Abstract

The article focuses on the synthesis and analysis of control loops for electromagnetic torque and current in AC drives. Thus the approximation of the invariable part of the electric drive by a linear system with amplitude modulation of the sig-nal is applicable in the problems of synthesis and analysis of torque and current control loops. It is proven that it is possi-ble to consider independently steady-state and transient processes of variables in the phase windings of the motor. In order to take into account, the presence of cross magnetic couplings of three-phase windings of an electric machine, methods of frequency identification of regulated objects should be applied. It should be noted that the implementation of the mathemat-ical description of the system by a simplified set of equations greatly simplifies the process of setting up and configuring systems by service staff. The band of uniform frequency transmission in the current control loop reaches 4000 rad/s, which is proved by experiments with frequency characteristics. This greatly simplifies the process of tuning the torque control loop at a speed of 6000 rpm. With the introduction of corrective signals, an additional increase in speed is possible while maintaining the specific weight and size characteristics of the electric drive. A decrease in the inductive leakage re-sistance of the phase winding due to a decrease in the phase zone of the winding in multi-phase electric drives with the number of phases m>3 has been recorded. This leads to a significant ex-pansion of the frequency bandwidth in the speed, current and torque control loops.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call