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基于SOS的脉冲功率源技术新进展 被引量:32

Experiment and applications of SOS-based pulsed power
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摘要 研制了基于SOS的胡杨200和胡杨700脉冲功率源。给出了胡杨200和胡杨700的电路原理、组成结构和实验波形。介绍了在SOS脉冲功率源上开展的高重复频率强流电子束产生、长寿命阴极实验、绝缘介质的高重复频率击穿实验和低引导磁场无箔二极管等实验研究进展。经测试,胡杨200在2 kHz重复频率、负载阻抗200Ω下,输出电压200 kV,脉冲宽度约35 ns,平均输出功率大于10 kW;在300 Hz条件下可连续运行。胡杨700同样为全固态脉冲功率源,其设计指标:输出电压700 kV,电流5 kA,脉冲宽度约40 ns;经初步调试在150Ω电阻负载上单脉冲输出指标达到660 kV,4.4 kA,脉宽约70 ns。 This paper summarizes recent results of the study and development of high-power repetitive nanosecond generators employing a semiconductor opening switch(SOS). The SOS-based pulsed power generator(SPG200, SPGT00) has been developed and tested in Northwest Institute of Nuclear Technology. Some applications are carried out on the SOS-based generator, such as the high-frequency diode, research of long lifetime cathode, insulating research of breakdown. An experimental system of foilless diode with low guiding magnetic field is designed on the generator S-SN. The SPG200 delivers pulses with FWHM of 35 ns and amplitude up to 200 kV at 2 kHz repetition rate into a load in burst mode. The average output power is 13 kW. The generator can work at 300 Hz continuously. The SPGT00 is designed by the same technique. The output specifications of the generator are as follows: output voltage 700 kV, output current 5 kA, pulse duration(FWHM) 40 ns. Now the generator is being tested, which delivers pulses with 660 kV,4.4 kA, 70 ns(FWHM) on the resistance load.
作者 苏建仓 刘国治 丁臻捷 丁永忠 俞建国 宋晓欣 黄文华 浩庆松
机构地区 西北核技术研究所
出处 《强激光与粒子束》 EI CAS CSCD 北大核心 2005年第8期1195-1200,共6页 High Power Laser and Particle Beams
基金 国家863计划项目资助课题
关键词 半导体断路开关 脉冲功率源 磁脉冲压缩器 强流电子柬 Semiconductor opening switch(SOS) Pulse power Magnetic pulse compressor High power electron beams
分类号 TN78 [电子电信—电路与系统]
  • 相关文献

参考文献10

  • 1苏建仓,丁永忠,宋志敏,丁臻捷,刘国治,刘纯亮.半导体断路开关实验研究[J].强激光与粒子束,2002,14(6):949-953. 被引量:10
  • 2Efanov V M, Kardo-Sysoev A F, Larionov M A, et al. Powerful semiconductor 80 kV nanosecond pulser[A]. Proc of 9th IEEE Int Pulsed Power Conf[C]. Albuquerque, New Mexico, USA, 1993. 985-987.
  • 3Kotov Y A, Mesyats G A, Rukin S N, et al. A novel nanosecond semiconductor opening switch for megavolt repetitive pulsed power technology: experiment and applicationsEA-]. Proc of 9th IEEE Int Pulsed Power Conf[C]. Albuquerque, New Mexico, USA, 1993. 134-139.
  • 4Mesyats G A, Rukin S N, Lyubutin S K, et al. Semiconductor opening switch research at IEP[A]. Proc of 10th IEEE Int Pulsed Power Conf[C]. Albuquerque, USA, 1995. 298-305.
  • 5Rukin S N. High-power nanosecond pulse generators based-on semiconductor opening switch[J]. Instruments and Experimental Techniques, 1999, 42(4) :439-467.
  • 6Rukin S N, Mesyats G A, Ponomarev A V, et al. Megavolt repetitive SOS-based generator[A]. Proc of 13th IEEE Int Pulsed Power Plasma Science Conf[C]. 2001. 340-343.
  • 7Su J C, Liu G Z, Ding Y Z, et al. SOS-based generator with output voltage of 200 kV and repetition rate of 2000 Hz[A]. Proc of 15th Int Conf on High Power Panicle Beams[C]. St Petersburg, Russia, 2004.
  • 8苏建仓,王利民,丁永忠,宋晓欣.串联谐振充电电源分析及设计[J].强激光与粒子束,2004,16(12):1611-1614. 被引量:61
  • 9苏建仓 丁永忠 丁臻捷.基于SOS的200kV,2 kHz全固态脉冲功率源研制[R].西安,西北核技术研究所,2002..
  • 10苏建仓,丁臻捷,丁永忠,宋晓欣,宋志敏,秋实,黄文华.S-5N全固态重复频率脉冲发生器[J].强激光与粒子束,2004,16(10):1337-1340. 被引量:13

二级参考文献23

  • 1Kotov Y A, Mesyats G A, Rukin S N, et al. A novel nanosecond semiconductor opening switch for megavolt repetitive pulsed power technology: experiment and applications[A]. Proc 9th IEEE Int Pulsed Power Conf[C]. Albuquerque, NM, 1993 .134-139.
  • 2Mesyats G A, RukinS N, Lyubutin S K, et al. Semiconductor opening switch research at IEP[A]. Proc 10th IEEE Int Pulsed Power Conf[C]. Albuquerque, USA, 1995.1:298-305.
  • 3Lyubutin S K, Mesyats G A, Rukin S N, et al. Repetitive nanosecond all-solid-state pulsers based on SOS diodes[A]. Proc 11th IEEE Int. Pulsed Power Conf[C]. Baltimore, USA, 1997. 992-998.
  • 4Rukin S N, Mesyats G A, Darznek S A, et al. SOS-based power development and applications[A]. Proc 12th IEEE Int. Pulsed Power Conf[C]. Monterey, USA, 1999, 153
  • 5Katsuki S, Majima T, Nagata K, et al. Inactivation of bacillus stearothermophilus by pulsed electric field[J]. IEEE Trans Plasma Science,2000, 28(1):155-160.
  • 6Rukin S N, Mesyats G A, Ponomarev A V, et al. Megavolt repetitive SOS-based generator[A]. Proc 13th IEEE Int Pulsed Power Plasma Science Conf[C]. 2001. 340.
  • 7Teramoto Y, Deguchi D, Katsuki S, et al. All-solid-state trigger-less repetitive pulsed power generator utilizing semiconductor opening switch[A]. Proc 13th IEEE Int Pulsed Power Plasma Science Conf[C]. 2001, 480.
  • 8Darznek S A, Mesyats G A, Rukin S R. Theoretical model of the SOS effect[A]. Proc 11th Int Conf on High Power Particle Beams[C]. Prague, Czech Republic, 1996.2 :1241-1244.
  • 9Grekhov I V, Mesyats G A. Physical basis for high-power semiconductor nanosecond opening switch[J]. IEEE Trans Plasma Science, 2000,28 (5):1540.
  • 10Engelko A, Bluhm H. Simulation of semiconductor opening switch physics[A]. Proc13th IEEE Int Pulsed Power Plasma Science Conf[C]. 2001.358.

共引文献78

同被引文献386

引证文献32

二级引证文献180

强激光与粒子束
2005年 第8期

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