Limited-Jerk Sinusoidal Trajectory Design for FOC of PMSM with H -Infinity Optimal Controller

2018 IEEE 18th International Power Electronics and Motion Control Conference (PEMC) Pub Date : 2018-08-01 DOI:10.1109/EPEPEMC.2018.8521749

Mehmet Mutlu, O. Keysan, B. Ulutas

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引用次数: 1

Abstract

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.

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基于H -∞最优控制器的永磁同步电机FOC有限抖动正弦轨迹设计

轨迹规划对于满足运动系统的严格要求具有重要作用。轨迹设计的重点可以是最小的响应时间，最小的误差或延长的使用寿命，具体取决于应用。在具有小惯性的系统中，可以实现有限的时间和误差最小化要求，而不会出现任何明显的问题。然而，扭矩波纹和振动会使机械部件产生疲劳。在永磁同步电机的场定向控制(FOC)中，提出了限跳正弦轨迹(也称为摆线从动件运动)，以实现精确的运动控制，减小转矩脉动，延长使用寿命。为了证明本文方法的有效性，将闭环系统的仿真结果与各种方法计算的参考轨迹进行了比较。采用开环系统辨识后设计的h∞最优控制器对负载的速度和位置进行控制。

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2018 IEEE 18th International Power Electronics and Motion Control Conference (PEMC)

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