A Simple Distributed Parameter Analytical Model of Multi-layer Piezoelectric Actuators

2014 8th Asia Modelling Symposium Pub Date : 2014-09-23 DOI:10.1109/AMS.2014.55

Yangkun Zhang, Tien-Fu Lu

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引用次数: 2

Abstract

Multi-layer piezoelectric actuators (PEAs) are commonly to produce extremely small displacements. Dynamic modeling of PEAs, which can be used to analyze or predict their frequency/time-domain behaviors, plays important roles in the design and control of PEA-based mechanisms. This paper provides a rationale that the complex electrical-mechanical coupled behaviors of PEA can be modelled as an equivalent simple solid with two equivalent excitation forces (proportional to the excitation voltage of PEA) that are equal and opposite, acting at two ends of PEA. Such a rationale is demonstrated through the mathematical derivation process, based on the IEEE standard constitutive relations of piezoelectricity. From the derivation process, the underlying assumptions for the equivalent model to be effective are revealed and the relevant constants in equivalent models are correlated to the standard IEEE piezoelectric material properties. The identified underlying assumptions can provide a guideline for designs to use this simple PEA model. The identified correlation between the constants in equivalent models and the standard IEEE piezoelectric materials allows an alternative way to obtain the equivalent constants, if it is not available for experiments to determine them.

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多层压电作动器的简单分布参数分析模型

多层压电致动器通常产生极小的位移。pea的动态建模在基于pea的机构设计和控制中起着重要的作用，可以用于分析或预测pea的频域/时域行为。本文提供了一个理论基础，即PEA的复杂电-力学耦合行为可以建模为等效简单固体，具有两个相等且相反的等效激励力(与PEA的激励电压成正比)，作用于PEA的两端。基于IEEE标准压电本构关系，通过数学推导过程证明了这一基本原理。从推导过程中，揭示了等效模型有效的基本假设，并将等效模型中的相关常数与标准IEEE压电材料性能相关联。确定的潜在假设可以为使用这个简单PEA模型的设计提供指导。在等效模型中确定的常数与标准IEEE压电材料之间的相关性允许另一种方法来获得等效常数，如果它不能用于实验来确定它们。

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 8th Asia Modelling Symposium

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