Title :
Bringing Robustness and Power Efficiency to Autonomous Energy-Harvesting Microsystems
Author :
Christmann, Jean-Frederic ; Beigne, Edith ; Condemine, Cyril ; Vivet, Pascal ; Willemin, Jerome ; Leblond, N. ; Piguet, Christian
Abstract :
Asynchronous circuits are well-suited to ultra-low-power design. This article presents a microsystem that is powered only by energy extracted from the environment to implement an autonomous sensing application. Key to this application is the use of asynchronous logic, which not only provides greater energy efficiency due to its event-driven nature but, more importantly, allows graceful adaptation to highly variable power availability.
Keywords :
asynchronous circuits; energy harvesting; logic design; low-power electronics; microsensors; asynchronous circuits; asynchronous logic; autonomous energy-harvesting microsystems; power availability; power efficiency; ultra-low-power design; Asynchronous circuits; Batteries; Computer architecture; Energy harvesting; Power supplies; Robustness; Sensors; Voltage control; asynchronous controller; design and test; energy harvesting; microsystem; power management;
Journal_Title :
Design & Test of Computers, IEEE
DOI :
10.1109/MDT.2011.101
