Thick-Film Technology for Energy Harvesting

Proceedings of the 6th International Conference on Renewable Electrical Power Sources Pub Date : 2018-10-02 DOI:10.24094/mkoiee.018.6.1.143

Z. Stanimirović, Serbia Electronics Iritel a.d. Beograd, I. Stanimirović

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Abstract

Energy harvesting is one of the latest possible applications of thick-film technology. In order to replace traditional batteries, energy harvesters are being developed that provide clean and renewable energy sources. Vibration-based harvesting is one of the possible solutions where vibration to electricity conversion mechanism can be implemented using piezoelectric transduction compatible with thick-film technology. Thick-film piezoelectric materials could be used to form free-standing structures similar to traditional cantilever structures that when stressed generate electrical charges. Unlike structures formed using micromachining and thin-film technology, thick-film energy harvesters may provide free-standing structures with thicknesses greater than 50 μm covering area from several mm2 to several cm2. There are several challenges in realization of such thick-film free-standing structures that have to be addressed. They involve both processing conditions and operation in bending mode. This paper aims to address these challenges and explore feasibility of reliable formation and exploitation of thick-film piezoelectric micro generators.

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能量收集的厚膜技术

能量收集是厚膜技术的最新可能应用之一。为了取代传统电池，正在开发提供清洁和可再生能源的能量收集器。基于振动的收获是利用与厚膜技术兼容的压电转导实现振动到电转换机制的可能解决方案之一。厚膜压电材料可以用来形成独立的结构，类似于传统的悬臂结构，当受到压力时会产生电荷。与使用微加工和薄膜技术形成的结构不同，厚膜能量收集器可以提供厚度大于50 μm的独立结构，覆盖面积从几mm2到几cm2。在实现这种厚膜独立结构的过程中有几个挑战需要解决。它们涉及加工条件和弯曲模式下的操作。本文旨在解决这些挑战，探索厚膜压电微型发电机可靠形成和开发的可行性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 6th International Conference on Renewable Electrical Power Sources

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