Open AccessA New Design of Capacitive Power Transfer Based on Hybrid Approach for Biomedical Implantable Device
Author(s) -
Zaki Mustapa,
Shakir Saat,
Y. Yusmarnita
Publication year - 2019
Publication title -
international journal of electrical and computer engineering
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.277
H-Index - 22
ISSN - 2088-8708
DOI - 10.11591/ijece.v9i4.pp2365-2376
Subject(s) - capacitive sensing , maximum power transfer theorem , computer science , power (physics) , voltage , capacitive coupling , coupling (piping) , class (philosophy) , layer (electronics) , electrical engineering , electronic engineering , materials science , engineering , nanotechnology , mechanical engineering , physics , artificial intelligence , quantum mechanics
This paper presents the development of a new design method of capacitive power transfer (CPT) which is based on hybrid concept for Biomedical Implants. This method is able to improve various issues found in the widely used CPT system that is bipolar CPT method. Based on the ability of this purposed, the simulation of the CPT system has been designed to prove an amount of power transferred through a layer of tissue. The design used to validate the suggested model which to powering implanted device, and it was performed with 3cm square plates, which have a layer of beef with the 5mm thickness in between 2 coupling plate. Power signal was generated by Class E zero voltage switching. The Class E zero voltage switching has been designed to generating alternate current with the 1MHz frequency appropriate to the hybrid CPT system specification.