IEEE Transactions on Power Electronics | 2019
Multiphase-Interleaved High Step-Up DC/DC Resonant Converter for Wide Load Range
Abstract
A multiphase-interleaved non-isolated high step-up dc/dc resonant converter for high-current applications with wide load range is proposed in this paper. The converter consists of an inverter stage with multiple resonant inverters in parallel interleaving operation that is cascaded to a common diode–capacitor rectifier stage. The topology of the inverter stage is a variation of class E inverter, which is designed for voltage boosting and of which the voltage gain is insensitive to load change. The rectifier stage comprises multiple pairs (correlated to the number of inverters in parallel) of diodes in parallel and a small output capacitor, which makes it simple to implement and of low cost. Together, the voltage gain variance of the converter can be confined within a small value and zero voltage switching operation can be maintained over a wide load range. A detailed mathematical analysis of the proposed converter is conducted for systematizing its design. A prototype of the proposed converter with an input voltage of 23.6\xa0V, a rated output voltage of 190\xa0V, and a rated output power of 80\xa0W at 486\xa0kHz is constructed for verification. A frequency controller is implemented to achieve fine regulation of the output voltage.