AC power supply circuit architecture for a miniaturised retinal prosthesis device

Yasuto Mori; Chang Chia‐Chi; Hiroki Endo; Maho Hata; Kenzo Shodo; Yasuo Terasawa; Toshihiko Noda; Takashi Tokuda; Makito Haruta; Hiroyuki Tashiro; Kiyotaka Sasagawa; Jun Ohta

doi:10.1049/tje2.12058

The Journal of Engineering (Oct 2021)

AC power supply circuit architecture for a miniaturised retinal prosthesis device

Yasuto Mori,
Chang Chia‐Chi,
Hiroki Endo,
Maho Hata,
Kenzo Shodo,
Yasuo Terasawa,
Toshihiko Noda,
Takashi Tokuda,
Makito Haruta,
Hiroyuki Tashiro,
Kiyotaka Sasagawa,
Jun Ohta

Affiliations

Yasuto Mori: Division of Materials Science Nara Institute of Science and Technology Ikoma Nara Japan
Chang Chia‐Chi: Division of Materials Science Nara Institute of Science and Technology Ikoma Nara Japan
Hiroki Endo: Division of Materials Science Nara Institute of Science and Technology Ikoma Nara Japan
Maho Hata: Division of Materials Science Nara Institute of Science and Technology Ikoma Nara Japan
Kenzo Shodo: R&D Division, NIDEK CO., LTD. Artificial Vision Institute Gamagori Japan
Yasuo Terasawa: R&D Division, NIDEK CO., LTD. Artificial Vision Institute Gamagori Japan
Toshihiko Noda: Division of Materials Science Nara Institute of Science and Technology Ikoma Nara Japan
Takashi Tokuda: Division of Materials Science Nara Institute of Science and Technology Ikoma Nara Japan
Makito Haruta: Division of Materials Science Nara Institute of Science and Technology Ikoma Nara Japan
Hiroyuki Tashiro: Division of Materials Science Nara Institute of Science and Technology Ikoma Nara Japan
Kiyotaka Sasagawa: Division of Materials Science Nara Institute of Science and Technology Ikoma Nara Japan
Jun Ohta: Division of Materials Science Nara Institute of Science and Technology Ikoma Nara Japan

DOI: https://doi.org/10.1049/tje2.12058
Journal volume & issue: Vol. 2021, no. 10
pp. 546 – 551

Abstract

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Abstract This study proposes an alternating current (AC)‐driven retinal prosthesis device using an implantable CMOS‐LSI chip that can control multiple electrodes. The proposed device uses AC power with the electrical grounds of the main and stimulation units separated to reduce the possibility of current leakage and to improve safety. The stimulation unit implanted in the eye cannot include large capacitor chips for ground separation. To solve this problem, large capacitor chips are mounted on the implantable control unit that supplies power, not on the stimulating device, and a cooperative mode of operation is devised. In this way, it is realised that a circuit configuration that achieves both miniaturisation and improved power supply efficiency. This study verifies the functionality of the proposed circuit. The results suggest that power supply and stimulation operations are possible through coupling capacitors. In addition, this stimulation operation can be performed continuously.

Published in The Journal of Engineering

ISSN: 2051-3305 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology: Engineering (General). Civil engineering (General)
Website: https://ietresearch.onlinelibrary.wiley.com/journal/20513305

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