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    Journals >Optics and Precision Engineering >Volume 19 >Issue 8 >Page 1771 > Article
    • Optics and Precision Engineering
    • Vol. 19, Issue 8, 1771 (2011)
    Modeling and experimental verification for cantilevered piezoelectric vibration energy harvester
    HE Xue-feng1,2,*, DU Zhi-gang2, ZHAO Xing-qiang2, WEN Zhi-yu1,2, and YIN Xian-fang2
    Author Affiliations
  • 1[in Chinese]
  • 2[in Chinese]
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    DOI: 10.3788/ope.20111908.1771 Cite this Article
    HE Xue-feng, DU Zhi-gang, ZHAO Xing-qiang, WEN Zhi-yu, YIN Xian-fang. Modeling and experimental verification for cantilevered piezoelectric vibration energy harvester[J]. Optics and Precision Engineering, 2011, 19(8): 1771 Copy Citation Text show less
    References

    [1] ROUNDY S, WRIGHT P K. A piezoelectric vibration based generator for wireless electronics [J]. Smart Materials and Structures, 2004,13: 1131-1142.

    [2] PARK J C, LEE D H, PARK J Y, et al.. High Performance Piezoelectric MEMS Energy Harvester Based on d33 Mode of PZT Thin Film on Buffer-Layer with PbTiO3 Inter-Layer [C]. Transducers 2009, Denver, CO, USA, 2009: 517-520.

    [3] BEEBY S P, TORAH R N, TUDOR M J, et al.. A micro electromagnetic generator for vibration energy harvesting [J]. Journal of Micromechanics and Microengineering, 2007,17: 1257-1265.

    [4] SARI I, BALKAN T, KULAH H. An electromagnetic micro power generator for low-frequency environmental vibrations based on the frequency upconversion technique [J]. Journal of Microelectromechanical Systems, 2010,19(1): 14-27.

    [5] HOFFMANN D, FOLKMER B, MANOLI Y. Fabrication, characterization and modeling of electrostatic micro-generators [J]. Journal of Micromechanics and Microengineering, 2009, 19: 094001.

    [6] HALVORSEN E, WESTBY E R, HUSA S, et al.. An Electrostatic Energy Harvester with Eelectret Bias [C]. Transducers 2009, Denver, CO, USA, 2009: 1381-1384.

    [7] KAN J W, TANG K H, WANG S Y, et al.. Modeling and simulation of piezoelectric cantilever generators [J]. Opt. Precision Eng., 2008,16(1): 71-75. (in Chinese)

    [8] HE X F, WEN Z Y, WEN Z Q. Modeling and application of a piezoelectric vibration-Based power generator [J]. Opt. Precision Eng., 2009,17(6): 1436-1441. (in Chinese)

    [9] REN J, CHEN X Y. Design of MEMS hybrid energy generator for multi-frequency vibration [J]. Opt. Precision Eng., 2009,17(6): 1367-1372. (in Chinese)

    [10] WISCHKE M, MASUR M, WOIAS P. A Hybrid Generator for Vibration Energy Harvesting Applications [C]. Transducers 2009, Denver, CO, USA, 2009: 521-524.

    [11] ERTURK A, INMAN D J. An experimentally validated bimorph cantilever model for piezoelectric energy harvesting from base excitations [J]. Smart Materials and Structures, 2009, 18: 025009.

    [12] HE X F, WEN Z Y, WEN Z Q, et al.. Mathematical model and experiment of vibration-Based piezoelectric generator [J]. Nanotechnology and Precision Engineering,2007,5(4): 307-310. (in Chinese)

    [13] KIM M, HOEGEN M, DUGUNDJI J, et al.. Modeling and experimental verification of proof mass effects on vibration energy harvester performance [J]. Smart Materials and Structures, 2010,19: 045023.

    [14] ERTURK A, INMAN D J. A distributed parameter electromechanical model for cantilevered piezoelectric energy harvesters [J]. Journal of Vibration and Acoustics, 2008,130: 041002.

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    HE Xue-feng, DU Zhi-gang, ZHAO Xing-qiang, WEN Zhi-yu, YIN Xian-fang. Modeling and experimental verification for cantilevered piezoelectric vibration energy harvester[J]. Optics and Precision Engineering, 2011, 19(8): 1771
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