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    Stator resistance tuning in a stator flux field oriented drive using an instantaneous hybrid flux estimator

    Stator resistance tuning in a stator flux field oriented drive using an instantaneous hybrid flux estimator


    A self-tuning control scheme for stator flux field oriented induction machine drives in electric vehicles operating over a wide speed range is discussed in this paper. The stator flux can be determined accurately from the terminal voltage when the machine is operating at high speed. However, at low speed, the stator resistance must be known to calculate the stator flux. The problem of calculating the stator flux accurately over the entire speed range is addressed. The rotor flux can be found from the machine speed and the rotor time constant. The stator flux, at low speed, is then calculated directly from the rotor flux. By alternating between these two methods of determining the stator flux, a self-tuning operation is achieved, wherein the stator and rotor resistances are periodically updated. Since both methods of determining the stator flux are forced to track one another, a smooth transition between flux estimators is obtained. The torque and flux are then controlled in a dead beat fashion. Good torque control over a widespeed range can therefore be obtained. With the proposed scheme, the advantages of direct torque control are obtained over the entire speed range with the addition of a speed sensor.

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    Title :

    Stator resistance tuning in a stator flux field oriented drive using an instantaneous hybrid flux estimator

    Additional title:

    Die Verstellung des Ständerwiderstande bei einem am Stator-Magnetfluß orientierten Antrieb mit Hilfe eines momentan wirkenden, hybriden Magnetfluß-Estimators

    Contributors:
    Habetler, T.G. (author) / Profumo, F. (author) / Griva, G. (author) / Pastorelli, M. (author) / Bettini, A. (author)
    Published in:

    EPE, European Conference on Power Electronics and Applications, 5 ; 292-299

    IEE Conference Publication ; 377,4

    Publication date :

    1993

    Size :

    8 Seiten, 8 Bilder, 6 Quellen

    ISBN :

    0-85296-586-9

    ISSN :

    0537-9989

    Type of media :

    Conference paper

    Type of material :

    Print

    Language :

    English

    Keywords :

    Asynchronmotor , Steuereinrichtung , Ständer (elektrische Maschine) , magnetischer Fluss , Hybridrechner , Prozesssteuerung , Elektrofahrzeug , Systembeschreibung

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