Wireless Power Transmission to Electric Vehicles using Tesla Coil

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Varsha A S; Spoorthy G; Praveen M N; Swetha N; Dr. Usha Rani M A

Wireless Power Transmission to Electric Vehicles using Tesla Coil

Authors: Varsha A S, Spoorthy G, Praveen M N, Swetha N, Dr. Usha Rani M A

Unique Paper ID: 188456
Volume: 12
Issue: 7
PageNo: 3983-3991

Keywords: Wireless Power Transfer (WPT) Tesla Coil Electric Vehicles (EV) ESP32 Ultrasonic Sensor Inductive Charging Smart Charging System IoT Blynk Arduino.

Abstract:
The increasing adoption of electric vehicles (EVs) is a major step toward sustainable transportation. However, traditional wired charging systems pose limitations such as inconvenience, high maintenance, physical wear, and lack of mobility. To address these issues, this project presents an advanced Wireless Charging Platform for Electric Vehicles using Tesla Coil–based Wireless Power Transmission (WPT). The proposed system enables contactless EV charging using resonant inductive coupling. It incorporates ESP32, ultrasonic sensors, relay modules, and mini Tesla coils to automate parking detection and initiate safe wireless charging. The system also integrates IoT through Blynk mobile application for remote monitoring of charging status, voltage, and slot occupancy. Experimental results demonstrate effective short-range wireless power transmission with stable charging activation, accurate parking detection, and reliable real-time monitoring. The system presents a scalable solution for next-generation EV infrastructure, reducing human intervention and enhancing user convenience. This project contributes toward future smart cities by promoting clean, efficient, and contactless EV charging technology.

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Copyright & License

Copyright © 2026 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{188456,
        author = {Varsha A S and Spoorthy G and Praveen M N and Swetha N and Dr. Usha Rani M A},
        title = {Wireless Power Transmission to Electric Vehicles using Tesla Coil},
        journal = {International Journal of Innovative Research in Technology},
        year = {2025},
        volume = {12},
        number = {7},
        pages = {3983-3991},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=188456},
        abstract = {The increasing adoption of electric vehicles (EVs) is a major step toward sustainable transportation. However, traditional wired charging systems pose limitations such as inconvenience, high maintenance, physical wear, and lack of mobility. To address these issues, this project presents an advanced Wireless Charging Platform for Electric Vehicles using Tesla Coil–based Wireless Power Transmission (WPT).
The proposed system enables contactless EV charging using resonant inductive coupling. It incorporates ESP32, ultrasonic sensors, relay modules, and mini Tesla coils to automate parking detection and initiate safe wireless charging. The system also integrates IoT through Blynk mobile application for remote monitoring of charging status, voltage, and slot occupancy.
Experimental results demonstrate effective short-range wireless power transmission with stable charging activation, accurate parking detection, and reliable real-time monitoring. The system presents a scalable solution for next-generation EV infrastructure, reducing human intervention and enhancing user convenience. This project contributes toward future smart cities by promoting clean, efficient, and contactless EV charging technology.},
        keywords = {Wireless Power Transfer (WPT), Tesla Coil, Electric Vehicles (EV), ESP32, Ultrasonic Sensor, Inductive Charging, Smart Charging System, IoT, Blynk, Arduino.},
        month = {December},
        }

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Cite This Article

S, V. A., & G, S., & N, P. M., & N, S., & A, D. U. R. M. (2025). Wireless Power Transmission to Electric Vehicles using Tesla Coil. International Journal of Innovative Research in Technology (IJIRT), 12(7), 3983–3991.

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