A Speed Adaptive Scheme-Based Full-Order Observer for Sensorless Induction Motor Drives in Low-Speed Regenerating Operation Range

机译：一种基于速度自适应方案的全阶观测器，可用于低速再生操作范围内的无传感器感应电机驱动器

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Stability of the adaptive full-order (AFO) based-speed-sensorless induction motor (IM) drives in regenerating operation range is still a challenging problem. In this paper, the neglected estimated flux error is introduced to the speed adaptive scheme by rotating the estimated current error vector to improve the accuracy and the stability of the speed estimator, especially in low-speed regenerating region. Furthermore, the feedback gains are designed based on Routh-Hurwitz criterion and verified by the stability analysis. With the proposed speed estimation scheme and the feedback gains, the unstable region in the low-speed regenerating operation range is significantly reduced, namely, the stability of the speed estimation is guaranteed. The experimental results on an ARM-based 2.2 kW IM experimental setup highlight the effectiveness of the proposed method for its performance in the low-speed regenerating region.

机译：在再生操作范围内的自适应全阶（AFO）基于无传感器感应电动机（IM）驱动的稳定性仍然是一个具有挑战性的问题。在本文中，通过旋转估计的电流误差矢量将被忽略的估计磁通误差引入速度自适应方案，以提高速度估计器的精度和稳定性，尤其是在低速再生区域中。此外，反馈增益是基于Routh-Hurwitz标准设计的，并通过稳定性分析验证。利用所提出的速度估计方案和反馈增益，低速再生操作范围中的不稳定区域显着降低，即，保证速度估计的稳定性。基于臂的2.2kW IM实验装置的实验结果突出了该方法在低速再生区域中表现的效果。

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《International Conference on Electrical Machines and Systems》|2018年|649-1362p|共6页
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Cheng Luo; Bo Wang; Yong Yu; Zhixin Huo; Guoqiang Zhang; Dianguo Xu;
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中图分类 TM3-53;
关键词
Induction motor; Sensorless drives; Low-speed regenerating region; Adaptive full-order observer; Estimated flux error;

机译：感应电机;无传感器驱动器;低速再生区域;自适应全阶观察者;估计的助焊剂错误;

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专利

1. Regenerating-mode low-speed operation of sensorless induction motor drive with adaptive observer [J] . Kubota H., Sato I., Tamura Y., IEEE Transactions on Industry Applications . 2002,第4期

机译：自适应观察器的无传感器感应电动机驱动器的再生模式低速运行
2. Stator current model reference adaptive systems speed estimator for regenerating-mode low-speed operation of sensorless induction motor drives [J] . Gadoue, S.M., Giaouris, Electric Power Applications, IET . 2013,第7期

机译：无传感器感应电动机驱动器再生模式低速运行的定子电流模型参考自适应系统速度估计器
3. Gain Design of an Adaptive Full-order Observer Using a Pole Placement Technique for Speed Sensorless Induction Motor Drives [J] . Yoo Anno, Han Sang-Heon, Son Young Ik, Journal of power electronics . 2016,第4期

机译：无极感应电动机驱动中使用磁极放置技术的自适应全阶观测器的增益设计
4. A Speed Adaptive Scheme-Based Full-Order Observer for Sensorless Induction Motor Drives in Low-Speed Regenerating Operation Range [C] . Cheng Luo, Bo Wang, Yong Yu, International Conference on Electrical Machines and Systems . 2018

机译：基于速度自适应方案的低速再生运行范围内无传感器感应电动机驱动的全阶观测器
5. A novel MRAS-based adaptive observer for sensorless induction motor drive. [D] . Madadi Kojabadi, Hossein. 2003

机译：一种新颖的基于MRAS的无传感器感应电动机驱动的自适应观测器。
6. Sensorless FOC Performance Improved with On-Line Speed and Rotor Resistance Estimator Based on an Artificial Neural Network for an Induction Motor Drive [O] . Jose M. Gutierrez-Villalobos, Juvenal Rodriguez-Resendiz, Edgar A. Rivas-Araiza, 2015

机译：基于人工神经网络的感应电动机驱动器在线速度和转子电阻估算器提高了无传感器FOC性能
7. Speed Sensorless Vector Control Based on Full-order Adaptive Observer for Induction Motor Drives at Low Speed [O] . Wang Zhifu, Wang Jiawei, Fang Jun 2019

机译：基于全阶自适应观测器的速度无传感器矢量控制，低速电动机驱动器

A Speed Adaptive Scheme-Based Full-Order Observer for Sensorless Induction Motor Drives in Low-Speed Regenerating Operation Range

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