电液反步速度控制器的颤振分析

Q3 Chemical Engineering

International Journal of Applied Mechanics and Engineering Pub Date : 2024-03-26 DOI:10.59441/ijame/181644

Geremino ELLA ENY, Honorine Angue Mintsa, Nzamba Senouveau, Rolland Michel Assoumou Nzué

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引用次数: 0

摘要

本文重点分析了用于驱动电动液压伺服系统的反步进控制器中的颤振现象。众所周知，滑模控制中的颤振现象会严重降低运行性能，同时导致系统过早磨损。本文研究了四种情况，以突出反步态控制中颤振的影响因素。在第一种情况下，通过比较减阶反向步进控制器和全阶控制器，分析了未建模的快速伺服阀动态的影响。第二种情况分析了对反向调节控制器调整增益的敏感性。第三个案例强调了符号函数近似参数的影响。最后一个案例分析了虚拟控制器时间导数参数的敏感性。Matlab/Simulink 中的模拟结果表明，通过适当的增益调整，尤其是对虚拟控制导数的适当计算，可减轻颤振，特别是对于高阶系统。

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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chattering analysis of an electro-hydraulic backstepping velocity controller

This paper focuses on the chattering analysis in a backstepping controller used to drive an electro-hydraulic servo system. The chattering phenomenon, well known in sliding mode control, strongly reduces operating performance while causing premature wear of the system. Four cases are studied to highlight the factors influencing the chattering in the backstepping control. In the first case, the effect of the unmodeled fast servo valve dynamics is analysed by comparing a reduced-order backstepping controller with a full-order controller. The second case analyses the sensitivity to the tuning gains of the backstepping controller. The third case emphasises the influence of the parameter of sign function approximation. The last case analyses the sensitivity of the parameter of the time derivative of the virtual controls. The simulation results in the Matlab/Simulink show that the chattering is mitigated by an appropriate gains tuning but above all an appropriate calculation of the derivatives of the virtual controls, particularly for high-order systems.

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来源期刊

International Journal of Applied Mechanics and Engineering Engineering-Civil and Structural Engineering

CiteScore

1.50

自引率

0.00%

发文量

审稿时长

35 weeks

期刊介绍： INTERNATIONAL JOURNAL OF APPLIED MECHANICS AND ENGINEERING is an archival journal which aims to publish high quality original papers. These should encompass the best fundamental and applied science with an emphasis on their application to the highest engineering practice. The scope includes all aspects of science and engineering which have relevance to: biomechanics, elasticity, plasticity, vibrations, mechanics of structures, mechatronics, plates & shells, magnetohydrodynamics, rheology, thermodynamics, tribology, fluid dynamics.