压电超声换能器PI控制器的参数化设计

IF 3.1 3区计算机科学 Q2 AUTOMATION & CONTROL SYSTEMS

Mechatronics Pub Date : 2025-02-27 DOI:10.1016/j.mechatronics.2025.103306

Diego Stutzer , André Lisibach , Martin Hofmann , Jürgen Burger , Thomas Niederhauser

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引用次数: 0

摘要

压电式超声换能器应用广泛，在超声波加工、清洗、切割等方面具有很大的优势。然而，由于这些换能器的谐振特性，跟踪谐振频率和调节振动幅度的反馈控制器往往是保证效率必不可少的。本文在建立压电超声换能器振幅和相位动力学模型的基础上，提出了一种通用的、有效的比例积分控制器设计方法——极零对消法。将参数化设计方法应用于压电超声牙周标度器的实验研究，并与其它调谐方法进行了比较，验证了参数化设计方法的优越性。参数化设计方法需要比齐格勒-尼科尔斯方法少十倍的实验来参数化控制器，例如，导致闭环系统比其他调谐方法具有更好的负载抑制。结果表明，该方法可以大大简化并加快压电超声换能器高性能反馈控制器的开发。

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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Parametric design of PI controllers for piezoelectric ultrasonic transducers

Piezoelectric ultrasonic transducers are widely used and can offer great benefits, e.g., in ultrasonic machining, cleaning, and cutting. However, due to the resonance behavior of these transducers, feedback controllers that track the resonance frequency and regulate the vibration amplitude are often indispensable to ensure efficiency. This article presents a generic and efficient approach to designing proportional–integral controllers for piezoelectric ultrasonic transducers using the method of pole-zero cancellation based on a model of their vibration amplitude and phase dynamics. The parametric design method was experimentally applied to a piezoelectric ultrasonic periodontal scaler and compared with other tuning methods to demonstrate its advantages. The parametric design methodrequired ten times fewer experiments to parameterize the controller than the Ziegler–Nichols method, for instance, and resulted in a closed-loop system with better load rejection than the other tuning methods. The results document that the new method can considerably simplify and accelerate the development of performant feedback controllers for piezoelectric ultrasonic transducers.

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来源期刊

Mechatronics 工程技术-工程：电子与电气

CiteScore

5.90

自引率

9.10%

发文量

审稿时长

109 days

期刊介绍： Mechatronics is the synergistic combination of precision mechanical engineering, electronic control and systems thinking in the design of products and manufacturing processes. It relates to the design of systems, devices and products aimed at achieving an optimal balance between basic mechanical structure and its overall control. The purpose of this journal is to provide rapid publication of topical papers featuring practical developments in mechatronics. It will cover a wide range of application areas including consumer product design, instrumentation, manufacturing methods, computer integration and process and device control, and will attract a readership from across the industrial and academic research spectrum. Particular importance will be attached to aspects of innovation in mechatronics design philosophy which illustrate the benefits obtainable by an a priori integration of functionality with embedded microprocessor control. A major item will be the design of machines, devices and systems possessing a degree of computer based intelligence. The journal seeks to publish research progress in this field with an emphasis on the applied rather than the theoretical. It will also serve the dual role of bringing greater recognition to this important area of engineering.