Modeling and Analysis of Small Scale High-voltage Charging Circuit under Discrete Time Domain
Small scale high-voltage flyback charging circuit is the key unit of the initiating experiment device of slapper detonator, which converts the initiating energy from low voltage to high voltage and stores the energy in a high voltage capacitor. It is a highly nonlinear system, of which the research topic is the process of the establishment of the output voltage-an area which belongs to large signal transients. This has made the research of this topic difficult and progress slowly. In this paper, in order to study the characteristics as well as the rules of the charging process for the purpose of design optimization, the discrete time domain model of the flyback charging circuit is built and simulated. Experimental results are given and show that the model presented in this paper is instrumental for the optimization of the high voltage charging circuit.
Fly Back High Voltage Charging Discrete Time Domain Slapper Detonator
Wang Yongqiang Wu Yidi Wang Yunyan Liu Changlin
Beijing Institute of Technology, State Key Laboratory of Explosion Science and Technology
国际会议
合肥
英文
3386-3391
2011-09-23(万方平台首次上网日期,不代表论文的发表时间)