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Direct Model Predictive Control of Synchronous Reluctance Motor Drives

Jacopo Riccio, Πέτρος Καραμανάκος, Shafiq Odhano, Mi Tang, Mauro Di Nardo, Pericle Zanchetta

2022IEEE Transactions on Industry Applications22 citationsDOIOpen Access PDF

Abstract

This paper investigates a finite-control set model-predictive control (FCS-MPC) algorithm to enhance the performance of a synchronous reluctance machine drive. Particular emphasis is placed on the definition of the cost function enabling a computationally light implementation while targeting good transient and steady-state performance. In particular, this work proposes the inclusion of an integral term into the cost function to ensure zero steady-state errors thus compensating for any model inaccuracies. A control effort term is also considered in the formulation of the cost function to achieve a high ratio between the sampling frequency and the average switching frequency. After a comprehensive simulation study showing the advantages of the proposed approach over the conventional FCS-MPC for a wide range of operating conditions, several experimental test results are reported. The effectiveness of the proposed control approach, including a detailed analysis of the effect of the load and speed variations, is thus fully verified providing useful guidelines for the design of a direct model predictive controller of synchronous reluctance motor drives.

Topics & Concepts

Model predictive controlControl theory (sociology)Magnetic reluctanceSwitched reluctance motorControl engineeringComputer scienceTransient (computer programming)Steady state (chemistry)Synchronous motorRange (aeronautics)Controller (irrigation)Term (time)EngineeringTorqueControl (management)Operating systemPhysicsAerospace engineeringRotor (electric)Quantum mechanicsPhysical chemistryAgronomyArtificial intelligenceChemistryBiologyThermodynamicsMechanical engineeringMagnetElectrical engineeringMultilevel Inverters and ConvertersAdvanced DC-DC ConvertersSensorless Control of Electric Motors