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European Transactions on Electrical PowerVolume 12, Issue 2, March/April 2002, Pages 135-139

Sensorless MRAS-based induction motor control with parallel speed and stator resistance estimation(Article)

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  • aFaculty of Electrical Engineering of Belgrade, Serbia
  • bDepartment of Electrical Engineering, University of Novi Sad, Serbia
  • cUniversity of Novi Sad, Institute for Power Electronic and Communication Engineering, Fruskogorska 11, 21000 Novi Sad, Serbia
  • dUniversity of Belgrade, Serbia
  • eUniversity of Belgrade, Faculty of Electrical Engineering, Bulevar revolucije 73, 11000 Belgrade, Serbia

Abstract

This paper proposes a novel MRAS-based speed controller for the induction motor drive without shaft sensor, with the integral adaptation mechanism for on-line tuning of the stator resistance (R s ). For an accurate estimate of the shaft speed (ω) even at near zero speeds, proposed R s estimator running parallel in order to compensate for the R s thermal variation. In an intent to accurately estimate the ω at low speeds, without deterioration the drive performance, parallel with the ω estimation the R s is also estimated to compensate R s thermal variation. The reference and adjustable models of MRAS-based ω estimator change their roles in the R s estimator context. The dynamics of the ω derivation and the R s estimation are investigated for a wide range of operating conditions and straightforward design procedure is proposed, derived from the hyperstability theory. Extensive computer simulations prove the effectiveness of the proposed solution.

Indexed keywords

Engineering controlled terms:Adaptive systemsInduction motorsMotion compensationParameter estimationSensorsShafts (machine components)Thermodynamic propertiesTuning
Engineering uncontrolled termsHyperstability theoryMRAS-based induction motorOn-line tuningStator resistance
Engineering main heading:Stators
  • ISSN: 1430144X
  • Source Type: Journal
  • Original language: English
  • DOI: 10.1002/etep.4450120208
  • Document Type: Article
  • Publisher: John Wiley and Sons Ltd

  Vasić, V.V.; Faculty of Electrical Engineering of Belgrade, Serbia;
© Copyright 2019 Elsevier B.V., All rights reserved.

Cited by 2 documents

Stando, D. , Kazmierkowski, M.P.
Constant switching frequency predictive control scheme for three-level inverter-fed sensorless induction motor drive
(2020) Bulletin of the Polish Academy of Sciences: Technical Sciences
Syamkumar, U. , Jayanand, B.
Real-time implementation of sensorless indirect field-oriented control of three-phase induction motor using a Kalman smoothing-based observer
(2020) International Transactions on Electrical Energy Systems
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