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基于SOS开关的脉冲源研制 被引量:10

Development of SOS-Based Pulsed Power Source
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摘要 为开展高重复频率长脉冲全固态脉冲源技术研究,用SOS(semiconuctoropeningswitch)开关和脉冲变压器进行了脉冲源实验研究,由实验调试得到脉冲电压46kV(负载300Ω)和30kV(负载100Ω)、脉冲宽度80ns、重复频率1500Hz的脉冲源。 In order to develop high-repetitlon-rate, long-pulse, all-solid-state switch pulse source, the SOS( semiconductor opening switch) and the pulse transformer are used to study the pulse source and the experimental result is presented, the source with the pulse voltage of 46 kV and 30 kV under the load of 300 Ω and 100 Ω respectively, pulse duration of 80 ns and repetition rate of 1 500 Hz is developed successfully. This experiment proves that the high repetition rate and long pulse source can be done by applying the SOS switch.
作者 陈洪斌 孟凡宝 李爱萍 陈志刚 张运俭 刘天文 陆巍 杨周炳 周传明
机构地区 中国工程物理研究院应用电子学研究所 中国工程物理研究院科技委
出处 《高电压技术》 EI CAS CSCD 北大核心 2005年第9期56-58,共3页 High Voltage Engineering
关键词 脉冲功率源 SOS开关 脉冲变压器 pulsed power source SOS switch pulse transformer
分类号 TM832 [电气工程—高电压与绝缘技术]
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参考文献15

  • 1Grekhov I V, Mesyats G A. Physical basis for high power semiconductor nanosecond opening switches[C]. Digest of Technical Papers-IEEE International Pulsed Power Conference. Monterey USA, 1999: 1158-1101.
  • 2Mesyats G A, Rukin S N, I.yubutin S K. Semiconductor opening switch research at IEP[C]. Proceeding of the 10th IEEE International Pulsed Power Conference. Albuquerque USA, 1995: 298-305.
  • 3Lyubutin S K, Mesyats G A, Rukin S N, et al. Repetitive nanosecond all-solld-state pulsers based on SOS diodes[C]. Proceeding of the 11th IEEE International Pulsed Power Conference. Baltimore USA, 1997:992-998.
  • 4Alichkin E A Lyubutin S K, Ponomarev A V, et al. Formation of short pulses with a subnanoseeond rise time and a peak power of up to 1 GW by a semiconductor aevalanche sharpener[J]. Instrument and experimental techniques, 2002, 45(4): 106-111.
  • 5Ponornarev A V, Rukin S N, Tsyranov S N. Investigation of the process of voltage distribution over elements of a high-power semiconductor current interrupter[J]. Technical Physics Letters, 2001, 27(10): 29-34.
  • 6Kotov Yu A, Mesyats G A, Rukin S N, et al. Novel nanosecond semiconductor opening switch for megavolt repetitive pulsed power technology, experiment and application[C]. IEEE Intemarional Pulsed Power Conference. Albuquerque USA, 1993: 134-139.
  • 7Engelko A, Blihm H. Simulation of semiconductor opening switch physics[C]. The 13th IEEE Inter Pulsed Power Conference.Las Vegas USA,2001, p02jl.
  • 8Teramoto Y, Deguchi D, Katsuki S, et al. All solid-state trigger-less repetitive pulsed power generator utilizing semiconductor opening switch[C]. The 13th IEEE Inter Pulsed Power Conference. Las Vegas, USA,2001, p04D6.
  • 9Tarasenko V F, Baksht E H, Kunts S E, et al. Pumping of discharge gas lasers by generators with inductive energy storage and semiconducting opening switch[c]. Proceedings of the 2nd Conference on Gas and Chemical lasers and Intense Bear Applications Ⅱ. Sam Jose, USA, 1999: 22-31.
  • 10Rukin S N, Mesyats G A, Darznek S A, et al. SOS-based pulsed power: development and applieation[C]. Digest of Technical Papers-IEEE International Pulsed Power Conference. Monterey USA, 1999: 153-156.

同被引文献116

引证文献10

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高电压技术
2005年 第9期

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