Constant Voltage Design Using K-Inverter for Cooperative Inductive Power Transfer

被引:0
|
作者
Quoc-Trinh Vo [1 ]
Quang-Thang Duong [1 ]
Okada, Minoru [1 ]
机构
[1] Nara Inst Sci & Technol, Ikoma 6300192, Japan
来源
IEICE TRANSACTIONS ON ELECTRONICS | 2022年 / E105C卷 / 08期
关键词
cooperative transmission; inductive power transmission; K-inverter; load-independent voltage; TRANSFER SYSTEM; MULTIPLE LOADS; WIRELESS;
D O I
10.1587/transele.2021ECP5038
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
This paper proposes constant voltage design based on K-inverter for cooperative inductive power transfer (IPT) where a nearby receiver picks up power and simultaneously cooperates in relaying the signal toward another distant receiver. In a cooperative IPT system, wireless power is fundamentally transferred to the nearby receiver via one K-inverter and to the distant receiver via two K-inverters. By adding one more K-inverter to the nearby receiver, our design is among the simplest methods as it delivers constant output voltage to each receiver via two K-inverters only. Experimental results verify that the proposed cooperative IPT system can stabilize two output voltages against the load variations while attaining high RF-RF efficiency of 90%.
引用
收藏
页码:358 / 368
页数:11
相关论文
共 50 条
  • [1] A Constant Voltage Design for Inductive Power Transfer System with Multiple Loads
    Isogai, Shogo
    Quang-Thang Duong
    Okada, Minoru
    2020 IEEE INTERNATIONAL CONFERENCE ON CONSUMER ELECTRONICS (ICCE), 2020, : 409 - 412
  • [2] Load-Isolation Wireless Power Transfer With K-Inverter for Multiple-Receiver Applications
    Kuang, Jiwei
    Luo, Bin
    Zhang, Yanling
    Hu, Yao
    Wu, Yiqiang
    IEEE ACCESS, 2018, 6 : 31996 - 32004
  • [3] Design of an Inductive Power Transfer System with Constant Current and Constant Voltage Outputs Based on Multi-frequency Circuit
    Zhang, Junjie
    Yao, Zirui
    Wu, Lijun
    Ma, Hao
    PROCEEDINGS OF 2021 IEEE 30TH INTERNATIONAL SYMPOSIUM ON INDUSTRIAL ELECTRONICS (ISIE), 2021,
  • [4] Design of a miniaturized superconducting bandpass filter by evaluating the kinetic inductance in the K-inverter
    Kanaya, H
    Kawakami, K
    Yoshida, K
    IEICE TRANSACTIONS ON ELECTRONICS, 2006, E89C (02) : 145 - 150
  • [5] Analysis and Design of an Air-Gap-Insensitive Hybrid Inductive Power Transfer System With Constant Voltage Output
    Gong, Zhaowei
    Zhao, Lei
    Zhang, Ningchao
    Chen, Chaobo
    Madawala, Udaya K.
    IEEE TRANSACTIONS ON POWER ELECTRONICS, 2024, 39 (08) : 10496 - 10505
  • [6] Modeling and Control of Inverter Zero-Voltage-Switching for Inductive Power Transfer System
    Liu, Jiangtao
    Deng, Qijun
    Wang, Wenbin
    Li, Zhifan
    IEEE ACCESS, 2019, 7 : 139885 - 139894
  • [7] Luxating Inverter for an Inductive Power Transfer System
    Kavimandan, Utkarsh D.
    Van Neste, C. W.
    Mahajan, Satish M.
    IECON 2018 - 44TH ANNUAL CONFERENCE OF THE IEEE INDUSTRIAL ELECTRONICS SOCIETY, 2018, : 4816 - 4821
  • [8] Data-Driven Fuzzy Constant Voltage Regulation of Inductive Power Transfer Systems
    Xu, Donghui
    Tian, Engang
    Chen, Huwei
    IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS I-REGULAR PAPERS, 2025,
  • [9] A Heterogeneous Inductive Power Transfer System for Electric Vehicles with Spontaneous Constant Current and Constant Voltage Output Features
    Zhou, Jing
    Yao, Pengzhi
    Guo, Kan
    Cao, Pengju
    Zhang, Yao
    Ma, Hao
    ELECTRONICS, 2020, 9 (11) : 1 - 20
  • [10] Communicationless Phase Cooperative Control of Inductive Power Transfer Using Asymmetrical Modulations
    Placzek, Julius Maximilian
    Beiranvand, Hamzeh
    Liserre, Marco
    IEEE TRANSACTIONS ON POWER ELECTRONICS, 2023, 38 (06) : 7836 - 7847
12345