance match
分类号 TN822.8 [电子电信—信息与通信工程]
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参考文献7

  • 1Jacobs B,Odendaal J W,Joubert J. An Improved Design for a 1 -- 18 GHz Double-Ridged Guide Horn Antenna. Antennas and Propagation, IEEE Transactions on. 2012 ; 60 (9) : 4110- 4118.
  • 2Karshenas F, Mallahzadeh A, R Imani A. Modified TEM horn antenna for wideband applications. ANTEM/URSI,2009:I-5.
  • 3Xiaodong Zhuge, Yarovoy A. Design of low profile antipodal Vivaldi antenna for ultra-wideband near-field imaging. Antennas and Propaga- tion(EuCAP) , 2010: 1- 5.
  • 4夏景,孔娃,王刚.低频补偿TEM喇叭天线的仿真与测试[J].现代雷达,2010,32(3):73-76. 被引量:4
  • 5王长华,王秩雄,宋爱民,牛红波.超宽带TEM喇叭天线的研究[J].通信技术,2010,43(4):34-36. 被引量:6
  • 6廖勇,张秦岭,陆巍,谢平,李科,杨周炳,孟凡宝,周海京.TEM喇叭天线低频补偿实验研究[J].强激光与粒子束,2005,17(8):1247-1250. 被引量:11
  • 7Ameri A A H, Kompa G,Bangert A. Study about TEM horn size re- duction for uhrawideband radar application. Microwave Conference ( GeMIC ), German, 2011 : 1-4.

二级参考文献18

  • 1廖勇,张秦岭,陆巍,谢平,李科,杨周炳,孟凡宝,周海京.TEM喇叭天线低频补偿实验研究[J].强激光与粒子束,2005,17(8):1247-1250. 被引量:11
  • 2席晓莉,原艳宁,易超龙,汪文秉.电-磁振子组合型超宽带天线数值分析[J].强激光与粒子束,2007,19(1):103-106. 被引量:6
  • 3周海京.高功率微波传输及超宽带辐射技术研究[R].北京:北京应用物理与计算数学研究所,2000.
  • 4Vogel M H.Design of the low-frequency compensation anextreme-bandwidth TEM horn and len IRA[C]//Ultrawideband Short-pulse Elect romagnetic3.New York:Pienum Press,1997:07-105.
  • 5Liu Xiaolong,Wang Gang,Wang Wenbing.Design and performance of TEM horn antenna with low-frequency compensation[C]//The Third Asia-Pacific Conference on Environmental Electromagneties.Hangzhou:CIC Press,2003:306-309.
  • 6Koshelev V I,Buyanov Y I,Andreev Y A.Uhrawideband radiators of hish-power pUdses[C]//Proc 13 IEEE Inter Pulsed Power Conference.Las Vegas,Nevada:IEEE Press,2001:1661-1664.
  • 7Luebbers R J,Kunz K S,Schneider M.A finite-difference time-domain near zone to far zone transformation[J].IEEE trans on antennas and propagation,1991,39(4):429-431.
  • 8Peters J L,Daniels J J,Young J D.Ground Penetrating Radar as A Subsurface Environmental Sensing Tool[J].Proceedings of the IEEE,1994,82(12):1802-1822.
  • 9Thedorou E A.Broadband Pulse-optimised Antenna[J].Proceedings of the IEEE,1981,128 (03):124-130.
  • 10Lizuka K.The Traveling Wave V-antenna and Related Antenna[J].IEEE Transactions on Antennas and Propagation,1967(15):312-320.

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科学技术与工程
2014年 第8期

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