To develop advanced knowledge and technical competencies in electrical and electronics engineering, enabling learners to design, analyze, and maintain complex electrical and electronic systems.

1. Analyze electrical circuits using appropriate laws and theorems

2. Evaluate the performance of electrical machines and power systems

3. Design and analyze analog and digital electronic circuits

4. Apply control systems and automation principles in industrial applications

5. Use power electronics for energy conversion and control

6. Design electrical installations according to standards

7. Diagnose faults and perform maintenance of electrical systems

8. Develop and present a complete electrical or electronic engineering project

Module 1: Analyzing Electrical Circuits Using Fundamental Laws and Theorems

• Applying Kirchhoff’s laws to analyze complex circuits
• Explaining AC and DC circuit behavior under different conditions
• Calculating power, energy, and efficiency in electrical systems

Module 2: Understanding Electrical Machines and Their Industrial Applications

• Explaining the working principles of transformers and their applications
• Describing the operation of DC and AC motors in industrial systems
• Evaluating performance characteristics of electrical machines

Module 3: Exploring Power Generation, Transmission, and Distribution Systems

• Describing methods of generating electrical power from various sources
• Explaining how electrical energy is transmitted and distributed
• Identifying protection systems used in power networks

Module 4: Designing and Analyzing Analog Electronic Circuits

• Explaining the operation of semiconductor devices in analog circuits
• Designing amplifier circuits for signal processing applications
• Analyzing circuit performance under different operating conditions

Module 5: Developing Digital Electronic Systems and Logic-Based Applications

• Designing logic circuits using gates and combinational logic
• Explaining sequential logic circuits such as flip-flops and counters
• Applying digital systems in real-world applications

Module 6: Applying Control Systems and Industrial Automation Techniques

• Explaining feedback and control system principles
• Demonstrating the use of programmable logic controllers in automation
• Applying automation concepts in industrial processes

Module 7: Utilizing Power Electronics and Renewable Energy Systems

• Explaining the operation of rectifiers, converters, and inverters
• Applying power electronic devices in energy control systems
• Evaluating renewable energy systems such as solar and wind power

Module 8: Designing Electrical Installations and Performing Maintenance Activities

• Preparing electrical installation designs based on standards and regulations
• Conducting testing procedures to ensure system reliability
• Diagnosing faults and performing maintenance of electrical equipment

Final Project : Designing and Implementing an Electrical or Electronic Engineering System

• Developing a complete system design including circuit diagrams and specifications
• Simulating and testing the designed system using appropriate tools
Constructing and implementing the system in a practical environment
• Preparing detailed technical documentation and user guidelines
• Presenting the project outcomes with demonstration of system performance