Analytical approach to piezoelectric model synthesis with the use of Cauer's method for system design.

Q2 Pharmacology, Toxicology and Pharmaceutics

F1000Research Pub Date : 2024-09-06 eCollection Date: 2023-01-01 DOI:10.12688/f1000research.140943.2

Jacek Harazin, Andrzej Wróbel

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引用次数: 0

Abstract

Background: Piezoceramic materials have unique property which enables direct and bilateral conversion between mechanical and electrical energy. This ability facilitates significant miniaturisation of technology and opens many opportunities in design of new actuators and energy harvesters. Mathematical modelling of piezoelectric modules is notoriously hard due to complex constitutive equations defining mechanical and electrical energy conversion.

Methods: The article presents research on a new synthesis method based on the Cauer's method. Mechanical damping is introduced with the use of Rayleigh's approximation. A discrete electromechanical model is formed based on the Mason's piezoelectric model. The proposed approach allows modelling of piezoelectric systems based on a set of characteristic frequencies. The method allows a more general approach to the problem of modelling new systems, as opposed to application-oriented methods seen in literature. A non-standard model analysis method using edge graphs and structural numbers is also verified as a potential alternative for matrix-based method. The authors compare their precision and computation requirements.

Results: The structural method of mechanical model analysis gave identical results as the reference matrix method. However, the non-classical algorithm took much longer to calculate and was using more memory. The electromechanical model analysis has shown an error of 5% in comparison to resonance frequencies taken from a reference plate specification. The calculated magnitude of displacement was well above the capability of a 3.5mm thick piezoelectric plate.

Conclusions: The synthesis method presented in this paper allows synthesizing piezoelectric cascade models based on limited information in form of characteristic frequencies. Currently this method allows a coarse approximation of the real piezoelectric parameters with limited number of inputs. The additional method of analysis based on structural numbers offers a promising alternative to matrix calculations but requires a more thorough investigation of the computational power required to determine whether it can compete with existing algorithms.

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压电模型合成的分析方法，使用考尔法进行系统设计。

背景：压电陶瓷材料具有独特的性能，可实现机械能和电能的直接双边转换。这种能力促进了技术的大幅微型化，并为新型致动器和能量收集器的设计提供了许多机会。由于定义机械能和电能转换的构成方程非常复杂，压电模块的数学建模非常困难：文章介绍了基于 Cauer 方法的新合成方法研究。使用瑞利近似法引入了机械阻尼。在梅森压电模型的基础上建立了离散机电模型。所提出的方法允许根据一组特征频率对压电系统进行建模。与文献中以应用为导向的方法相比，该方法可以更普遍地解决新系统建模问题。使用边缘图和结构数的非标准模型分析方法作为基于矩阵的方法的潜在替代方法也得到了验证。作者比较了它们的精度和计算要求：结果：机械模型分析的结构方法得出了与参考矩阵方法相同的结果。然而，非经典算法的计算时间更长，内存占用更大。机电模型分析显示，与参考板规格得出的共振频率相比，误差为 5%。计算出的位移量远高于 3.5 毫米厚压电板的能力：本文介绍的合成方法可以根据特征频率形式的有限信息合成压电级联模型。目前，这种方法允许在输入数量有限的情况下粗略近似实际压电参数。基于结构数的附加分析方法为矩阵计算提供了一种有前途的替代方法，但需要对所需计算能力进行更深入的研究，以确定其是否能与现有算法竞争。

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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来源期刊

F1000Research Pharmacology, Toxicology and Pharmaceutics-Pharmacology, Toxicology and Pharmaceutics (all)

CiteScore

5.00

自引率

0.00%

发文量

1646

审稿时长

1 weeks

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