Wide bandwidth for high-speed communication in mid-range, resonant WPT and RFID systems

Abstract

In this paper we present an experimental wireless power transfer (WPT) prototype that has achieved a 118 kHz power transfer bandwidth operating at the maximum achievable efficiency. Using a simulation and analytical model we show that the power transfer bandwidth of an optimally tuned WPT system is determined by the loaded Q of the system and not by the Q of the resonant tanks. This observation lead to the realization of a WPT communication system that can transmit data at high data rates greater than 8% of the carrier frequency, a data rate significantly greater than has previously been proposed for resonant WPT and RFID systems.