摘要
为解决低轨道侦察卫星的侦察行动使战场丧失隐蔽性的问题,采用电磁脉冲攻击卫星接收机的毁伤方法,利用电磁仿真软件CST、电路仿真软件ADS对电子目标进行建模,进行电磁脉冲辐照模拟试验。结果表明,高功率微波发射源以30 GW的发射功率、70 dB的发射增益,在距离目标400 km处,可造成接收机设备部分器件损毁;若以30 GW的发射功率、90 dB的发射增益、在距离目标400 km处,可造成接收机设备完全损毁。结果验证了电磁脉冲武器攻击低轨道微小卫星接收机方案的可行性。
Aiming to solve the problem that the reconnaissance actions of satellites in low orbit make the battlefield lose stealthiness,a method of electromagnetic pulse is utilized to damage the satellite receiver.The electromagnetic simulation software CST and circuit simulation software ADS are used to model electronic targets and conduct electromagnetic pulse irradiation simulation experiments are carried out.The results show that high-power microwave emission sources with a transmission power of 30 GW,a transmission gain of 70 dB,and a distance of 400 km from the target can cause damage to some components of the receiver equipment;If the transmission power is 30 GW,the transmission gain is 90 dB,and the distance from the target is 400 km,it can cause complete damage to the receiver equipment.The results verify the feasibility of the scheme for the electromagnetic pulse weapon attacking micro satellite receiver in the low orbit.
作者
雷文博
张国伟
何瑞龙
高燕婷
LEI Wenbo;ZHANG Guowei;HE Ruilong;GAO Yanting(School of Mechatronics Engineering,North University of China,Taiyuan 030051,China)
出处
《火力与指挥控制》
CSCD
北大核心
2024年第4期164-169,共6页
Fire Control & Command Control
关键词
侦察卫星
接收天线
高功率微波
前门耦合
毁伤效应
数值仿真
communication satellites
receiving antenna
high power microwave
front door coupling
damage effect
numerical simulation
