学位论文详细信息
A power-efficient wireless neural stimulating system with inductive power transmission
Neural stimulation;Wireless power transfer;Switched-capacitor based stimulator;Implantable medical device;Inductive link;Optogenetics;Tissue modeling
Lee, Hyung-Min ; Ghovanloo, Maysam Electrical and Computer Engineering Ayazi, Farrokh Wang, Hua Bhatti, Pamela Li, Wen ; Ghovanloo, Maysam
University:Georgia Institute of Technology
Department:Electrical and Computer Engineering
关键词: Neural stimulation;    Wireless power transfer;    Switched-capacitor based stimulator;    Implantable medical device;    Inductive link;    Optogenetics;    Tissue modeling;   
Others  :  https://smartech.gatech.edu/bitstream/1853/53449/1/LEE-DISSERTATION-2014.pdf
美国|英语
来源: SMARTech Repository
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【 摘 要 】

The objective of the proposed research is to advance the power efficiency of wireless neural stimulating systems in inductively powered implantable medical devices (IMD).Several innovative system- and circuit-level techniques are proposed towards the development of power-management circuits and wireless neural stimulating systems with inductive power transmission to improve the overall stimulation power efficiency. Neural stimulating IMDs have been proven as effective therapies to alleviate neurological diseases, while requiring high power and performance for more efficacious treatments. Therefore, power-management circuits and neural stimulators in IMDs should have high power efficiencies to operate with smaller received power from a larger distance. Neural stimulating systems are also required to have high stimulation efficacy for activating the target tissue with a minimum amount of energy, while ensuring charge-balanced stimulation. These features provide several advantages such as a long battery life in an external power transmitter, extended-range inductive power transfer, efficacious and safe stimulation, and less tissue damage from overheating.The proposed research presents several approaches to design and implement the power-efficient wireless neural stimulating IMDs: 1) optimized power-management circuits for inductively powered biomedical microsystems, 2) a power-efficient neural stimulating system with adaptive supply control, and 3) a wireless switched-capacitor stimulation (SCS) system, which is a combination structure of the power-management circuits and neural stimulator, to maximize both stimulator efficiency (before electrodes) and stimulus efficacy (after electrodes).

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