Adrian Z. Amanci scite author profile

International audienceWhen the frequency of the source of vibration of a Piezolectric Generator is significantly different from its eigenfrequency, the dielectric power losses become prominent and decrease the amount of power which is practically harvested. For off-resonance vibrating frequencies, the optimal operating conditions can be obtained with a Maximum Power Point Tracking method. This paper introduces complex phasors in the study of power conversion for piezoelectric generators. These complex phasors are used to describe three strategies which help simplify the tracking of the optimal generator output power for vibration frequencies which are away from resonance. Experimental results obtained on a prototype illustrate and confirm the approach with the phasor approaches illustrate and confirm the success of the proposed optimal power tracking strategies. Finally, we show that the efficiency results of each strategy depend on whether they are used inside or outside a frequency bandwidth around the eigenfrequency, and that the length of this bandwidth depends on the excitation amplitude

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A Digital Frequency Adaptive Synchronization Unit for On- and Off-Grid Systems

Elsahwi

Amanci

Dawson

2017

IEEE Trans. Power Delivery

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Galvanic Isolation for High-Frequency Applications Using an Integrated Dielectric Structure

Amanci

Ruda

Dawson

2016

IEEE Trans. Power Electron.

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Adrian Z. Amanci

Synchronization system with Zero-Crossing Peak Detection algorithm for power system applications

Analysis of the energy harvesting performance of a piezoelectric bender outside its resonance

A Digital Frequency Adaptive Synchronization Unit for On- and Off-Grid Systems

Galvanic Isolation for High-Frequency Applications Using an Integrated Dielectric Structure

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