Title :
Lead-Free (K,Na)NbO3 Impact-Induced-Oscillation Microenergy Harvester
Author :
Le Van Minh ; Hara, Motoaki ; Kuwano, Hiroki
Author_Institution :
Dept. of Nanomech., Tohoku Univ., Sendai, Japan
Abstract :
We developed microenergy harvesters using impact-induced oscillation to scavenge electrical power from low frequency (<;200 Hz) and random environmental vibrations. The microharvesters comprised a (K,Na)NbO3/Si composite cantilever and a cylindrical cavity to guide a metal ball to perpendicularly strike the cantilever. Through ball impact, oscillation of the cantilever was induced, generating electrical power at ambient vibration frequencies from 20 to 150 Hz. The contact time of ball impact was identified as a key parameter for power enhancement and was effectively tuned by adjusting the impact position on the triangular cantilever. The experimental output power when the impact position was at the base of the cantilever was 34.6 nW. This value is tenfold higher than that from conventional devices in which the ball strikes the tip of the cantilever.
Keywords :
cantilevers; energy harvesting; niobium compounds; oscillations; piezoelectric transducers; potassium; sodium; vibrations; (KNa)NbO3; ball impact; composite cantilever; cylindrical cavity; electrical power; environmental vibrations; frequency 20 Hz to 150 Hz; lead-free impact-induced-oscillation microenergy harvester; metal ball; power 34.6 nW; power enhancement; triangular cantilever; Cavity resonators; Force; Lead; Oscillators; Silicon; Vibrations; Energy harvesting; MEMS; lead-free piezoelectric; piezoelectric devices; piezoelectric devices.; piezoelectric energy harvester;
Journal_Title :
Microelectromechanical Systems, Journal of
DOI :
10.1109/JMEMS.2015.2451141
