Speed tracking control with maximal power transfer of induction motor
Resource
Decision and Control, 2000. Proceedings of the 39th IEEE Conference on
Journal
Proceedings of the IEEE Conference on Decision and Control
Journal Volume
1
Pages
925-930
Date Issued
2000-12
Date
2000-12
Author(s)
DOI
N/A
Abstract
This paper proposes a speed tracking control of induction motors based on the input-output linearization method, which can also achieve the maximal power transfer. A simple group of observers are designed to estimate the rotor flux in order to determine the orientation of rotor flux. The control law of the maximal power transfer to the rotor gives the relationship between the stator voltage and the orientation of rotor flux in d-q frame. The speed tracking controller is also robust with respect to the variation of rotor resistance and load torque. Simulation results are given to show the effectiveness of the presented controller. Experimental results are also given to validate the performances.
Event(s)
39th IEEE Confernce on Decision and Control
Other Subjects
Computer simulation; Induction motors; Linearization; Lyapunov methods; Magnetic flux; Robustness (control systems); Rotors; Theorem proving; Torque; Input-output linearization method; Maximal power transfer; Rotor flux; Speed tracking control; Speed control
Type
journal article
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