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Adaptive feedback linearization control based on airgap flux model for induction motors

机译：基于气隙磁通模型的自适应反馈线性化控制

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摘要

This paper presents an adaptive feedback linearization control scheme for induction motors with unknown rotor and stator resistances. We use an airgap flux model, which combines the advantages of existing rotor flux model and stator flux model. Theoretical analysis, simulation results, and real experimental results show that, if the persistent excitation is satisfied, stator and rotor resistances converge to their actual values, flux is well estimated, and torque and flux can be controlled independently with the measurements of rotor speed, stator currents and stator voltages.

机译：本文提出了一种具有未知转子和定子电阻的感应电动机的自适应反馈线性化控制方案。我们使用气隙磁通模型，该模型结合了现有转子磁通模型和定子磁通模型的优点。理论分析，仿真结果和实际实验结果表明，如果满足持续励磁，定子和转子的电阻会收敛到其实际值，则磁通量将得到很好的估计，并且可以通过测量转子速度来独立控制转矩和磁通量，定子电流和定子电压。

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《》|2004年|p.1099-1104|共6页
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Seok Ho Jeon; Dane Baang; Jin Young Choi;
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中图分类无线电电子学、电信技术;
关键词
adaptive control; feedback; linearisation techniques; air gaps; induction motors; machine control; magnetic flux; rotors; stators; velocity measurement; electric current measurement; voltage measurement; induction motor; airgap flux model; adaptive feedback linearization control; rotor flux model; stator flux model; rotor speed measurement; stator currents measurement; stator voltages measurement; torque control; flux control;

机译：自适应控制;反馈;线性化技术;气隙;感应电动机;机器控制;磁通量;转子;定子;速度测量;电流测量;电压测量;感应电动机;气隙磁通模型;自适应反馈线性化控制;转子磁通模型;定子磁链模型;转子速度测量;定子电流测量;定子电压测量;转矩控制;磁通控制;

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专利

1. Adaptive Feedback Linearization Control Based on Airgap Flux Model for Induction Motors [J] . Seok Ho Jeon, Dane Baang, Jin Young Choi International Journal of Control, Automation, and Systems . 2006,第4期

机译：基于气隙磁通模型的自适应反馈线性化控制
2. Nonlinear torque and stator flux controller for induction motor drive based on adaptive input-output feedback linearization and sliding mode control [J] . R. Yazdanpanah, J. Soltani, G.R. Arab Markadeh Energy Conversion & Management . 2008,第4期

机译：基于自适应输入输出反馈线性化和滑模控制的异步电动机非线性转矩和定子磁链控制器
3. Nonlinear Decoupling Control of the Bearingless Induction Motors Based on The Airgap Motor Flux Orientation [J] . Deng Zhi-quan, Zhang Hong-quan, Wang Xiao-ling Chinese journal of aeronautics . 2002,第1期

机译：基于气隙电动机磁通方向的无轴承异步电动机非线性解耦控制
4. Adaptive feedback linearization control based on airgap flux model for induction motors [C] . Seok Ho Jeon, Dane Baang, Jin Young Choi Annual Conference of the IEEE Industrial Electronics Society . 2004

机译：基于AirGAP通量模型的自适应反馈线性化控制
5. Exact feedback linearization with state derivative feedback for high-performance field-oriented induction motor speed/position control. [D] . Boukas, Theocharis Konstantinos. 2003

机译：具有状态导数反馈的精确反馈线性化，用于高性能的磁场定向感应电动机速度/位置控制。
6. Nonlinear adaptive NeuroFuzzy feedback linearization based MPPT control schemes for photovoltaic system in microgrid [O] . Muhammad Awais, Laiq Khan, Saghir Ahmad, 2020

机译：基于非线性自适应神经线性反馈线性化MPPT控制方案的微电网光伏系统
7. Nonlinear Decoupling Control of the Bearingless Induction Motors Based on the Airgap Motor Flux Orientation [O] . DENG Zhi-quan, ZHANG Hong-quan, WANG Xiao-ling, 2002

机译：基于气隙电动机磁通方向的无轴承异步电动机非线性解耦控制
8. Dynamic Model Based Vector Control of Linear Induction Motor. [R] . Rafalko, V., Rimmele, A., Dong, Q., 2012

机译：基于动态模型的直线感应电动机矢量控制。

Adaptive feedback linearization control based on airgap flux model for induction motors

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