Mathematical model of energy-saving equipment synchronous electric drive with permanent magnets for sustainable development of industrial equipment

Energy-saving synchronous electric drive plays an important role in the implementation of the tasks of increasing efficiency, efficiency and labor productivity in various industries, automation and optimization of production processes. The development of a mathematical model of an energy-saving synchronous electric drive with permanent magnets for industrial equipment is a calculated scheme of movement of different mass systems. The purpose of this scientific article is to develop a mathematical model of an energy-saving synchronous electric drive with permanent magnets for industrial equipment. The method used in the simulation of a gearless synchronous electric drive with permanent magnets was based on the parameters of a real drive belt conveyor, taking into account the design features of high-torque motors. The paper solves the problems of the control system of an energy-saving gearless synchronous electric drive with permanent magnets and consists in finding a solution that is an acceptable control that maximizes the selected performance criterion. This solution is optimal control and is confirmed by the results achieved in this work.