Method of Determination Stator Winding MMF at Arbitrary Phase Current Waveform and Unequal Width of Phase Zones (for Investigation of Operational Characteristics of Frequency: Controlled Motors)

  • Iliya Boguslawsky
  • Nikolay Korovkin
  • Masashi Hayakawa


In Chapter 21 to study operational characteristics of frequency—controlled motors, there is developed a method of stator winding MMF determination at arbitrary waveform of currents in phases and with unequal phase zone width, for example, for winding implemented with fractional number of slots per pole and phase.


Phase Angle Phase Current Symmetrical Component Harmonic Series Spatial Harmonic 
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I. Monographs, Textbooks

  1. 1.
    Demirchyan K.S., Neyman L.R., Korovkin N.V., Theoretical Electrical Engineering. Moscow, St.Petersburg: Piter, 2009. Vol. 1, 2. (In Russian).Google Scholar
  2. 2.
    Kuepfmueller K., Kohn G., Theoretische Elektrotechnik und Elektronik. 15 Aufl., Berlin, New York: Springer. 2000. (In German).Google Scholar
  3. 3.
    Richter R., Elektrische Maschinen. Berlin: Springer. Band I, 1924; Band II, 1930; Band III, 1932; Band IV, 1936; Band V, 1950. (In German).Google Scholar
  4. 4.
    Mueller G., Ponick B., Elektrische Maschinen. New York, John Wiley, 2009. 375 S. (In German).Google Scholar
  5. 5.
    Voldek A.I., Electrical Machines. Leningrad: 1974. 782 c. (In Russian).Google Scholar
  6. 6.
    Schuisky W., Berechnung elektrischer Maschinen. Wien: Springer, 1960. (In German).Google Scholar
  7. 7.
    Mueller G., Vogt, K., Ponick B., Berechnung elektrischer Maschinen. Springer, 2007. 475 S. (In German).Google Scholar
  8. 8.
    Korn G., Korn T., Mathematical Handbook. New York: McGraw–Hill, 1961.Google Scholar
  9. 9.
    Jeffris H., Swirles B., Methods of Mathematical Physics. Third Edition, Vol. 1 – Vol. 3, Cambridge: Cambridge Univ. Press, 1966.Google Scholar

II. Induction Machines. Papers, Inventor’s Certificates

  1. 10.
    Boguslawsky I.Z., Asymmetrical cage rotor MMF of induction machine. Power Eng. (New York), 1992, № 1.Google Scholar
  2. 11.
    Boguslawsky I.Z., Features of 6 – phases armature winding of A.C. machines with the non-sinusoidal power supply. Power Eng. (New York), 1997, № 5.Google Scholar
  3. 12.
    Boguslawsky I.Z., Ivanov V.G., Rogachevsky V.S., Turusov V.E., Stator winding MMF calculation method at arbitrary phase current waveform and unequal width of phase zones (for research of frequency – controlled motors performance). Science and research magazine of PGSPbPU, 2013, № 6. (In Russian).Google Scholar
  4. 13.
    Polujadoff M., General rotating MMF – Theory of squirrel cage induction machines with non-uniform air gap and several non-sinusoidal distributed windings. Trans AIEE, PAS, 1982.Google Scholar
  5. 14.
    Vaš P., Analysis of space–harmonics effects in induction motors using N–phase theories. International Conf. of Electrical Machines. Brussels, 1978.Google Scholar

Copyright information

© Springer Japan KK 2017

Authors and Affiliations

  • Iliya Boguslawsky
    • 1
  • Nikolay Korovkin
    • 1
  • Masashi Hayakawa
    • 2
  1. 1.Peter the Great St. Petersburg Polytechnic UniversitySaint PetersburgRussia
  2. 2.The University of Electro-CommunicationsTokyoJapan

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