Litcius/Paper detail

MPC-Based Flux Weakening Control for Induction Motor Drive With DTC for Electric Vehicles

Baris Cavus, Mustafa Aktaş

2022IEEE Transactions on Power Electronics37 citationsDOI

Abstract

Induction motors require high speed (over the rated speed) in working areas such as electric vehicles, which is achieved through flux weakening control. A new flux weakening control approach for a direct torque controlled induction motor operating at high speeds is recommended in this article. The proposed model predictive control (MPC) based flux weakening strategy enhanced criteria such as time to reach steady state, ripple, and so on, in addition to operating the induction motor over its nominal speed. The induction motor has been driven with direct torque control (DTC) in the flux weakening study because it has the least dependence on the parameters and can react more quickly to torque/speed changes. DTC controlled induction motor includes features such as being able to adapt quickly to changes in torque/speed references, low dependency on system parameters, reaching high speeds, time to reach steady-state, and low steady-state error using the proposed MPC-based flux weakening control.

Topics & Concepts

Direct torque controlControl theory (sociology)Induction motorTorqueTorque rippleSteady state (chemistry)Model predictive controlFlux (metallurgy)Vector controlElectronic speed controlTorque motorStall torqueRippleEngineeringComputer scienceControl (management)VoltagePhysicsMaterials scienceElectrical engineeringChemistryMetallurgyArtificial intelligencePhysical chemistryThermodynamicsSensorless Control of Electric MotorsMultilevel Inverters and ConvertersElectric Motor Design and Analysis