Body-coupled power transmission and energy harvesting

Wireless power transmission and energy harvesting techniques could be used to power and operate devices in, on and around the human body. However, near-field power transmission approaches are limited by distance, and the efficiency of far-field radiofrequency methods is limited by the body shadowing effect. Here, we show that the body-coupling characteristics of electromagnetic waves-which are either artificially introduced or present in the immediate surroundings-can be used to enable a power transmission and energy harvesting method that offers power to locations all around the body. The body-coupled power transmission exhibits a path loss 30- to 70-dB lower than far-field radiofrequency transmission in the presence of body shadowing. The system can recover 2 mu W at the head from an similar to 1.2-mW transmitter placed 160 cm away at the ankle. In the absence of an active power transmitter, we demonstrate placement-independent scavenging of ambient electromagnetic waves coupled onto the human body, resulting in a power recovery of similar to 2.2 mu W from electromagnetic waves of up to -10-dBm on the body.

Automated summary

The research demonstrates the use of body-coupling characteristics of electromagnetic waves to achieve power transmission and energy harvesting all around the human body, effectively avoiding the body shadowing issue and improving the efficiency and stability of the system.