强激光与粒子束, 2013, 25 (7): 1826, 网络出版: 2013-05-31
PCB板折叠形成线模块设计与实验
Design and experimental investigation of folded parallel-plate pulse forming line based on PCB
平板折叠线 模块化设计 固态传输线 PCB printed circuit board parallel-plate pulse forming line modular design solid-state transmission line
摘要
采用FR-4型PCB板材为传输介质,设计了一种五条线并联的形成线模块。为优化形成线电场分布,绝缘介质层内部嵌有屏蔽电极,分析得到内嵌导体对形成线的特征参量以及传输特性无影响; 形成线绝缘介质层厚度为4 mm,耐受电压超过200 kV,根据绝缘寿命公式分析,形成线可以在50~80 kV长时间工作; 将PCB板折叠线通过并联以及封装组成形成线模块,外观尺寸为700 mm×550 mm×40 mm,特征阻抗为5.35 Ω,通过搭建Blumlein装置进行实验,在充电50 kV条件下,测得输出电压为45 kV,脉冲半高宽140 ns,平顶宽度75 ns,前沿65 ns。
Abstract
Using the FR-4 as the dielectric materials, a pulse forming line (PFL) module was developed by attaching five PCB PFLs in parallel. In order to optimize electric field distribution, a shielded electrode was inserted in the dielectric materials, and the theoretical analysis shows the shielded electron has no effect on the parameter and transmission characteristics of the PFL. The PFL can withstand more than 200 kV with a insulating layer thickness of 4 mm. According to the lifetime calculation equation, it is found that the PFL has a long lifetime when the charging voltage is 50-80 kV. The size of PFL module is 700 mm×550 mm×40 mm, and the characteristic impedance of it is 5.35 Ω. When the PFL module is used in a Blumlein manner and charged to 50 kV, the output voltage on the match-load of 45 kV, full width at half magnitude (FWHM) of 140 ns, flat top of 75 ns and time rise of about 65 ns are obtained.
李祥伟, 常安碧, 宋法伦, 秦风, 甘延青, 龚海涛, 金晓. PCB板折叠形成线模块设计与实验[J]. 强激光与粒子束, 2013, 25(7): 1826. Li Xiangwei, Chang Anbi, Song Falun, Qin Feng, Gan Yanqing, Gong Haitao, Jin Xiao. Design and experimental investigation of folded parallel-plate pulse forming line based on PCB[J]. High Power Laser and Particle Beams, 2013, 25(7): 1826.