典型光电系统强电磁脉冲耦合分析与加固方法  

作　　者：刘文聪 梁圆龙 黄贤俊 徐延林 姚理想 文奎 田涛[1] 刘培国[1] Liu Wencong;Liang Yuanlong;Huang Xianjun;Xu Yanlin;Yao Lixiang;Wen Kui;Tian Tao;Liu Peiguo(College of Electronic Science and Technology,National University of Defense Technology,Changsha 410076,China)

机构地区：[1]国防科技大学电子科学学院,长沙410076

出　　处：《强激光与粒子束》2024年第4期69-80,共12页High Power Laser and Particle Beams

基　　金：湖湘英才项目(2020RC3028);湖南省自然科学基金优秀青年项目(2022JJ20045)。

摘　　要：随着电磁环境的日益复杂,电子设备面临的电磁威胁愈加严峻。光电系统作为高灵敏集成化电子设备,强电磁脉冲能量耦合进入系统内部,影响防护能力本就薄弱的光电系统的正常运行。为明晰典型光电系统强电磁耦合过程,通过仿真分析不同强电磁辐照条件下筒型、侧窗型和多窗口型三种典型光电系统的强电磁耦合情况,提取了光电系统强电磁耦合特征及其制约因素,验证了光电系统进行强电磁防护加固的必要性和紧迫性。为解决光电系统强电磁防护能力薄弱的问题,通过仿真分析,验证了透明电磁防护窗口的强电磁加固效能;开展了基于支撑台阶与导电侧壁的电磁缝隙防护加固方法研究,分析了透明防护窗口缝隙耦合泄露的关键安装结构参数,提出了一种非电接触式装配缝隙强电磁防护加固方法。经测试,当缝隙防护结构长度为6 mm时,在0.2~4 GHz频率范围光电系统平均强电磁防护效能提升4.51 dB。研究结果为光电系统强电磁防护能力提升提供了理论指导和具体解决方案。With the increasing complexity of the electromagnetic environment,the threats posed of electromagnetic weapons to electronic equipment are becoming increasingly serious.As a sensitive integrated electronic device,the optoelectronic system is coupled with high-power electromagnetic pulse energy.This can disrupt the normal operation of the optoelectronic system,especially when it lacks sufficient electromagnetic protection.To clarify the high-power microwave coupling process of typical optoelectronic systems including barrel type,side window type,multi-window type under different irradiation conditions,simulations and analyses are conducted.The characteristics of high-power microwave coupling in optoelectronic systems and their constraints are extracted.The necessity and urgency of protecting reinforcing optoelectronic systems with high-power microwave are verified.For addressing the issue of weak high-power microwave protection ability in optoelectronic systems,the simulation analysis verifies the effectiveness of reinforcing transparent electromagnetic protection windows for high-power microwave.The study focuses in the method of electromagnetic gap protection and reinforcement,which is based on the support step and the conductive side wall.The key parameters of the installation structure for the gap coupling leakage of transparent electromagnetic protection windows are analyzed,and a method of non-electric contact assembly gap high-power microwave protection and reinforcement method is proposed.When the length of the gap protection structure is 6 mm,the average high-power microwave protection efficiency of the 0.2-4 GHz optoelectronic system increases by 4.51 dB.The study provides theoretical guidance and specific solutions for enhancing the high-power microwave protection capability of optoelectronic systems.

关 键 词：光电系统 强电磁耦合分析 透明防护光窗 电磁防护方法 

分 类 号：O441.4[理学—电磁学]