Abstract
The angle-based repetitive controller (RC) has been applied successfully in the literature for torque ripple suppression in variable speed permanent magnet synchronous machines (PMSMs). The RC is preferred because of its learning capability, which allows the cancelation of all periodic ripples from multiple sources. However, its tuning method has not yet been proposed. Since the structure of the RC is found similar to the disturbance observer (DOB), which is convenient to tune through pole placement, this paper merges the angle-based RC and DOB into a novel angle-based repetitive observer (ARO) for the first time for the torque ripple reduction in PMSMs. ARO takes advantages of its DOB structure that it can be designed separately and can easily be added into an existing control loop. Taking advantage of its RC nature, ARO can tackle a wide frequency range of torque ripple even in the presence of measurement noise. The experimental test results have confirmed the robust performance of ARO under five conditions, including the ideal integral delay, the fractional delay, the load transient, the speed transient, and the detuned mechanical parameters conditions. The execution time of the ARO is less than 10 $\,\mu$ s.
Highlights
T ORQUE ripple reduction of the permanent magnet synchronous machines (PMSMs) has been studied for decades
The aim of this paper is to propose a novel controller that performs as effective as the existing angle-based repetitive controller (RC), but easier to tune
A novel angle-based angle-based repetitive observer (ARO) for the torque ripple reduction in variable speed PMSM drives has been proposed in this paper
Summary
T ORQUE ripple reduction of the permanent magnet synchronous machines (PMSMs) has been studied for decades. Many traditional methods tend to reduce the torque ripple individually caused by every possible source. An angle-based RC is proposed in [19] for torque ripple reduction in PMSM drives at any speed and even during speed and load transients. In [20], the cut-off frequency of the filter in DOB is set to be 100 Hz. only the low frequency torque ripple reduction are presented. The disturbance observer equation is derived as below, where L is the observer gain
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