轴向磁轴承的模糊控制器

2003 IEEE International Symposium on Industrial Electronics ( Cat. No.03TH8692) Pub Date : 2003-06-09 DOI:10.1109/ISIE.2003.1267957

J. Santisteban, S. Mendes, D. Sacramento

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引用次数: 9

摘要

磁轴承的使用是非常有前途的。没有机械摩擦和任何类型的污染是证明它们在不同工业活动中应用的一些特点。为了掌握这一技术，有必要研究电气工程的各个领域，如:电磁学、控制、电机、模拟和数字系统以及电力电子学。磁轴承的气隙与电流之间存在电非线性关系，因此磁轴承的控制需要复杂的技术。本文采用模糊逻辑方法对控制器进行了设计。这种技术允许以一组规则为基础，以类似于人类思维的方式构建控制系统。在动态行为不为人所知的系统中使用这种逻辑是合理的。这些规则是基于先前实现的导数比例控制器(PD)的实验结果，然后通过计算机模拟进行测试。为了将理论结果与实验值进行比较，搭建了试验工作台。这些结果将在本工作中提出。

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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A fuzzy controller for an axial magnetic bearing

The use of magnetic bearings is very promising. The absence of mechanical friction and any type of contamination are some characteristics that justify their application in different industrial activities. To dominate this technology is necessary the study of diverse fields of electric engineering such as: electromagnetism, control, electrical machines, analog and digital systems and power electronics. Sophisticated techniques are necessary for the control of a magnetic bearing, because there are electrical non-linear relationship between the airgap and the current. In this work the fuzzy logic approach was use to design the controller. This technique allows the constructing of a control system based in a group of rules in a similar way as the human thought does. The use of this logic is justified in systems whose dynamic behavior is not well known. These rules were based on experimental results of a derivative proportional controller (PD) previously implemented and then tested through computer simulations. In order to compare theoretical results with experimental values, a test workbench was constructed. These results will be presented in this work.

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2003 IEEE International Symposium on Industrial Electronics ( Cat. No.03TH8692)

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