强激光与粒子束, 2020, 32 (3): 035002, 网络出版: 2020-03-19   

FLTD三电极场畸变气体开关寿命特性

Lifetime characteristic of three-electrode field-distortion gas switch of fast linear transformer driver
作者单位
1 西安交通大学 电力设备电气绝缘国家重点实验室,西安 710049
2 西安近代化学研究所,西安 710065
3 西北核技术研究所,西安 710024
摘要
针对设计的一种场畸变气体开关,研究中间电极材料分别为不锈钢和黄铜条件下的烧蚀特性,结合开关寿命期间静态与触发特性的变化规律,获得决定开关寿命的关键因素,为三电极场畸变气体开关的性能优化提供理论支撑。研究结果表明,采用不锈钢和黄铜作为中间电极的烧蚀区域以及表面粗糙度均随着放电次数增加而增大,黄铜电极烧蚀较为严重且表面有明显的烧蚀圆斑,不锈钢电极则具有更高的表面粗糙度,阴阳极表面烧蚀存在明显差异,随着放电次数的增加,击穿点向电极边缘区域集中,影响开关的沿面绝缘特性,是导致开关寿命终结的主要原因。
Abstract
Three-electrode field-distortion gas switch is a crucial element of modular fast linear transformer driver (FLTD). Electrode erosion affects the trigger jitter during the lifetime of the switch, which in turn can affect the output characteristics of FLTD. Therefore, studying the impact of electrode erosion on the trigger jitter of the switch is of great significance to optimize the switch structure and predict the switch life. This paper studies the erosion characteristic of intermediate electrode of three-electrode switch, and the electrode materials are stainless steel and brass. The key factors affecting the lifetime of switch are obtained by considering the changing rules of trigger and erosion characteristics, which provides theoretical support for the optimization of the performance of the three-electrode switch. The results show that the erosion area and surface roughness of stainless steel and brass electrodes increase with discharge times. The brass electrode is ablated more seriously and the stainless steel electrode has higher surface roughness. With the increase of discharge times, the breakdown point moves to the electrode edge area, which affects the insulation performance of the switch.

李颖, 靳建伟, 陈立, 孙凤举, 李兴文, 王志国, 姜晓峰, 吴坚, 李鹏辉. FLTD三电极场畸变气体开关寿命特性[J]. 强激光与粒子束, 2020, 32(3): 035002. Ying Li, Jianwei Jin, Li Chen, Fengju Sun, Xingwen Li, Zhiguo Wang, Xiaofeng Jiang, Jian Wu, Penghui Li. Lifetime characteristic of three-electrode field-distortion gas switch of fast linear transformer driver[J]. High Power Laser and Particle Beams, 2020, 32(3): 035002.

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