Year : 2024 | Volume :02 | Issue : 01 | Page : 12-18

Shilpa Gole,

Ganesh Papal,

Soham Kindre,

Siddhant Newase,

Prathmesh Yadav,

Professor Rajgad Dnyanpeeth’s Shree Chhatrapati Shivajiraje College of Engineering Pune India
Student Rajgad Dnyanpeeth’s Shree Chhatrapati Shivajiraje College of Engineering Pune India
Student Rajgad Dnyanpeeth’s Shree Chhatrapati Shivajiraje College of Engineering Pune India
Student Rajgad Dnyanpeeth’s Shree Chhatrapati Shivajiraje College of Engineering Pune India
Student Rajgad Dnyanpeeth’s Shree Chhatrapati Shivajiraje College of Engineering Pune India

Abstract

As the automotive industry’s the future arise, electric vehicles (EVs) are at the forefront of zero-emission transportation technology. Although conventional plug-in charging stations are widely utilized, Wireless Power Transfer (WPT) is an alternate alternative. WPT may be used as either dynamic charging equipment for moving cars or static charging systems for parked cars. This study addresses the distinction between plug-in and wireless charging, the mechanics of wireless charging, various kinds of charging systems, and the potential uses of dynamic charged. Because of the advantages that electric cars (EVs) provide for the environment and new advances in battery technology, EV adoption is increasing around the world. Nonetheless, one of the main barriers preventing broad adoption is the accessibility and convenience of use of the infrastructure needed for charging. This article describes the planning and building of a wireless charging station with the goal of increasing accessibility for users and promoting the adoption of electric cars. The indicated wireless charging method effectively transfers power between a vehicle-mounted receiver and a ground-based generating pad using resonant inductive coupling. Adaptive power governance, automated alignment detection, and safety measures that guard against electromagnetic interference and foreign object recognition are important characteristics. Both simulation and real-world testing are used to determine the system’s performance, proving that it is practical for daily usage. There is also discussion of the potential rewards of wireless charging, including its simplicity, ability to integrate with autonomous car systems, and less impact on bodily connections. By offering a workable solution that can be implemented in public, business, and residential contexts, this study advances EV infrastructure and enables a wider use of electric transportation.

Keywords: Electric vehicle, wireless charging, wireless power transfer, inductive power transfer, capacitive power transfer. Dynamic wireless charging

[This article belongs to International Journal of Electro-Mechanics and Material Behavior(ijemb)]

How to cite this article: Shilpa Gole, Ganesh Papal, Soham Kindre, Siddhant Newase, Prathmesh Yadav. Innovative Wireless Charging Solutions for Electric Vehicles. International Journal of Electro-Mechanics and Material Behavior. 2024; 02(01):12-18.

How to cite this URL: Shilpa Gole, Ganesh Papal, Soham Kindre, Siddhant Newase, Prathmesh Yadav. Innovative Wireless Charging Solutions for Electric Vehicles. International Journal of Electro-Mechanics and Material Behavior. 2024; 02(01):12-18. Available from: https://journals.stmjournals.com/ijemb/article=2024/view=156106

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Regular Issue Subscription Original Research

International Journal of Electro-Mechanics and Material Behavior

Volume	02
Issue	01
Received	May 24, 2024
Accepted	June 11, 2024
Published	July 12, 2024

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