Pulse-width modulation technique for BLDCM drives to reduce commutation torque ripple without calculation of commutation time

Abstract

This paper presents a three-phase pulse-width modulation technique for brushless DC motor drives to reduce the commutation torque. As compared to previous approaches, the presented technique doesn't require any torque observer and calculation of commutation time which may be sensitive to motor parameters and require more calculation time. The commutation time for the presented technique is determined by a detection circuit which consists of simple comparator circuit. Experimental results derived from an FPGA-based controlled BLDCM drive show that the commutation current ripple can be significantly reduced by the presented PWM technique.