Real-time SOSM Super-twisting combined with block control for regulating induction motor velocity
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Fecha
2018-03
Autores
Morfín, Onofre
Valenzuela, Fredy A.
Ramírez-Betancour, Reymundo
Castañeda, Carlos E.
Ruiz-Cruz, Riemann
Valderrabano-González, Antonio
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Editor
IEEE
Resumen
Descripción
On this paper, a robust velocity controller applied to a three-phase squirrel-cage induction motor under variable load conditions is designed. The induction motor drives an induction generator representing the load which freely delivers the generated power to the utility grid. The closed-loop scheme is designed at the αβ coordinate frame and is based on the linearization block control technique in combination with the super-twisting algorithm. The controlled output variables are the angular mechanical velocity and the square modulus of rotor flux linkages. The motor reference velocity is set up by a pulse train above the synchronous velocity and, consequently, the impelled induction machine operates in generator mode; meanwhile, the reference of rotor flux square modulus varies according to the load condition of the induction motor. In order to estimate the non-measurable variables, both a rotor flux linkages observer and a load torque observer are designed. For the first one, a non-linear state observer using first order sliding modes is applied at αβ coordinate frame and, for the second one, a Luenberger reduced asymptotic observer is used. The validation of the robustness for the proposed velocity controller is performed in a real-time experiment using a work-bench.
Palabras clave
Block control, induction motor, sliding mode observer, super-twisting
Citación
O. Morfin, F. A. Valenzuela, R. Ramírez-Betancour, C.E. Castañeda, R. Ruiz-Cruz and A. Valderrabano-González (2018). Real-Time SOSM Super-Twisting Combined With Block Control for Regulating Induction Motor Velocity, IEEE Access, vol. 6, pp. 25898-25907. doi: 10.1109/ACCESS.2018.2812187