New energy harvesting systems, designed for new piezoelectric transducers, with charging energy management

2014 International Conference and Exposition on Electrical and Power Engineering (EPE) Pub Date : 2014-12-04 DOI:10.1109/ICEPE.2014.6969989

L. Pîslaru-Dănescu, L. Lipan, I. Pisica, Ion-Daniel Ilina, A. Dumitru

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引用次数: 8

Abstract

New developments in ultralow power electronic devices can now use much solution to energy harvesting systems designed to interface directly with a piezoelectric transducer. However, these environmental energy sources are typically very low power. Recently, a significant number of piezoelectric devices based on lead titanate zirconate (PZTN) have been designed with the purpose of the piezoelectric transducer. At INCDIE ICPECA Bucharest we have realized a piezoelectric transducer for which a PZT+Nb piezoelectric ceramic element was used for low energy source build with piezoelectric circular and linear transducers. Due to their dielectric proprieties and small size, (38 mm × 14 mm × 2 mm), the piezoelectric linear transducers can be optimize the energy harvesting systems applications for which the vibration duration is very short. A multiphysics numerical simulation further illustrates such piezoelectric transducer operation. The energy harvesting system is constituted of five functional blocks which are described in this paper.

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为新型压电换能器设计的新型能量收集系统，具有充电能量管理功能

超低功率电子设备的新发展现在可以使用许多解决方案来设计直接与压电换能器接口的能量收集系统。然而，这些环境能源通常是非常低的功率。近年来，以钛酸锆酸铅(PZTN)为基材设计了大量的压电器件，用于压电换能器的设计。在INCDIE ICPECA Bucharest上，我们实现了一种压电换能器，其中PZT+Nb压电陶瓷元件用于压电圆形和线性换能器的低能量源构建。由于其介电特性和小尺寸(38 mm × 14 mm × 2 mm)，压电线性换能器可以优化振动持续时间很短的能量收集系统应用。多物理场数值模拟进一步说明了这种压电换能器的工作原理。能量收集系统由五个功能模块组成，本文对其进行了描述。

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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2014 International Conference and Exposition on Electrical and Power Engineering (EPE)

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