Low-speed sensorless field-oriented control of asynchronous machine based on adaptive flux error suppression method

机译：基于自适应磁通误差抑制方法的异步机低速无传感器磁场定向控制

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In this paper, the sensorless field-oriented control of asynchronous machine with squirrel-cage rotor (AMS) at the low-speed operation will be observed. The identification of rotor speed from adaptive flux error as well as the adaptation mechanism will be investigated. At first, the background of model reference adaptive system (MRAS) will be revised. Later, the mathematical model of AMS in the stationary reference frame will be presented for decoupling of flux term. After that, the adaptive scheme based on relevant flux terms will be presented. One as a reference model and one another as an adaptive model. Finally, the simulation result based on defined parameters will be discussed.

机译：在本文中，将观察到具有鼠笼式转子（AMS）的异步电机在低速运行下的无传感器磁场定向控制。将从自适应磁通误差中识别转子速度的方法以及自适应机制进行研究。首先，将修改模型参考自适应系统（MRAS）的背景。稍后，将介绍固定参考系中AMS的数学模型，以对通量项进行解耦。之后，将提出基于相关通量项的自适应方案。一个作为参考模型，另一个作为自适应模型。最后，将讨论基于定义参数的仿真结果。

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《International Conference and Exposition on Electrical and Power Engineering》|2016年|205-208|共4页
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Patarachai Chevathamanon; Ruili Wang; László Farkas;
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Adaptation models; Rotors; Mathematical model; Adaptive control; Inductance; Stator windings;

机译：自适应模型转子数学模型自适应控制电感定子绕组;

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专利

1. Sensorless Speed High Gain Observer Based on Field-Oriented Control for the Asynchronous Machine [J] . AHMED CHOUYA, MOHAMED CHENAFA, ABDELLAH MANSOURI WSEAS Transactions on Power Systems . 2018,第Pta1期

机译：无传感器速度高增益观测器，基于异步机面向现场控制
2. Adaptive pseudoreduced-order flux observer for speed sensorless field-oriented control of IM [J] . Yih-Neng Lin, Chern-Lin Chen IEEE Transactions on Industrial Electronics . 1999,第5期

机译：自适应伪降阶通量观测器，用于IM的无速度磁场定向控制
3. Adaptive Field-Oriented Control for the Asynchronous Machine [J] . WSEAS Transactions on Circuits and Systems . 2019,第期

机译：异步机器的自适应现场控制
4. Low-speed sensorless field-oriented control of asynchronous machine based on adaptive flux error suppression method [C] . Patarachai Chevathamanon, Ruili Wang, László Farkas International Conference and Exposition on Electrical and Power Engineering . 2016

机译：基于自适应通量误差抑制法的异步机的低速无传感器场导向控制
5. Sensorless flux vector control for a permanent magnet synchronous machine with cylindrical rotor under severe starting conditions. [D] . Anghel, Cristian Eugen. 1997

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6. High Performance Both in Low-Speed Tracking and Large-Angle Swing Scanning Based on Adaptive Nonsingular Fast Terminal Sliding Mode Control for a Three-Axis Universal Inertially Stabilized Platform [O] . Yuanchao Wang, Yongming Yang, Haipeng Kuang, 2020

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7. Speed Sensorless Control of Hybrid Excitation Axial Field Flux-Switching Permanent-Magnet Machine Based on Model Reference Adaptive System [O] . Wei Zhang, Zexian Yang, Liangguan Zhai, 2020

机译：基于模型参考自适应系统的混合励磁轴向场磁通切换永磁机的无传感器控制

Low-speed sensorless field-oriented control of asynchronous machine based on adaptive flux error suppression method

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