| Citation: | ZHENG Shengquan, DENG Feng, WANG Dongdong, HOU Dongyuan, LIU Peiguo. 电子设备和系统射频通道高功率微波电磁脉冲场—路综合防护方法综述[J]. Chinese Journal of Ship Research, 2015, 10(2): 7-14. doi: 10.3969/j.issn.1673-3185.2015.02.003
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高功率微波电磁脉冲辐射可以通过多种耦合途径进入敏感电子设备和系统,导致严重的干扰、扰乱甚至损坏,特别是通过天线耦合进入射频通道的电磁脉冲会破坏敏感器件。给出几种针对天线耦合的空间电磁脉冲场防护以及电路中敏感器件的电磁脉冲路防护新方法,探讨敏感系统的电磁脉冲场—路综合防护设计方法。利用专门设计的防护表面和防护模块,分别在天线前端对空间的电磁脉冲场和天线后端电路中的电磁脉冲电压或电流进行抑制,保护电路中的敏感模块免遭损坏,增加的场—路综合防护对工作信号的衰减控制在允许的范围之内。通过原理样件的测试表明,防护方法对带内和带外的高功率微波电磁脉冲具有良好的防护效果。
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GIRI D V, TESCHE F M. Classification of intentional electromagnetic environments (IEME)[J]. IEEE Transactions on Electromagnetic Compatability, 2004, 46(3):322-328.
|
|
IEC Technical Committee No. 77. IEC 61000-2-11 Electromagnetic compatibility (EMC) -Part 2-11: environment-classification of HEMP environments[S].International Electrotechnical Commission,1999.
|
|
BENFORD J,SWEGLE J A.高功率微波[M]. 吴诗信,莫伯锦,译. 成都:电子科技大学出版社,1996.
|
|
MIL-STD-464C Electromagnetic environmental effects requirements for systems[S]. Washington:US Department of Defense,2010.
|
|
郑生全,吴晓光,朱英富.舰船平台强电磁脉冲威胁与防护要求[J]. 微波学报,2010, 26(增刊2): 101-104. ZHENG Shengquan,WU Xiaoguang, ZHU Yingfu. Electromagnetic pulse treats to ship-flat and requirements of protection[J]. Journal of Microwaves, 2010, 26(Supp 2): 101-104.
|
|
LIU Q F, ZHENG S Q, DENG F,et al. Wideband pulse response of monopole antenna under impact of an EMP[C]//Proceedings of 2011 4th IEEE International Symposium on Microwave, Antenna, Propagation and EMC Technologies for Wireless Communications. Beijing: IEEE,2011:136-139.
|
|
赖祖武.高功率微波及核电磁脉冲的防护问题[J]. 微波学报,1995,11(1) :1-8. LAI Zuwu. The protection of HPM and NEMP[J]. Journal of Microwaves,1995,11(1):1-8.
|
|
ZHENG S Q, HOU D Y, LIU Q F, et al. Electromagnetic pulse threats to electronic information system and corresponding protection measures[C]//Proceedings of 2011 4th IEEE International Symposium on Microwave, Antenna, Propagation and EMC Technologies for Wireless Communications. Beijing: IEEE,2011:5-10.
|
|
YANG H Y, GONG S X, ZHANG P F, et al. A novel miniaturized frequency selective surface with excellent center frequency stability[J]. Microwave and Optical Technology Letters, 2009,51(10): 2513-2516.
|
|
YANG G H, ZHANG T, LI W L, et al. A novel stable miniaturized frequency selective surface[J]. IEEE Antennas and Wireless Propagation Letters, 2010, 9: 1018-1021.
|
|
LI W, ZHANG T, YANG G, et al. A novel frequency selective surface with improved miniaturization performance[J]. Journal of Electromagnetic Analysis and Applications, 2012, 4(3): 108-111.
|
|
PARKER E A, SAVIA S B. Active frequency selective surfaces with ferroelectric substrates[J]. IEE Proceedings -Microwaves, Antennas and Propagation, 2001, 148(2): 103-108.
|
|
CHANG T K, LANGLEY R J, PARKER E A. Active frequency-selective surfaces[J]. IEE Proceedings - Microwaves, Antennas and Propagation, 1996, 143(1): 62-66.
|
|
DENG F. Design of a new kind active frequency selective surface (FSS)[C]//Proceedings of 2013 IEEE 5th International Symposium on Microwave, Antenna, Propagation and EMC Technologies for Wireless Communications. Chengdu: IEEE,2013: 332-334.
|
|
杨成,黄贤俊,刘培国. 基于压控导电结构的能量选择表面防护机理和仿真实验研究[J]. 中国舰船研究,2012,7(3):98-103. YANG Cheng, HUANG Xianjun, LIU Peiguo. Protection and simulation of energy selective surface based on voltage conductive structure[J]. Chinese Journal of Ship Research, 2012,7(3):98-103.
|
|
DENG F, DING F, ZHENG S Q. Research on FREMP protection module in RF channel of HF/VHF band[C]//Proceedings of 2011 4th IEEE International Symposium on Microwave, Antenna, Propagation and EMC Technologies for Wireless Communications. Beijing: IEEE,2011: 520-523.
|
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