Effective Model Predictive Voltage Control for a Sensorless Doubly Fed Induction Generator

This article presents a novel model predictive voltage control (MP VC) for a doubly fed induction generator (DFIG) without a speed sensor. The methodology of the considered MP VC is articulated on the direct voltage control by incorporating the deadbeat control principle within the model predictive...

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Published inCanadian journal of electrical and computer engineering Vol. 44; no. 1; pp. 50 - 64
Main Authors Mossa, Mahmoud A., Duc Do, Ton, Saad Al-Sumaiti, Ameena, Quynh, Nguyen Vu, Diab, Ahmed A. Zaki
Format Journal Article
LanguageEnglish
Published Montreal IEEE 2021
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
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Abstract This article presents a novel model predictive voltage control (MP VC) for a doubly fed induction generator (DFIG) without a speed sensor. The methodology of the considered MP VC is articulated on the direct voltage control by incorporating the deadbeat control principle within the model predictive topology. The derivation of the utilized cost function is accomplished in organized steps. The finite control set (FCS) principle is adopted to avoid the utilization of the pulsewidth modulation (PWM), which contributes to simplifying the system configuration. For estimating the rotor position, a robust estimator is proposed to achieve precise tracking of the rotor alignment, and thus, a perfect co-ordinates transformation can be achieved. To visualize the significance of the intended MP VC in regard to the classic model predictive techniques, accurate analysis of the DFIG dynamics under the proposed MP VC and model predictive direct torque control (MP DTC) is presented. The test results approve and reveal the predomination of the presented MP VC over the MP DTC. Furthermore, the effectiveness of the proposed sensorless scheme is verified for different ranges of speed operation.
AbstractList This article presents a novel model predictive voltage control (MP VC) for a doubly fed induction generator (DFIG) without a speed sensor. The methodology of the considered MP VC is articulated on the direct voltage control by incorporating the deadbeat control principle within the model predictive topology. The derivation of the utilized cost function is accomplished in organized steps. The finite control set (FCS) principle is adopted to avoid the utilization of the pulsewidth modulation (PWM), which contributes to simplifying the system configuration. For estimating the rotor position, a robust estimator is proposed to achieve precise tracking of the rotor alignment, and thus, a perfect co-ordinates transformation can be achieved. To visualize the significance of the intended MP VC in regard to the classic model predictive techniques, accurate analysis of the DFIG dynamics under the proposed MP VC and model predictive direct torque control (MP DTC) is presented. The test results approve and reveal the predomination of the presented MP VC over the MP DTC. Furthermore, the effectiveness of the proposed sensorless scheme is verified for different ranges of speed operation.
Author Diab, Ahmed A. Zaki
Duc Do, Ton
Quynh, Nguyen Vu
Mossa, Mahmoud A.
Saad Al-Sumaiti, Ameena
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Snippet This article presents a novel model predictive voltage control (MP VC) for a doubly fed induction generator (DFIG) without a speed sensor. The methodology of...
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StartPage 50
SubjectTerms Control equipment
Cost function
Deadbeat control
doubly fed induction generator (DFIG)
Doubly fed induction generators
Electric currents
Electric potential
Electrical engineering
finite control set (FCS)
Induction generators
Predictive control
Predictive models
Pulse duration modulation
Pulse width modulation
Robustness
Rotors
sensorless operation
Topology
torque control
Voltage
Voltage control
Title Effective Model Predictive Voltage Control for a Sensorless Doubly Fed Induction Generator
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