Title :
Wireless power transmission characteristics for implantable devices inside a human body
Author :
SangWook Park ; Haelyong Kim ; Junho Cho ; EunHa Kim ; SeoCheol Jung
Author_Institution :
EMI/EMC R& D Center, Korea Automotive Technol. Inst., Cheonan, South Korea
Abstract :
The resonance-based wireless power transfer technique is applied to biomedical devices implanted in the human body. The wireless power transfer system is designed for maximum power transfer into a small receiving coil of 10-mm radius at the 50-mm transfer distance. The power transfer efficiency from the transmitting resonant coil outside the phantom into the receiving resonant coil inside the phantom is calculated with varying the size of the free space placing the receiver in the phantom. The results represent that securing the free space surrounding the receiver in the phantom is closely related to the power transfer efficiency and absorbed electromagnetic energies in the human body.
Keywords :
coils; phantoms; prosthetics; telemedicine; biomedical implantable devices; distance 50 mm; electromagnetic energy absorption; human body; phantom; radius 10 mm; receiving resonant coil; resonance-based wireless power transfer technique; transmitting resonant coil; wireless power transfer system; Coils; Communication system security; Electromagnetic compatibility; Phantoms; Receivers; Resonant frequency; biomedical implants; power transfer efficiency; specific absorption rate; wireless power transfer;
Conference_Titel :
Electromagnetic Compatibility (EMC Europe), 2014 International Symposium on
Conference_Location :
Gothenburg
DOI :
10.1109/EMCEurope.2014.6931084
