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Phase-Shift and Duty-Ratio Control Optimization of a 6 kW Three-Port Resonant DC–DC Converter for Dual Auxiliary Voltage EV Applications

Guvanthi Abeysinghe Mudiyanselage, Rachit Pradhan, Kyle Kozielski, Linke Zhou, Giorgio Pietrini, Parthasarathy Nayak, Ali Emadi

2024IEEE Transactions on Power Electronics13 citationsDOI

Abstract

Isolated three-port dc–dc converters (TPCs) facilitate integration of three voltage sources/loads in electric vehicle applications. Three-port resonant converter (TPRC) is an attractive TPC topology as it inherits the advantages of resonant converters. Phase-shift (PS) control applied to TPRCs enables independent power flow control among all ports. Phase-shift and duty-ratio (PSDR) control introduces three additional degrees of freedom providing the potential for improving the converter efficiency compared to PS control. This article presents a generalized harmonic approximation-based steady-state mathematical model for a TPRC with five-variable PSDR control. Mathematical solutions to the steady-state converter bridge voltages and the ac currents under PSDR control are provided. The proposed mathematical model is integrated with a TPRC power loss model and together are used to formulate a control optimization problem for evaluating the optimal control variables at maximum converter efficiency. The optimized five-variable PSDR control is compared against PS control using a 6 kW/100 kHz rated hardware demonstrator, with efficiency improvements as high as 12.4%.

Topics & Concepts

Port (circuit theory)VoltageDuty cycleDual (grammatical number)Electrical engineeringCharge pumpMaterials scienceElectronic engineeringPhysicsControl theory (sociology)EngineeringCapacitorComputer scienceControl (management)LiteratureArtificial intelligenceArtAdvanced DC-DC ConvertersMultilevel Inverters and ConvertersAdvanced Battery Technologies Research