Proceedings ArticleDOI
Hybrid vibration energy harvester based on piezoelectric and electromagnetic transduction mechanism
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TLDR
In this article, a hybrid based energy harvester that integrates with both, piezoelectric and electromagnetic transducers is developed and examined, which uses four pole magnets arranged onto a PEG cantilever beam free end, to produce stronger magnetic field over a stationary coil.Abstract:
Vibration energy harvester converts kinetic energy from ambient vibration into electrical energy. Many energy harvesters in the literature use single element transducer, either piezoelectric, electromagnetic or electrostatic for above purpose. In this paper, a hybrid based energy harvester that integrates with both, piezoelectric and electromagnetic transducers is developed and examined. The energy harvester uses four pole magnets arranged onto a piezoelectric cantilever beam free end, to produce stronger magnetic field over a stationary coil. When the harvester is excited by an external vibration, both piezoelectric and electromagnetic generates electrical energy or power. Experimental results shows that piezoelectric capable to generate optimum power of 2.3mW in a 60Ω resistive load, while electromagnetic generates 3.5mW power in a 40Ω resistive load, when vibrated at its resonant frequency 15Hz, and at 1g (1g=9.8ms-2) acceleration. By efficiently integrating both piezoelectric and electromagnetic transducers, more power could be generated as compared to a single transducer over its size.read more
Citations
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Energy Harvesting Research: The Road from Single Source to Multisource.
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Review of vibration-based energy harvesting technology: Mechanism and architectural approach
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Increased power output of an electromagnetic vibration energy harvester through anti-phase resonance
TL;DR: In this paper, an anti-phase motion between the coil and the magnets at resonance under the same base excitation input was proposed to increase the relative velocity of the coil cutting through the magnetic field.
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Piezoelectric and electromagnetic hybrid energy harvesting with low-frequency vibrations of an aerodynamic profile under the air effect
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A hybrid micro vibration energy harvester with power management circuit
TL;DR: In this paper, a hybrid micro vibration energy harvester based on piezoelectric and electromagnetic transduction mechanisms is developed and tested, which improves total output power and voltage in low frequency and small amplitude vibration environment.
References
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Journal ArticleDOI
A study of low level vibrations as a power source for wireless sensor nodes
TL;DR: The goal of this paper is not to suggest that the conversion of vibrations is the best or most versatile method to scavenge ambient power, but to study its potential as a viable power source for applications where vibrations are present.
Journal ArticleDOI
Energy Harvesting From Human and Machine Motion for Wireless Electronic Devices
TL;DR: The principles and state-of-art in motion-driven miniature energy harvesters are reviewed and trends, suitable applications, and possible future developments are discussed.
Journal ArticleDOI
Analysis of a micro-electric generator for microsystems
CB Williams,R.B. Yates +1 more
TL;DR: In this article, the authors proposed a microgenerator that generates electricity from mechanical energy when embedded in a vibrating medium, and the power produced is proportional to the cube of the frequency of vibration, and that the mass deflection should be as large as possible.
Journal ArticleDOI
A micro electromagnetic generator for vibration energy harvesting
Steve Beeby,Russel Torah,Michael Tudor,Peter Glynne-Jones,Terence O'Donnell,Chitta Saha,Saibal Roy +6 more
TL;DR: In this paper, the authors presented a small (component volume 1 cm3, practical volume 1 5 cm3) electromagnetic generator utilizing discrete components and optimized for a low ambient vibration level based upon real application data.
Journal ArticleDOI
Self-powered autonomous wireless sensor node using vibration energy harvesting
TL;DR: The development and implementation of an energy aware autonomous wireless condition monitoring sensor system (ACMS) powered by ambient vibrations that 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.