Study of External Energy Gun Automata Firing Control Based on Permanent Magnet Synchronous Motor

Abstract

In this paper, an external energy gun automata firing control method based on permanent magnet synchronous motor (PMSM) is presented. Firstly, on the basis of PMSM voltage equation and coordinate transform, current loop decoupling controllers are derived via the expected current closed loop time constant. The d-axis current and q-axis current can be tuned independently. Through the given mid-frequency interval criterion, the PMSM speed control method can be designed. Secondly, in order to implement the external energy gun automata firing control, the combined angle according to PMSM position and its over one circle count is solved first. The position controller is designed via Lyapunov stable theory. Last, an experiment is executed on a real external energy gun automaton and a PMSM position control system to verify the proposed method. The firing rate and firing shells length can be controlled. In order to decrease the firing rate without decrease PMSM speed, multiple single shells fired with given interval method can also be established and achieved. The experiment results verify the effectiveness of the proposed approach.