College: Graduate Programs Institute
The Electrical and Electronics Engineering specialization focuses on the design, development, and application of electrical and electronic systems and devices. Students gain skills in circuit analysis, electronics, digital systems, control systems, power systems, communications, and signal processing, preparing them for careers in engineering, technology, research, and related fields.
Learning Objectives:
- Understand the principles of electrical and electronics engineering.
- Develop skills in circuit analysis and design.
- Learn electronics and digital systems.
- Explore control systems and automation.
- Analyze power systems and energy management.
- Develop critical thinking, problem-solving, and analytical skills.
- Gain practical experience through laboratory work and projects.
Main Outline:
- Introduction to Electrical and Electronics Engineering
An overview of the principles of electrical and electronics engineering, its history, and current trends.
- Circuit Analysis
Fundamentals of electrical circuit analysis and design.
- Electronics
Principles of electronic devices and circuits.
- Digital Systems
Basics of digital logic and system design.
- Control Systems
Principles of control system design and analysis.
- Power Systems
Fundamentals of power generation, transmission, and distribution.
- Communications
Principles of communication systems and networks.
- Signal Processing
Techniques of signal analysis and processing.
- Electromagnetics
Fundamentals of electromagnetic fields and waves.
- Microprocessors and Microcontrollers
Principles of design and programming for microprocessor-based systems.
- Electric Machines
Basics of electric motors, generators, and transformers.
- Power Electronics
Principles of power electronic devices and circuits.
- Embedded Systems
Design and implementation of embedded systems.
- Practical Training
Hands-on experiences in engineering companies, technology firms, research institutions, or relevant organizations.
- Graduation Project
A comprehensive project applying electrical and electronics engineering skills, such as designing an electronic system, developing a control system, or implementing an energy management solution.
Assessment Methods:
- Analysis of electrical and electronics engineering principles
- Circuit analysis projects
- Electronics projects
- Digital systems projects
- Control systems projects
- Power systems projects
- Communication projects
- Signal processing projects
- Electromagnetic projects
- Microprocessor and microcontroller projects
- Electric machine projects
- Power electronics projects
- Embedded systems projects
- Practical training reports
- Graduation projects and presentations
Recommended Textbooks:
- "Introduction to Electrical and Electronics Engineering"
- "Circuit Analysis"
- "Electronics"
- "Digital Systems"
- "Control Systems"
- "Power Systems"
- "Telecommunications"
- "Signal Processing"
- "Electromagnetics"
- "Microprocessors and Microcontrollers"
- "Electrical Machines"
- "Power Electronics"
- "Embedded Systems"
Prerequisites:
Basic knowledge of mathematics and physics, and an interest in electrical and electronics engineering.
Program Duration:
Typically 4 years to obtain a Bachelor’s degree in Electrical and Electronics Engineering.
Certificate:
- Graduates can earn certifications such as:
- Professional Engineer (PE) in Electrical Engineering
- Certified Electronics Technician (CET)
- Certificates in specific EEE programs and technologies
Target Audience:
Aspiring electrical engineers, electronics engineers, control systems engineers, power systems engineers, communications engineers, signal processing engineers, and professionals seeking careers in engineering companies, technology firms, research institutions, or related fields. This specialization equips students with the technical, analytical, and problem-solving skills necessary to excel in electrical and electronics engineering, supporting careers in various roles within engineering companies, technology firms, research institutions, and related fields. The program offers a comprehensive education in the principles of electrical and electronics engineering, circuit analysis, electronics, digital systems, control systems, power systems, communications, signal processing, electromagnetics, microprocessors, electrical machines, power electronics, embedded systems, providing practical experience through laboratory work and projects, preparing students for successful careers in this field.
