Researchers at MIT have designed a novel device the size of a U.S.
quarter that harvests energy from low-frequency vibrations, such as
those that might be felt along a pipeline or bridge. The tiny energy
harvester — known technically as a microelectromechanical system, or
MEMS — picks up a wider range of vibrations than current designs, and is
able to generate 100 times the power of devices of similar size.
To
harvest electricity from environmental vibrations, researchers have
typically looked to piezoelectric materials, or PZT, such as quartz and
other crystals. Various designs are based on a small microchip with
layers of PZT glued to the top of a tiny cantilever beam. As the chip is
exposed to vibrations, the beam moves up and down like a wobbly diving
board, bending and stressing the PZT layers.
The stressed material builds up an electric charge, which can be picked up by arrays of tiny electrodes. However, the beam itself has a resonant frequency and outside of this frequency, the beam’s response drops off, along with the amount of power that can be generated. [Link]
The stressed material builds up an electric charge, which can be picked up by arrays of tiny electrodes. However, the beam itself has a resonant frequency and outside of this frequency, the beam’s response drops off, along with the amount of power that can be generated. [Link]
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