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An Overview of Regulation Topologies in Resonant Wireless Power Transfer Systems for Consumer Electronics or Bio-Implants

Author

Listed:
  • Yang Liu

    (School of Electronics and Information Engineering, South China University of Technology, Wushan, Guangzhou 510641, China)

  • Bin Li

    (School of Electronics and Information Engineering, South China University of Technology, Wushan, Guangzhou 510641, China)

  • Mo Huang

    (School of Electronics and Information Engineering, South China University of Technology, Wushan, Guangzhou 510641, China)

  • Zhijian Chen

    (School of Electronics and Information Engineering, South China University of Technology, Wushan, Guangzhou 510641, China)

  • Xiuyin Zhang

    (School of Electronics and Information Engineering, South China University of Technology, Wushan, Guangzhou 510641, China)

Abstract

Owing to its relatively high efficiency, extended transmission range, and less exposure to radio frequency radiation, near-field resonant wireless power transfer (R-WPT) has been widely used in consumer electronics and bio-implants. For most applications, a well-regulated output voltage is required against the coupling and loading variations, and thus a regulation scheme should be employed in an R-WPT system. To achieve an optimal receiver (RX) or overall efficiency, together with a reduced cost overhead, several regulation schemes have been proposed in recent years, where the regulation can be implemented at either the RX or transmitter (TX) side, or both. These regulation schemes have been reviewed and comprehensively discussed in this paper. Hence, the main contribution of this paper is to provide a guideline for designing the regulation scheme in R-WPT systems. Moreover, potential new topologies of regulation are investigated here.

Suggested Citation

  • Yang Liu & Bin Li & Mo Huang & Zhijian Chen & Xiuyin Zhang, 2018. "An Overview of Regulation Topologies in Resonant Wireless Power Transfer Systems for Consumer Electronics or Bio-Implants," Energies, MDPI, vol. 11(7), pages 1-22, July.
  • Handle: RePEc:gam:jeners:v:11:y:2018:i:7:p:1737-:d:155835
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    References listed on IDEAS

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    1. Chaoqiang Jiang & K. T. Chau & Chunhua Liu & Christopher H. T. Lee, 2017. "An Overview of Resonant Circuits for Wireless Power Transfer," Energies, MDPI, vol. 10(7), pages 1-20, June.
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    Cited by:

    1. Fabio Corti & Alberto Reatti & Ya-Hui Wu & Dariusz Czarkowski & Salvatore Musumeci, 2021. "Zero Voltage Switching Condition in Class-E Inverter for Capacitive Wireless Power Transfer Applications," Energies, MDPI, vol. 14(4), pages 1-20, February.
    2. Xian Zhang & Yanan Ren & Lin Sha & Qingxin Yang & Xuejing Ni & Fengxian Wang, 2020. "Analysis of Dynamic Characteristics of Foreign Metal Objects under Electromagnetic Force in High-Power Wireless Power Transfer," Energies, MDPI, vol. 13(15), pages 1-15, July.
    3. Joungha Lee & Seung Beop Lee, 2021. "Transmitter Module Optimization for Wireless Power Transfer Systems with Single Transmitter to Multiple Receivers," Mathematics, MDPI, vol. 9(22), pages 1-16, November.
    4. Md Maruf Hossain Shuvo & Twisha Titirsha & Nazmul Amin & Syed Kamrul Islam, 2022. "Energy Harvesting in Implantable and Wearable Medical Devices for Enduring Precision Healthcare," Energies, MDPI, vol. 15(20), pages 1-50, October.
    5. Xian Zhang & Xuejing Ni & Bin Wei & Songcen Wang & Qingxin Yang, 2018. "Characteristic Analysis of Electromagnetic Force in a High-Power Wireless Power Transfer System," Energies, MDPI, vol. 11(11), pages 1-13, November.
    6. Libin Yang & Ming Zong & Chunlai Li, 2021. "Voltage-Gain Design and Efficiency Optimization of Series/Series-Parallel Inductive Power Transfer System Considering Misalignment Issue," Energies, MDPI, vol. 14(11), pages 1-11, May.

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