ANN-Based Improved Direct Torque Control of Open-End Winding Induction Motor

Kaif Ahmed Lodi; Abdul R. Beig; Khaled Ali Al Jaafari; Zeyar Aung

doi:10.1109/TIE.2024.3357865

ANN-Based Improved Direct Torque Control of Open-End Winding Induction Motor

Kaif Ahmed Lodi, Abdul R. Beig, Khaled Ali Al Jaafari, Zeyar Aung

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

This article presents an improved artificial neural network (ANN)-based direct torque control (DTC) algorithm for open-end winding induction motor (OEWIM) sensorless drives. The ANN replaces the traditional look-up table and serves as an efficient data storage system, allowing for optimal voltage vector selection based on small values of torque error and flux error for every angular position of the stator flux vector. By replacing the hysteresis controllers, improved torque and flux tracking are achieved with improved transient response. The proposed ANN-based DTC is verified through simulation as well as experimental tests. The experimental results and comparative results are presented.

Original language	British English
Pages (from-to)	12030-12040
Number of pages	11
Journal	IEEE Transactions on Industrial Electronics
Volume	71
Issue number	10
DOIs	https://doi.org/10.1109/TIE.2024.3357865
State	Published - 2024

Keywords

Artificial neural network (ANN)
direct torque control (DTC)
Hysteresis
Induction motors
open-end winding induction motor (OEWIM)
Stator windings
Switches
Torque
torque ripple
Training
Voltage control

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10.1109/TIE.2024.3357865

Cite this

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title = "ANN-Based Improved Direct Torque Control of Open-End Winding Induction Motor",

abstract = "This article presents an improved artificial neural network (ANN)-based direct torque control (DTC) algorithm for open-end winding induction motor (OEWIM) sensorless drives. The ANN replaces the traditional look-up table and serves as an efficient data storage system, allowing for optimal voltage vector selection based on small values of torque error and flux error for every angular position of the stator flux vector. By replacing the hysteresis controllers, improved torque and flux tracking are achieved with improved transient response. The proposed ANN-based DTC is verified through simulation as well as experimental tests. The experimental results and comparative results are presented.",

keywords = "Artificial neural network (ANN), direct torque control (DTC), Hysteresis, Induction motors, open-end winding induction motor (OEWIM), Stator windings, Switches, Torque, torque ripple, Training, Voltage control",

author = "Lodi, {Kaif Ahmed} and Beig, {Abdul R.} and {Al Jaafari}, {Khaled Ali} and Zeyar Aung",

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year = "2024",

doi = "10.1109/TIE.2024.3357865",

language = "British English",

volume = "71",

pages = "12030--12040",

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AU - Lodi, Kaif Ahmed

AU - Beig, Abdul R.

AU - Al Jaafari, Khaled Ali

AU - Aung, Zeyar

PY - 2024

Y1 - 2024

N2 - This article presents an improved artificial neural network (ANN)-based direct torque control (DTC) algorithm for open-end winding induction motor (OEWIM) sensorless drives. The ANN replaces the traditional look-up table and serves as an efficient data storage system, allowing for optimal voltage vector selection based on small values of torque error and flux error for every angular position of the stator flux vector. By replacing the hysteresis controllers, improved torque and flux tracking are achieved with improved transient response. The proposed ANN-based DTC is verified through simulation as well as experimental tests. The experimental results and comparative results are presented.

AB - This article presents an improved artificial neural network (ANN)-based direct torque control (DTC) algorithm for open-end winding induction motor (OEWIM) sensorless drives. The ANN replaces the traditional look-up table and serves as an efficient data storage system, allowing for optimal voltage vector selection based on small values of torque error and flux error for every angular position of the stator flux vector. By replacing the hysteresis controllers, improved torque and flux tracking are achieved with improved transient response. The proposed ANN-based DTC is verified through simulation as well as experimental tests. The experimental results and comparative results are presented.

KW - Artificial neural network (ANN)

KW - direct torque control (DTC)

KW - Hysteresis

KW - Induction motors

KW - open-end winding induction motor (OEWIM)

KW - Stator windings

KW - Switches

KW - Torque

KW - torque ripple

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KW - Voltage control

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JO - IEEE Transactions on Industrial Electronics

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ANN-Based Improved Direct Torque Control of Open-End Winding Induction Motor

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