Title :
Resonant Inductive Link for Remote Powering of Pacemakers
Author :
Monti, Giuseppina ; Arcuti, Paola ; Tarricone, Luciano
Author_Institution :
Dept. of Eng. for Innovation, Univ. of Salento, Lecce, Italy
Abstract :
This paper presents a wireless power link for powering implantable medical devices. The proposed link operates at 403 MHz and exploits magnetic coupling between an external resonator and an implanted resonator to wirelessly provide power to implantable devices. Experimental results for remote powering of pacemakers are reported and the compliance with safety guidelines is discussed. It is demonstrated that the proposed wireless link is able to deliver up to 1 mW with an induced 10-g average specific absorption rate lower than 1.08 W/kg. This value is significantly below the 2-W/kg recommended limit, thus proving the suitability of the proposed system to be used to energize modern pacemakers.
Keywords :
inductive power transmission; pacemakers; prosthetics; radio networks; resonators; telemedicine; average specific absorption rate; external resonator; frequency 403 MHz; implantable medical devices; implanted resonator; magnetic coupling; power 1 mW; remote pacemaker powering; resonant inductive link; safety guidelines; wireless power link; Couplings; Implants; Medical diagnostic imaging; Pacemakers; Receivers; Spirals; Wireless communication; Implantable medical device; RF-to-dc conversion; pacemaker; resonant inductive link; specific absorption rate (SAR); wireless power transfer (WPT);
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2015.2481387
