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High-Efficiency High-Power-Density <i>CLLC</i> Resonant Converter With Low-Stray-Capacitance and Well-Heat-Dissipated Planar Transformer for EV On-Board Charger

Zhengda Zhang, Chunhui Liu, Mengzhi Wang, Yunpeng Si, Yifu Liu, Lei Qin

2020IEEE Transactions on Power Electronics127 citationsDOI

Abstract

In this article, a high-efficiency high-power-density wide-bandgap-based CLLC resonant converter with a low-stray-capacitance and well-heat-dissipated planar transformer is presented, which is used as the isolated dc-dc stage for an electric vehicle on-board charger. A generalized planar transformer design methodology is proposed and validated by practical designs and experimental tests. A novel and simple transformer configuration is proposed to reduce the winding stray capacitance and enhance the winding thermal dissipation. The proposed transformer configuration is compared with different planar transformer designs, and the tradeoffs of employing the proposed design are well analyzed. Moreover, the system design and optimization of the high-efficiency high-power-density CLLC resonant converter is studied. The proposed transformer design and the system optimization approach are employed in a 6.6-kW/500-kHz CLLC resonant converter prototype. The prototype achieves a peak efficiency of 97.85% and a power density of 114 W/in$^\text {3}$.

Topics & Concepts

TransformerCapacitancePlanarPower densityElectrical engineeringResonant converterEnergy efficient transformerMaterials scienceDissipationElectronic engineeringEngineeringDistribution transformerComputer sciencePower (physics)PhysicsVoltageElectrodeComputer graphics (images)ThermodynamicsQuantum mechanicsAdvanced DC-DC ConvertersSilicon Carbide Semiconductor TechnologiesSupercapacitor Materials and Fabrication
High-Efficiency High-Power-Density <i>CLLC</i> Resonant Converter With Low-Stray-Capacitance and Well-Heat-Dissipated Planar Transformer for EV On-Board Charger | Litcius