Title :
Class E resonant inverter optimized design for high frequency (MHz) operation using eGaN HEMTs
Author :
Kang Peng ; Santi, Enrico
Author_Institution :
Dept. of Electr. Eng., Univ. of South Carolina, Columbia, SC, USA
Abstract :
The Class-E resonant converter can achieve zero-voltage switching and zero-dv/dt switching when the switch is turned on in optimum mode. This paper presents a design procedure for Class E converter operating at high switching frequency (tens of MHz), considering the tradeoff between device voltage stress and current stress. The operation of a class E inverter is presented, and analytical steady-state equations for the Class E inverter are given valid at any switch-on duty cycle for operation with highly loaded quality factor. The optimized design procedure is described in detail. To verify the proposed approach, a 10MHz switching frequency, 20W output power GaN Class-E inverter design example is given, and its Pspice simulation results are presented. Additionally, the analytical loss model of the Class-E inverter is derived.
Keywords :
III-V semiconductors; frequency convertors; gallium compounds; high electron mobility transistors; resonant invertors; switching convertors; wide band gap semiconductors; zero voltage switching; GaN; class-E inverter steady-state equations; class-E resonant converter; class-E resonant inverter optimized design; current stress; eGaN HEMT; high frequency operation; quality factor; voltage stress; zero voltage switching; Capacitors; Gallium nitride; Inductors; Inverters; Stress; Switches; Switching circuits; Class-E inverter; Resonant converter; Zero-voltage swtiching(ZVS); eGaN(enhancement Gallium Nitride) HEMT; high frequency;
Conference_Titel :
Applied Power Electronics Conference and Exposition (APEC), 2015 IEEE
Conference_Location :
Charlotte, NC
DOI :
10.1109/APEC.2015.7104695
