Abstract
A good estimate of the rotor's parameters is essential in high-performance control of induction motors. It is shown that the structural impediment that prevents applying a usual adaptive observer to estimate these parameters is that the relative degree between the measured output and the unknown parameters is not one. Then, the high-order sliding mode differentiator is used to circumvent this restriction allowing the construction of a usual adaptive observer. Simulation results are presented to illustrate the performance of the proposed observer under ideal conditions and in the presence of measurement noises.
Author supplied keywords
- Adaptive control
- Adaptive observer
- Asynchronous machines
- Control of electric power systems
- High-order sliding mode differentiator
- Higher order statistics
- Induction motor control
- Induction motors
- Machine vector control
- Measurement errors
- Measurement noise
- Multivariable control systems
- Observers
- Other topics in statistics
- Rotor parameter estimation
- Rotors
- Self-adjusting control systems
- Variable structure systems
Cite
CITATION STYLE
Angulo, M. T., & Carrillo-Serrano, R. V. (2015). Estimating rotor parameters in induction motors using high-order sliding mode algorithms. IET Control Theory and Applications, 9(4), 573–578. https://doi.org/10.1049/iet-cta.2014.0110
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