Mathematical Modeling of Electrical Drive on the Basis of Synchronous Permanent-Magnet Motors

A comprehensive mathematical model of the automated electric drive based on synchronous permanent-magnet motor with self-commutated voltage inverter is proposed in the form of a system of ordinary differential equations. The system includes equations describing electromagnetic processes in the equivalent circuit of frequency converter on the basis of the self-commuted voltage inverter with vector pulse-width modulation, the electromechanical energy conversion in the motor, and data transformation in lagging elements of the closed-loop control system. Switching of the key elements in the power circuit, which has not been predetermined, coordinate transformations in the control system, and specific features of performing the analog-to-digital functions can be reproduced. The model is applied for the energy data analysis in case of non-sinusoidal currents and voltages. Comparison of the design and experimental spectra of the current and voltage harmonics testifies to the model adequacy.

References

[1] Baykov A.I. Matematicheskoe modelirovanie elementov i sistem avtomatizirovannogo elektroprivoda [Mathematical simulation of elements and systems of automated electric drive]. N. Novgorod, GTU im. R.E. Alekseeva Publ., 2008. 173 p.

[2] Firago B.I., Pavlyachik L.B. Reguliruemye elektroprivody peremennogo toka [Regulated AC drives]. Minsk, Tekhnoperspektiva Publ., 2006. 363 p.

[3] Maevskiy O.A. Energeticheskie pokazateli ventil’nykh preobrazovateley [Energy data of valve inverter]. Moscow, Energiya Publ., 1978. 320 p.