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Design Optimization and Electro-Thermal Modeling of an Off-Board Charging System for Electric Bus Applications

Haaris Rasool, Boud Verbrugge, Assel Zhaksylyk, Manh Tuan Tran, Mohamed El Baghdadi, Thomas Geury, Omar Hegazy

2021IEEE Access43 citationsDOIOpen Access PDF

Abstract

This paper proposes a co-design optimization procedure of a high-power off-board charger for electric vehicle (EV) applications. The primary purpose is to design a 175 kW SiC DC-charging system with high power density to achieve high efficiency at a wide operating range. For the active part of the DC off-board charger, a three-phase active front end (AFE) rectifier topology is considered in the design optimization and the modelling. The design methodology focuses on the optimal design of the passive filters, accurate electro-thermal modelling of the converter, inductor design, capacitor selection, loss and geometric modelling of the passive filters and control system design. The design optimization of the high-power charging system is performed in MATLAB Simulink using a closed-loop dynamic electro-thermal simulation of the off-board charger. The switching frequency, loss and temperature-dependent efficiency of the charger is investigated in parallel. Through this proposed technique, efficiency greater than 96% is achieved at a switching frequency of 40 kHz, along with a smaller size and lower weight of the system. Moreover, it operates with a current total harmonic distortion (THDi) below 3% and a power factor (PF) above 99% at rated power condition.

Topics & Concepts

Total harmonic distortionInductorRectifier (neural networks)CapacitorPower factorMATLABElectric vehicleComputer sciencePower densityElectronic engineeringPower (physics)Electrical engineeringEngineeringVoltagePhysicsStochastic neural networkArtificial neural networkQuantum mechanicsOperating systemMachine learningRecurrent neural networkAdvanced Battery Technologies ResearchAdvanced DC-DC ConvertersElectric and Hybrid Vehicle Technologies
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