International Journal For Multidisciplinary Research

E-ISSN: 2582-2160     Impact Factor: 9.24

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Volume 7 Issue 4
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Design and Implementation of a Wireless Power Transfer System for Consumer Electronics

Author(s) Dr. Manjeet Sharma
Country India
Abstract The increasing demand for wireless charging solutions for consumer electronics has led to
significant advancements in wireless power transfer (WPT) systems. This research focuses on
the design and implementation of a high-efficiency wireless power transfer system for portable
consumer devices. The proposed system utilizes magnetic resonance coupling and inductive
coupling, which allow for efficient power transfer without physical connectors. The study
explores the design process, selection of components, and control strategies that ensure high
efficiency, minimal loss, and cost-effectiveness. Key findings from the simulation and
prototype development indicate that the system achieves over 90% efficiency in transferring
power across short distances, with significant improvements in charging speed compared to
traditional wired methods. Thermal management and power factor correction are integrated
into the design, which enhances system stability and ensures optimal performance under
varying loads. The findings demonstrate the potential of the developed system in addressing
the growing demand for wireless charging solutions in consumer electronics. This work also
highlights the challenges faced in scaling the technology for commercial deployment. The
results show promise for the future of wireless power transfer in reducing clutter and enhancing
convenience for users of electronic devices. The proposed system offers a practical solution for
the future of wireless charging in consumer applications.
Keywords Wireless power transfer, consumer electronics, magnetic resonance coupling, inductive coupling, efficiency, charging system.
Field Engineering
Published In Volume 7, Issue 4, July-August 2025
Published On 2025-07-05
DOI https://doi.org/10.36948/ijfmr.2025.v07i04.50225
Short DOI https://doi.org/g9s9hs
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