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Design and Analysis of a New Hybrid Wireless Power Transfer System With a Space-Saving Coupler Structure

Xingran Gao, Chunhua Liu, Hong Zhou, Wenshan Hu, Yongcan Huang, Yang Xiao, Zhongcheng Lei, Jing Chen

2020IEEE Transactions on Power Electronics54 citationsDOI

Abstract

This article is to present the design, analysis, and verification of a new hybrid wireless power transfer (HWPT) system, which has a space-saving coupler structure. The key of the design is to simplify the two coupling capacitor plates into one single frame-shaped plate at each side. Then, the coupling coil for inductive power transfer (IPT) is embedded into the metal frame to form a compact hybrid coupler. Meanwhile, the coupling polarity between the coils is specified to realize the superposition of the inductive and capacitive coupling. As a result, the proposed HWPT system can offer a good comprise of efficiency promotion and a space-saving coupler structure simultaneously. To illustrate the system working principles, the equivalent circuit model is first derived. Then, a detailed analysis is conducted in terms of the reflected impedance. Consequently, the mechanism of the efficiency promotion can be clearly explained. Finally, a prototype is constructed with several experiments, which validate the effectiveness of the proposed HWPT system. Results show that an efficiency increase of 14% over the pure IPT is obtained at 35-cm distance. Moreover, the effects of varying the resonant frequency are also carried out to instruct the practical system design.

Topics & Concepts

Maximum power transfer theoremWireless power transferElectromagnetic coilHybrid couplerSuperposition principleElectronic engineeringCoupling (piping)Topology (electrical circuits)Power (physics)EngineeringInductive couplingFrame (networking)CapacitorElectrical engineeringComputer sciencePower dividers and directional couplersPhysicsVoltageTelecommunicationsMechanical engineeringQuantum mechanicsWireless Power Transfer SystemsEnergy Harvesting in Wireless NetworksWireless Body Area Networks