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Pushing Wireless Charging from Station to Travel

Lili Chen, Bozhong Yu, Yongjian Fu, Ju Ren, Hao Pan, Jeremy Gummeson, Yaoxue Zhang

202412 citationsDOIOpen Access PDF

Abstract

Wireless charging has achieved promising progress in recent years. However, the severe bottlenecks are the small charging range and poor flexibility. This paper presents ChargeX to enable smart and long-range wireless charging for small mobile devices. ChargeX incorporates emerging smart metasurface into the magnetic resonance coupling-based wireless charging to extend the charging range and accommodates the mobility of charging device. Unlike previous endeavors in metasurface-assisted wireless charging that focused on simulation, ChargeX makes efforts across software and hardware to meet three crucial requirements for a practical wireless charging system: (i) realize high-freedom and accurate metasurface control under the premise of low loss; (ii) obtain real-time feedback from the receiver and make effective manipulation for transmitted magnetic flux; and (iii) generate a proper AC signal source at the desired frequency band. We developed a prototype of ChargeX, and evaluated its performance through controlled experiments and real-world phone charging. Extensive experiments demonstrate the great potential of ChargeX for long-range and flexible wireless charging with a compact receiver design.

Topics & Concepts

WirelessInductive chargingFlexibility (engineering)Computer scienceElectrical engineeringRange (aeronautics)Electronic engineeringTelecommunicationsEngineeringAerospace engineeringStatisticsMathematicsEnergy Harvesting in Wireless NetworksWireless Power Transfer SystemsAdvanced Wireless Communication Technologies
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