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对某电子设备典型后门耦合效应的仿真分析 被引量:2

Simulation Analysis on Typical Back-door Coupling Effect of One Electronic Equipment
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摘要 为了研究某型电子设备的电磁耦合规律,利用电磁仿真软件FEKO建立了设备模型和所需的电磁场环境.研究表明:无内部设备,当频率在400 MHz以上时设备内部准中心位置呈现中心聚集效应和明显的窗口耦合;有内部设备,当频率在50 MHz时门缝处电磁耦合明显,明显的耦合现象发生在500 MHz以上频率,内部设备附近产生强耦合场;在平面电磁波作用下,设备内部电场强度随频率增加逐渐均匀化且数值增大,后门窗口处效应呈现明显增强,内部电磁场发生畸变;仿真结果为实际试验和具有类似尺寸孔隙的设备提供了参考. In order to study the electromagnetic coupling law of one electronic equipment, electromagnetic simulation software FEKO was used to set up the equipment model and typical electromagnetic field environments. Data showed :with no inner equipment, centre gathering and obvious window coupling presented around the centre position of the equipment above 400 MHz; with inner equipment,obvious electromagnetic coupling in the slot appeared at 50 MHz, and the obvious coupling phenomenon took place above 500 MHz, with strong coupling field existing near the inside equipment;in the plane-wave field, the electric field intensity developed to symmetrical state and the value increased gradually with frequency rising, and the obvious enhancement effect appeared in the window place of offered reference for testing and back door, while electromagnetic field equipment with holes of similar size. distortion happened; the simulation result
出处 《河北师范大学学报(自然科学版)》 CAS 北大核心 2008年第1期42-45,48,共5页 Journal of Hebei Normal University:Natural Science
基金 国家自然科学基金(50237040)
关键词 FEKO 孔缝 电磁耦合 电子设备 FEKO hole electromagnetic coupling electronic equipment
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  • 1邱扬,王世萍,赵惇殳,宋雅玲.小孔矩形腔体屏蔽特性的研究[J].通信学报,1994,15(5):75-81. 被引量:8
  • 2虞国寅,徐鹏根,鲁述.强电磁脉冲的小孔耦合[J].电波科学学报,1996,11(2):76-80. 被引量:5
  • 3王长清,电磁场计算中的时域有限差分法,1994年
  • 4Robinson M P, Benson T M, Christopoulos C, et al. Analytical formulation for the shielding effectiveness of enclosures with apertures[J].IEEE Trans on Electromagnetic Compatibility,1998,40(3):240-248.
  • 5Belokour I,LoVetri J,Kashyap S. Shielding effectiveness estimation of enclosures with apertures[A].IEEE Electromagnetic Compatibility Symposium Proceeding[C].2000.855-860.
  • 6Turner J D,Benson T M, Christopoulos C, et al. Characterization of the shielding effectiveness of equipment cabinets containing apertures[A].Int Symp EMC[C].Rome,Italy,1994.75-79.
  • 7Taflov A. Computational electrodynamics[M]. Boston: Artech House Inc Press, 1995.
  • 8Kunz K. The finite difference time domain method for electromagnetics[M]. Florida: CRC Press,1993.
  • 9Mur G. Absorbing boundary conditions for the finite-difference approximation of the time-domain electromagnetic-field equations[J]. IEEE Trans Electromagn Compat, 1981, (Emc-23):377-382.
  • 10刘顺坤,傅君眉,陈雨生,周辉,邱爱慈.快上升前沿电磁脉冲与目标腔体的孔腔共振效应研究[J].强激光与粒子束,1999,11(4):495-498. 被引量:8

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