Advertisement

Dynamic Current Feedback Control for Fast Torque Impression in Drive Systems

  • Nguyen Phung QuangEmail author
  • Jörg-Andreas Dittrich
Chapter
Part of the Power Systems book series (POWSYS)

Abstract

The current control loop plays a decisive role in a 3-phase drive system operated with field orientation. The design of the superimposed mechanical systems (speed and position control) wishes for an inner current control loop with ideal behaviour: With undelayed impression of the stator current.

Keywords

Current Controller Stator Voltage Voltage Vector Rotor Flux Closed Loop Response 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

References

  1. Brod DM, Novotny DN (1985) Current control of VSI-PWM inverters. IEEE Trans Ind Appl 21:562–70Google Scholar
  2. Dittrich JA (1998) Anwendung fortgeschrittener Steuer- und Regelverfahren bei Asynchronantrieben. Habilitationsschrift, TU DresdenGoogle Scholar
  3. Enjeti P, Lindsay JF, Ziogas PD, Rashid MH (1988) New current control scheme for PWM inverters. In: IEE Proceedings, vol 135, Pt.B, No. 4, pp 172–179Google Scholar
  4. Föllinger O (1982) Lineare Abtastsysteme. R. Oldenbourg Verlag, München Wien Google Scholar
  5. Hofmann W (1984) Entwurf und Eigenschaften einer digitalen Vektorregelung von Asynchronmotoren mit gesteuertem Rotorfluß. Dissertation, TU DresdenGoogle Scholar
  6. Holtz J, Stadtfeld S (1983) Fieldoriented control by forced motor currents in a voltage fed inverter drive. In: IFAC symposium control in power electronics an electrical drives, Lausanne, Switzerland, pp 103–110Google Scholar
  7. Holtz J, Stadtfeld S (1983) A predictive controller for the stator current vector of AC machines fed from a switched voltage source. In: Conference recreation IPEC Tokyo, pp 1665–1675Google Scholar
  8. Holtz J, Stadtfeld S (1985) A PWM inverter drive system with on-line optimized pulse patterns. In: EPE brussel conference recreation, pp 3.21–3.25Google Scholar
  9. Isermann R (1987) Digitale regelsysteme, vol 2. Springer, BerlinGoogle Scholar
  10. Kazmierkowski MP, Wojciak A (1988) Current control of VSI-PWM inverter-fed induction motor. Warsav University of Technology, Institute of Control and Industrial Electronics, PE 7945Google Scholar
  11. Kazmierkowski MP, Dzieniakowski MA, Sulkowski W (1988) Novel space vector based current controller for PWM-inverters. Summary, Warsav University of Technology, Institute of Control and Industrial ElectronicsGoogle Scholar
  12. Le-Huy H, Dessaint LA (1986) An adaptive current controller for PWM-inverters. In: IEEE PESC conference, pp 610–616Google Scholar
  13. Malesani L, Tenti P (1987) A novel hysteresis control method for current controlled VSI-PWM inverters with constant modulation frequency. In: Conference recreation of IEEE-IAS annual meeting, pp 851–855Google Scholar
  14. Mayer HR (1988) Entwurf zeitdiskreter Regelverfahren für Asynchronmotoren unter Berücksichtigung der diskreten Arbeitsweise des Umrichters. Dissertation, University Erlangen—NürnbergGoogle Scholar
  15. Meshkat S, Persson EK (1984) Optimum current vector control of brushless servo amplifier using microprocessors. In: IEEE IAS annual meeting conference recreation, pp 451–457Google Scholar
  16. Nabae A, Oyasawara S, Akagi H (1985) A novel control scheme of current-controlled PWM inverters. In: IEEE—IAS annual meeting conference recreation, pp 473–478Google Scholar
  17. Peak SC, Plunkett AB (1982) Transistorized PWM inverter-induction motor drive system. In: IEEE–IAS annual meeting conference recreation, pp 892–893Google Scholar
  18. Pfaff G, Wick A (1983) Direkte Stromregelung bei Drehstromantrieben mit Pulswechselrichter. Regelungstechnische Praxis (rtp) 24(H. 11):S. 472–477Google Scholar
  19. Quang NP (1990) Verfahren zur Stromregelung in Drehstromstellantrieben: Lösungsprinzipien und deren Grenzen. Fachtagung “Steuerung mechanischer Systeme”, TU Chemnitz, pp 102–105Google Scholar
  20. Quang NP (1991) Schnelle Drehmomenteinprägung in Drehstromstellantrieben. Dissertation, TU DresdenGoogle Scholar
  21. Quang NP (1994) Dokumentation zur Regelungssoftware mit TMS 320C25 von REFU 402Vectovar. REFU Elektronik GmbH, Abt. E1, interner BerichtGoogle Scholar
  22. Quang NP (1996) Mehrgrößenregler löst PI-Regler ab: Von den Parametern zu programmierbaren Reglergleichungen. Elektronik (H.8):S. 112–120Google Scholar
  23. Quang NP (1996) Digital Controlled Three-Phase Drives. Education Publishing House: Hanoi (book in vietnamese: Điều khiển tự động truyền động điện xoay chiều ba pha. Nhà xuất bản Giáo dục Hà Nội)Google Scholar
  24. Quang NP, Schönfeld R (1991) Stromvektorregelung für Drehstromstellantriebe mit Pulswechselrichter. atp, Nov., S. 401–405 (msr)Google Scholar
  25. Quang NP, Schönfeld R (1991) Stromzustandsregelung: Neues Konzept zur Ständerstromeinprägung für Drehstromstellantriebe mit Pulswechselrichter. atp, Dez., S. 432–436 (msr)Google Scholar
  26. Quang NP, Schönfeld R (1993) Dynamische Stromregelung zur Drehmoment-einprägung in Drehstromantrieben mit Pulswechselrichter. Archiv für Elektrotechnik/Archiv of Electrical Engineering 76:S. 317–323Google Scholar
  27. Quang NP, Schönfeld R (1993) Eine Stromvektorregelung mit endlicher Einstellzeit für dynamische Drehstromantriebe. Archiv für Elektrotechnik/Archiv of Electrical Engineering 76:S. 377–385Google Scholar
  28. Rodriguez J, Kastner G (1987) Nonlinear current control of an inverter-fed induction machine. etz Archiv Bd. 9( H. 8):S. 245–250Google Scholar
  29. Rowan TM, Kerkman RJ, Lipo TA (1987) Operation of naturally sampled current regulators in the transition mode. IEEE Trans Ind Appl IA-23(4):586–596Google Scholar
  30. Schönfeld R, Krug H, Geitner GH, Stoev A (1985) Regelalgorithmen für digitale Regler von elektrischen Antrieben. msr, Berlin 28(H. 9):S. 390–394Google Scholar
  31. Seifert D (1986) Stromregelung der Asynchronmaschine. etz Archiv, Bd. 6(H. 5):S. 151–156Google Scholar
  32. Wiesing J (1994) Betrieb der feldorientiert geregelten Asynchronmaschine im Bereich oberhalb der Nenndrehzahl. Dissertation, University PaderbornGoogle Scholar
  33. Zhang J, Thiagarajan V, Grant T, Barton TH (1988) New approach to field orientation control of a CSI induction motor drive. In: IEE Proceedings, vol 135, Pt.B, No. 1, pp 1–7Google Scholar

Copyright information

© Springer-Verlag Berlin Heidelberg 2015

Authors and Affiliations

  1. 1.Institute for Control Engineering and AutomationHanoi University of Science and TechnologyHanoiVietnam
  2. 2.Enerdrive GmbHZürichSwitzerland

Personalised recommendations