Wireless power transfer system design for implanted and worn devices

Author

Liu, Xiaoyu ; Zhang, Fei ; Hackworth, Steven A. ; Sclabassi, Robert J. ; Sun, Mingui

Author_Institution

Depts. of Neurosurg., Univ. of Pittsburgh, Pittsburgh, PA

fYear

2009

Firstpage

1

Lastpage

2

Abstract

Witricity, a highly efficient wireless power transfer method using mid-range resonant coupling, was reported in recent literature. Based on this method, we present a wireless power transfer scheme using thin film resonant cells for medical applications. The thin film cells, consisting of a tape coil in the exterior layer and conductive strips in the interior layer separated by an insulation layer, are made light and flexible to provide comfort for users during wear. The wireless power transfer scheme presented displays great potential for delivering energy to implantable and worn devices, with range much larger than the current technology for powering implantable devices.

Keywords

power transmission; prosthetic power supplies; conductive strips; energy delivery; implanted devices; insulation layer; mid-range resonant coupling; tape coil; thin film resonant cells; wireless power transfer system design; witricity; worn devices; Biomedical engineering; Coils; Conductive films; Couplings; Magnetic resonance; Medical diagnostic imaging; Medical services; Sun; Transmitters; Wireless sensor networks; thin film cell; wireless power transfer; witricity;

fLanguage

English

Publisher

ieee

Conference_Titel

Bioengineering Conference, 2009 IEEE 35th Annual Northeast

Conference_Location

Boston, MA

Print_ISBN

978-1-4244-4362-8

Electronic_ISBN

978-1-4244-4364-2

Type

conf

DOI

10.1109/NEBC.2009.4967641

Filename

4967641