Sustainable and Miniature Power Solutions for Future Internet-of-Things (MiniPower)

Making wireless sensor devices self-sustainable and small, with energy harvesting solutions and sub-mm dimensions, will be critical in future Internet-of-Things applications, e.g., in healthcare and smart-farming systems. However, current self-sustained devices are larger, with dimensions dominated by off-chip inductors. Removing these inductors can potentially decrease the system size by 99%, and pave the way to real-world implementations and commercialisation. This project proposes a new inductor-less architecture for energy harvesting systems. It achieves higher energy efficiency than conventional inductor-based systems, breaks the miniaturisation barrier, and enables fully silicon-integrated self-sustained wireless sensing devices for future Internet-of-Things.

For more information, see the project homepage.