一种真空触发开关脉冲电源系统研究

张亚舟;李贞晓;程年恺;田慧;栗保明

兵工学报 ›› 2017, Vol. 38 ›› Issue (8) : 1469-1475.

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  • 主管:中国科学技术协会

    主编:许毅达

    ISSN 1000-1093

     

  • 主办:中国兵工学会

    出版:《兵工学报》 编辑部

    CN 11-2176/TJ

《兵工学报》是我国国防科技领域最具影响力的学术期刊之一,创刊于1979年,目前被国内所有重要数据库收录,其综合评价指标近年来一直名列兵工技术类科技期刊的首位;《兵工学报》目前还被国际上著名的检索机构美国......
兵工学报 ›› 2017, Vol. 38 ›› Issue (8) : 1469-1475. DOI: 10.3969/j.issn.1000-1093.2017.08.002
论文

一种真空触发开关脉冲电源系统研究

  • 张亚舟1, 李贞晓1, 程年恺2, 田慧1, 栗保明1
作者信息 +

Research on a Triggered Vacuum Switch Pulsed Power Supply

  • ZHANG Ya-zhou1, LI Zhen-xiao1, CHENG Nian-kai2, TIAN Hui1, LI Bao-ming1
Author information +
文章历史 +

摘要

脉冲电源系统性能基本取决于放电开关的特性,真空触发开关因其具有工作电压范围宽、承载电荷量高、介质恢复迅速、结构紧凑等优点,可用于脉冲电源的主开关。采用RVU-43型真空触发开关研制了一套总储能2 MJ、额定工作电压13 kV的脉冲电源。电源系统由17个118 kJ电容储能模块并联组成,单个模块短路放电最大电流达52 kA,系统包含了充电、控制、测量子系统。电源在模拟负载上进行了单模块、系统同步与时序控制放电性能测试,并在电热化学发射装置上进行了发射试验。结果表明,系统输出的电流幅值较高且波形灵活可调,可靠性高,可满足电热化学发射试验的研究。

Abstract

The performance of pulsed power supply (PPS) depends on the basic characteristics of the discharge switch. Triggered vacuum switch (TVS) has the advantages of wide working voltage range, high transfer charge, quick dielectric recovery and compact structure. A 2 MJ PPS with rated operational voltage of 13 kV which uses RVU-43 TVS was developed. The PPS is of multi-module parallel structure and composes of 17 118 kJ capacitor-based pulsed power modules. The maximum short-circuit discharge current of every module is about 52 kA. The system is composed of charging, control and measurement subsystems. The synchronous and time sequence discharge tests under dummy load are made for PPS, and PPS is launched from an electrothermal chemical (ETC) launcher. The experimental results show that PPS can output high amplitude and flexible current wave, and has high reliability for ETC launch research.Key

关键词

兵器科学与技术 / 脉冲功率电源 / 真空触发开关 / 电容储能模块

Key words

ordnancescienceandtechnology / pulsedpowersupply / triggeredvacuumswitch / capacitor-basedpulsedpowermodule

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张亚舟, 李贞晓, 程年恺, 田慧, 栗保明. 一种真空触发开关脉冲电源系统研究. 兵工学报. 2017, 38(8): 1469-1475 https://doi.org/10.3969/j.issn.1000-1093.2017.08.002
ZHANG Ya-zhou, LI Zhen-xiao, CHENG Nian-kai, TIAN Hui, LI Bao-ming. Research on a Triggered Vacuum Switch Pulsed Power Supply. Acta Armamentarii. 2017, 38(8): 1469-1475 https://doi.org/10.3969/j.issn.1000-1093.2017.08.002

参考文献



[1]ChenY G, Dethlefsen R, Crumley R, et al. High-coulomb triggered vacuum switch[C]∥9th IEEE International Pulsed Power Conference. Albuquerque, NM, US: IEEE, 1993:938-941.
[2]AlferovD F, Londer Y I, Ulyanov K N. Limit rate of current rise in triggered vacuum switch[C]∥25th International Symposium on Discharges and Electrical Insulation in Vacuum. Tomsk, Russia: IEEE, 2012:258-261.
[3]Han Y X, Lin F C, Dai L, et al. Research on applications of TVS and thyristor in a pulsed power supply system used for EMG[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2009, 16(4):979-984.
[4]Lafferty J M.Triggered vacuum gaps[J]. Proceeding of the Institute of Electrical and Electronics Engineers, 1966, 54(1):23-32.
[5]Kamakshaiah S, Rau R S N. Delay characteristics of simpled triggered vacuum gap[J]. Journal of Physics D: Applied Physics, 1975, 8(8):1426-1429.
[6]Rich J A, Westendorp W F. Vacuum arc discharge device with tapered rod electrodes: US, 4063126 A[P]. 1977-12-13.
[7]Vries L M J, Damstra G C. Triggered vacuum gaps in a high power three-phase synthetic test circuit[J]. IEEE Transactions on Electrical Insulation, 1985, 20(4):755-758.
[8]魏荣华,吴汉荃,史长龙,等. 触发真空开关[J].高压电器,1983,25(6):50-56.
WEI Rong-hua, WU Han-quan, SHI Chang-long, et al. Triggered vacuum switches[J]. High Voltage Apparatus, 1983, 25(6):50-56.(in Chinese)
[9]王延召,戴玲,周正阳,等. 多棒极型触发真空开关极性效应[J]. 强激光与粒子束,2012,24(3):587-591.
WANG Yan-zhao, DAI Ling, ZHOU Zheng-yang, et al. Polarity effect on triggered vacuum switch with multi-rod system[J]. High Power Laser and Particle Beams, 2012, 24(3):587-591. (in Chinese)

