The Electrical and Electronic Engineering specialty is a field of study concerned with studying and applying electrical and electronic engineering principles to design, develop, and analyze electrical and electronic systems and devices. This major covers a wide range of topics including electrical circuits, electronics, power systems, communications, and control. It aims to provide students with the skills and knowledge necessary to work in a variety of industries. Here’s a comprehensive look at the main aspects of the electrical and electronic engineering major:

Electrical basics:

• Study the basic principles of electrical circuits, currents, and voltages.
• Understanding Kirchhoff and Ohm’s laws and their applications in circuit analysis.

Electronics:

• Study and design of electronic circuits including active components such as transistors and diodes.
• Understand the principles of signal amplification and analog and digital signal processing.

Electrical power systems:

• Study of electric power generation, transmission, and distribution.
• Understand the design and operation of power systems including electrical networks and substations.

Telecommunications:

• Study of analog and digital communications systems.
• Understand electromagnetic wave, satellite, and fiber optic technologies.

Control systems:

• Study of control theory and design of automatic control systems.
• Understand applications of industrial process control and robotics systems.

Devices and measurements:

• Study of tools and devices used in electrical and electronic measurements.
• Learn how to design and use sensors and sensors.

Microprocessors and embedded systems:

• Study of design and programming of microprocessors and embedded systems.
• Applications of embedded systems in various electronic devices.

Computing and programming:

• Learn programming languages ​​used in software development for electrical and electronic systems.
• Programming applications in designing electronic circuits and systems.

Industrial and medical electronics:

• Study applications of electrical and electronic engineering in industry and medicine.
• Design and development of medical and industrial electronic devices.

Design and development projects:

• Work on design projects covering all aspects of electrical and electronic engineering.
• Apply theoretical knowledge in practical environments to develop real solutions.

Professional ethics and practices:

• Understand ethical and professional issues in electrical and electronic engineering.
• Adherence to engineering standards and laws to ensure the safety and quality of projects.

Research and development:

• Participate in research to develop new technologies and products in the field of electrical and electronic engineering.
• Publishing research and participating in scientific conferences to share results and innovations.

Practical training and industrial applications:

• Obtain practical experience through training in engineering companies and projects.
• Work in real work environments to apply theoretical knowledge and develop practical skills.

The Electrical and Electronic Engineering major provides broad opportunities to work in multiple fields such as communications, energy, industrial electronics, control, embedded systems, and research and development. This specialization contributes to the development of technology and the improvement of electrical and electronic infrastructure, which supports technological progress and contributes to improving the quality of life.