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Ferroelectrics Volume 535, 2018 - Issue 1: Proceedings of the 14th International Meeting on Ferroelectricity, Part III
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Section F: Applications and Devices

Piezoelectric stacked transducer evaluation and comparison for optimized energy harvesting

Bryan M. GamboaDepartment of Electrical and Computer Engineering, University of Texas at San Antonio, San Antonio, Texas, USACorrespondence[email protected]
,
Ruyan GuoDepartment of Electrical and Computer Engineering, University of Texas at San Antonio, San Antonio, Texas, USA
&
Amar BhallaDepartment of Electrical and Computer Engineering, University of Texas at San Antonio, San Antonio, Texas, USA
Pages 8-17 | Received 05 Sep 2017, Accepted 20 Feb 2018, Published online: 11 Mar 2019

References

  • B. Gamboa. “Piezoelectric Stack Transducer Evaluation and Comparison for Optimized Energy Harvesting.” University of Texas at San Antonio (2016).
  • J. F. Nye. Physical properties of crystals: their representation by tensors and matrices. Oxford University Press, New York, 1985.
  • M. Zhu, E. Worthington, and J. Njuguna. Analyses of power output of piezoelectric energy-harvesting devices directly connected to a load resistor using a coupled piezoelectric-circuit finite element method. Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on 56, 1309 (2009).
  • H. Xiong, and L. Wang. Piezoelectric energy harvester for public roadway: On-site installation and evaluation. Appl. Energy. 174, 101 (2016).
  • B. C. Kok, S. Gareh, H. H. Goh, and C. Uttraphan. Electromechanical-traffic model of compression-based piezoelectric energy harvesting. MATEC Web Conf. 70, 10007 (2016). Vol. EDP Sciences,
  • Y. Tao, Y. Niu, and J. Ling. Harvesting energy from asphalt pavement by piezoelectric generator. J. Wuhan Univ. Technol. 29, 933 (2014).
  • X. Jiang, et al., Piezoelectric energy harvesting from traffic-induced pavement vibrations. J. Renew. Sustain. Ener. 6, 043110 (2014).

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