Litcius/Paper detail

A Single-Stage Inductive-Power-Transfer Converter for Constant-Power and Maximum-Efficiency Battery Charging

Zhicong Huang, Chi‐Seng Lam, Pui‐In Mak, Rui P. Martins, Siu‐Chung Wong, Chi K. Tse

2020IEEE Transactions on Power Electronics132 citationsDOI

Abstract

This article proposes a single-stage inductive-power-transfer (IPT) converter operating as a wireless constant-power (CP) and maximum-efficiency battery charger. By maintaining a constant output power rather than providing a constant output current throughout the dominant stage of battery charging, the IPT converter can make the utmost of its power capability, thus having a faster charging rate. The proposed single-stage IPT converter adopts series-series compensation and includes a switch-controlled capacitor (SCC) and a semiactive rectifier (SAR) in the secondary side. Manipulating the SCC and the SAR to emulate the optimum impedance of the resonator and the load, we propose a novel operation approach combining the merits of load-independent transfer characteristic and load impedance matching, to achieve a simple solution to CP charging and maximum efficiency throughout the charging process. Since the control scheme is based on fixed operating frequency and secondary-side real-time regulation, wireless feedback communication is not required. Moreover, soft switching and low voltage stress can be easily achieved in this IPT converter.

Topics & Concepts

Wireless power transferMaximum power transfer theoremBattery chargerRectifier (neural networks)Electrical engineeringImpedance matchingCapacitorOutput impedanceBattery (electricity)Power (physics)EngineeringInput impedanceVoltageElectronic engineeringCompensation (psychology)Control theory (sociology)Electrical impedanceComputer sciencePhysicsElectromagnetic coilPsychologyControl (management)Artificial neural networkMachine learningPsychoanalysisStochastic neural networkQuantum mechanicsRecurrent neural networkArtificial intelligenceWireless Power Transfer SystemsEnergy Harvesting in Wireless NetworksAdvanced Battery Technologies Research