@article{Ms. R.V. Vader, Mrs. N.J. Kotmire, Mr. P.A. Prabhu, Mr. G.S. Patil_2022, title={“Review of Three level Universal Electric Vehicle Charger Based on Voltage-Oriented Control”}, volume={11}, url={https://eduzonejournal.com/index.php/eiprmj/article/view/154}, abstractNote={<p>Electric vehicles (EVs) is the solution of environmental pollution and also the depletion of non-renewable energy resources. EVs, that ar energized by A battery storage system, gives clea environment. Moreover, the price of EVs is changing into cheaper. Thus, EVs can become a significant load on utility distribution system in future. Electron volt chargers play a significant role within the growth of EVs. The input current in electron volt charger with a high total harmonic distortion (THD) and a high ripple distortion of the output voltage will impact battery life and battery charging time.. This work presents the planning method of a universal electron volt charger. voltage-oriented management (VOC) and pulse-width modulation (SPWM) technique is planned to confirm three battery charging. A simulation of the universal electron volt charger was conducted and assessed in MATLAB–Simulink. The findings shows that the planned charger is in a position to produce a manageable and constant charging voltage for a EV, with associate input current of low total harmonic distortion (THD).</p>}, number={2}, journal={Eduzone: International Peer Reviewed/Refereed Multidisciplinary Journal}, author={Ms. R.V. Vader, Mrs. N.J. Kotmire, Mr. P.A. Prabhu, Mr. G.S. Patil}, year={2022}, month={Sep.}, pages={198–202} }