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Multiload Wireless Power Transfer System With Constant Output Power and Efficiency

Chengxin Luo, Dongyuan Qiu, Wenchao Gu, Bo Zhang, Yanfeng Chen, Wenxun Xiao

2021IEEE Transactions on Industry Applications41 citationsDOI

Abstract

For a multiload wireless power transfer (WPT) system, it has always been a challenge to maintain constant output power with constant efficiency for each load when the coupling conditions change. Besides, the unbalanced power distribution and cross-coupling among loads are also the key issues. In order to solve these problems, a novel multiload WPT system combining the parity-time (PT) symmetry principle and time-sharing control strategy is proposed. First, the multiload PT-symmetric WPT (PT-WPT) system with single natural resonant frequency is modeled and analyzed based on the circuit model. Then, a multiload PT-WPT system with time-sharing control strategy is constructed by adding a controllable resonant capacitor array at the transmitter. The time-sharing control strategy is realized by periodically turning <small>on</small>&#x002F;<small>off</small> a controllable resonant capacitor selectively, which enables a single transmitter to supply power to multiple loads with different natural resonant frequencies, and each load realizes PT transmission characteristics. Further, using the time-sharing control strategy, the power distribution among multiple loads is realized by only controlling the duty cycle of each load. Finally, two dual-load PT-WPT experiments are designed and carried out. Experimental results show that each load can maintain constant output power with constant transfer efficiency about 90&#x0025; in a wide coupling range, and realize power distribution at desired values simultaneously.

Topics & Concepts

Wireless power transferTransmitterControl theory (sociology)CapacitorDuty cyclePower (physics)Maximum power transfer theoremElectrical engineeringElectronic engineeringEngineeringPhysicsVoltageComputer scienceElectromagnetic coilChannel (broadcasting)Control (management)Quantum mechanicsArtificial intelligenceWireless Power Transfer SystemsEnergy Harvesting in Wireless NetworksWireless Body Area Networks
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