Electronics

Core Courses

Semester 1 Courses:

• Mathematics 1
• Physics 1
• Structure of Matter
• Physics Lab 1
• Chemistry Lab 1
• Computer Science 1
• Methodology of Academic Writing
• Careers in Science and Technology 1
• Foreign Language 1 (French and/or English)

 

Semester 2 Courses:

• Mathematics 2
• Physics 2
• Thermodynamics
• Physics Lab 2
• Chemistry Lab 2
• Computer Science 2
• Methodology of Oral Presentation
• Careers in Science and Technology 2
• Foreign Language 2 (French and/or English)

Note: These two semesters are common to all undergraduate disciplines in the Science and Technology field.

 

Semester 3 Courses:

• Mathematics 3
• Waves and Vibrations
• Basic Electronics 1
• Electrical Engineering 1
• Probability and Statistics
• Computer Science 3
• Electronics and Electrical Engineering Lab 1
• Waves and Vibrations Lab
• State of the Art in Electrical Engineering
• Energy and Environment
• Technical English

 

Semester 4 Courses:

• Basic Electronics 2
• Combinational and Sequential Logic
• Numerical Methods
• Signal Theory
• Electrical and Electronic Measurements
• Basic Electronics Lab 2
• Combinational and Sequential Logic Lab
• Numerical Methods Lab
• Technology of Electronic Components 1
• Physics of Electronic Components
• Communication and Expression Techniques

 

Semester 5 Courses:

• Microprocessor Systems
• Electronic Functions
• Signal Processing
• Local Area Networks
• Microprocessor Systems Lab
• Electronics Functions Lab
• Signal and LAN Lab
• Pre-Project Work
• Technology of Electronic Components 2
• Technology and Manufacturing of Integrated Circuits
• Wave Propagation and Antennas

 

Semester 6 Courses:

• Continuous Control Systems and Regulation
• Sensors and Instrumentation
• Power Electronics
• Pulse Electronics
• Final Year Project
• Control and Regulation Lab
• Sensors and Instrumentation Lab
• Power and Pulse Electronics Lab
• Optoelectronic Devices
• Professional Project and Business Management

Advanced Topics

This course offers undergraduate students an in-depth exploration of advanced concepts in modern electronics. It is designed to strengthen their understanding of complex electronic systems by bridging foundational theory with real-world applications.

Topics covered include high-frequency and RF circuit design, advanced signal processing techniques, mixed-signal systems, microcontroller-based architectures, and an introduction to power and communication electronics. The course also integrates practical aspects such as PCB design, simulation tools, and system-level troubleshooting.

By combining lectures, hands-on lab sessions, and guided mini-projects, the course encourages analytical thinking, innovation, and technical autonomy. It equips students with the necessary skills to address current and emerging challenges in areas such as embedded systems, smart devices, industrial control, and telecommunications.

This module serves as a key transition between core undergraduate training and professional or graduate-level specialization.