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高梯度绝缘子的实验研究与性能分析 被引量:3

Experimental study and performance analysis on high gradient insulators
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摘要 为解决脉冲功率系统中绝缘部件的真空沿面闪络问题,开发了基于二次电子崩理论的层叠式高梯度绝缘材料。利用全金属超高真空分析系统,对高梯度绝缘子的真空出气特性进行检测;利用四极质谱仪,对高梯度绝缘子真空出气的气体成分进行分析。利用阻抗分析仪测试不同结构绝缘材料的高频介电性能。基于纳秒脉冲真空实验平台,对高梯度绝缘子的真空沿面闪络性能进行测试。研究结果表明:高梯度绝缘子具有良好的高频介电性能,其拐点频率高达200MHz;锻炼后高梯度绝缘子的闪络场强可达190kV/cm,其闪络性能和高梯度绝缘结构中绝缘层的材料及绝缘层与金属层的比例直接相关。 High gradient insulators(HGIs) were developed to solve the vacuum surface flashover problem in pulsed power system.The vacuum out-gassing rate and desorption gas components of HGIs were measured using an all-metal ultrahigh-vacuum analysis system.The high frequency dielectric constant was measured by impedance analyzer.Based on the nanosecond pulsed experimental platform,the vacuum surface flashover characteristics of HGIs were tested.The results indicate that HGIs have good high frequency dielectric performance with the inflection frequency up to 200 MHz and the flashover field strength is about 190 kV/cm after 30 discharges.The flashover performance of HGIs has direct relation to the insulation layer materials and the ratio of insulation layer and metal layer.
作者 任成燕 袁伟群 张东东 严萍 王珏 邵涛
机构地区 中国科学院电工研究所 中国科学院电力电子与电气驱动重点实验室
出处 《强激光与粒子束》 EI CAS CSCD 北大核心 2012年第3期563-566,共4页 High Power Laser and Particle Beams
基金 国家自然科学基金项目(50907069 50607019)
关键词 高梯度绝缘子 真空沿面闪络 纳秒脉冲 真空出气率 介电性能 high gradient insulator vacuum surface flashover nanosecond pulse vacuum out-gassing rate dielectric performance
分类号 TM854 [电气工程—高电压与绝缘技术] TN78 [电子电信—电路与系统]
  • 相关文献

参考文献12

  • 1Gray E W. Vacuum surface flashover:A high pressure phenomenon[J].Applied Physics,1985,(01):132-141.
  • 2Elizondo J M. Novel high voltage vacuum surface flashover insulator technology[A].1993.257-260.
  • 3Sampayan S E,Caporaso G,Carder B. High gradient insulator technology for the dielectric wall accelerator[A].1995.1269-1271.
  • 4Sampayan S E,Vitelio P A,Krogh M L. Multilayer high gradient insulator technology[J].IEEE Transactions on Dielectrics and Electrical Insulation,2000,(03):334-339.
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  • 7Leopold J G,Dai U,Finkelstein Y. Optimizing the performance of flat-surface,high-gradient vacuum insulators[J].IEEE Transactions on Dielectrics and Electrical Insulation,2005,(03):530-536.
  • 8Leopold J G,Dai U,Finkelstein Y. More on high-gradient insulators[A].2005.509-512.
  • 9任成燕,张东东,袁伟群,王珏,严萍,张适昌.纳秒脉冲下微堆层绝缘子的真空沿面闪络特性[J].强激光与粒子束,2009,21(11):1745-1749. 被引量:10
  • 10Ren Chengyan,Yuan Weiqun,Zhang Dongdong. Research progress of multilayer high gradient insulator technology[A].2009.411-414.

二级参考文献12

  • 1严萍,王珏,张适昌.新概念介质壁加速器[J].电工电能新技术,2005,24(4):43-46. 被引量:15
  • 2Elizondo J M. Novel high voltage vacuum surface flashover insulator technology[C]//Proc of PPC. 1993:257-260.
  • 3GrayEW. Vacuum surface flashover: a high pressure phenomenon[J]. ApplPhys, 1985, 58( 1):132-141.
  • 4Sampayan S E, Caporaso G, Carder B, et al. High gradient insulator technology for the dielectric wall accelerator[C]//Proc of PAC. 1995:1269-1271.
  • 5Sampayan S E, Vitelio P A, Krogh M I J, et al. Multilayer high gradient insulator technology[J]. IEEE Trans Dielectrics and Electrical Insulation, 2000, 7(3) :334-339.
  • 6Harris J R, Anaya R M, Blackfield D, et al. High gradient insulators[C]//Proc of PMC. 2006:55-60.
  • 7Harris J R, Anaya R M, Blackfield D, et al. Multilayer high gradient insulators[J].IEEE Trans on Dielectrics and Electrital Insulation, 2007, 14(4):796-802.
  • 8Harris J R, Blackfield D, Caporaso G J, et al. Vacuum insulator development for the dielectric wall accelerator[J]. J Appl Phys, 2008, 104:023301.
  • 9Leopold J G, Dai U, Finkelstein Y, et al. Optimizing the performance of flat surface, high-gradient vacuum insulators[J]. IEEE Trans on Dielectrics and Electrical Insulazion, 2005, 12 (3) : 530-536.
  • 10Leopold J G, Dai U, Finkelstein Y, et al. More on high-gradient insulators[C]//Proc of PPC. 2005:509-512.

共引文献9

同被引文献37

  • 1严萍,王珏,张适昌.新概念介质壁加速器[J].电工电能新技术,2005,24(4):43-46. 被引量:15
  • 2李秀敏,江卫华.相关系数与相关性度量[J].数学的实践与认识,2006,36(12):188-192. 被引量:49
  • 3屈立辉,刘列,徐启福,文建春.高梯度绝缘子初步研究及Kapton绝缘性能分析[J].高压电器,2007,43(4):253-255. 被引量:6
  • 4杨凯,郑楠,张冠军,董明,严璋.固体绝缘介质表面陷阱参数的分析[J].高电压技术,2007,33(9):13-16. 被引量:7
  • 5S Jayaraman, C H Lee. Observation of two-photo conduc- tivity in GaAs with nanosecond and picoseconds light pulse [J]. Appl. Phys. Lett., 1972, 20 (10): 392-395.
  • 6C H Lee. Picoseconds optoelectronic switching and gating in silicon [J]. Appl. Phys. Lett., 1977, 30 (2) : 84- 86.
  • 7A Cola, F Quaranta, L Vasanelli, et al. Optically activa- ted planar GaAs switches for DC applications [ J ]. Nucle- ar Instruments and Methods in Physics Research A, 1998, 418: 434-439.
  • 8F J Zutavern, G M Loubriei, M W O Malley, et al. Pho- toconductive semiconductor switch experiments for pulsed power applications [ J ]. IEEE Trans. on Electron De- vices, 1990, 37 (12) : 2472-2477.
  • 9F Zhao, M Mohammad. Optieally activated SiC power transistors for pulsed-power application [ J]. IEEE Elec- tron Device Letters, 2010, 31 (10) : 1146-1148.
  • 10G J Caporaso, Y J Chen, S Sampayan, et al. Status of the dielectric wall accelerator [ A ]. Proc. of PAC09 [C]. Vancouver, Canada, 2009.

引证文献3

二级引证文献4

强激光与粒子束
2012年 第3期

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