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Constant-Frequency and Noncommunication-Based Inductive Power Transfer Converter for Battery Charging

Io-Wa Iam, Iok-U Hoi, Zhicong Huang, Cheng Gong, Chi‐Seng Lam, Pui‐In Mak, Rui P. Martins

2020IEEE Journal of Emerging and Selected Topics in Power Electronics52 citationsDOI

Abstract

Compared with conductive charging, wireless inductive-power-transfer (IPT) charging exhibits higher potential as it avoids physical contact and provides convenient user experience. Regrettably, it is challenging for IPT converters to comply with the constant current (CC) and constant voltage (CV) charging profiles, while optimizing power efficiency. To achieve such goals, the existing IPT converters can apply multistage converter, dual side, or variable frequency modulation with feedback wireless communication. However, applying multistage converter increases cost and loss, while the stability of the IPT converter with dual side or variable frequency modulation can be at risk if communication fails. This article proposes a single-stage IPT converter for battery charging. With a constant operating frequency and without feedback wireless communication, the receiver side directly regulates the output to comply with the CC/CV charging profile, while the transmitter side aids in the reduction of the modulated phase shift angle at the receiver side, thus improving the efficiency. No wireless communication between the transmitter and receiver sides benefits both the hardware cost and stability. Also, we implement implicitly an output voltage regulation, further avoiding the need of an extra dc–dc converter. We verify experimentally the proposed control method in a 1-KW charging platform with a measured peak efficiency up to 94.35%.

Topics & Concepts

TransmitterWireless power transferElectrical engineeringMaximum power transfer theoremWirelessConvertersBattery (electricity)VoltageElectronic engineeringComputer sciencePower (physics)EngineeringTelecommunicationsPhysicsChannel (broadcasting)Quantum mechanicsWireless Power Transfer SystemsEnergy Harvesting in Wireless NetworksAdvanced Battery Technologies Research
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