Series Synchronized Triple Bias-Flip Circuit: Maximizing the Usage of a Single Storage Capacitor for Piezoelectric Energy Harvesting Enhancement

The synchronized multiple bias-flip (SMBF) interface circuits enhance the piezoelectric energy harvesting (PEH) capability by maximizing the extracted energy from the piezoelectric source and simultaneously minimizing the dissipated energy in the power conditioning circuit. They provide the most ene...

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Veröffentlicht in:	IEEE transactions on power electronics 2021-06, Vol.36 (6), p.6787-6796
Hauptverfasser:	Zhao, Bao, Zhao, Kang, Wang, Xinchen, Liang, Junrui, Chen, Zhiyuan
Format:	Artikel
Sprache:	eng
Schlagworte:	AC–DC conversion Bias bias-flip Capacitors Circuit design Circuit topology Energy Energy harvesting Energy storage Maximization Maximum power Optimization Passive components piezoelectric Piezoelectricity Power conditioning RLC circuits Switches Synchronization vibration Zero current switching
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container_title	IEEE transactions on power electronics
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creator	Zhao, Bao Zhao, Kang Wang, Xinchen Liang, Junrui Chen, Zhiyuan
description	The synchronized multiple bias-flip (SMBF) interface circuits enhance the piezoelectric energy harvesting (PEH) capability by maximizing the extracted energy from the piezoelectric source and simultaneously minimizing the dissipated energy in the power conditioning circuit. They provide the most energy-economic solution for the piezoelectric energy harvesting enhancement. However, the growing scale of the switches network and the increasing number of bias voltages have added much complexity to the circuit design and control. In this article, we reduce the number of passive components to the biggest extent by maximizing the usage of a single capacitor, which simultaneously acts as an energy storage and provides two nonzero bias voltages. Together with the free zero-volt bias, triple bias-flip actions (S3BF) are realized in the new design. Compared with other single-capacitor designs, it makes the best energy harvesting capability so far. Moreover, the proposed series S3BF circuit can automatically shift among single, double, and triple bias-flip operations under heavy-, medium-, and light-load conditions, respectively, which is unprecedented in the previous designs. Theoretical and experimental results show that the harvested power can always follow the maximum power envelope of the single, double, or triple bias-flip operations.
doi_str_mv	10.1109/TPEL.2020.3038634
format	Article
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They provide the most energy-economic solution for the piezoelectric energy harvesting enhancement. However, the growing scale of the switches network and the increasing number of bias voltages have added much complexity to the circuit design and control. In this article, we reduce the number of passive components to the biggest extent by maximizing the usage of a single capacitor, which simultaneously acts as an energy storage and provides two nonzero bias voltages. Together with the free zero-volt bias, triple bias-flip actions (S3BF) are realized in the new design. Compared with other single-capacitor designs, it makes the best energy harvesting capability so far. Moreover, the proposed series S3BF circuit can automatically shift among single, double, and triple bias-flip operations under heavy-, medium-, and light-load conditions, respectively, which is unprecedented in the previous designs. 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subjects	AC–DC conversion Bias bias-flip Capacitors Circuit design Circuit topology Energy Energy harvesting Energy storage Maximization Maximum power Optimization Passive components piezoelectric Piezoelectricity Power conditioning RLC circuits Switches Synchronization vibration Zero current switching
title	Series Synchronized Triple Bias-Flip Circuit: Maximizing the Usage of a Single Storage Capacitor for Piezoelectric Energy Harvesting Enhancement
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