强激光与粒子束, 2012, 24 (3): 723, 网络出版: 2012-05-08
等阻抗超宽带高能微波发生器模拟研究
Simulation analysis of ultra-wideband high power microwave generator based on impedance-matched pulse-forming-line technology
超宽带高功率微波发生器 皮秒脉冲功率技术 纳秒脉冲功率技术 Marx发生器 ultra-wideband high power microwave generator picosecond pulsed power technology nanosecond pulsed power technology Marx generator
摘要
基于等阻抗-双脉冲成形线技术,建立了一个超宽带高能高功率微波发生器理论模型。计算机模拟结果表明:利用等阻抗超宽带高功率微波发生器,可以同时产生纳秒主脉冲和皮秒前沿脉冲;通过控制皮秒脉冲成形线输出开关闭合的延迟时间,可以调制皮秒脉冲和纳秒脉冲的输出电压比值;通过调节纳秒脉冲成形线与皮秒脉冲成形线的电容比值,可以控制皮秒脉冲的脉宽和皮秒脉冲的峰值电压;利用等阻抗超宽带高功率微波发生器,可以最大限度地提高辐射脉冲能量和整个系统的能量转换效率。
Abstract
According to the impedance-matched pulse-forming-line technology, the theoretical model of an ultra-wideband high power microwave generator is established, and corresponding simulations are carried out. The results show that, the generator can generate a nanosecond pulse and a front picosecond pulse, with the impedance-matched technology. The switching delay of picosecond switch has an influence on the picosecond pulse voltage, and smaller capacitance of the picosecond pulse-forming-line leads to higher radiated pulse voltage and narrower picosecond pulse-width. The transfer efficiency of stored energy in pulse-forming-lines to microwave is 100% in theory.
高怀林, 刘濮鲲, 阮存军. 等阻抗超宽带高能微波发生器模拟研究[J]. 强激光与粒子束, 2012, 24(3): 723. Gao Huailin, Liu Pukun, Ruan Cunjun. Simulation analysis of ultra-wideband high power microwave generator based on impedance-matched pulse-forming-line technology[J]. High Power Laser and Particle Beams, 2012, 24(3): 723.