Fault‐tolerant control of current residual vector three‐phase four‐switch motor drive system based on MLD model

Aiming at the problem of single‐phase switch tube open circuit fault in inverters, a current residual vector three‐phase four‐switch fault‐tolerant control strategy based on the mixed logic dynamic (MLD) model of permanent magnet synchronous motor (PMSM) drive system is proposed. Firstly, the MLD and three‐phase four‐switch mathematical models of the motor drive system are established and a calculation method of DC bus capacitance is proposed. Secondly, to improve the dynamic performance of the motor, an improved vector control based on the MLD model is proposed. Finally, by setting the threshold and dividing the area of the current residual vector, the accuracy of inverter fault diagnosis is improved, and the fast and smooth switching of the drive system after the fault is realized. Simulation and experimental results show that this strategy can effectively reduce the influence of calculation error and system noise, and has strong robustness for the change of motor speed and load. Based on the MLD(mixed logic dynamic) model and vector control of PMSM（permanent magnet synchronous motor） speed control system, an improved vector control strategy is proposed. At the same time, the fault diagnosis method based on the current residual vector is combined with the three‐phase four‐switch fault‐tolerant topology to improve the reliability of the system.