M. GHADBANE Ismail

Prof

Directory of teachers

Department

DEPARTEMENT OF: ELECTRICAL ENGINEERING

Research Interests

Power electronics renewable energy electrical engineering

Contact Info

University of M'Sila, Algeria

Email : ismail.ghadbane@univ-msila.dz

On the Web:

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Recent Publications

2024-12-09

Hardware Implementation of V/f control in induction motor using Dspace microlabox

Hardware Implementation of V/f control in induction motor using Dspace microlabox
Citation

M. GHADBANE Ismail, (2024-12-09), "Hardware Implementation of V/f control in induction motor using Dspace microlabox", [national] 1st National Conference of Advanced Systems in Electrical Engineering (NCASEE'24), , boumerdes

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Real-Time HIL Implementation of Integrated Wind Turbine and DSIG System

Real-Time HIL Implementation of Integrated Wind Turbine and DSIG System
Citation

M. GHADBANE Ismail, (2024-12-09), "Real-Time HIL Implementation of Integrated Wind Turbine and DSIG System", [national] 1st National Conference of Advanced Systems in Electrical Engineering (NCASEE'24), , boumerdes

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2024-08-13

Measurement and evaluation of the flashover voltage on polluted cap and pin insulator: An experimental and theoretical study

This study investigates the flashover voltage on high voltage insulators in polluted environments, employing a combination of experimental and theoretical approaches. Utilizing Analysis of Variance (ANOVA) and the Finite Element Method (FEM), the research aims to offer a thorough comprehension of the phenomenon. The experimental aspect of the study involves subjecting insulators to polluted environments, replicating real-world scenarios, and measuring the resulting flashover voltages. This experimental study focuses on investigating flashover pollution, where artificial pollution is introduced into an experimental model. An observational approach is employed to assess the impact of conductivity and pollution distribution on the 1512 L cap and pin insulator, as well as its proposed experimental model. Complementing the experimental approach, the theoretical aspect of the study employs the FEM method to simulate and model the insulator's behaviour under pollution. This computational technique enables a detailed analysis of the electrical field distribution, surface potential, and stress repartition across the surface of the insulator. Simulations further explore the impact of pollution on flashover voltage and leakage current. The FEM results are then compared with experimental findings to validate the model's accuracy and reliability. By analyzing the collected data, the ANOVA technique is applied to identify significant differences in flashover voltage under diverse pollution levels. This statistical approach allows for the determination of the most influential factors affecting insulator performance. This research offers valuable insights into the influence of flashover voltage on high-voltage insulators in polluted environments, contributing to the development of more robust and efficient insulation systems. The combination of ANOVA and FEM methods provides a robust framework for understanding and predicting insulator performance, ultimately benefiting the power industry and promoting energy sustainability.
Citation

M. GHADBANE Ismail, Lyamine Ouchen, , (2024-08-13), "Measurement and evaluation of the flashover voltage on polluted cap and pin insulator: An experimental and theoretical study", [national] Electric Power Systems Research , Elsevier

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2023-06-12

SENSORLESS CONTROL METHOD FOR BLDC MOTOR

The purpose of this work is to stabilize the DC input voltages of the five-level voltage inverter with floating diodes. For this, several cascades using one or more PWM current rectifiers with two, three or five levels are implemented. The control of these closed-loop rectifiers is based on the control of the output voltage and on that of the grid currents. Linear (PI). Various clamping bridges will be added to perfectly stabilize the four DC input voltages of the five-level floating diode inverter.
Citation

M. GHADBANE Ismail, (2023-06-12), "SENSORLESS CONTROL METHOD FOR BLDC MOTOR", [international] 2nd International Congress on Innovation Technologies & Engineering held online and in-person on June 12-13, 2023 / Izmir, Türkiye, , turkey

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2023-06-05

DC input voltage Stability of fıve-level diode clamped inverter by using bridge clamping

The purpose of this work is to stabilize the DC input voltages of the five-level voltage inverter with floating diodes. For this, several cascades using one or more PWM current rectifiers with two, three or five levels are implemented. The control of these closed-loop rectifiers is based on the control of the output voltage and on that of the grid currents. Linear (PI). Various clamping bridges will be added to perfectly stabilize the four DC input voltages of the five-level floating diode inverter.
Citation

M. GHADBANE Ismail, (2023-06-05), "DC input voltage Stability of fıve-level diode clamped inverter by using bridge clamping", [international] 1st International Conference on Pioneer and Innovative Studies ICPIS 2023 on June 5-7, , turkey

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2023

Real Time Implementation of Fuzzy Logic Based Direct Torque Control of Three Phase Induction Motor

Torque by means the space vector modulation (DTC-SVM) technique using a fuzzy logic controller and applied to the induction drive
powered by a two-level inverter. Direct torque control (DTC) is used to achieve torque decoupling fuzzy regulation and space vector modulation in
order to keep torque ripple and flux to a minimum. This paper uses a DTC-SVM method based on fuzzy logic controllers to overcome the limitation of
DTC-SVM based PI controllers, such as sensitivity to machine parameter variation and external disturbance. In the end, the feasibility and
effectiveness of the suggested methods are experimentally confirmed Validation with a real-time Matlab / Simulink program DSpace-based
interface1104
Citation

M. GHADBANE Ismail, (2023), "Real Time Implementation of Fuzzy Logic Based Direct Torque Control of Three Phase Induction Motor", [national] PRZEGLĄD ELEKTROTECHNICZNY , PRZEGLĄD ELEKTROTECHNICZNY

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