Title :
Numerical simulation of Wireless Power Transfer system to recharge the battery of an implanted cardiac pacemaker
Author :
Cruciani, Silvano ; Campi, Tommaso ; Maradei, Francesca ; Feliziani, Mauro
Author_Institution :
Dept. of Ind. & Inf. Eng. & Econ., Univ. of L´Aquila, L´Aquila, Italy
Abstract :
This study deals with the design of an inductive Wireless Power Transfer (WPT) system to recharge the battery of a pacemaker. A co-simulation tool is developed using both circuit and electromagnetic field models to simulate all parts of a WPT system for a pacemaker. The pacemaker equipped with the secondary coil of the WPT system is assumed to be implanted in the human body, while the primary coil is placed on the body surface. The eddy currents induced on the titanium case of the pacemaker can alter the WPT performances and therefore the use of magnetic shield placed on the case surface is also proposed. Some numerical results are presented and validated by measurements in simple configurations.
Keywords :
coils; electromagnetic fields; inductive power transmission; magnetic shielding; numerical analysis; pacemakers; secondary cells; WPT system; battery; circuit models; cosimulation tool; eddy currents; electromagnetic field models; implanted cardiac pacemaker; inductive wireless power transfer system; magnetic shielding; numerical simulation; primary coil; secondary coil; titanium case; Coils; Electromagnetic compatibility; Magnetic fields; Magnetic noise; Magnetic resonance; Magnetic shielding; Pacemakers; Active implanted medical device (AIMD); battery recharging; cardiac pacemaker; circuit parameter extraction; magnetic resonance coils; magnetic shielding; wireless power transfer (WPT);
Conference_Titel :
Electromagnetic Compatibility (EMC Europe), 2014 International Symposium on
Conference_Location :
Gothenburg
DOI :
10.1109/EMCEurope.2014.6930874
