DESIGN CONSIDERATIONS FOR MEMS-SCALE PIEZOELECTRIC MECHANICAL VIBRATION ENERGY HARVESTERS

DUTOIT, NOËL E.; Wardle, Brian L.; Kim, Sang‐Gook

doi:10.1080/10584580590964574

articleIntegrated ferroelectricsJul 1, 2005Closed access

DESIGN CONSIDERATIONS FOR MEMS-SCALE PIEZOELECTRIC MECHANICAL VIBRATION ENERGY HARVESTERS

NENOËL E. DUTOIT BLBrian L. Wardle SKSang‐Gook Kim

American Institute of Aeronautics and Astronautics · Massachusetts Institute of Technology

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Abstract

Design considerations for piezoelectric-based energy harvesters for MEMS-scale sen-sors are presented, including a review of past work. Harvested ambient vibration energy can satisfy power needs of advanced MEMS-scale autonomous sensors for numerous applications, e.g., structural health monitoring. Coupled 1-D and modal (beam structure) electromechanical models are presented to predict performance, especially power, from measured low-level ambient vibration sources. Models are validated by comparison to prior published results and tests of a MEMS-scale device. A non-optimized prototype low-level ambient MEMS harvester producing 30 µW/cm3 is designed and modeled. A MEMS fabrication process for the prototype…

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750

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Topics & keywords

Topics

Keywords

Microelectromechanical systems
Energy harvesting
Vibration
Piezoelectricity
Mechanical energy
Displacement (psychology)
Materials science
Volume (thermodynamics)

UN Sustainable Development Goals

Affordable and clean energy

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