Open AccessElectrical design and simulation of kinetic piezoelectric harvester for distributed control cells
Author(s) -
Essodong Barcola,
Micky Rakotondrabe,
Morvan Ouisse,
Ausrine Bartasyte
Publication year - 2016
Publication title -
proceedings of spie, the international society for optical engineering/proceedings of spie
Language(s) - English
Resource type - Conference proceedings
SCImago Journal Rank - 0.192
H-Index - 176
eISSN - 1996-756X
pISSN - 0277-786X
DOI - 10.1117/12.2228612
Subject(s) - voltage , rectifier (neural networks) , multiplier (economics) , voltage multiplier , computer science , electric potential energy , kinetic energy , piezoelectricity , electronic engineering , electronic circuit , energy harvesting , electrical network , electrical engineering , scheme (mathematics) , energy (signal processing) , engineering , voltage regulation , physics , voltage optimisation , stochastic neural network , quantum mechanics , machine learning , recurrent neural network , artificial neural network , economics , macroeconomics , mathematical analysis , mathematics
This paper deals with the design, the modeling and the simulation of two electrical circuits devoted to kinetic piezoelectric energy harvesters for powering distributed control cells. Two schemes are proposed, analyzed and discussed: the first is a based on classical electrical stages, and the second integrates a novel multiplier/rectifier stage which permits to reduce the voltage loss. Simulation and experimental tests are carried out and demonstrate the advantage of the second scheme relative to the first one.
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