Abstract
This paper addresses the problem of torque ripple minimization in permanent magnet synchronous motor (PMSM), which plays an important role in modern aerospace industry. Accurate motion control and disturbance compensation are challenging issues of PMSM systems, where the nonlinear disturbances are quite complicated and various uncertainties exist. To overcome these control problems, based on the adaptive robust control (ARC) algorithm, an indirect adaptive robust controller (IARC) with a robust recursive least square (RRLS) adaption law is proposed as a solution. A modified PMSM model which indicates the torque ripple generation is first derived. The IARC in current loop is then described, holding the good tracking performance of ARC algorithm and minimizing the torque ripples while speed tracking. The RRLS adaption law in IARC is synthesized based on modified model and then a correction factor is added to enhance the robustness of this adaptation law. This can enable the better parametric estimation and adaptive compensation to minimize the torque ripples. The stability of the system with the proposed controller is proved. Finally, the effectiveness of the proposed method is demonstrated by the simulation results.
Highlights
Permanent magnet synchronous motor (PMSM) has received much attention due to the inherent advantages of low rotor inertia, high efficiency, and high power density
This paper addresses the problem of torque ripple minimization in permanent magnet synchronous motor (PMSM), which plays an important role in modern aerospace industry
indirect adaptive robust controller (IARC) AC (b) Speed waveforms after torque ripple minimization derived from Lyapunov design method, which is similar to um in direct adaptive robust controller (DARC), an adaptive controller with similar expression is used
Summary
Permanent magnet synchronous motor (PMSM) has received much attention due to the inherent advantages of low rotor inertia, high efficiency, and high power density. To account for parametric uncertainties, another effective method synthesizes an adaptive controller depending on the Lyapunov function of tracking error to estimate the harmonic parameters of back-EMF [7]. A novel IARC controller in current loop for minimizing torque ripples in PMSM systems is proposed. To overcome the poor parameter estimation of DARC and complicated stability analysis, a robust recursive least square (RRLS) adaptation law is synthesized independent from the design of underlying robust control law. With the estimated harmonic parameters of back-EMF and a practical torque production model, the proposed IARC is designed in current loop to achieve ripple minimization control.
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