International Journal For Multidisciplinary Research

E-ISSN: 2582-2160     Impact Factor: 9.24

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wi-fi Strength Switch for Electric Motors: Technologies, Device Layout, Optimization, and Deployment Demanding Situations

Author(s) Mr. AMIT KUMAR MESHRAM
Country India
Abstract The fast adoption of electric motors (EVs) needs charging answers that are green, consumer-pleasant, and seamlessly integrated into each day mobility. conventional plug-in charging faces demanding situations associated with person inconvenience, connector put on, protection, and infrastructure scalability. wi-fi strength switch (WPT) for EVs—primarily based on electromagnetic coupling—emerges as a promising opportunity, permitting contactless strength switch for stationary and dynamic charging packages.
This paper affords a comprehensive look at of wireless power transfer technologies for electric motors, covering working concepts, device architectures, strength electronics, control strategies, and efficiency optimization. We overview inductive and resonant WPT methods, examine requirements and protection constraints, and talk alignment tolerance, energy degrees, and interoperability. A simulation-primarily based assessment framework is outlined for stationary and in-motion charging eventualities, assessing efficiency, energy transfer functionality, electromagnetic compatibility, and grid impact. practical deployment demanding situations, which includes infrastructure value, grid integration, and regulatory issues, are discussed together with destiny studies guidelines. The take a look at demonstrates that optimized WPT systems can extensively beautify EV charging comfort, enhance protection, and guide scalable electrified transportation.
Keywords ireless Power Transfer; Electric Vehicle Charging; Resonant Inductive Coupling; Dynamic Wireless Charging; Power Electronics; Coil Misalignment; Charging Efficiency; Smart Grid Integration
Field Engineering
Published In Volume 7, Issue 6, November-December 2025
Published On 2025-12-15
DOI https://doi.org/10.36948/ijfmr.2025.v07i06.63647
Short DOI https://doi.org/hbf9w7
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