摘要
以形成线储能结合脉冲压缩方式产生数MV高压输出,是脉冲功率系统中常见的技术途径,其中绝缘堆是该类装置工程成败的关键。分析了几种径向均压绝缘堆的均压机制,基于静电场分析程序对径向均压绝缘堆结构进行了优化设计,给出了径向电阻的设计方法。研究表明:采用均压环且均压环与径向电阻电气接触的绝缘堆结构可以获得较均匀的径向电场分布,而径向电阻是绝缘堆设计的关键。在有效作用时间100ns的4.5MV加载电压下,优化设计的绝缘堆阴极三相点电场控制在25kV/cm,Martin电场约120kV/cm,低于理论击穿值。
High-voltage hold-off insulator stack is the most crucial component in pulsed power system while applying pulse forming line and pulse compress technology to generating several MV voltage output, The voltage potential distribution mechanism of several radial insulator stacks was studied. An optimized insulator stack configuration was acquired based on static electric field analysis program, and designing method of radial resistor is proposed. Results showed that much uniform electric field distribution of insulator stack was obtained by using grading rings together with the electrical contact of grading rings and radial resistor, the radial resistor becomes the key to the performance of insulator stack. With an applied voltage of 4.5 MV and a duration of 100 ns, the electric field of triple point and Martin were about 25 kV/cm and 120 kV/cm respectively, lower than the theoreti- cal flashover value.
出处
《强激光与粒子束》
EI
CAS
CSCD
北大核心
2014年第10期261-265,共5页
High Power Laser and Particle Beams
基金
国家自然科学基金青年基金项目(51207147)
中国工程物理研究院科学发展基金项目(2012B0402054
2013B0402061)
关键词
闪光X光机
径向均压绝缘堆
电场分布
径向电阻
flash X-ray generator
radial insulator
stack with grading rings
electric field distribution
radial resistor
