Title :
Commutation-Torque-Ripple Minimization in Direct-Torque-Controlled PM Brushless DC Drives
Author :
Liu, Yong ; Zhu, Z.Q. ; Howe, David
Author_Institution :
Sheffield University, Sheffield
Abstract :
This paper describes an improved implementation of direct torque control (DTC) to a permanent-magnet brushless dc (BLDC) drive. The commutation torque ripple, which occurs every 60deg elec. in a conventional three-phase BLDC machine with two-phase 120deg elec. conduction, is reduced by employing a hybrid two- and three-phase switching mode during the commutation periods. It is based on the criterion of minimizing the error between the commanded torque and the estimated torque and does not require knowledge of the conduction duration of the three-phase switching mode. It adaptively adjusts the phase-current waveform to maintain constant electromagnetic torque so that commutation torque ripple, which would have resulted with conventional DTC, particularly at high rotational speeds, is effectively eliminated, as confirmed by both simulations and measurements.
Keywords :
DC motor drives; brushless DC motors; commutation; machine control; permanent magnet motors; torque control; brushless dc drive; commutation torque ripple minimisation; constant electromagnetic torque; direct torque control; permanent-magnet motor; phase-current waveform; switching mode; three-phase BLDC machine; Bandwidth; Brushless DC motors; Commutation; Current control; DC motors; Electromagnetic scattering; Industry Applications Society; Pulse width modulation; Torque control; Voltage; Brushless dc (BLDC) drives; current commutation; direct torque control (DTC); permanent-magnet (PM) motor; torque ripple;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2007.900474
