College: Engineering

Electrical and Electronic Engineering focuses on the design, development, and application of electrical and electronic systems. Students develop skills in circuit analysis, electronics, control systems, power systems, and communication technologies. Graduates are prepared for careers in industries such as communications, energy, automotive, and aerospace.

Learning Objectives:

• Understand the fundamentals of electrical and electronic engineering.
• Develop skills in circuit analysis, electronics, control systems, and power systems.
• Learn design and implementation techniques of electrical and electronic systems.
• Explore the principles of communication technologies, signal processing, and renewable energy.
• Analyze and interpret electrical and electronic data and research findings.
• Develop critical thinking, problem-solving, and technical skills for effective engineering practice.

Main Curriculum:

1. Introduction to Electrical and Electronic Engineering
   • Overview of key concepts, principles, and practices in electrical and electronic engineering.
   • Basics of electricity, electronics, and engineering mathematics.
2. Circuit Analysis
   • Principles of circuit analysis, including Ohm’s Law, Kirchhoff's Laws, and network theorems.
   • Circuit analysis and design techniques.
3. Electronics
   • Principles of electronics, including semiconductor devices, amplifiers, and digital circuits.
   • Design and implementation techniques of electronic systems.
4. Control Systems
   • Principles of control systems, including feedback control, stability analysis, and control system design.
   • Design and implementation techniques of control systems.
5. Power Systems
   • Principles of power systems, including power generation, transmission, and distribution.
   • Design and management techniques of power systems.
6. Communication Technologies
   • Principles of communication technologies, including analog and digital communications, modulation, and signal processing.
   • Design and implementation techniques of communication systems.
7. Signal Processing
   • Principles of signal processing, including Fourier analysis, filter design, and digital signal processing.
   • Signal analysis and processing techniques.
8. Renewable Energy
   • Principles of renewable energy, including solar, wind, and hydroelectric energy.
   • Design and implementation techniques of renewable energy systems.
9. Practical Training
   • Real-world experiences in electrical and electronic engineering settings, including internships and hands-on projects in industry or research labs.
   • Application of acquired skills in practical engineering scenarios.
10. Graduation Project in Electrical and Electronic Engineering
    • Comprehensive project applying skills in circuit analysis, electronics, or control systems.
    • Presentation of a polished engineering project, research paper, or presentation.

Assessment Methods:

Circuit analysis reports, electronics projects, control system designs, power system plans, communication technology studies, signal processing analyses, renewable energy projects, practical training reports, graduation projects, group projects, and presentations.

Recommended Textbooks:

• "Electrical and Electronic Engineering" by various authors.
• "Circuit Analysis" by various authors.
• "Electronics" by various authors.
• "Control Systems" by various authors.
• "Power Systems" by various authors.
• "Communication Technologies" by various authors.
• "Signal Processing" by various authors.
• "Renewable Energy" by various authors.

Prerequisites:

A strong foundation in mathematics, physics, and basic engineering principles.

Duration of Specialty:

Typically 4 years to obtain a bachelor's degree, including coursework, practical training, and graduation projects.

Certification:

Graduates can obtain a degree in Electrical and Electronic Engineering and pursue higher education or obtain professional certifications, such as a Professional Engineer (PE) license or specialized certifications in fields like communications or renewable energy.

Target Audience:

Aspiring electrical and electronics engineers, communication specialists, power systems engineers, control systems designers, and renewable energy experts seeking careers in industries such as communications, energy, automotive, aerospace, and research and development. This specialty equips students with the technical, analytical, and problem-solving skills needed to excel in electrical and electronic engineering and support careers in various engineering and technology roles.