[10]何俊佳,邹积岩,王海,等.触发真空开关中初始等离子体的产生和扩展[J]. 高压电器,1996,32(6):3-5.
HE Jun-jia, ZOU Ji-yan, WANG Hai, et al. The generation and extension of initial plasma for trigged vacuum switch[J]. High Voltage Apparatus, 1996, 32(6):3-5. (in Chinese)
[11]吴昊,周志成,吉亚民,等. 真空开关的触发失效与主电极烧蚀特性研究[J]. 高压电器,2015,51(1):115-120.
WU Hao, ZHOU Zhi-cheng, JI Ya-min, et al. Investigation to trigger failure and main electrode ablation of vacuum switch[J]. High Voltage Apparatus, 2015, 51(1):115-120. (in Chinese)
[12]戴玲,李志兵,张弛,等. 应用于中压等级的大容量多棒极型真空触发开关[J]. 高电压技术,2016,42(6):1760-1766.
DAI Ling, LI Zhi-bing, ZHANG Chi, et al. High capacity multi-rods triggered vacuum switch applied in medium voltage level[J]. High Voltage Engineering, 2016, 42(6):1760-1766. (in Chinese)
[13]FridmanB E, Rutberg P G. The multimegajoule capacitive energy stores for generating pulses with large current integral[C]∥1997 IEEE International Pulsed Power Conference. Baltimore, MD, US: IEEE, 1997:509-518.
[14]Wisken H G, Podeyn F, Weise T H G G. A 540 kJ modular capacitive pulsed power supply system for basic investigations on ETC-performance[J]. IEEE Transactions on Magnetics, 1999, 35(1):394-397.
[15]Jin Y. S, Lee H. S, Kim J. S, et al. Performance of 2.4 MJ pulsed power system for electrothermal-chemical gun application[J]. IEEE Transactions on Magnetics, 2003, 39(1):235-238.
[16]韩永霞,林福昌,戴玲,等. 紧凑型脉冲电流源的研究[J]. 高电压技术,2008,34(2):389-392.
HAN Yong-xia, LIN Fu-chang, DAI Ling, et al. Study on the compact pulsed power system[J]. High Voltage Engineering, 2008, 34(2):389-392. (in Chinese)
[17]AkhmetgareevM R, Alferov D F, Bunin R A, et al. Triggered vacuum switch with an axial magnetic field[J]. IEEE Transactions on Plasma Science, 2013, 41(8):2154-2159.
[18]Sidorov V A, Alferov D F, Korobova N I. Dielectric strength of triggered vacuum switches with six-gap electrode system[C]∥18th International Symposium on Discharges and Electrical Insulation in Vacuum. Eindhoven, Netherlands: IEEE, 1998:788-791.
[19]Rieder W F, Schussek M, Glatgle W, et al. The influence of composition and Cr particle size of Cu/Cr contacts on chopping current, contact resistance, and breakdown voltage in vacuum interrupters[J]. IEEE Transactions on Components, Hybrids, and Manufacturing Technology, 1989, 12(2):273-283.
[20]周正阳,戴玲,南敬,等. 大电流下多棒极型真空触发开关电弧特性[J]. 强激光与粒子束,2012,24(4):823-826.
ZHOU Zheng-yang, DAI Ling, NAN Jing, et al. Arc characteristics of triggered vacuum switch with multi-rod electrode under high current[J]. High Power Laser and Particle Beams, 2012, 24(4):823-826. (in Chinese)
[21]李贞晓,张亚舟,高粱,等. 电热化学发射中硅堆故障试验分析[J].兵工学报,2015,36(4):577-581.
LI Zhen-xiao, ZHANG Ya-zhou, GAO Liang, et al. Test and analysis of silicon stack failure in electrothermal-chemical launch[J]. Acta Armamentarii, 2015, 36(4):577-581. (in Chinese)
[22]Alferov D F, Ivanov V P, Sidorov V A. High-current switching devices[J]. IEEE Transactions on Magnetics, 2003, 39(1):406-409.
[23]谢昌明,尚绍环,谈效华,等. 高性能触发真空开关的研究综述[J].高压电器,2014,50(4):131-138.
XIE Chang-ming, SHANG Shao-hua, TAN Xiao-hua, et al. Review of the researches on high-performance triggered vacuum switch[J]. High Voltage Apparatus, 2014, 50(4):131-138. (in Chinese)
[24]毛新果,戴玲,张弛,等. 带陡化间隙的触发真空开关触发源研制[J]. 强激光与粒子束,2016,28(1):0150201-0150207.
MAO Xin-guo, DAI Ling, ZHANG Chi, et al. Development of trigger circuit of multi-rod triggered vacuum switch[J]. High Power Laser and Particle Beams, 2016, 28(1):0150201-0150207. (in Chinese)
[25]Zhang Y Z, Li Z X, Li W S, et al. Design of high voltage capacitor charging power supply for ETCG applications[C]∥2014 Second Symposia on Electromagnetic and Electronic Engineering. Xi'an, China: WIT, 2015:360-367.
[26]田慧,栗保明. 基于TVS开关的多通道脉冲电源测控系统设计[J].电源技术应用,2014,17(12):19-24.
TIAN Hui, LI Bao-ming. A design of measure and control system for the multichannel pulsed power with TVS switch[J]. Power Supply Technologies and Applications, 2014, 17(12):19-24. (in Chinese)





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