Исследование режимов и работы синхронных машин с массивным ротором

Abstract

The article presents a procedure for analyzing the performance of a frequency controlled induction machine in the case of using a scalar control algorithm with keeping the power losses in the machine itself to a minimum and maintaining constant overlood capacity and magnetc flux. The essence of the proposed procedure consists in combining the calculated values of machine parameter obtained from its mathematical model in the case of using frequency control with the analytical expressions characterizing the power loss components. As a result, it becomes possible to determine not only the total power losses in a frequency controlled induction machine, but also shanges in its other operating parameters, the reactive powerabsorbed from the being the most important one of them. It has been found that with these parameters, i.e., the total power losses in the machine and the absorbed reactive power duly taken into account, in is most expedient to use a control algorithm maintaining constant overloading capacity and magnetic flux at a constant torque on the machine shaft. With the machine shaft torque being of a windage type as determined from the power losses taken in combination with the absorbed reactive power, the best performance is achieved in using the machine control law maintaining its constant averloading capacity: kus=kn kfs wr.