Litcius/Paper detail

Triple-Mode Isolated Resonant Buck–Boost Converter Over Wide Input Voltage Range for Residential Applications

Jinuk Kim, Sang‐Wook Ryu, Minsung Kim, Jin‐Woo Jung

2020IEEE Transactions on Industrial Electronics24 citationsDOI

Abstract

This article proposes a triple-mode isolated resonant buck-boost converter over a wide input voltage range for residential applications of photovoltaic arrays and fuel cells. First, in case that the input voltage is smaller than the nominal voltage, it operates in a resonant-boost mode that boosts the input voltage by using a bridgeless structure on the secondary-side. Next, if the input voltage is within the range of the nominal voltage, it operates in a fully series-resonant mode, which results in high efficiency by the soft-switching on the primary-side switches and reduced conduction loss. Last, if the input voltage is more than the nominal voltage, it operates in a pulsewidth modulation series-resonant buck mode, which can achieve the step-down conversion by reducing the duty cycle. Unlike the conventional resonant converters, the proposed converter achieves high efficiency and less number of power components over a wide input voltage range. Finally, the performance of the proposed triple-mode isolated resonant converter has been fully verified on a prototype 400 W test-bed in the wide input voltage of 35-65 V.

Topics & Concepts

VoltageDuty cycleBuck converterBoost converterConvertersVoltage dividerInductorBuck–boost converterVoltage regulationElectrical engineeringPhysicsElectronic engineeringEngineeringAdvanced DC-DC ConvertersWireless Power Transfer SystemsMultilevel Inverters and Converters