Litcius/Paper detail

Light Load Efficiency Improvement of Three Phase CLLC Resonant Converter for On-Board Charger Applications

Feng Jin, Ahmed Nabih, Qiang Li

20222022 IEEE Applied Power Electronics Conference and Exposition (APEC)19 citationsDOI

Abstract

The three-phase CLLC (3PCLLC) resonant converter is a good candidate for the on-board-charger application due to the low current stress it incurs on the device, its automatic current-balancing among phases, and its good interleaving. However, the efficiency at light load is sacrificed due to its higher number of switching devices, driving circuits, and magnetics. To improve the efficiency and achieve bi-directional energy transfer, synchronous rectifiers (SRs) can be adopted. The conduction time of the SR will impact the operation of circuits, gain characteristics, and efficiency. In this paper, the SR ON-time is extended to achieve negative current for better regulation capability and light-load efficiency improvement. A new phase-shedding method for the 3PCLLC converter is proposed and analyzed. By shutting down one or two bridges as the load current decreases, the light-load efficiency increases significantly. Experiments are implemented on an 11kW 3PCLLC converter with 500kHz operation frequency to verify the extended SR ON-time control and the phase shedding method; these results show an improvement of more than 9% under 20% load output conditions.

Topics & Concepts

InterleavingElectronic circuitConvertersResonant converterRLC circuitThree-phaseElectronic engineeringPhase (matter)Boost converterCurrent (fluid)Electrical engineeringMaterials scienceVoltageComputer scienceEngineeringCapacitorPhysicsQuantum mechanicsAdvanced DC-DC ConvertersWireless Power Transfer SystemsMicrogrid Control and Optimization