Publication | Closed Access
A MEMS acoustic energy harvester
240
Citations
9
References
2006
Year
AeroacousticsElectrical EngineeringEnergy HarvestingEngineeringMicromachinesMicrofabricationPiezoelectric NanogeneratorsMechanical EngineeringSilicon-micromachined CircularPiezoelectricityInstrumentationAcoustic Wave DevicesUltrasoundAcoustic Energy HarvesterPiezoelectric Composite DiaphragmMicro-electromechanical SystemMicromachined Ultrasonic Transducer
The study develops a micromachined acoustic energy harvester for aeroacoustic applications. The device uses a silicon‑micromachined circular piezoelectric composite diaphragm, and its design, modeling, fabrication, and characterization are described. Experiments show a peak output power density of 0.34 µW cm⁻² at 149 dB, with potential to reach 250 µW cm⁻² through fabrication improvements.
This paper presents the development of a micromachined acoustic energy harvester for aeroacoustic applications. The acoustic energy harvester employs a silicon-micromachined circular, piezoelectric composite diaphragm for electroacoustic transduction. Lumped element modeling, design, fabrication and characterization of a micromachined acoustic energy harvester prototype are presented. Experimental results indicate a maximum output power density of 0.34 µW cm−2 at 149 dB (ref. 20 µPa) and suggest a potential output power density, for this design, of 250 µW cm−2 with an improved fabrication process.
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