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A Magnetic-Resonance Wireless Power Transfer System Operating in Conductive Media

Thanh Son Pham, Thi Mai Le, Xuan Hung Nguyen, Xuan Thanh Pham
June 6, 2026
Published Date

Research Abstract & Technology Focus

Advancements in Wireless Power Transfer (WPT) technology have enabled a wide range of applications across both industrial and civilian sectors. WPT systems can operate in environments where conventional wired systems are difficult or impractical to implement. These environments often exhibit complex characteristics, including electrical conductivity, which significantly affects WPT performance. This paper presents a WPT system operating in submerged conductive medium with conductivities ranging from 0 to 10 S/m. Theoretical investigations of eddy current formation in conductive environments that lead to efficiency degradation were validated through simulations of electric and magnetic field distributions and experimental measurements of transmission efficiency under different operating conditions. The results obtained can provide useful insights for designing WPT systems in conductive environments, such as underwater, underground, or biomedical implant power-delivery applications.
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What is the core focus of the research titled 'A Magnetic-Resonance Wireless Power Transfer System Operating in Conductive Media'?

This literature focuses on: Advancements in Wireless Power Transfer (WPT) technology have enabled a wide range of applications across both industrial and civilian sectors. WPT systems can operate in environments where conventional wired systems are difficult or impractical t...

What other academic literature is closely related to 'A Magnetic-Resonance Wireless Power Transfer System Operating in Conductive Media'?

Yes, highly correlated activity was mapped. An entry titled 'A Faraday Cage‐Inspired Triboelectric Nanogenerator Enabled by Alloy Powder Architecture for Self‐Powered Ocean Sensing' discusses this: Self‐powered sensing technologies are increasingly sought for intelligent and autonomous marine environmental monitoring. A Faraday cage‐enabled tr...

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