O. González, J. Rodas, R. Gregor, M. Ayala, M. Rivera
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Speed sensorless predictive current control of a five-phase induction machine
In power electronics, multiphase machines have been recently proposed, where most sensorless algorithms applied to electrical drives are represented through a mathematical representation of the physical system which includes the electrical and mechanical parameters of the motor. However, in electrical drive applications, the rotor current cannot be measured, so it must be estimated. This paper proposes speed sensorless control of a five-phase induction machines by using an inner loop of model-based predictive control and it is obtained from the mathematical model of the machine, using a state-space representation where the two state variables are the stator and rotor currents, respectively. The rotor current is estimated using an optimal reduced order estimator based on a Kalman filter. Simulation results are provided to show the performance of the proposed speed sensorless control algorithm.
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