An Improved Feedforward Control Strategy to Promote the Rapidity of PMSM Servo System and Reduce Overshoot Oscillation

Abstract

Under the condition of large inertia load, the stability of the servo system is more sensitive to the response speed and more likely to produce overshoot oscillations. In order to realize the requirements of high-precision and fast-response control of permanent magnet synchronous motor (PMSM) under large inertia load, an improved feedforward control strategy based on position impulse compensation and PD iterative algorithm is proposed to improve the response speed of the PMSM servo system and reduce the overshoot oscillation. This paper analyzes the mathematical models of the speed servo system and position servo system of the PMSM, calculates position overshoot impulse of the PMSM servo system, and improves the traditional feedforward control strategy to reversely compensate when the position is about to overshoot. Moreover, in order to further reduce the position overshoot, the PD iterative control algorithm is superimposed without increasing the complexity of the algorithm. The input signal is continuously corrected through multiple runs to achieve a smoother response control. The effectiveness of the proposed feedforward control strategy is verified by simulation and experiment.