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Limited-Jerk Sinusoidal Trajectory Design for FOC of PMSM with H-infinity Optimal Controller
Date
2018-08-30
Author
Mutlu, Mehmet Kaan
Keysan, Ozan
Ulutas, Buis
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Trajectory planning has a significant role in meeting the strict requirements of the systems in motion. Focus of the trajectory design can be minimum response time, minimum error or extended service life depending on the application. Limited time and error minimization requirements can be achieved in the systems with small inertia without any visible problems. However, torque ripples and vibration create fatigue in the mechanical parts. In this study, limited-jerk sinusoidal trajectory (also known as cycloidal follower motion) is proposed in the field oriented control (FOC) of permanent magnet synchronous motors (PMSM) to achieve precise motion control, reduced torque ripple and extend service life. In order to show the effectiveness of the proposed method in this study, simulation results of the closed-loop systems are compared with reference trajectories calculated using various methods. The velocity and the position of the load are controlled with an H-infinity optimal controller that is designed after the open-loop system identification.
URI
https://hdl.handle.net/11511/53133
Conference Name
18th IEEE International Power Electronics and Motion Control Conference (IEEE PEMC)
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M. K. Mutlu, O. Keysan, and B. Ulutas, “Limited-Jerk Sinusoidal Trajectory Design for FOC of PMSM with H-infinity Optimal Controller,” presented at the 18th IEEE International Power Electronics and Motion Control Conference (IEEE PEMC), World Trade Ctr, Budapest, HUNGARY, 2018, Accessed: 00, 2020. [Online]. Available: https://hdl.handle.net/11511/53133.
