Reconstruction of the rotor output signal of a direct current motor using numerical approximation

Abstract

In many areas of technology and research, who study behavior process have increasingly relied on mathematical models. Most of the time the mathematical model is used, representing the important aspect of a dynamic system. Sometimes the mathematical model does not have an appropriate structure and it can be loss the relevant information, nevertheless output signal characterization based on an input signal using laboratory measurements in real time can keep the relevant information, which it is not contemplated in the mathematical model because they involve losses or disturbances. In this work the speed of the rotor magnetic field with respect to the stator magnetic field for a dc motor in real time is showing, the data will be processed and a polynomial approximation is depicting and can effectively trigger with the mathematical model. Finally, a stability analysis is present, it shows the regions or system stability points (pre-fault, fault and post-fault), and the direction from which stability is reached through time.