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A Phase-Shifted Control for Wireless Power Transfer System by Using Dual Excitation Units

Xin Dai, Jincheng Jiang, Yanling Li, Ting Yang

Year
2017
Citations
13
Access
Open access

Abstract

Wireless power transfer (WPT) technology can provide intelligent robots with a flexible, robust, and safe power supply, especially in very harsh environments including high humidity and high temperature. To meet increasing power requirement for robotic applications, this paper proposes a novel method to increase system power transfer capability without increasing voltage and current stress, realized by using dual excitation units at the primary side. On this basis, this paper proposes a phase-shifted control method for output power regulation which can keep efficiency high. At the same time, the system is proved to have a better output robust characteristic by analysis under the condition of parameter variation. Finally, experimental results show the proposed dual excitation units (DEU)-WPT system can increase output power by at least three times compared to classical WPT system, and the efficiency is improved by 9%.

Keywords

Wireless power transferDual (grammatical number)Power (physics)ExcitationWirelessVoltageMaximum power transfer theoremElectronic engineeringElectrical engineeringComputer science

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