KEYWORDS: Biomedical optics, Electrodes, Energy transfer, Systems modeling, Device simulation, Medical research, Circuit switching, Power supplies, Absorption, Synthetic aperture radar
Miniaturised biomedical implants, such as neural stimulators and leadless pacemakers are becoming increasingly popular. As of yet, access to a reliable power source has been one of the major obstacles towards creating miniature devices with extended functionalities. Batteries tend to take up 80% room while offering a limited lifespan. Moreover, transcutaneous energy transfer systems (TET) designed to deliver power to implants without a physical link require a receiving coil that requires a generous real estate. This research proposes a new transcutaneous energy transfer (TET) method to deliver power to miniaturised deeply implanted biomedical devices.
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