Faculty: INSTITUTE OF GRADUATE PGROGRAMS This major provides a comprehensive understanding of the principles and practices of electronics engineering, focusing on the design, development, and application of electronic systems and devices. Students will explore key topics such as circuit design, digital electronics, microcontrollers, and communication systems. The major emphasizes the integration of theoretical knowledge and practical skills to prepare students for careers in electronics engineering, telecommunications, and related fields. **Learning Objectives:** - Understand the fundamental principles of electronics engineering and their role in modern technology. - Develop skills in designing and analyzing electronic circuits and systems. - Learn techniques for programming and interfacing with microcontrollers. - Explore the principles of digital electronics and communication systems. - Understand the impact of emerging technologies, such as IoT and embedded systems, on electronics engineering. - Analyze the challenges and opportunities of working in electronics engineering. - Develop critical thinking and problem-solving skills to address challenges in electronics engineering. **Major Outline:** 1. **Introduction to Electronics Engineering** - Overview of electronics engineering, its history, and its significance in modern technology. 2. **Circuit Design and Analysis** - Fundamentals of circuit design, including analog and digital circuits. - Techniques for analyzing and optimizing electronic circuits. 3. **Digital Electronics** - Principles of digital electronics, including logic gates, flip-flops, and microprocessors. - Techniques for designing and implementing digital systems. 4. **Microcontrollers and Embedded Systems** - Fundamentals of microcontrollers, including programming and interfacing. - Techniques for developing and implementing embedded systems. 5. **Communication Systems** - Overview of communication systems, including modulation, transmission, and reception. - Techniques for designing and analyzing communication systems. 6. **Emerging Technologies in Electronics Engineering** - Impact of emerging technologies, such as IoT, AI, and wearable electronics, on electronics engineering. - Techniques for integrating new technologies into electronic systems. 7. **Ethics and Professional Practice in Electronics Engineering** - Overview of ethical and professional considerations in electronics engineering. - Techniques for ensuring ethical and professional conduct in electronic engineering. 8. **Applications of Electronics Engineering** - Principles of applying electronics engineering to real-world problems in fields such as healthcare, automotive, and consumer electronics. - Techniques for developing and implementing electronic solutions to complex problems. **Assessment Methods:** - Circuit design and analysis projects to evaluate practical skills. - Written assignments and research papers to assess knowledge of digital electronics and communication systems. - Presentations and reports on microcontroller programming and emerging technologies. - Participation in group projects and electronic system design. **Recommended Textbooks:** - "Electronic Devices and Circuit Theory" by Robert L. Boylestad and Louis Nashelsky. - "Digital Design" by Morris Mano and Michael Ciletti. - "The Art of Electronics" by Paul Horowitz and Winfield Hill. **Prerequisites:** Basic knowledge of mathematics and physics is recommended. This major is suitable for students in electronics engineering, telecommunications, and related fields. **Major Duration:** Typically, this major runs for four academic years, with a combination of lectures, laboratory sessions, and practical exercises. **Certification:** Upon successful completion, students may receive a degree in Electronics Engineering, depending on the program and institution. **Target Audience:** This major is designed for undergraduate and graduate students in electronics engineering, telecommunications, and related fields, as well as professionals seeking to enhance their skills in electronics engineering. This major prepares students and professionals to excel in the field of electronics engineering, leveraging theoretical knowledge, practical skills, and an understanding of emerging technologies to design, develop, and apply electronic systems and devices effectively.