Long-Range Optical Wireless Information and Power Transfer

Simultaneous wireless information and power transfer (SWIPT) is a remarkable technology to support data and energy transfer in the era of Internet of Things (IoT). In this paper, we propose a beam-compression resonant beam (BCRB) system for long-range optical wireless information and power transfer based on the telescope-like internal modulator (TIM). Utilizing the TIM, the resonant beam is compressed, making the transmission energy be further concentrated. Thus the over-the-air power loss produced by the beam diverged decreases, which enables the long-range SWIPT capability. We establish the analytical models of the transmission loss, the stability condition, the output power, and the spectral efficiency of the BCRB system, and evaluate the performance on the beam-compression, energy delivery, and data transfer. Numerical analysis illustrates that the exemplary BCRB system can deliver 6 W power and have 14 bit/s/Hz spectral efficiency over 200 m distance. Overall, the BCRB system is a potential scheme for long-range SWIPT in IoT.