Novel Transmitting Power Control Method without Signal Communication for Wireless Power Transfer via Magnetic Resonance Coupling

Gunji, Daisuke; Imura, Takehiro; Fujimoto, Hiroshi

doi:10.1002/eej.22954

Cited by 4 publications

References 17 publications

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A Decoupled Modulation Strategy for Constant Voltage/Current Wireless Charging System Under High Coils Misalignment

Cheng,

2024

Circuit Theory & Apps

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Output fluctuation and lower transmission efficiency under load and mutual inductance variation are hot concerned in the wireless charging system for power batteries. In this paper, a decoupled tracking strategy is proposed to realize constant voltage (CV) or current (CC) output and high transmission efficiency. The circuit model of series–series compensation network is built, and corresponding transmission characteristics can be derived. First, the load and mutual inductance value can be estimated by measuring the primary electrical information, including the inverter output voltage, current, and the phase error between them. Then load‐independent voltage or current output characteristics under coils misalignment can be maintained by tracking the optimal switching frequency of inverter part. In addition, the value of output voltage or current can be adjusted flexibly for different operation occasions by the employment of pulse‐width modulation. As a result, the load‐independent output characteristics realization and output adjustment can be decoupled. Based on only the primary measuring information, the CV/CC output can be maintained via the proposed hybrid control strategy when the coils misalignment and load variation happen, increasing the robustness of whole wireless power transfer (WPT) system. Furthermore, the soft switching of all power switches in the inverter part can be realized to reduce the switching loss. Compared with previous research, the proposed wireless charging system has a higher power density and a simplified control strategy. Finally, an experimental platform with 60‐V charging voltage and 3.6‐A charging current is built to verify the feasibility of the proposed sys‐tem and control method.

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A Decoupled Modulation Strategy for Constant Voltage/Current Wireless Charging System Under High Coils Misalignment

Cheng,

2024

Circuit Theory & Apps

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Analysis of frequency splitting phenomena for magnetic resonance wireless power transfer systems

Yin²,

Wang

2017

2017 Chinese Automation Congress (CAC)

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Research on Influence Rules of Metal Sheet on Magnetic Resonance Coupling Wireless Power Transmission System

Cao

Wang

et al. 2018

2018 2nd IEEE Advanced Information Management,Communicates,Electronic and Automation Control Conference (IMCEC)

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Novel Transmitting Power Control Method without Signal Communication for Wireless Power Transfer via Magnetic Resonance Coupling

Cited by 4 publications

References 17 publications

A Decoupled Modulation Strategy for Constant Voltage/Current Wireless Charging System Under High Coils Misalignment

A Decoupled Modulation Strategy for Constant Voltage/Current Wireless Charging System Under High Coils Misalignment

Analysis of frequency splitting phenomena for magnetic resonance wireless power transfer systems

Research on Influence Rules of Metal Sheet on Magnetic Resonance Coupling Wireless Power Transmission System

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