2007 IEEE International Symposium on Diagnostics for Electric Machines, Power Electronics and Drives 2007
DOI: 10.1109/demped.2007.4393136
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Electromagnetic Vibration Power Generator

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Cited by 34 publications
(13 citation statements)
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“…The design of the developed vibration energy harvester in WISE project in year 2008 was based on this spring-less design of resonance mechanism and sensitivity of this real vibration energy harvester in WISE project was tailored to an operation in an aeronautic application (Hadas et al 2007a). The resonance frequency of the generator is around 17 Hz and a range of the operating vibration level is 0.1-1 g RMS (vibration level is acceleration in multiple of gravity constant).…”
Section: Design Of Vibration Energy Harvestermentioning
confidence: 99%
“…The design of the developed vibration energy harvester in WISE project in year 2008 was based on this spring-less design of resonance mechanism and sensitivity of this real vibration energy harvester in WISE project was tailored to an operation in an aeronautic application (Hadas et al 2007a). The resonance frequency of the generator is around 17 Hz and a range of the operating vibration level is 0.1-1 g RMS (vibration level is acceleration in multiple of gravity constant).…”
Section: Design Of Vibration Energy Harvestermentioning
confidence: 99%
“…The oscillator attains maximum velocity, and thus input kinetic energy, in a frequency band around its natural frequency defined as: ω = k m , where k is the linear stiffness of the spring and m is the effective mass of the oscillator. While these types of energy harvesters are capable of generating electrical energy with output power on the order of milli-Watts [1,7], their natural frequency must be tuned to match the frequency of ambient vibrations. These types of harvesters are, by definition, designed to to work at a single frequency.…”
Section: Introductionmentioning
confidence: 99%
“…The thus proposed small (0.15 cm 3 ) EH device, operating optimally at 52 Hz, allowed attaining a power output of 46 μW (a specific power output of 307 μW/cm 3 ) ( Figure 11 a). A 50 x 32 x 28 mm electromagnetic power generator, that makes use of an aluminium alloy spring with NdFeB magnets, and produces 8 mW (0.18 mW/cm 3 ) of power at 34.5 Hz and a 0.8 g acceleration is, in turn, proposed [ 98 ]. This device was also rearranged, based on the rapid prototyping design of the respective plastic frame, for a lower operational frequency of 17 Hz and, weighting only 120 g in a 120 cm 3 envelope and generating a maximal power of 30 mW, has been successfully tested in rotorcraft assemblies [ 99 ].…”
Section: Kinetic Energy Harvesting Systemsmentioning
confidence: 99%