基于SOS/ dbd的固态开关，用于超高功率短脉冲产生

Conference Record of the Twenty-Fifth International Power Modulator Symposium, 2002 and 2002 High-Voltage Workshop. Pub Date : 2002-06-30 DOI:10.1109/MODSYM.2002.1189445

S. Rukin, E.A. Alichkin, S.K. Lyubutin, G. Mesyats, A. Ponomarev, B.G. Slovikovsky, S. Timoshenkov

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引用次数: 4

摘要

本文介绍了在固态开关中产生超高功率短脉冲的实验，并描述了新型调制器的特性。第一种器件是基于亚纳秒级半导体开路开关(SOS)作为最终功率放大器中的开关元件。这一原理是固态调制器设计的基础，其脉冲长度为3至8纳秒，脉冲功率为50兆瓦至吉瓦级，电压为50千伏至1毫伏，脉冲重复频率高达几千赫。第二类调制器是基于利用延迟电离激波(DBD)原理的闭合装置使脉冲达到附加峰值。在这种情况下，SOS以大约10/sup 14/ V/s的上升速率在DBD上产生过电压。因此，电流通过DBD在不到1ns的时间内切换到负载。第二种调制器的输出电压为数百千伏，上升时间小于1ns，峰值功率可达1gw，脉冲长度为1至2ns。

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SOS/DBD-based solid state switching for ultra-high-power short pulse generation

This report deals with experiments on generation of ultra-high-power short pulses in solid-state switches and describes characteristics of new modulators. The first type of devices is based on subnanosecond semiconductor opening switches (SOS) acting as the switching element in the final power amplifier. This principle underlies the design of solid-state modulators providing a pulse length of 3 to 8 ns, a pulse power of 50 MW to a GW-level, a voltage of 50 kV to 1 MV, and a pulse repetition frequency up to a few kHz. Modulators of the second type are based on additional peaking of pulses by means of closing devices utilizing the principle of a delayed ionization shock wave (DBD). In this case a SOS generates an overvoltage across the DBD at a rising rate of about 10/sup 14/ V/s. As a result, the current is switched to the load via the DBD in less than 1 ns. Modulators of the second type provide an output voltage of hundreds of kV with a rise time of less than 1 ns, a peak power of up to 1 GW, and a pulse length of 1 to 2 ns.

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Conference Record of the Twenty-Fifth International Power Modulator Symposium, 2002 and 2002 High-Voltage Workshop.

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