Self-powered autonomous wireless sensor node using vibration energy harvesting

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Abstract

This paper reports the development and implementation of an energy aware autonomous wireless condition monitoring sensor system (ACMS) powered by ambient vibrations. An electromagnetic (EM) generator has been designed to harvest sufficient energy to power a radio-frequency (RF) linked accelerometer-based sensor system. The ACMS is energy aware and will adjust the measurement/transmit duty cycle according to the available energy; this is typically every 3 s at 0.6 m s-2rms acceleration and can be as low as 0.2 m s-2rms with a duty cycle around 12 min. The EM generator has a volume of only 150 mm3 producing an average power of 58 νW at 0.6 m s-2rms acceleration at a frequency of 52 Hz. In addition, a voltage multiplier circuit is shown to increase the electrical damping compared to a purely resistive load; this allows for an average power of 120 νW to be generated at 1.7 m s-2rms acceleration. The ACMS has been successfully demonstrated on an industrial air compressor and an office air conditioning unit, continuously monitoring vibration levels and thereby simulating a typical condition monitoring application. © 2008 IOP Publishing Ltd.

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Torah, R., Glynne-Jones, P., Tudor, M., O’Donnell, T., Roy, S., & Beeby, S. (2008). Self-powered autonomous wireless sensor node using vibration energy harvesting. Measurement Science and Technology, 19(12). https://doi.org/10.1088/0957-0233/19/12/125202

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