A. E. Halim, Y. Nassar, H. J. Khozondar, E. Bayoumi
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Fast Charging of Lithium-ion Battery for Electric Vehicles Application
Electric vehicles (EVs) will make up a large amount of the demand on future power networks as more people switch to driving them. Lithium-ion battery fast charging is critical to save time and minimize its impact on the utility grid. The goal of this paper is twofold: first, to create a proof-of-concept Simulink model for EV fast chargers; second, to highlight several shortcomings in present fast charger technology. The suggested technique employs PWM rectifiers on the grid side to provide a near-unity power factor with sinusoidal voltage and current. A buck DC-DC converter on the battery side provides the necessary charging voltage to the Lithium-ion battery. Both converters are designed to provide their primary objectives. A set of simulation results is provided to validate the suggested fast-charging technique. The proposed technique successfully charges a 50-kWh battery in 10.25 minutes.
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