Simultaneous Wireless Power Transfer and Full-Duplex Communication With a Single Coupling Interface

A method to achieve simultaneous wireless power transfer and full-duplex communication with a pair of coupling coils is proposed in this article. A double-side LCC compensation topology for power transfer is adopted, while the data transfer channel is constituted by a four resonance dual-rejection structure. In the process of power transfer and full-duplex communication, from the view of data transmitting and receiving, the data transmitting/receiving circuits on one side can not only transmit/receive the desired data carriers but also block the interference data carriers, and from the view of power transfer, the rated power transfer can be realized with little influence. Moreover, the parameter design method of the proposed system is given. Besides, the interference between the power wave and data carriers and the crosstalk between the data carriers are analyzed. Finally, an experimental prototype is built, which achieves an output power of 600 W and a data transmission rate of 80 kbps.

Automated summary

The article proposes a method for simultaneous wireless power transfer and full-duplex communication using a pair of coupling coils. The system adopts a unique double-side LCC compensation topology for power transfer and a four-resonance dual-rejection structure for data transmission. The experimental prototype achieved an output power of 600 W and a data transmission rate of 80 kbps, demonstrating efficient power transfer and data communication.