Title :
High-Voltage High-Frequency Charging Power Supply Based on Voltage Feedback and Phase-Shift Control
Author :
Kun Liu ; Yaohong Sun ; Yinghui Gao ; Ping Yan ; Rongyao Fu
Author_Institution :
Inst. of Electr. Eng., Beijing, China
Abstract :
With the rapid development of the electromagnetic launch technology, the performance requirements for the charging power supply are increasing. To control the charging rate accurately and get the steady load voltage, a phase-shift control system was designed. This system adopted the control method which regulates the phase angles of the driving pulses by calculating the relationship of the voltage feedback and the preset charging time. According to the topology and application requirements of a high-voltage high-frequency charging power supply (HVHFCPS), a simulation platform based on the physical security information management software was set up. A prototype of HVHFCPS based on voltage feedback and phase-shift control was developed. The experimental results show that the load voltage can be controlled accurately.
Keywords :
control system synthesis; electromagnetic launchers; feedback; information management; phase control; power supply circuits; topology; voltage control; charging rate control; charging time preset; driving pulses; electromagnetic launch technology; high-voltage high-frequency charging power supply; load voltage control; phase-shift contro-based HVHFCPS; physical security information management software; steady load voltage; voltage feedback-based HVHFCPS; Inverters; Optical switches; Power supplies; RLC circuits; Voltage control; Charging power supply; high-voltage high-frequency; phase-shift control; physical security information management (PSIM); voltage feedback;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2013.2250526
