Control of PMSM Drive Using Lookup Table Based Compensated Duty Ratio Optimized Direct Torque Control (DTC)

Abstract

There are several ways to reduce the ripple magnitude for direct torque-controlled permanent magnetsynchronous motor(PMSM)drives.Inthis work,the compensated duty ratio optimized direct torque control (DDTC-TC) method was proposed to reduce the ripple magnitude for three-phase PMSM. The proposed control strategy employs the simplicity of conventional DTC (CDTC) and compensation of the reference torque to enforce the developed torque to oscillate around the required value. A torque error square minimization technique was employed to determine the duty ratio. Magnitude of developed torque by the PMSMdependsonthetorqueslopeduringtheactiveandnull voltage periods. The slope of the torque during each period is computed online. Based on the online computed slopes, the magnitude of the switching period and compensation torque were calculated. The ripple reduction capability of the proposed control scheme is tested using Matlab Simulink and a hardware in loop system. Both experimental and simulation results indicate that the control scheme is effective. Specifically, the torque and speed ripples are very small. The torque ripple during speed fluctuation is less for open-end winding PMSM. In addition, the proposed scheme was tested for four-quadrant operation. Results for four quadrants indicate that the scheme is effective for four quadrant operation. Finally, verification of the effectiveness of the proposed scheme is performed using OPAL-RT-RT (OP4500). Verification indicates that the proposed scheme is effective.