Title :
Direct ZVS start-up of a current-fed resonant inverter
Author :
Hu, Aiguo Patrick ; Covic, Grant A. ; Boys, John T.
Author_Institution :
Dept. of Electr. & Comput. Eng., Auckland Univ.
fDate :
5/1/2006 12:00:00 AM
Abstract :
Zero voltage switching (ZVS) is critical for reliable operation of standard current-fed parallel resonant inverters. Under steady-state conditions, ZVS can be achieved using common techniques such as a phase lock loop, a voltage controlled oscillator, and other integral controllers. However, during transient processes, achieving ZVS is not trivial for such controllers and consequently switch failure can occur. This paper proposes a dynamic ZVS method to solve the start-up problems by using a forced dc current. Start-up conditions are analyzed and complete dynamic ZVS control is achieved. If the ramp-up delay of practical dc power supplies is utilized, the start-up process can be controlled to be overshoot-free at no extra cost. The validity of this method is proven using both PSpice simulations and experimental results
Keywords :
fault diagnosis; resonant invertors; switching convertors; zero voltage switching; PSpice simulations; ZVS; current-fed parallel resonant inverter; forced DC currents; integral controllers; operation reliability; phase lock loop; ramp-up delay; start-up problems; steady-state conditions; switch failure; transient process; voltage controlled oscillator; zero voltage switching; Costs; Delay; Power supplies; Process control; Resonant inverters; Steady-state; Switches; Voltage control; Voltage-controlled oscillators; Zero voltage switching; Current-fed inverter; resonant converter; soft switching; zero voltage switching (ZVS);
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2006.873226
