122 / 2023-10-18 10:32:18
Space-Utilization Multi-Mode Quasi-Static Resonant Cavity Wireless Power Transfer for Fully Enclosed Arbitrary Regions
movable platform, MPE Mode, PE Mode,SUM-QSCR
Draft Accepted
Cancan Rong / China University of Mining and Technology
Qiong Wang / China University of Mining and Technology
Yingzhou Guo / China University of Mining and Technology
Xiaoyu Duan / China University of Mining and Technology
Lihui Yan / China University of Mining and Technology
Mengmeng Chen / China University of Mining and Technology
Jin Chang / China University of Mining and Technology
Chenyang Xia / China University of Mining and Technology
Recent work on quasi-static cavity resonator (QSCR) has provided a solution for wireless power transfer (WPT) without dead angles for electrical appliance receivers in indoor spaces. However, the quasi-static cavity resonator technique is limited by the coherence of space usage due to the presence of a pole in the middle of the cavity. Therefore, this paper proposes a method based on spatial utilization multimode quasi-static cavity to achieve wireless power transfer in any enclosed area. The finite element software proves that this structure has a peripheral field enhancement mode (PE Mode) and a movable platform field enhancement mode (MPE Mode), and these two modes do not interfere with each other when working. By superimposing the two modes, the energy transfer efficiency at any position in the whole space can reach more than 40%. The emergence of this new charging method can make electric power like WiFi in the future, and achieve efficient energy transmission in any desired area of the closed room through the displacement and design of the movable platform.

 
Important Date
  • Conference Date

    Dec 08

    2023

    to

    Dec 10

    2023

  • Nov 01 2023

    Draft paper submission deadline

  • Dec 10 2023

    Registration deadline

Sponsored By
IEEE IAS
Organized By
Southwest Jiaotong University (SWJTU)