An Active Fault-Tolerant Control Strategy for Current Sensors Failure for Induction Motor Drives Using a Single Observer for Currents Estimation and Axes Transformation

European Journal of Electrical Engineering Pub Date : 2021-12-31 DOI:10.18280/ejee.230606

Y. Azzoug, R. Pusca, M. Sahraoui, A. Ammar, T. Ameid, R. Romary, A. Cardoso

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引用次数: 3

Abstract

This paper proposes a fault-tolerant control technique against current sensors failure in direct torque controlled induction motors drives, based on a new modification of Luenberger observer for currents estimation and axes transformation for vector rotation. Several important aspects are covered in the proposed algorithm, such as the detection of sensors failure, the isolation of faulty sensors, and the reconfiguration of the control system by a correct estimation. A logic circuit ensures fault detection by analyzing the residual signal between the measured and estimated quantities, while a single observer performs the task of estimating the line currents. In addition, a decision logic circuit isolates the erroneous signal and simultaneously selects the appropriate estimated current signal. An axes transformation ensures rotation from (a,b) to (α,β), which keeps a low-cost control using only two current sensors. The proposed scheme is tested on MATLAB/Simulink environment and experimentally validated in a laboratory prototype mainly containing a dS1104 card and 4 kW induction motor.

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基于单观测器的感应电机电流传感器故障主动容错控制策略

本文提出了一种基于Luenberger观测器的电流估计和矢量旋转的轴向变换的容错控制技术，以防止直接转矩控制异步电动机驱动中电流传感器失效。该算法涵盖了传感器故障的检测、故障传感器的隔离以及通过正确的估计重新配置控制系统等几个重要方面。逻辑电路通过分析测量量和估计量之间的剩余信号来确保故障检测，而单个观测器执行估计线路电流的任务。此外，决策逻辑电路隔离错误信号，同时选择适当的估计电流信号。轴转换确保从(a,b)到(α，β)的旋转，这使得仅使用两个电流传感器就可以保持低成本的控制。该方案在MATLAB/Simulink环境下进行了测试，并在以dS1104卡和4kw感应电机为主的实验室样机上进行了实验验证。

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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European Journal of Electrical Engineering

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