What You Will Gain

1. Electrical Principles

• Understand the fundamental principles of electricity, voltage, current, resistance, and power.
• Apply Ohm’s Law and Kirchhoff’s Laws to analyze basic electrical circuits.
• Demonstrate knowledge of alternating current (AC) and direct current (DC) systems and their respective characteristics.
• Identify different types of electrical components and their functions in circuits.

2. Electrical Circuits and Systems

• Analyze and design simple electrical circuits using series, parallel, and combination configurations.
• Understand the principles of circuit analysis including power, voltage drops, and current flow in AC and DC circuits.
• Utilize tools for troubleshooting and maintaining electrical systems in various applications.

3. Digital Electronics and Microprocessors

• Comprehend the principles of digital logic design, including Boolean algebra and logic gates.
• Design and analyze digital circuits such as adders, multiplexers, and flip-flops.
• Understand the functionality and applications of microprocessors and microcontrollers in electrical systems.
• Program and interface microprocessors to perform basic control functions.

4. Electrical Machines and Transformers

• Understand the operating principles of electrical machines, including transformers, motors, and generators.
• Calculate the performance parameters of electrical machines and transformers, such as efficiency, power factor, and load.
• Analyze the applications of transformers in electrical power systems, focusing on voltage regulation and energy loss minimization.

5. Instrumentation and Control Systems

• Learn the principles of electrical measurement techniques, including voltage, current, and power measurement.
• Understand the components and operation of control systems used to regulate electrical systems and processes.
• Design and implement basic control systems using sensors, actuators, and controllers.

6. Power Generation and Distribution

• Gain a comprehensive understanding of different methods of electrical power generation, including fossil fuels, nuclear, and renewable energy.
• Analyze power generation systems and their role in the electricity grid.
• Understand electrical transmission and distribution systems, including transformers, switchgear, and protection systems.

7. Renewable Energy Systems

• Examine various renewable energy sources, including solar, wind, and hydroelectric power.
• Analyze the integration of renewable energy systems with existing electrical grids.
• Evaluate the efficiency, environmental impact, and sustainability of renewable energy technologies.

8. Electrical Safety and Legislation

• Understand and apply safety standards and regulations related to electrical engineering.
• Identify the risks and hazards associated with electrical systems and apply proper safety protocols.
• Be familiar with legislation governing electrical installations, including national and international standards.

9. Advanced Electrical Circuit Design

• Design and analyze advanced electrical circuits for complex systems such as power electronics and automation.
• Utilize advanced tools and software for simulating and testing electrical circuits.
• Optimize circuit design for efficiency, cost, and safety.

10. Control and Automation Systems

• Understand the fundamentals of industrial automation and control systems.
• Design and implement automated electrical systems for industrial processes using PLCs, SCADA, and other control technologies.
• Analyze control loops, feedback systems, and PID controllers in automation applications.

11. Project Management for Electrical Engineering

• Develop skills in planning, organizing, and managing electrical engineering projects.
• Understand the principles of project management, including scope, cost, and time management.
• Apply tools and techniques for risk management, quality control, and resource allocation in electrical engineering projects.

12. Electrical Engineering Project (Capstone)

• Demonstrate the ability to apply theoretical knowledge and practical skills to a real-world electrical engineering project.
• Conduct research, design, and implement an electrical system or solution to address a specific problem or challenge.
• Communicate project outcomes effectively, including written reports and presentations, and evaluate the technical and financial aspects of the project.