Modelling of Electric Vehicle Charging Station Using MATLAB

Abstract

As part of their strategy to combat climate change and rising urban pollution, emerging countries such as India are quickly adopting the technology behind Electric Vehicles (EVs) and phasing out the use of fossil fuel-powered vehicles. In April 2017, the Indian government declared that all EVs would be sold on the market by 2030. The FAME (Quick uptake and production of electric automobiles) program's promotion is also adhered to. The infrastructure for electric charging is a crucial part of the ecosystem for electric mobility. The market for EV charging stations should be extended alongside the acknowledgement of EVs. Their speed and reach compel EVs. A photovoltaic energy-supplied standalone electric vehicle charging station model in MATLAB and the key to successful electric vehicle use is the available network of charging stations.  All cars in India are switching to electric vehicles, which will play a big part in the future. The biggest problem with electric cars is how long it takes to charge the battery. This study presents a method that will reduce the charging time and enable charging while in motion. According to the theory of electromagnetic induction, it operates. Two copper coils are tuned to have the same resonance frequency. Two coils are positioned a few feet apart. One of the coils receives power from the power supply, which generates a magnetic field that resonates with the second coil. This magnetic resonance leads to the invisible transfer of electric energy from the first coil to the receiving coil