Faculty: Vocational School This major provides a comprehensive understanding of the principles and practices of electrical engineering. Students explore key areas such as circuit design, power systems, electronics, control systems, and telecommunications. The program emphasizes analytical thinking, problem-solving, and the application of engineering principles to design and optimize electrical systems and devices. Graduates are prepared for careers in power generation, electronics, telecommunications, and automation. **Learning Objectives:** - Understand the fundamentals of electrical engineering. - Develop skills in designing and analyzing electrical circuits and systems. - Learn techniques for working with power systems and electronics. - Explore the role of control systems and automation in modern engineering. - Understand the principles of telecommunications and signal processing. - Analyze challenges and opportunities in the fields of electrical engineering. - Develop teamwork and project management skills for engineering projects. **Major Outline:** 1. **Introduction to Electrical Engineering** - Overview of the field, its history, and its applications in various industries. 2. **Circuit Analysis and Design** - Study of electrical circuits, including Ohm's Law, Kirchhoff's Laws, and network theorems. - Techniques for designing and analyzing analog and digital circuits. 3. **Electronics** - Fundamentals of semiconductor devices, amplifiers, and digital logic circuits. - Techniques for designing and testing electronic systems. 4. **Power Systems** - Principles of power generation, transmission, and distribution. - Techniques for analyzing and optimizing power systems. 5. **Control Systems** - Study of feedback control systems, stability analysis, and controller design. - Techniques for applying control systems in automation and robotics. 6. **Telecommunications** - Fundamentals of signal processing, modulation, and transmission. - Techniques for designing and optimizing communication systems. 7. **Embedded Systems and Microcontrollers** - Principles of designing and programming embedded systems. - Techniques for interfacing microcontrollers with sensors and actuators. 8. **Renewable Energy Systems** - Exploration of solar, wind, and other renewable energy technologies. - Techniques for integrating renewable energy into power systems. 9. **Emerging Trends in Electrical Engineering** - Analysis of innovations such as smart grids, IoT, and electric vehicles. - Techniques for adapting to new trends and technologies in the field. 10. **Capstone Project in Electrical Engineering** - Real-world project to apply learned skills in designing and implementing an electrical system. - Techniques for delivering a comprehensive engineering solution. **Assessment Methods:** - Laboratory experiments and circuit design projects. - Written assignments on circuit analysis, power systems, and control systems. - Group projects in system design and optimization. - Participation in internships or fieldwork with engineering firms or power companies. **Recommended Textbooks:** - "Electric Circuits" by James W. Nilsson and Susan A. Riedel. - "Microelectronic Circuits" by Adel S. Sedra and Kenneth C. Smith. - "Power System Analysis and Design" by J. Duncan Glover, Thomas Overbye, and Mulukutla S. Sarma. - "Modern Control Engineering" by Katsuhiko Ogata. **Prerequisites:** Basic knowledge of mathematics, physics, and computer science is recommended. Suitable for students in engineering, physics, and related fields. **Major Duration:** Typically 4 years, including coursework, laboratory work, and internships. **Certification:** Graduates may receive a degree in Electrical Engineering or a related field. **Target Audience:** Aspiring electrical engineers, power system analysts, telecommunications specialists, and automation engineers seeking to excel in designing and optimizing electrical systems and devices. This major equips students with the technical, analytical, and problem-solving skills needed to excel in electrical engineering, driving innovation in power systems, electronics, and telecommunications.