This course introduces students to the principles of sensors and instrumentation systems, with a focus on the structure and operation of the digital measurement chain. It covers the physical phenomena used in sensing technologies, the classification of sensors, and the fundamental concepts of measurement science (metrology).
Students will study the characteristics that define sensor performance, including sensitivity, linearity, resolution, response time, bandwidth, and measurement errors. The course also explores signal conditioning techniques required to adapt sensor outputs to measurement and processing systems, including bridge circuits, impedance matching, differential amplification, instrumentation amplifiers, and isolation amplifiers.
Practical examples of temperature, pressure, position, speed, force, optical, and flow sensors are analyzed to provide real-world engineering applications. Emphasis is placed on selecting appropriate sensors based on technical specifications and operational constraints.
By the end of the course, students will be able to analyze and design basic measurement chains, evaluate sensor performance, and apply instrumentation techniques in industrial and engineering contexts.
Objectifs de l’enseignement :
- · Connaître les principes de base de l’électronique de puissance,
- · Connaitre le principe de fonctionnement et l’utilisation des composants de puissance,
- · Maîtriser le fonctionnement des principaux convertisseurs statiques,
- · Acquérir les connaissances de base pour un choix technique suivant le domaine d’applications d’un convertisseur de puissance.
Objectifs de l’enseignement :
· Connaître les principes de base de l’électronique de puissance,
· Connaitre le principe de fonctionnement et l’utilisation des composants de puissance,
· Maîtriser le fonctionnement des principaux convertisseurs statiques,
· Acquérir les connaissances de base pour un choix technique suivant le domaine d’applications d’un convertisseur de puissance.
أهداف المقياس :
دراسة هذا المقياس تهدف إلى اكتساب الطالب مهارات و مؤهلات علمية، وغرس الروح والثقافة المقاولاتية لتمكينه من:
- الاستعداد للاندماج في الوسط المهني بعد التخرج والحصول على المؤهل العلمي
- تنمية مهارات ريادة الأعمال وتكوين فكرة شاملة حول المقاولاتية
- التحسيس والرفع من وعي الطلبة بأهمية إنشاء مشروع خاص بهم
- التعرف على التحديات ومختلف الإمكانات اللازمة لدخول عالم المقاولاتية
Continuous Control Systems and Regulation focuses on the modeling, analysis, and design of control systems that operate in continuous time. The module introduces mathematical representations of dynamic systems using differential equations and transfer functions, as well as state-space models.
Students learn to analyze system behavior in terms of stability, transient response, and steady-state performance. Classical control techniques, such as feedback control, PID controllers, and frequency-domain methods (Bode plots, Nyquist and root locus), are studied to evaluate and improve system performance.
The module also covers regulation and tracking problems, emphasizing error minimization and robustness against disturbances and uncertainties. By the end of the course, students are able to design and tune continuous controllers to ensure system stability, accuracy, and efficiency in practical engineering applications such as automation, robotics, and industrial processes.