Abstract:The pulsed power supply of the electromagnetic rail launcher is usually composed of several pulse power units. The trigger strategy of the pulsed power supply must be designed before launching, that is, the capacitor voltage and discharge time sequence of each unit should be set. This process usually requires manual trial and error, which is time-consuming. In order to solve this problem, a semi-analytical model of sequentially-triggered power units is built in this paper. The simulation time was reduced from 37s to 0.19s compared with the model built by commercial software Simplorer. Furthermore, an automatic solution method for the trigger strategy of pulsed power supply is proposed. Using this method, the optimal trigger strategy of power supply can be worked out according to different working conditions, and the ideal current waveform can be obtained. Based on this method, three trigger strategies are obtained, the initial voltage, the number of input modules, the exit velocity and the launch efficiency are compared and analyzed.
彭之然, 刘华, 汪光森, 翟小飞, 张晓. 基于多模块分时放电半解析模型的脉冲电源触发策略[J]. 电工技术学报, 2021, 36(zk1): 54-61.
Peng Zhiran, Liu Hua, Wang Guangsen, Zhai Xiaofei, Zhang Xiao. Trigger Strategy of Pulsed Power Supply Based on the Semi-Analytical Model of Sequentially-Triggered Power Units. Transactions of China Electrotechnical Society, 2021, 36(zk1): 54-61.
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