基于鲁棒转子磁链观测器的感应电机无传感器转速控制

2013 International Conference on Electrical Engineering and Software Applications Pub Date : 2013-03-21 DOI:10.1109/ICEESA.2013.6578406

Fethi Farhani, A. Zaafouri, A. Chaari

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引用次数: 4

摘要

感应电动机是工业上的主要动力源[1]。然而，由于感应电机的高度非线性，对其进行高性能的控制仍然是自动化的一个挑战。本文提出了一种考虑铁损的感应电机观测器和控制的鲁棒解。该方法是基于李雅普诺夫理论和双线性矩阵不等式框架的应用。因此，引入了一种自适应机构，该机构不仅涵盖了不确定性参数，而且还涵盖了由李亚普诺夫理论第一条件满足而得出的转子转速。通过求解双线性矩阵不等式(BMI)来计算观测器增益，以满足李雅普诺夫的第二个条件。仿真结果验证了该方法的鲁棒性和性能。

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 sensor-less speed control of induction motor based on robust rotor flux observer

The induction motor is the principal source of the workhorse [1] in the industry. However, due to its high non linearity, a high-performance control of induction motor remains a challenge for the automation. In this paper, we present a robust solution for the observer and control of the induction machine taking into account the iron losses. The proposed technique is based on Lyapunov theory and application of the bilinear matrix inequalities framework. Thus, an adaptive mechanism is introduced to cover not only uncertainty parameters but also the rotor speed which is derived from the satisfaction of the first condition of the Lyapunov theory. The observer gain is calculated by solving the bilinear matrix inequality (BMI) to satisfy the second condition of Lyapunov. Some simulation results are given to demonstrate the robustness and performance of the proposed solution.

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2013 International Conference on Electrical Engineering and Software Applications

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