Title :
Surge analysis of induction heating power supply with PLL
Author :
Chen, Mu-Ping ; Chen, Jan-Ku ; Murata, Katsuaki ; Nakahara, Masatoshi ; Harada, Koosuke
Author_Institution :
Power. Electron. Lab., Ind. Technol. Res. Inst., Hsinchu, Taiwan
fDate :
9/1/2001 12:00:00 AM
Abstract :
Surges are undesirable with respect to both the reliability and the efficiency of power devices. In this paper, the surge mechanism of an induction heating power supply is studied. First, a modified phase locked loop (PLL) controller is proposed such that the changing resonant frequency of the heated load can be tracked correctly and the zero voltage switching (ZVS) can be reliably maintained simultaneously. Then, a very simple and practical surge model is proposed. Surge analyses for both ZVS and non-ZVS modes are made in sequence. It is found that the extra energy built up in the line inductance during the reverse recovery process of the diodes plays a very important role in generating huge voltages. Finally, some simulation and measured results are provided to verify the validity of the proposed surge model
Keywords :
bridge circuits; electric current control; induction heating; invertors; phase locked loops; power supplies to apparatus; rectifying circuits; reliability; resonant power convertors; surges; switching circuits; voltage control; 3-phase rectifier; PLL; PLL controller; ZVS; current control; diode reverse recovery process; full bridge voltage-fed series resonant inverter; induction heating power supply; line inductance; modified phase locked loop controller; non-ZVS mode; power device efficiency; reliability; resonant frequency; surge analysis; surge mechanism; surge model; voltage control; zero voltage switching; Inductance; Maintenance; Phase locked loops; Power supplies; Resonant frequency; Surges; Temperature control; Tracking loops; Voltage control; Zero voltage switching;
Journal_Title :
Power Electronics, IEEE Transactions on
