现代应用物理2025,Vol.16Issue(3):76-85,10.DOI:10.12061/j.issn.2095-6223.202410006
6 MV或更高电压HEMP模拟装置驱动源技术路线理论分析
Theoretical Analysis of Single-Sided and Double-Sided Driving Source Technologies for High-Altitude Electromagnetic Pulse Simulator With Voltages of 6 MV or Higher
摘要
Abstract
A comparative analysis is discussed of single-sided and double-sided driving source technologies for MV-level high-altitude electromagnetic pulse(HEMP)simulator.The similarities,differences,as well as the advantages and disadvantages of the two driving source technologies are analyzed from the perspectives of overall technology,primary pulse source,transfer stage components,and peaking stage components.Public literature is summarized to analyze the existing mature technologies and the incremental technology breakthroughs required to achieve 6 MV or higher voltage-level simulator systems.It is considered that for the single-sided driving source technology,the key is the development of high-voltage peaking capacitor,and for the double-sided driving source technology,the key is the synchronization of two pulse sources,and how to ensure the breakdown stability when the output switch is applied pulses with different rise-time.Before designing and developing 6 MV or higher-voltage HEMP simulators,it is necessary to conduct some pre-research work to address the above-mentioned problems,and to reasonably choose the technology route of higher-voltage HEMP simulator's driving source based on the indicators achieved in the pre-research work.关键词
高空电磁脉冲模拟装置/单边驱动/双边驱动/同步性能/绝缘性能/击穿稳定性Key words
high-altitude electromagnetic pulse(HEMP)simulator/single-sided driving source techno-logy/doulble-sided driving source technology/synchronization performance/insulation performance/breakdown stability分类
信息技术与安全科学引用本文复制引用
陈志强,吴伟,贾伟,郭帆,冯寒亮,夏良斌..6 MV或更高电压HEMP模拟装置驱动源技术路线理论分析[J].现代应用物理,2025,16(3):76-85,10.基金项目
强脉冲辐射环境模拟与效应全国重点实验室基金资助项目(NKLIPR2420) (NKLIPR2420)
