1. A Fully Integrated Energy-Aware Baseband Circuitry for Next-Generation Retinal Implants
- Author
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Muh-Tian Shiue, Chi-Tong Hong, Kai-Wen Yao, Sheng-Yang Ho, Tong-Yi Chen, C.-S.A. Gong, Jyun-Wei Lu, Yin Chang, and Chun-Hsien Su
- Subjects
CMOS ,Computer science ,Proof of concept ,business.industry ,SAFER ,Retinal implant ,Baseband ,business ,Frame rate ,Chip ,Multiplexing ,Computer hardware - Abstract
The state-of-the-art prosthetic devices have been successfully approved as critical approach to provide at least partial reconstruction for physiological diseases by replacing a damaged tissue or organ. Invariably, they are always aspired to have lower power consumption despite the battery or the battery-less implementation. This paper presents an energy-aware baseband circuitry concerned about the next-generation multi-channel prostheses especially for the retinal implant in which an inductive-coil link is preferred to fulfill the need of power delivery for providing safer tissue-machine interfaces in the intraocular environment. The extended lifetime for those of the battery-dependent implants can be also achieved by adopting such a power-efficient scheme. The proposed system is a 16-channel-based on-electrode multiplexing design, which can deal with up to 40 frame/sec with 240 stimulus channels in mode I and 3 times the resolution at the same frame rate in mode II under a carrier frequency of 2 MHz. A prototypical chip was implemented in a 0.18mum CMOS process and the experiment has also been carried out as proof of concept.
- Published
- 2007
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