A Self-powered Analog Sensor-data-logging Device based on Fowler-Nordheim Dynamical Systems
Abstract
Continuous, battery-free operation of sensor nodes requires ultra-low-power sensing and data-logging techniques. Here we report that by directly coupling a sensor/transducer signal into globally asymptotically stable monotonic dynamical systems based on Fowler-Nordheim quantum tunneling, one can achieve self-powered sensing at an energy budget that is currently unachievable using conventional energy harvesting methods. The proposed device uses a differential architecture to compensate for environmental variations and the device can retain sensed information for durations ranging from hours to days. With a theoretical operating energy budget less than 10 attojoules, we demonstrate that when integrated with a miniature piezoelectric transducer the proposed sensor-data-logger can measure cumulative "action" due to ambient mechanical acceleration without any additional external power.
Cite
@article{arxiv.2004.12256,
title = {A Self-powered Analog Sensor-data-logging Device based on Fowler-Nordheim Dynamical Systems},
author = {Darshit Mehta and Kenji Aono and Shantanu Chakrabartty},
journal= {arXiv preprint arXiv:2004.12256},
year = {2021}
}
Comments
24 pages (including 11 supplementary pages) and 16 figures (including 11 supplementary figures)