In this paper, a very simple vector control algorithm is proposed for mu -based induction motor drives. The proposed method controls the motor torque directly and linearly to achieve instantaneous torque response without oscillation. The merits of this control method include its simple architecture and obviating the coordinate transformation. At the same time, a new space vector-based current controller is proposed to serve as a quick response torque controller of the proposed drive system. In addition to the current error, information on the current error derivative is further employed so that one can take more advantages of adding the zero voltage vector for reducing the switching frequency. As a result, the efficiency can be greatly increased. It is seen that through integration of the above two parts, the proposed drive system is very simple to implement and has very good performance.
A practical vector control algorithm for mu -based induction motor drives using a new space vector current controller
Vektorregelalgorithmus für Asynchronantriebe auf Basis eines neuen Zustandsvektor-Stromreglers
IEEE Transactions on Industrial Electronics ; 41 , 1 ; 97-103
1994
7 Seiten, 21 Quellen
Aufsatz (Zeitschrift)
Englisch
Elektroantrieb , Asynchronmotor , Koordinatentransformation , Zustandsregelung , Mikrocomputer , Algorithmus , elektrischer Strom , Drehmoment , Fehler , Schalten , Frequenz , elektrische Spannung , Schalthäufigkeit , Stromregelung (elektrisch) , Maschinensteuerung , Mikrocomputeranwendung , rechnerunterstützte Energietechnik , Drehmomentregelung , Asynchronmotorantrieb
Current Controller for Autocommissioned Vector-Controlled Induction Motor Drives
Online Contents | 2000
|Analysis and Implementation of a New Space Vector Current Regulation for Induction Motor Drives
Online Contents | 2006
|Vector Control of Two-motor Single-inverter Induction Machine Drives
Online Contents | 2014
|Fuzzy Logic Speed Controller for Direct Vector Control of Induction Motor
BASE | 2009
|