D. F. Berdy scite author profile

The design, fabrication, and characterization of a novel low-frequency meandering piezoelectric vibration energy harvester is presented. The energy harvester is designed for sensor node applications where the node targets a width-to-length aspect ratio close to 1:1 while simultaneously achieving a low resonant frequency. The measured power output and normalized power density are 118 μW and 5.02 μW/mm(3)/g(2), respectively, when excited by an acceleration magnitude of 0.2 g at 49.7 Hz. The energy harvester consists of a laser-machined meandering PZT bimorph. Two methods, strain-matched electrode (SME) and strain-matched polarization (SMP), are utilized to mitigate the voltage cancellation caused by having both positive and negative strains in the piezoelectric layer during operation at the meander's first resonant frequency. We have performed finite element analysis and experimentally demonstrated a prototype harvester with a footprint of 27 x 23 mm and a height of 6.5 mm including the tip mass. The device achieves a low resonant frequency while maintaining a form factor suitable for sensor node applications. The meandering design enables energy harvesters to harvest energy from vibration sources with frequencies less than 100 Hz within a compact footprint.

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Design and characterization of a low frequency 2-dimensional magnetic levitation kinetic energy harvester

Gutierrez

Shahidi

Berdy

et al. 2015

Sensors and Actuators A: Physical

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Impact of Mechanical Vibration on the Performance of RF MEMS Evanescent-Mode Tunable Resonators

Liu

Small

Berdy

et al. 2011

IEEE Microw. Wireless Compon. Lett.

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D. F. Berdy

Kinetic energy harvesting from human walking and running using a magnetic levitation energy harvester

Design and optimization of a magnetically sprung block magnet vibration energy harvester

Low-frequency meandering piezoelectric vibration energy harvester

Design and characterization of a low frequency 2-dimensional magnetic levitation kinetic energy harvester

Impact of Mechanical Vibration on the Performance of RF MEMS Evanescent-Mode Tunable Resonators

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