Approaches and developments in MEMS power harvesting generators
This paper presents designs and optimizations for two types of micro electromechanical generators system, first one is the narrow band generators which have a particular resonant frequency the second one is wide band generators (tunable generators) where the resonant frequency can be controlled by a...
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my.uniten.dspace-306252024-04-17T10:45:21Z Approaches and developments in MEMS power harvesting generators Shaker M.D. Salleh H. 37049163800 24067645400 Automobile electronic equipment Industrial electronics Manufacture Nanocantilevers Natural frequencies Average power Car engines Frequency ranges Frequency sweeper Intelligent sensors Narrow bands Output power Piezoelectric cantilevers Power harvesting Power out put Resonant frequencies Wide-band Energy harvesting This paper presents designs and optimizations for two types of micro electromechanical generators system, first one is the narrow band generators which have a particular resonant frequency the second one is wide band generators (tunable generators) where the resonant frequency can be controlled by adjusting the cantilever length, changing the distance between magnets, and etc. The work and developments done by researchers are presented and for comparison, their results are listed below: The Laser-micro generator was fabricated with a total volume of 1cm3, output power of 830W, frequencies (60 110) Hz. The output power of the (body-worn) generator was 225 W, volume of 0.25 cm3. The vibration-powered generator for intelligent sensor systems has an overall volume of 0.84 cm3 with an average power of 157 W when tested on a car engine. One type of Paddle generator produced an output power of 2 mW at a frequency of 9.81 kHz. In the frequency sweeper generator, the device generates 0.4 W with frequency range of 4.25 kHz. For Tunable energy harvesting piezoelectric cantilever generator, a natural frequency was successfully tuned over a frequency range of 2232 Hz to produce power output of 240280 W. The resonant frequency of the vibration-based electromagnetic micro-generator was tuned from 67.6 to 98 Hz to produce a power of 61.6156.6 W. The tuning of the wide band generators seemed to be effective. � 2010 IEEE. Final 2023-12-29T07:50:26Z 2023-12-29T07:50:26Z 2010 Conference Paper 10.1109/IEMT.2010.5746698 2-s2.0-79955784873 https://www.scopus.com/inward/record.uri?eid=2-s2.0-79955784873&doi=10.1109%2fIEMT.2010.5746698&partnerID=40&md5=7c7e8d9cfb57e1fb9a4784d719c81c77 https://irepository.uniten.edu.my/handle/123456789/30625 5746698 Scopus |
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Automobile electronic equipment Industrial electronics Manufacture Nanocantilevers Natural frequencies Average power Car engines Frequency ranges Frequency sweeper Intelligent sensors Narrow bands Output power Piezoelectric cantilevers Power harvesting Power out put Resonant frequencies Wide-band Energy harvesting |
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Automobile electronic equipment Industrial electronics Manufacture Nanocantilevers Natural frequencies Average power Car engines Frequency ranges Frequency sweeper Intelligent sensors Narrow bands Output power Piezoelectric cantilevers Power harvesting Power out put Resonant frequencies Wide-band Energy harvesting Shaker M.D. Salleh H. Approaches and developments in MEMS power harvesting generators |
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This paper presents designs and optimizations for two types of micro electromechanical generators system, first one is the narrow band generators which have a particular resonant frequency the second one is wide band generators (tunable generators) where the resonant frequency can be controlled by adjusting the cantilever length, changing the distance between magnets, and etc. The work and developments done by researchers are presented and for comparison, their results are listed below: The Laser-micro generator was fabricated with a total volume of 1cm3, output power of 830W, frequencies (60 110) Hz. The output power of the (body-worn) generator was 225 W, volume of 0.25 cm3. The vibration-powered generator for intelligent sensor systems has an overall volume of 0.84 cm3 with an average power of 157 W when tested on a car engine. One type of Paddle generator produced an output power of 2 mW at a frequency of 9.81 kHz. In the frequency sweeper generator, the device generates 0.4 W with frequency range of 4.25 kHz. For Tunable energy harvesting piezoelectric cantilever generator, a natural frequency was successfully tuned over a frequency range of 2232 Hz to produce power output of 240280 W. The resonant frequency of the vibration-based electromagnetic micro-generator was tuned from 67.6 to 98 Hz to produce a power of 61.6156.6 W. The tuning of the wide band generators seemed to be effective. � 2010 IEEE. |
| author2 |
37049163800 |
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37049163800 Shaker M.D. Salleh H. |
| format |
Conference Paper |
| author |
Shaker M.D. Salleh H. |
| author_sort |
Shaker M.D. |
| title |
Approaches and developments in MEMS power harvesting generators |
| title_short |
Approaches and developments in MEMS power harvesting generators |
| title_full |
Approaches and developments in MEMS power harvesting generators |
| title_fullStr |
Approaches and developments in MEMS power harvesting generators |
| title_full_unstemmed |
Approaches and developments in MEMS power harvesting generators |
| title_sort |
approaches and developments in mems power harvesting generators |
| publishDate |
2023 |
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1806428382009753600 |
| score |
13.211869 |