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Experimental Investigations on Trigger Characteristics of Pseudospark Switch Based on Surface Flashover Technology 被引量:1

Experimental Investigations on Trigger Characteristics of Pseudospark Switch Based on Surface Flashover Technology
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摘要 A trigger device and a triggered pseudospark switch (TPSS) were designed based on surface flashover technology, in order to meet the requirements from present pulse power technology and pulse current test technology such as a long lifetime, reliability in a wide voltage range, a short delay time, as well as small delay jitters. The trigger devices were made from different dielectric materials, with their permittivities from tens to thousands. The trigger characteristics of TPSS were investigated. The results indicate that the high-dielectric trigger device shows better performance and higher emitted charge of the electron emission within all adjusted parameters including the gas pressure and applied voltage. For the dielectric material with relative permittivity εr of 3460, when the gas pressure is 7 Pa, the hold-off voltage of TPSS is 28 kV, the minimum trigger switch voltage drops to 128 V, the minimum discharging delay time and delay jitter are less than 35ns and 6ns, respectively, and the reliable operation can be reached within a very large range of charging voltage, between 0.46% and 99% of its self-breakdown voltage. A trigger device and a triggered pseudospark switch (TPSS) were designed based on surface flashover technology, in order to meet the requirements from present pulse power technology and pulse current test technology such as a long lifetime, reliability in a wide voltage range, a short delay time, as well as small delay jitters. The trigger devices were made from different dielectric materials, with their permittivities from tens to thousands. The trigger characteristics of TPSS were investigated. The results indicate that the high-dielectric trigger device shows better performance and higher emitted charge of the electron emission within all adjusted parameters including the gas pressure and applied voltage. For the dielectric material with relative permittivity εr of 3460, when the gas pressure is 7 Pa, the hold-off voltage of TPSS is 28 kV, the minimum trigger switch voltage drops to 128 V, the minimum discharging delay time and delay jitter are less than 35ns and 6ns, respectively, and the reliable operation can be reached within a very large range of charging voltage, between 0.46% and 99% of its self-breakdown voltage.
作者 姚学玲 陈景亮 曾正中
机构地区 Northwest Institute of Nuclear Technology State Key Laboratory of Electrical Insulation and Power Equipment Northwest Institute of Nuclear Technology
出处 《Plasma Science and Technology》 SCIE EI CAS CSCD 2007年第4期496-499,共4页 等离子体科学和技术(英文版)
关键词 TPSS (triggered pseudospark switch) trigger characteristics surface fiashover discharge TPSS (triggered pseudospark switch), trigger characteristics, surface fiashover discharge
分类号 O441 [理学—电磁学]
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参考文献16

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同被引文献15

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Plasma Science and Technology
2007年 第4期

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