具有快速上升时间的高压发生器,用于EMP仿真

H. Schilling, J. Schluter, M. Peters, K. Nielsen, J. T. Naff, H. Hammon
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引用次数: 26

摘要

德国明斯特WWDBw的1 mv EMP模拟器是在20世纪70年代后期开发的。脉冲电源系统由加利福尼亚州圣莱安德罗的物理国际公司(PI)提供,包括一个马克思发生器和一个峰值电路/传输线脉冲发射系统,该系统包含在一个充满绝缘气体R-12(氟利昂)的塑料外壳(气体箱)内。自WWDBw模拟器首次投入使用以来,多年来出现了两个主要问题:(1)向大气中排放氟利昂-12被认为对自然环境有害,(2)最近的EMP研究表明,模拟场上升时间可能需要比十年前的10 ns要求快得多。WWDBw已与PI签订合同,提供必要的修改,以消除气体室中的R-12,并设计和开发一种脉冲发生器,提供更快的上升时间。PI的改进已经在970 kV的空气环境下实现了可靠的、可重复的操作,上升时间小于7 ns。此外,PI还设计、制造并测试了一个脉冲发生器,其上升时间为1ns,输出电压为300至500kv,脉冲宽度为30至100ns。该脉冲发生器与1 MV脉冲发生器接口兼容,因此任何一个脉冲发生器都可用于驱动90 /spl ω /波导。快速上升时间脉冲发生器使用现有的马克思给一个类似于现有峰值电容器的转移电容器充电。在转换开关闭合时,一个非常低的电感峰值电容被充电。随后闭合低电感输出开关启动快速上升时间波。
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High voltage generator with fast risetime for EMP simulation
The 1-MV EMP simulator at WWDBw, Munster, Germany, was developed during the late 1970s. The pulsed power system, supplied by Physics International Company (PI) of San Leandro, CA, includes a Marx generator and a peaking circuit/transmission line pulse launch system contained within a plastic housing (gas box) filled with the insulating gas R-12 (freon). Two major concerns have developed over the years since the WWDBw simulator was first dedicated: (1) the venting of freon-12 into the atmosphere is considered harmful to the natural environment, and (2) the most recent EMP studies show that simulated field risetimes might need to be considerably faster than the 10 ns requirements of ten years ago. WWDBw has contracted with PI to provide modifications as necessary to eliminate R-12 from the gas house and to design and develop a pulser providing faster risetimes. PI's modifications have achieved reliable, reproducible operation at 970 kV in an air environment with risetimes less than 7 ns. In addition, PI has designed, fabricated and tested a pulser for risetimes of 1 ns, 300 to 500 kV output voltage, and 30 to 100 ns pulsewidth. The pulser is compatible with the 1 MV pulser interface so that either pulser can be used to drive the 90 /spl Omega/ waveguide. The fast risetime pulser uses the existing Marx to charge a transfer capacitor similar to the existing peaking capacitors. Upon closure of the transfer switch, a very low inductance peaking capacitor is charged. Subsequent closure of a low inductance output switch launches the fast risetime wave.
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