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A Hybrid Modulation Control for Wireless Power Transfer Systems to Improve Efficiency Under Light-Load Conditions

Yong Li, Wenjun Sun, Xiao Zhu, Jiefeng Hu

2021IEEE Transactions on Industrial Electronics85 citationsDOI

Abstract

Traditional wireless power transfer (WPT) systems usually adopt the triple-phase-shift control method to maintain a constant output voltage, track the maximum system efficiency point (MEPT), and achieve zero-voltage-switching (ZVS) operation for various applications. However, these three targets are achieved at the cost of high reactive power on both primary and secondary sides, especially under light-load conditions, leading to low efficiency. This has become one of the challenges that hinder a further deployment of WPT technologies in practice. To address this vital problem, in this article, how the reactive power lowers the system efficiency is revealed based on a mathematical model established. Then, a hybrid modulation control strategy based on a proper selection between the full-bridge and half-bridge modes of the inverter and active rectifier is developed. An experimental prototype is constructed to verify the effectiveness of the proposed control method. Experimental results show that the proposed method can reduce the reactive power, maintain a constant output voltage, and realize the MEPT and ZVS operation, with high efficiencies up to 94.29% in a wide load range.

Topics & Concepts

Wireless power transferMaximum power transfer theoremAC powerRectifier (neural networks)Computer scienceInverterVoltagePower controlControl theory (sociology)Power (physics)Electronic engineeringModulation (music)WirelessEngineeringElectrical engineeringControl (management)TelecommunicationsMachine learningStochastic neural networkQuantum mechanicsPhysicsRecurrent neural networkArtificial intelligencePhilosophyAestheticsArtificial neural networkWireless Power Transfer SystemsEnergy Harvesting in Wireless NetworksAdvanced Battery Technologies Research
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