A new technique for reducing size of a wpt system using two-loop strongly-resonant inductors

ROZMAN, Matjaz, FERNANDO, Michael, ADEBISI, Bamidele, RABIE, Khaled M., COLLINS, Tim, KHAREL, Rupak and IKPEHAI, Augustine (2017). A new technique for reducing size of a wpt system using two-loop strongly-resonant inductors. Energies, 10 (10), p. 1614.

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Official URL: https://www.mdpi.com/1996-1073/10/10/1614
Open Access URL: https://www.mdpi.com/1996-1073/10/10/1614/pdf (Published version)
Link to published version:: https://doi.org/10.3390/en10101614
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    Abstract

    Mid-range resonant coupling-based high efficient wireless power transfer (WPT) techniques have gained substantial research interest due to the number of potential applications in many industries. This paper presents a novel design of a resonant two-loop WPT technique including the design, fabrication and preliminary results of this proposal. This new design employs a compensation inductor which is combined with the transmitter and receiver loops in order to significantly scale down the size of the transmitter and receiver coils. This can improve the portability of the WPT transmitters in practical systems. Moreover, the benefits of the system enhancement are not only limited to the lessened magnitude of the TX & RX, simultaneously both the weight and the bill of materials are also minimised. The proposed system also demonstrates compatibility with the conventional electronic components such as capacitors hence the development of the TX & RX is simplified. The proposed system performance has been validated using the similarities between the experimental and simulation results. The power efficiency of the prototype circuit is found to be 93%, which is close to the efficiency reached by the conventional design. However, the weight of the transmitter and receiver inductors is now reduced by 78%, while the length of these inductors is reduced by 80%.

    Item Type: Article
    Uncontrolled Keywords: wireless power transfer (WPT); efficiency; strongly-coupled magnetic resonance (SCMR); 09 Engineering; 02 Physical Sciences
    Identification Number: https://doi.org/10.3390/en10101614
    Page Range: p. 1614
    SWORD Depositor: Symplectic Elements
    Depositing User: Symplectic Elements
    Date Deposited: 07 Feb 2019 11:11
    Last Modified: 07 Feb 2019 11:11
    URI: http://shura.shu.ac.uk/id/eprint/23918

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