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Solar Powered Dynamic Wireless Electric Vehicle Charging System using Inductive Power Transfer Technology

Published on March 2025 by Kunal Shirke, Samarth Dyandyan, Aditya Chavan, Sagar D. Dhawale
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International Conference on Next Gen AI, Innovation and Engineering Excellence 2025
Department of Electronics & Telecommunication Engineering Ajeenkya D Y Patil School of Engineering, Pune
ICNIEE2025 - Number 1
March 2025
Authors: Kunal Shirke, Samarth Dyandyan, Aditya Chavan, Sagar D. Dhawale

Kunal Shirke, Samarth Dyandyan, Aditya Chavan, Sagar D. Dhawale . Solar Powered Dynamic Wireless Electric Vehicle Charging System using Inductive Power Transfer Technology. International Conference on Next Gen AI, Innovation and Engineering Excellence 2025. ICNIEE2025, 1 (March 2025), 30-35.

@article{
author = { Kunal Shirke, Samarth Dyandyan, Aditya Chavan, Sagar D. Dhawale },
title = { Solar Powered Dynamic Wireless Electric Vehicle Charging System using Inductive Power Transfer Technology },
journal = { International Conference on Next Gen AI, Innovation and Engineering Excellence 2025 },
issue_date = { March 2025 },
volume = { ICNIEE2025 },
number = { 1 },
month = { March },
year = { 2025 },
issn = 0975-8887,
pages = { 30-35 },
numpages = 6,
url = { /proceedings/icniee2025/number1/solar-powered-dynamic-wireless-electric-vehicle-charging-system-using-inductive-power-transfer-technology/ },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Proceeding Article
%1 International Conference on Next Gen AI, Innovation and Engineering Excellence 2025
%A Kunal Shirke
%A Samarth Dyandyan
%A Aditya Chavan
%A Sagar D. Dhawale
%T Solar Powered Dynamic Wireless Electric Vehicle Charging System using Inductive Power Transfer Technology
%J International Conference on Next Gen AI, Innovation and Engineering Excellence 2025
%@ 0975-8887
%V ICNIEE2025
%N 1
%P 30-35
%D 2025
%I International Journal of Computer Applications
Abstract

With growing environmental concerns and the need for sustainable solutions in urban transport, electric vehicles (EVs) are becoming a more admired and environment-friendly alternative to cars that are powered by conventional fuel. Although, the adoption of EVs is still limited by challenges like range anxiety—drivers’ concerns about running out of battery power on longer trips—and a lack of accessible charging stations, especially in cities. Addressing these issues requires innovative approaches that make EVs more convenient for everyday use while also supporting clean energy sources. This project proposes a solar-powered dynamic wireless charging (DWC)system for electric vehicles, using inductive power transfer (IPT) technology embedded in road infrastructure. The system enables EVs to charge continuously while driving, reducing range anxiety and improving charging accessibility by eliminating the need for frequent stops. By utilizing solar energy, this solution lessens the dependence on conventional power sources, promoting EV adoption as part of a greener transportation network. Working in collaboration with urban planners and engineers, the project aims to integrate this charging system directly into city roads, turning them into dynamic charging networks and contributing to reduced greenhouse gas emissions. This initiative envisions a future where electric vehicles can recharge seamlessly during travel, supporting a more sustainable and efficient urban transport system.

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Index Terms

Computer Science
Information Sciences

Keywords

Electric Vehicles (EVs) Dynamic Wireless Charging (DWC) Inductive Power Transfer (IPT) Wireless Power transfer (WPT) Electromagnetic Field