Abstract
Nowadays, due to excellent advantages of permanent magnet brushless (PMBL) motors such as high efficiency and high torque/power density, they are used in many industrial and variable-speed electrical drives applications. If the fabricated PMBL motor has neither ideal sinusoidal nor ideal trapezoidal back-EMF voltages, it is named nonideal (or nonsinusoidal) PMBL motor. Employing conventional control strategies of PMSMs and BLDCMs lowers the efficiency and leads to unwanted torque ripple, vibration, and acoustic noises. Moreover, in many applications to reduce the cost and enhance the reliability of drive, sensorless control techniques are used. This paper proposes a novel sensorless control for a nonsinusoidal PMBL motor with minimum torque ripple. To develop smooth torque, the selected torque harmonic elimination strategy is employed. Furthermore, to estimate the rotor position and speed, a novel full-order sliding mode observer is designed. Proposed observer estimates the position and speed of motor from standstill to final speed. The proposed observer is robust to uncertainty of harmonic contents in phase back-EMF voltage and able to run the motor from standstill with closed-loop control scheme. The capabilities of torque ripple minimization and sensorless strategies are demonstrated with some simulations.
Highlights
In two past decades and with reducing the price of permanent magnets material, design and manufacture of permanent magnet brushless (PMBL) motors have developed in industrial and nonindustrial different applications
For nonsinusoidal PMBL motor control presented in previous section, the precise rotor position information is essential for generating of references currents
A novel sensorless control based on full-order sliding mode observer for closed-loop speed control of a nonsinusoidal PMBL motor has been developed in this paper
Summary
In two past decades and with reducing the price of permanent magnets material, design and manufacture of permanent magnet brushless (PMBL) motors have developed in industrial and nonindustrial different applications Superior features such as high efficiency, high power and torque density, low maintenance cost, simple structure, and ease of control are the reasons for tendency to these motors. The main reasons for this issue are inappropriate distribution of the stator windings, improper form, and span of permanent magnet and saturation effects These motors are briefly named as nonsinusoidal PMBL motor in this paper. Employing conventional control methods of PMSMs and BLDCMs such as vector control or quasi-square current control for nonsinusoidal PMBL motors causes significant instantaneous torque ripple that depends directly on the harmonic contents of phase back-EMF voltage rather than ideal sinusoidal or trapezoidal shapes [5, 6].
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