Title :
Design and optimization of a novel bistable power generator for autonomous sensor nodes
Author :
WeiQun Liu ; Badel, A. ; Formosa, Fabien ; Yipeng Wu ; Agbossou, Amen
Author_Institution :
Lab. SYMME, Univ. de Savoie, Annecy le Vieux, France
Abstract :
Nonlinear energy generators are considered as an effective way to overcome the shortcut of narrow band of linear generators. Among them, bistable oscillators are especially of great potential. Many are realized with magnets and so are not well suited for miniaturization. This paper presents a novel bistable piezoelectric energy harvesting architecture without magnets. Modeling and design have been performed for this new architecture. A normalized expression is given so that the model is applicable to any scale. Chirp and band-limited noise excitations are used to evaluate the proposed harvester´s performances. Numerical simulation and experimental tests are in good agreement and show that the new bistable generator has very good capabilities of combining large bandwidth and high output power. A design optimization strategy is then presented for different application environments.
Keywords :
energy harvesting; numerical analysis; optimisation; piezoelectric transducers; wireless sensor networks; autonomous wireless sensor node; band-limited noise excitation; bistable oscillator; bistable piezoelectric energy harvesting architecture; bistable power generator; chirp noise excitation; design optimization strategy; linear generator; magnet; nonlinear energy generator; numerical simulation; Density measurement; Energy harvesting; Fasteners; Generators; Optimization; Power system measurements; Vibrations; Power Generator; bistable; energy harvesting; piezoelectric; wideband;
Conference_Titel :
Design, Test, Integration and Packaging of MEMS/MOEMS (DTIP), 2013 Symposium on
Conference_Location :
Barcelona
Print_ISBN :
978-1-4673-4477-7
