Integrated Bidirectional Inductive-Array Design for Power Transfer in Implantable BioMEMS

Natiely Hernández-Sebastián; Francisco Javier Renero-Carrillo; Daniela Díaz-Alonso; Wilfrido Calleja-Arriaga

doi:10.3390/proceedings2019015010

Proceedings (Jul 2019)

Integrated Bidirectional Inductive-Array Design for Power Transfer in Implantable BioMEMS

Natiely Hernández-Sebastián,
Francisco Javier Renero-Carrillo,
Daniela Díaz-Alonso,
Wilfrido Calleja-Arriaga

Affiliations

Natiely Hernández-Sebastián: CD-MEMS INAOE, Puebla 72840, Mexico
Francisco Javier Renero-Carrillo: CD-MEMS INAOE, Puebla 72840, Mexico
Daniela Díaz-Alonso: Microtechnologies Department, Center for Engineering and Industrial Development, CIDESI, Queretaro 76125, Mexico
Wilfrido Calleja-Arriaga: CD-MEMS INAOE, Puebla 72840, Mexico

DOI: https://doi.org/10.3390/proceedings2019015010
Journal volume & issue: Vol. 15, no. 1
p. 10

Abstract

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This work presents a novel design of a bidirectional Inductive Power Transfer (IPT) system capable of continuous monitoring of cardiac pressure. The proposed system results from a robust electromagnetic coupling between an external reading coil and an implanted two-level (3D approach) inductor array. In this design, each coupling module follows a 13.56 MHz operating frequency, where both passive RCL networks are near field tuned. Among our main results, we obtained a Power Transfer Efficiency (PTE) of 94.1% across the 3.5 cm-thick composed biological tissue whereas the implanted coil array is about 50% of its conventional size. Since the resulting PTE efficiency is 40% higher, based on the optimized L and Q parameters, this novel approach could be used in other medical applications. This IPT system design is based on a low-cost thin film fabrication technology.

Published in Proceedings

ISSN: 2504-3900 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: General Works
Website: http://www.mdpi.com/journal/proceedings

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