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State Feedback Speed Control with Periodic Disturbances Attenuation for PMSM Drive

Łukasz J. Niewiara, Rafał Szczepański, Tomasz Tarczewski, Lech M. Grzesiak

2022Energies20 citationsDOIOpen Access PDF

Abstract

This paper proposes an auto-tuned constrained state-feedback controller (SFC) to attenuate periodic disturbances present in permanent magnet synchronous (PMSM) motor drives. An online auto-tuning process of SFC has been made using a powerful nature-inspired optimization algorithm—artificial bee colony (ABC)—to achieve high-performance operation of the drive. A novel performance index is proposed to minimize the impact of pulsating torque and obtain smooth-velocity of the drive. The proposed approach is a practical application of classic control theory with novel engineering-tools for improving the operational quality of a PMSM drive system. The obtained results are compared with a classical cascade control structure (CCS) based on proportional-integral (PI) regulators and disturbance observer-based control (DOBC). A detailed time- and frequency-domain analysis has been conducted in respect to periodic disturbances present in a PMSM drive system. Moreover, the robustness of SFC against parameter variations of inductance and resistance has been tested.

Topics & Concepts

Control theory (sociology)CascadeRobustness (evolution)InductanceVector controlControl engineeringPID controllerElectronic speed controlAdjustable-speed driveTorqueEngineeringComputer scienceControl (management)VoltageInduction motorPhysicsThermodynamicsBiochemistryChemistryArtificial intelligenceChemical engineeringTemperature controlElectrical engineeringGeneSensorless Control of Electric MotorsIterative Learning Control SystemsElectric Motor Design and Analysis
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