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频率选择表面天线罩研究现状与发展趋势

鲁戈舞 张剑 杨洁颖 张天翔 寇元

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频率选择表面天线罩研究现状与发展趋势

鲁戈舞, 张剑, 杨洁颖, 张天翔, 寇元

Status and development of frequency selective surface radome

Lu Ge-Wu, Zhang Jian, Yang Jie-Ying, Zhang Tian-Xiang, Kou Yuan
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  • 由于雷达天线系统自身工作的特点, 他必须保证自身雷达波的正常接收和发射, 常用的隐身措施无法简单地在雷达天线隐身中获得应用. 采用频率选择表面 (FSS) 技术与天线罩技术相结合形成FSS天线罩, 可以使天线罩获得频率选择的功能. 即FSS天线罩对雷达的工作频段提供带通的传输特性, 同时改变雷达工作频段以外的雷达散射截面 (RCS) 特性, 可以实现带外隐身. 本文分析了FSS天线罩制备的基本思路, 综述了国内外FSS天线罩在结构设计、制造工艺等方面的研究状况, 并从多频FSS天线罩、智能FSS天线罩、厚屏FSS天线罩、 微型化FSS天线罩以及各技术的组合等方面对FSS天线罩的发展进行了展望.
    Due to the working characteristics of radar system, i.e. it has to ensure the emission and acceptance of its own radar wave, frequency selective surface (FSS) radome is the most effective stealthy way to give radome the function of frequency-selective. Combining the FSS technique and the radome together, FSS radome provides bandpass transmission properties in the operating frequency of radar, and changes the RCS characteristics of the antenna compartment when it is beyond the antennas operating frequency range, thus it is a realization of out-of-band stealth. This paper introduces the basic design of FSS radome technology and summarizes the research status of FSS radome in the structure design and the technology. The muti-band FSS radome, intelligent FSS radome, thick-screen FSS radome, miniaturized element FSS radome and the technologies to construct radome are predicted to be the perspective of FSS radome.
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  • [1]

    Jia H Y, Gao J S, Feng X G, Sun C L 2009 Acta Phys. Sin. 58 0505 (in Chinese) [贾宏燕, 高劲松, 冯晓国, 孙连春 2009 58 0505]

    [2]

    Kim P C, Lee D G, Lim W, Seo I S 2009 Compos. Struct. 90 242

    [3]

    Kim P C, Lee D G, Seo I S, Kim G H 2008 Compos. Struct. 80 299

    [4]

    Kim P C, Lee D G, Seo I S, Kim G H L 2008 Compos. Sci. Technol. 68 2163

    [5]

    Lu J, Gao J S, Sun C L 2003 Mater. Sci. Technol. 9 1 (in Chinese) [卢俊, 高劲松, 孙连春 2003 材料科学与技术 9 1]

    [6]

    Wang H Q, Zhu M, Wu Z 2004 Ship Electron. Eng. 24 301 (in Chinese) [王焕青, 祝明, 武哲 2004 舰船电子工程 24 301]

    [7]

    Mittra R 2001 IEEE Antennas Propag. Soc. AP-S Int. Symp. Dig. 4 370

    [8]

    Prakash V V S, Huang N T, Mittra R 2003 Twelfth International Conference on Antennas and Propagation 1 401

    [9]

    Liu X C 1989 Aircraft Design 1 13 (in Chinese) [刘晓春 1989 飞机设计 1 13]

    [10]

    Kieturtz 1961 IRE Trans. Antennas and Propag. 11 506

    [11]

    Pelton E L, Munk B A 1974 Antenna. Propag. 32 799

    [12]

    Pelton E L, Munk B A 1979 Antenna. Propag. 27 323

    [13]

    Chakravarty S, Mittra R, Williams N R 2002 IEEE Trans. Antennas Propag. 50 284

    [14]

    Philips B, Parker E A 1995 IEE Proc.-Microw. Antannas Propag. 142 193

    [15]

    Chang T K, Langley R J, Parker E A 1996 IEE Proc.-Microw. Antannas Propag. 143 62

    [16]

    Parker E A, Philips B, Langley R J 1995 IEEE Microw. Guided Wave Lett. 5 338

    [17]

    Behdad N, Al-Joumayly M A 2010 IEEE Trans. Antennas Propag. 58 2460

    [18]

    Behdad N, Al-Joumayly M A, Salehi M 2009 IEEE Trans. Antennas Propag. 57 460

    [19]

    Behdad N 2008 Microw. Opt. Technol. Lett. 50 1639

    [20]

    Li M, Behdad N 2012 IEEE Trans. Antennas Propag. 60 2109

    [21]

    Kim P C, Lee D G 2009 J. Adhesion Sci. Technol. 23 215

    [22]

    Antonopoulos C, Cahill R, Parker E A, Sturland I M 1997 IEEE Trans. Antennas Propag. 144 415

    [23]

    Zhuang W, Fan Z H, Ding D Z, Chen R S 2008 Art of Miniaturizing RF and Microwave Passive Components 224

    [24]

    Fang C Y 2011 Ph.D. Dissertation (Changchun: Changchun University of Science and Technology) (in Chinese) [方春易 2011 博士学位论文 (长春: 长春理工大学)]

    [25]

    Li X Q, Gao J S, Zhao J L, Shen C L 2008 Acta Phys. Sin. 57 3803 (in Chinese) [李小秋, 高劲松, 赵晶丽, 沈春连 2008 57 3803]

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    [27]

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    [35]

    Meng Z J, Lv M Y, Wu Z, Zhu M 2010 Opt. Precision Eng. 18 1175 (in Chinese) [蒙志君, 吕明云, 武哲, 祝明 2010 光学精密工程 18 1175]

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出版历程
  • 收稿日期:  2013-04-16
  • 修回日期:  2013-05-28
  • 刊出日期:  2013-10-05

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