Your search keyword '"Shawier, Abdullah"' showing total 2 results

1. Predictive current control based pseudo six-phase induction motor drive.

Author

Habib, Abdelrahman, Shawier, Abdullah, Mamdouh, M., Samy Abdel-Khalik, Ayman, Hamad, Mostafa S., and Ahmed, Shehab

Subjects

TORQUE control, INDUCTION motors, STATORS, PREDICTION models

Abstract

Asymmetrical six-phase induction machines are widely used in high-power safety-critical applications. The so-called pseudo six-phase winding layout has recently been proposed as a promising contender for high power medium voltage applications in terms of torque density, phase current quality, simple single-layer-based stator winding design, and fault-tolerant capability. This winding layout employs quadruple three-phase stator winding sets connected to provide only six terminals, while being fed from two three-phase inverters. Therefore, the same conventional six-phase-based control structure can still be employed. Among the different control techniques, model predictive current control is considered as one of the cutting-edge technologies for multiphase drive systems, thanks to its simplicity and flexibility in defining new control objectives. This paper investigates how the available 64 voltage vectors of a six-phase inverter are classified among different subspaces when employing a pseudo six-phase stator winding. Moreover, the required modifications to classical predictive current control (PCC) are introduced in order to properly control the machine in a manner similar to conventional asymmetrical six-phase machines while ensuring minimum circulating xy current components. The concept of virtual voltage vectors (VVVs) has also been employed to further enhance the stator current quality. The proposed controller is validated using a 2Hp prototype pseudo six-phase machine under different operating conditions. An experimental comparative study with an asymmetrical six-phase machines is also carried out to verify the claimed equivalence. [ABSTRACT FROM AUTHOR]

Published

2022

2. Applicability Analysis of Indices-Based Fault Detection Technique of Six-Phase Induction Motor.

Author

Farag, Khaled, Shawier, Abdullah, Abdel-Khalik, Ayman S., Ahmed, Mohamed M., and Ahmed, Shehab

Subjects

*INDUCTION machinery, *INDUCTION motors, *STATORS, *SIMULATION methods & models

Abstract

The multiphase induction motor is considered to be the promising alternative to the conventional three-phase induction motor, especially in safety-critical applications because of its inherent fault-tolerant feature. Therefore, the attention of many researchers has been paid to develop different techniques for detecting various fault types of multiphase induction motors, to securely switch the control mode of the multiphase drive system to its post-fault operation mode. Therefore, several fault detection methods have been researched and adapted; one of these methods is the indices-based fault detection technique. This technique was firstly introduced to detect open-phase fault of multiphase induction motors. The main advantage of this technique is that its mathematical formulation is straightforward and can easily be understood and implemented. In this paper, the study of the indices-based fault detection technique has been extended to test its applicability in detecting some other stator and rotor fault types of multiphase induction motors, namely, open-phase, open-switch, bad connection and broken rotor bar faults. Experimental and simulation validations of this technique are also introduced using a 1 kW prototype symmetrical six-phase induction motor. [ABSTRACT FROM AUTHOR]

Published

2021