AYYOUB Zeghlache
زغلاش أيوب
ayyoub.zeghlache@univ-msila.dz
+213 666918352
- DEPARTEMENT OF: ELECTRICAL ENGINEERING
- Faculty of Technology
- Grade PHd
About Me
Location
Msila, Msila
Msila, ALGERIA
Code RFIDE- 1997-02-12 00:00:00
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AYYOUB Zeghlache birthday
- 2024-01-03
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2024-01-03
Active Fault-tolerant Control for Surface Permanent Magnet Synchronous Motor under Demagnetization Fault
This paper introduces a novel method for controlling a surface permanent magnet synchronous motor (SPMSM) during demagnetization fault conditions. The proposed fault-tolerant control (FTC) system incorporates a combination of a fuzzy extended state observer (FESO) based on an interval type 2 fuzzy logic controller (IT2FLC) and second-order sliding mode control (SOSMC) utilizing the super-twisting algorithm. The FESO aims to identify and eliminate demagnetization faults through reconstruction control. The FTC system enhances the dynamic performance and disturbance rejection of the SPMSM, providing a robust solution in the event of a demagnetization fault.
Citation
HEMZA Mekki , AYYOUB Zeghlache , ALI Djerioui , Mohamed Fouad Benkhoris, , (2024-01-03), Active Fault-tolerant Control for Surface Permanent Magnet Synchronous Motor under Demagnetization Fault, Periodica Polytechnica Electrical Engineering and Computer Science, Vol:68, Issue:1, pages:12-20, Periodica Polytechnica Electrical Engineering and Computer Science
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- 2022
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2022
Fault-tolerant control of PMSM based on second-order sliding mode
This paper presents a fault-tolerant control (FTC) based on a second-order sliding mode using a super-twisting algorithm applied to a 3-phase permanent magnet synchronous motor (PMSM). First, a second-order sliding mode control (SOSMC) is applied to the direct field-oriented control (FOC), which improves dynamic response and anti-disturbance performance by maintaining the speed and currents within their desired reference values. Second, a second-order sliding mode observer (SOSMO) is constructed in order to estimate and reconstruct the faults. Finally, the effectiveness of the proposed FTC has been verified through simulation using MATLAB/Simulink software. This paper presents a fault-tolerant control (FTC) based on a second-order sliding mode using a super-twisting algorithm applied to a 3-phase permanent magnet synchronous motor (PMSM). First, a second-order sliding mode control (SOSMC) is applied to the direct field-oriented control (FOC), which improves dynamic response and anti-disturbance performance by maintaining the speed and currents within their desired reference values. Second, a second-order sliding mode observer (SOSMO) is constructed in order to estimate and reconstruct the faults. Finally, the effectiveness of the proposed FTC has been verified through simulation using MATLAB/Simulink software.
Citation
AYYOUB Zeghlache , HEMZA Mekki , ALI Djerioui , Mohamed Fouad Benkhoris, nassereddine.dahmane@univ-msila.dz, ,(2022), Fault-tolerant control of PMSM based on second-order sliding mode,2022 IEEE International Conference on Electrical Sciences and Technologies in Maghreb (CISTEM),Tunisia
- 2022
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2022
Fault Tolerant Control of PMSM based on Improved Exponential ESO
In this work, a Fault-Tolerant Control (FTC) design is based on a novel reaching law sliding mode control (SMC) with an improved exponential extended state observer (ESO) for a 3-phase Permanent Magnet Synchronous Motor (PMSM) is proposed. Moreover, a direct field-oriented control based on ESO with a novel reaching law SMC is designed to achieve robust performance against parameter variations and external disturbances. The main goal of using an improved exponential ESO is to detect and reconstruct disturbances and faults. Furthermore, the stability of these observers and controllers is proved by using the Lyapunov stability theory.
Citation
AYYOUB Zeghlache , HEMZA Mekki , ALI Djerioui , Khaled benzaoui , Mohamed Fouad Benkhoris, ,(2022), Fault Tolerant Control of PMSM based on Improved Exponential ESO,the 2022 International Conference of advanced Technology in Electronic and Electrical Engineering (ICATEEE),M'sila University, Algeria