Design and Performance of a 4 mv, 14 kj Marx Generator

2019 IEEE Pulsed Power & Plasma Science (PPPS) Pub Date : 2019-06-01 DOI:10.1109/PPPS34859.2019.9009944
J. Mayes, C. Hatfield, J. Byman, D. Kohlenberg, P. Flores
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Abstract

Applied Physical Electronics, L.C. (APELC) has designed, built, and characterized a large Marx generator capable of a maximum erected voltage of 4 MV and a maximum pulse energy of 14.5 kJ. The generator is charged using a dual polarity charging topology, which helps reduce the source impedance to approximately 70 Ohms. When driving a matched resistive load, a peak power of 230 GW is delivered, with an approximate rise time of 100 ns and a pulse width of approximately 300 ns. The generator is uniquely designed to be generally insulated with transformer oil, but switched in a dry air medium. The 42 spark gap switches are uniquely grouped in sets of six, bringing in the advantages of UV coupling, and gap pre-ionization, to better switching performance.
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4mv, 14kj马克思发电机的设计与性能
应用物理电子,L.C. (APELC)设计,制造并表征了一个大型马克思发电机,其最大架设电压为4 MV,最大脉冲能量为14.5 kJ。发电机使用双极性充电拓扑进行充电,这有助于将源阻抗降低到约70欧姆。当驱动匹配的电阻性负载时,输出的峰值功率为230 GW,上升时间约为100 ns,脉宽约为300 ns。发电机的独特设计是通常与变压器油绝缘,但在干燥空气介质中切换。42个火花间隙开关独特地分为6组,带来了紫外线耦合和间隙预电离的优势,以更好的开关性能。
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2019 IEEE Pulsed Power & Plasma Science (PPPS)
2019 IEEE Pulsed Power & Plasma Science (PPPS)
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