Optimal LLC Inverter Design With SiC MOSFETs and Phase Shift Control for Induction Heating Applications

This article presents the analysis of a converter based on an LLC resonant output inverter and its optimal design used in induction heating applications. The new optimal design method improves several operating parameters that leads to an optimization of the dimensioning of the components of the converter. Additionally, this converter achieves an output power factor that can be considered optimal since it allows to minimize the reactive power of the resonant circuit components and reduces the rms values of the output current of the inverter and the current of its switching devices in relation to that found in traditional designs. A complete study of the circuit based on classic models is carried out to introduce simple rules for the design of this type of inverter for induction heating applications and to control its output power based on a phase shift (PS) system. Since the inverter is made with silicon carbide MOSFET transistors, an efficiency greater than 99% is reached. The experimental results were obtained from the test of a 12 kW 20 kHz converter for induction heating application.

Automated summary

This article presents the analysis and optimal design method of a converter based on an LLC resonant output inverter for induction heating applications. The optimal design method improves operating parameters and achieves an optimal power factor. The converter, made with silicon carbide MOSFET transistors, achieves an efficiency greater than 99%.