A non-contact mechanical solution for implementing synchronized switching techniques for energy harvesting using reed switches

In this work we proposed a new mechanical method of implementing the synchronized switching technique for piezoelectric energy harvesting based on reed switches. Serving as a mechanical displacement monitor and the switch itself, it holds the merit of non-contact, persistence, and the low voltage th...

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Bibliographic Details
Published in:Smart materials and structures 2016-12, Vol.25 (12), p.125013
Main Authors: Shih, Ya Shan, Vasic, Dejan, Wu, Wen Jong
Format: Article
Language:English
Subjects:
Electric power
energy harvesting
Engineering Sciences
piezoelectric
reed switches
SSHI
synchronized switching harvesting on inductor
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Summary:In this work we proposed a new mechanical method of implementing the synchronized switching technique for piezoelectric energy harvesting based on reed switches. Serving as a mechanical displacement monitor and the switch itself, it holds the merit of non-contact, persistence, and the low voltage threshold of merely a single PN junction. However, as all mechanical switches inherits chattering, or bouncing, energy loss and damping on the inversion was caused. To side pass the chattering, three types of electro-mechanical hybrid switches were furthermore developed to stabilize the interfered current flow: resistor-capacitor snubbers, inductor-capacitor snubbers, and silicon controlled rectifiers (SCRs). Each of the method has its merit and suitable working conditions. Comparing to conventional electrical switches, the proposed switches, greatly reduced the switch impedance since the mechanical switch part provides a physically open switch, and the electrical switch part merely consist of either a diode and a MOSFET pair, or a single SCR. Subsequently, the power loss due to the circuit was efficiently eliminated.
ISSN:0964-1726
1361-665X
DOI:10.1088/0964-1726/25/12/125013