This module introduces the analysis and design of feedback control systems.
It covers modeling of dynamic systems, stability and accuracy analysis, time and frequency response, and controller design techniques such as PID and state-space methods.
The objective of this course is to familiarize yourself with MATLAB, a powerful pro- gramming and modeling environment widely used in the fields of engineering, science, and research.
The primary objectives of this course are:
• To understand the fundamentals of MATLAB.
• To master MATLAB related programming techniques.
• To apply MATLAB to projects.
This course focuses on connection devices and their combination with control, measurement, protection, and adjustment devices.
It provides a comprehensive view of how these devices are integrated into domestic and industrial networks.
It serves both as:
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A resource document for instructors, and
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A practical guide for students (3rd-year LMD, ELT and ELM) to verify or reinforce certain concepts and problem-solving methods.
Students are encouraged to perform practical activities under teacher supervision to strengthen their understanding.
This course aims to consolidate fundamental concepts of electromagnetism and to develop the physical and mathematical tools necessary to understand Maxwell’s equations and the propagation of electromagnetic waves.
Power electronics is a branch of electrical engineering that deals with the conversion, control, and conditioning of electric power using electronic devices. It plays a critical role in modern technologies, enabling efficient power management in applications ranging from household appliances to industrial machinery and renewable energy systems. At its core, power electronics involves the use of semiconductor devices like diodes, thyristors, MOSFETs, and IGBTs to switch and control electrical energy in various forms—AC to DC, DC to AC, DC to DC, and AC to AC conversions.
L’objectif de ce module est de présenter des méthodes d’analyse et de conception des réseaux électriques (RE), suffisamment approfondies pour donner à l’étudiant la théorie de base au niveau de la troisième année "Electrotechnique". Le cours est conçu pour développer le processus de réflexion des étudiants, leur permettant d’atteindre une bonne compréhension d’un large éventail de sujets liés à l’ingénierie des RE, tout en motivant leur intérêt pour l’industrie de l’énergie électrique.
Connaissances préalables recommandées : Analyse des circuits électriques à courant alternatif, calcul complexe, électrotechnique fondamentale.