Title :
Linear and non linear behavior of mechanical resonators for optimized inertial electromagnetic microgenerators
Author :
Serre, Catherine ; Perez-Rodriguez, Alejandro ; Fondevilla, N. ; Martincic, E. ; Morante, J.R. ; Montserrat, J. ; Esteve, J.
Author_Institution :
Dept. Electron., Univ. Barcelona, Barcelona
Abstract :
In this work, the design, fabrication and characterization of an electromagnetic inertial microgenerator compatible with Si micro-systems technology is presented. The device includes a fixed micromachined coil and a movable magnet mounted on a resonant polymeric structure. The characterization of the fabricated prototypes has allowed to observe the presence of non linear effects that lead to the appearance of hysteretic vibrational phenomenon. These effects are likely related to the mechanical characteristics of the polymeric membrane, and determine an additional dependence of vibration frequency on the excitation amplitude. Under such non linear conditions, power densities up to 40 muW/cm3 are obtained for devices working with low level excitation conditions similar to those present in domestic and office environment.
Keywords :
electromagnetic devices; elemental semiconductors; hysteresis; membranes; micromechanical resonators; polymers; silicon; vibrations; electromagnetic inertial microgenerator; excitation amplitude; fixed micromachined coil; hysteretic vibrational phenomenon; mechanical resonators; movable magnet; nonlinear effects; polymeric membrane; power densities; resonant polymeric structure; vibration frequency; Biomembranes; Coils; Electromagnetic compatibility; Fabrication; Hysteresis; Magnetic devices; Magnetic resonance; Polymers; Prototypes; Vibrations;
Conference_Titel :
Design, Test, Integration and Packaging of MEMS/MOEMS, 2008. MEMS/MOEMS 2008. Symposium on
Conference_Location :
Nice
Print_ISBN :
978-2-35500-006-5
DOI :
10.1109/DTIP.2008.4752950
