Optimizing the control principle of Asynchronous electric drives with a phase-wound rotor based on simulation of its dynamic operational modes

The paper describes an approach to optimizing the parameters of the control system for asynchronous electric drives with a phase rotor by means of numerical simulation of the electrical complex. The researcher has implemented a numerical model of the electrical complex called “Asynchronous motor with a phase-wound rotor - A production mechanism.” The model was implemented in a software product AdFr in Delphi visual programming environment. A specialized numerical method and algorithm in the form of MIntegr and MVisual visual components was used as a calculating tool. The author has considered the specific features of analyzing the dynamic modes, taking into account the discrete-continuous nature of the control system. The simulation result allows generating transient modes of the required quality. In the paper the author also compares the developed method of calculating the control system parameters with the classical method of generating transient modes.