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兆伏级串级自触发开关脉冲击穿特性影响机制及优化

Influence mechanisms and optimization of pulsed breakdown characteristics of a megavolt class cascade self-triggered switch
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摘要 大型脉冲功率装置中使用的兆伏级开关常采用串级结构以提高工作电压并保证开关电场的均匀性。在脉冲电压上升速率固定且单级开关击穿概率服从Weibull分布前提下,推导了串级开关击穿概率分布模型,并分析了3级串级开关击穿特性的影响机制。在能保证各单级开关击穿特性一致性较好的条件下,触发3级开关时,后击穿的2级在高过压下击穿,每级开关的平均击穿电压降低,开关整体击穿时延抖动与单级触发开关相当;触发1级开关时,大概率是触发级先击穿、2个自击穿级在高过压下击穿,开关整体抖动远小于自击穿抖动,每级开关的平均击穿电压比触发3级时更高,但由于自击穿级仍有小概率先击穿,开关整体抖动约为触发3级时的2倍。在前沿约300 ns的脉冲电压下实验研究了串级开关的击穿特性,其中单级开关采用自触发持续预电离方式以保证特性的一致性。结果表明,开关工作电压0.8~2.0 MV范围内,触发1级时,时延抖动2.9~7.7 ns、电压分散性0.51%~2.21%,触发3级时,时延抖动2.3~3.6 ns、电压分散性0.59%~0.91%,验证了模型分析所得的规律,且实现了对原有串级开关击穿特性的优化。此外,由于0.3 MPa以上高气压时开关的自击穿状态更稳定,触发1级与触发3级时开关整体抖动基本相当。 Megavolt switches in large pulses typically use a cascade configuration to increase operating voltage and ensure electric field uniformity.We must reduce their jitter when we need multipulse superposition to obtain a higher voltage pulse.Moreover,in the high-altitude electromagnetic pulse simulator,the megavolt pulsed switch needs to adopt the self-triggering technique to simplify the structure and reduce weight for good mobility and hoisting requirements.However,it is difficult to carry out a large number of experiments and completely reveal the influence mechanisms of the characteristics of megavolt switches via experiments.Therefore,this paper derives a breakdown probability distribution model of a cascade switch based on the characteristic parameters of a single-stage switch,which can be obtained easier from experiments.The experiment of the cascade switch is then carried out to validate the model analysis.In the model,we assume that the rising rate of the pulse voltage is a constant and that the breakdown probability of a single-stage switch follows the Weibull distribution.It is common in cascade switches to allow one stage to break down in triggered mode while others are in self-breakdown mode due to overvoltage.When the cascade switch has n stages,and one stage is triggered,it is seen as three equivalent switches based on their breakdown sequence.This paper assumes that x self-breakdown stages first close,the triggered stage closes next,and finally,(n-x-1)self-breakdown stages close.The range of x is[0,n-1].Then the breakdown probability distribution model of each equivalent switch can be derived using the existing calculation method.The influence mechanisms of the breakdown characteristics of a three-stage cascade switch are semiquantitatively analyzed based on the model.If the uniformity of breakdown characteristics of each triggered switch can be guaranteed and three stages are all triggered,the switch jitter is approximately equal to the jitter of a single-stage triggered switch because the latter two stages break down under high overvoltage.The mean breakdown voltage of each stage is lower than a single-stage triggered switch.When only one stage is triggered,most probably,the triggered stage will close first,followed by two self-breakdown stages under high overvoltage.The switch jitter is significantly lower than that under the self-breakdown mode,and the mean breakdown voltage of each stage is higher than that when all three stages are triggered.However,the possibility that one self-breakdown stage closes first results in the switch jitter being approximately twice when all three stages are triggered.The improvement path of the switch jitter characteristics can be inferred using the model analysis.The jitter of the triggered single-stage switch should be reduced,and it is preferable to trigger all stages if the uniformity of the breakdown characteristic of each single-stage switch can be guaranteed.In the experiment,the three-stage cascade switch operates on a pulsed voltage with a rise time of 300 ns and an operating voltage range of 0.8—2.0 MV.Self-triggered continuous preionization is adapted to eliminate the influence of trigger gap jitter on the switch jitter,ensuring the uniformity of breakdown characteristics of each single-stage switch.When one stage is triggered,the time delay jitter is 2.9—7.7 ns,and the breakdown voltage jitter is 0.51%—2.21%.When three stages are triggered,the time delay jitter is 2.3—3.6 ns,and the breakdown voltage jitter is 0.59%—0.91%.The preceding analysis is verified,and the switch characteristics are improved compared to the original one.Moreover,the self-breakdown characteristic is more stable when the gas pressure exceeds 0.3 MPa;thus,the switch jitter is approximately the same when we trigger one or three stages.
作者 王天驰 谢霖燊 李俊娜 杨友恒 黄涛 陈志强 郭帆 杜应超 陈伟 WANG Tianchi;XIE Linshen;LI Junna;YANG Youheng;HUANG Tao;CHEN Zhiqiang;GUO Fan;DU Yingchao;CHEN Wei(Key Laboratory of Particle&Radiation Imaging(Tsinghua University),Ministry of Education,Beijing 100084,China;State Key Laboratory of Intense Pulsed Radiation Simulation and Effect,Northwest Institute of Nuclear Technology,Xi'an 710024,China;State Key Laboratory of Electrical Insulation and Power Equipment,Xi'an Jiaotong University,Xi'an 710049,China)
出处 《清华大学学报(自然科学版)》 EI CAS CSCD 北大核心 2023年第1期114-124,共11页 Journal of Tsinghua University(Science and Technology)
关键词 串级气体开关 预电离 脉冲击穿 抖动 cascade gas switch pre-ionization pulsed breakdown jitter
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