A DFIM Sensor Faults Multi-Model Diagnosis Approach Based on an Adaptive PI Multiobserver—Experimental Validation

A. Aicha, B. Mouna, S. Lassâad
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引用次数: 1

Abstract

This paper studies the problem of diagnosis strategy for a doubly fed induction motor (DFIM) sensor faults. This strategy is based on unknown input proportional integral (PI) multiobserver. Thecontribution of this paper is on one hand the creation of a new DFIM model based on multi-model approach and, on the other hand, the synthesis of an adaptive PI multi-observer. The DFIM Volt per Hertz drive system behaves as a nonlinear complex system. It consists of a DFIM powered through a controlled PWM Voltage Source Inverter (VSI). The need of a sensorless drive requires soft sensors such as estimators or observers. In particular, an adaptive Proportional-Integral multi-observer is synthesized in order to estimate the DFIM’s outputs which are affected by different faults and to generate the different residual signals symptoms of sensor fault occurrence. The convergence of the estimation error is guaranteed by using the Lyapunov’s based theory. The proposed diagnosis approach is experimentally validated on a 1 kW Induction motor. Obtained simulation results confirm that the adaptive PI multiobserver consent to accomplish the detection, isolation and fault identification tasks with high dynamic performances.
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基于自适应PI多观察者-实验验证的DFIM传感器故障多模型诊断方法
研究了双馈感应电动机传感器故障的诊断策略问题。该策略基于未知输入比例积分(PI)多观测器。本文的贡献一方面是基于多模型方法建立了一个新的DFIM模型,另一方面是综合了一个自适应PI多观测器。DFIM伏特/赫兹驱动系统表现为一个非线性复杂系统。它由一个DFIM通过一个可控PWM电压源逆变器(VSI)供电。无传感器驱动需要软传感器,如估计器或观察器。特别地,合成了一个自适应比例积分多观测器来估计受不同故障影响的DFIM输出,并产生传感器故障发生的不同残余信号症状。利用李雅普诺夫理论保证了估计误差的收敛性。该诊断方法在一台1kw感应电动机上进行了实验验证。仿真结果表明,自适应PI多观测器能够较好地完成检测、隔离和故障识别任务,具有较高的动态性能。
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