期刊名称:American Journal of Electrical and Electronic Engineering
印刷版ISSN:2328-7365
电子版ISSN:2328-7357
出版年度:2016
卷号:4
期号:6
页码:164-176
DOI:10.12691/ajeee-4-6-3
出版社:Science and Education Publishing
摘要:Permanent Magnet Brushless DC (PMBLDC) Motors are trapezoidal shaped back EMF permanent magnet AC machine with high power density. Since the motor has a trapezoidal field pattern rather than sinusoidal it is desirable to study the motor behavior under different current fed conditions to analyze the developed electromagnetic torque. In this paper three different trapezoidal, square and sinusoidal current fed field oriented vector controlled PMBLDC motor drives are presented. The novel approach of this paper is that, the torque handling capacity of a PMBLDC motor can be increased up to its rated torque by only changing the pattern of reference current of a field oriented vector controlled PMBLDC motor drive. Adaptive PI controller based on motor speed error is also proposed in the paper to have a simplified drive system. When square and sinusoidal reference current fed vector controlled drives are used, the maximum torque handling capacity of a specified PMBLDC motor is 1.60 Nm and 1.55 Nm respectively. Only by using trapezoidal reference current fed drive, the maximum torque handling capacity of that specified motor can be increased to 2.0 Nm. The performance of these three different current drives are also compared on the basis of their torque pulsation. The dynamic performance of the vector controlled trapezoidal current fed drive is found outstanding than the square and sinusoidal current fed drives considering response time, load torque handling capacity, variable speed condition, settling time of the system.
关键词:Field Oriented Control; Permanent Magnet Brushless DC (PMBLDC) motor drives; Trapezoidal Current Fed System; Adaptive PI Controller
