Scientific and Technical Journal


ISSN Print 2221-3937
ISSN Online 2221-3805

In the process ofthe power effective of the synchronous electric motors' starting devices it is necessary to solve a problem of theassociated with the study of engine-electric power semiconductor converterby means ofadequate mathematical model formation in the various systems of coordinates and studying with its help the transfer functions under the various operating influences.

This workfocuses on the analysis of the transients at the start-up time of the synchronous motor within using the pulse-width converter at sinusoidal,trapezoidal and rectangular output tension on the basis of the mathematical model which is put up in the current stator-the stator flux linkage coordinates. The graphs of the electricity consumption by the pulse-width converter of frequency – the synchronous motor systems are provided at the various laws of management per one working cycle.

  1. Hioki Т., Jamamoto H., Mizuno S., and Jnogushi H., (1979), Thruster Starting System for Okayoshino Power Plant –Toshiba Review, No. 122.
  2. ChorniyA.P., Gladar A.I., Osadchuk Yu.G. Kurbanov I.R., and Voshun A.N. Puskovyie sistemyi nereguliruemyih elektroprivodov: Monografiya [Starting Systems of theUnregulated Electric Drives: The Monograph], (2006), Kremenchug, Ukraine, Scherbatykh A.V., 280 p. (In Russian).
  3. Sinchuk I.O., Chernyshev A.A., Pas’ko O.V., Klyuchka O.E., Kyba I.I., and Melnyk O.E.Poluprovodnikovyie preobrazovateli elektricheskoy energii v strukturah elektroprivodov. Shemotehnika i printsipyi upravleniya [Semiconductor Converters of the Electric Energy in Structures of the Electric Drives. The Circuitry and Principles of its Management], (2008), Manual. Under the Edition by prof. Sinchuk O.M., Kremenchug, Ukraine, Shcherbatykh O.V., 88 p. (In Russian).
  4. Tihanyi L., (1995), EMC in Power Electronics, N.Y.: IEEE Press, 402 p.
  5. Veynger A.M. Reguliruemyiy sinhronnyiy elektroprivod [Adjustable Synchronous Electric Drive], (1985), Moscow, Russian Federation, Energoatomizdat, 224 p. (In Russian).
  6. Rudakov V.V., Stolyarov I.M., and Dartau V.A. Asinhronnyie elektroprivodyi s vektornyim upravleniem [The Asynchronous Electric Drives with Vector Management], (1987), Leningrad, Russian Federation, Energoatomizdat, Leningr. Department, 136 p. (In Russian).
  7. Klyuchev V.I. Teoriya elektroprivoda: Uchebnik dlya vuzov [The Electric Drive theory: the Mannual for Higher Education Institutions], (1985), Moscow, Russian Federation, Energoatomizdat, 560 p. (In Russian).
  8. Sinchuk O.M., Zakharov V.Y., and Mikhaylichenko D.A.Modelirovanie puska neyavnopolyusnogo sinhronnogo elektricheskogo dvigatelya [Modelling of the not Salient pole Synchronous Electric Motor’sStart-up], (2012),Electrotechnical and Computer Systems. Scientific-Technical Journal,Kiev, Ukraine,Tekhnika, No. 08(84), pp. 24 – 30(In Russian).
  9. L.Serrano, Iribarnegaray, (1993), The Modern Space Vector Theory, Part I: Its Coherent Formulation and Its Advantages for Transient Analysiso Converter-Fed AC Machines, ETEP, Vol.3, No. 2, March/April, 1993.
  10. Shreyner R.T. Matematicheskoe modelirovanie elektroprivodov peremen-nogo toka s poluprovodnikovyimi preobrazo-vatelyami chastotyi [Mathematical Modeling of the Alternating Current Electric Drives with Frequency Semiconductor Converter], (2000), Yekaterinburg, Russian Federation, URO RAN, 654 p. (In Russian).
  11. Sen J., and Butterworth N. (1997), Analysis and Design of a Three-Phase PWM Converter System for Railway Traction Applications, IEE Proceedings on Electric Power Applications, Vol. 144, No. 5, pp. 357 – 371.
Last download:
28 Oct 2018

[ © KarelWintersky ] [ All articles ] [ All authors ]
[ © Odessa National Polytechnic University, 2014-2018. Any use of information from the site is possible only under the condition that the source link! ]