Litcius/Paper detail

Wireless power and information dual transfer system via magnetically coupled resonators

Xiangning He, Sheng Liu, Jiande Wu, Yue Feng, Ruichi Wang, Wuhua Li, Wanying Weng

2024Communications Engineering30 citationsDOIOpen Access PDF

Abstract

Abstract High-efficiency medium-range wireless power transfer using magnetically coupled resonators requires a wireless data link between the contactless coils to regulate power. Multiplexing the power transfer channel as the information channel is a cost-effective solution for the communication. However, existing technologies cannot transmit data across the medium-range magnetically coupled resonators channel without substantially affecting power transfer. Here we show a power-electronics-converters based wireless power and information dual transfer system in which the information signals are modulated on one dc side of the inverter/rectifier, and transmitted through a conventional medium-range wireless power transfer system, and then demodulated on the other dc side. Using the frequency mixer characteristic of the inverter/rectifier, information is modulated onto the sideband of the power carrier and transmitted through the medium-range channel. Finally, we prototyped a 6.78 MHz system capable of transferring 45 W power across a one-meter distance with 62% efficiency and 60 kb/s bitrate for half-duplex communication.

Topics & Concepts

Wireless power transferMaximum power transfer theoremElectrical engineeringInverterResonatorWirelessRectifier (neural networks)Channel (broadcasting)Electronic engineeringPower (physics)Computer scienceEngineeringTelecommunicationsPhysicsVoltageRecurrent neural networkStochastic neural networkQuantum mechanicsMachine learningArtificial neural networkWireless Power Transfer SystemsEnergy Harvesting in Wireless NetworksRFID technology advancements