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Design and Analysis of a Steady-Voltage Piezoelectric TransducerTsou, Teng-chieh 23 March 2010 (has links)
As micro-electromechanical systems (MEMS) and smart technologies have been more matured, applications for wider fields are more available.
Piezoelectric materials have the property of electromechanical energy conversion, which can convert vibration energy into electrical energy.
In this paper, a general concept of the piezoelectric energy conversion is first given. Then, a simple modeling design and analysis for a special transverse mode of the piezoelectric generator called mode 31 is presented.
With regard to analytical method, the piezoelectric equivalent circuit model is able to illustrate the important parameters that influence the process how the piezoelectric element generates electrical energy.
We may adjust unimorph voltage by controlling the deflection of cantilever beam. And the output power is taken as the indicated parameters for the generator. The energy conversion efficiency of the generator depends on the operation frequency.
By using this way, the piezoelectric power generator may be widely applied to environment with both low-frequency and high-frequency vibration range.
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Optimization of a Steady-Voltage Piezoelectric TransducerTsai, Chi-Chang 23 September 2011 (has links)
Mechanical energy exists all over the place in our living, and vibration is the most common way of mechanical performance. Micro-electromechanical systems, the application which integrate techniques and combine different field of research, make it possible to convert vibration into electrical energy by using piezoelectric materials; moreover, it become a small piezoelectric power generator.
The thesis set up an equivalent circuit model based on the principle of piezoelectric and cantilever mechanics for experimenting the model¡¦s exactness; consequently, model shows that resonant frequency has no effect on generate electricity when amplitude was fixed.
The thesis attempts to change the shape of unimorph for enhancing its power generation. By using different sharp of unimorph, the experiment demonstrate that power generation have direct ratio with frequency at amplitude of 5mm. Moreover, different shapes of the unimorph at frequency of 16Hz have different power output; the disparity among power output might up to 1.78 times.
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