Inductive powering of subcutaneous stimulators: key parameters and their impact on the design methodology | Zendy

Carmen Godfraind | Zendy; Adrien Debelle | Zendy; Laurent Lonys | Zendy; Vicente Acuña | Zendy; Pascal Doguet | Zendy; Antoine clercq | Zendy

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Inductive powering of subcutaneous stimulators: key parameters and their impact on the design methodology

Author(s) -

Carmen Godfraind,

Adrien Debelle,

Laurent Lonys,

Vicente Acuña,

Pascal Doguet,

Antoine clercq

Publication year - 2016

Publication title -

european journal of translational myology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.271

H-Index - 6

eISSN - 2037-7460

pISSN - 2037-7452

DOI - 10.4081/ejtm.2016.6040

Subject(s) - principal (computer security) , key (lock) , computer science , identification (biology) , power (physics) , electronic engineering , engineering , computer security , botany , physics , quantum mechanics , biology

Inductive powering of implantable medical devices involves numerous factors acting on the system efficiency and safety in adversarial ways. This paper lightens up their role and identifies a procedure enabling the system design. The latter enables the problem to be decoupled into four principal steps: the frequency choice, the magnetic link optimization, the secondary circuit and then finally the primary circuit designs. The methodology has been tested for the powering system of a device requirering a power of 300mW and implanted at a distance of 15 to 30mm from the outside power source. It allowed the identification of the most critical parameters. A satisfying efficiency of 34% was reached at 21mm and tend to validate the proposed design procedure

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