Overview

Electrical, Electronics & Communications Engineering is a learning path that focuses on the study of the design, development, and maintenance of electrical systems and devices, as well as the creation and management of electronic and communication systems. This learning path covers a wide range of topics, including electricity, electronics, and communications, and is designed to give students a comprehensive understanding of how these systems work and how they can be used to solve real-world problems.

Students in this learning path will learn about the principles of electricity and how to design and build electrical circuits, as well as how to use electronic components to create electronic devices and systems. They will also learn about communication systems and how to design and build networks that transmit data and information over long distances.

Throughout this learning path, students will have the opportunity to apply their knowledge and skills through hands-on projects and laboratory experiences, as well as through internships and co-op programs with industry partners. This will give them the opportunity to gain practical experience and develop the skills and knowledge needed to succeed in a career in electrical, electronics, and communications engineering.

Jobs you expect

There are many different types of jobs that someone with a degree in Electrical, Electronics & Communications Engineering may be qualified for. Some examples include:

  1. Electrical engineer: Electrical engineers design and develop electrical systems, such as power plants and transmission lines, as well as electronic systems, such as computers and smartphones.
  2. Electronics engineer: Electronics engineers design and develop electronic systems, such as computers, televisions, and medical equipment.
  3. Communication engineer: Communication engineers design and build communication systems, such as phone networks and satellite systems, and work on improving the speed and reliability of these systems.
  4. Control systems engineer: Control systems engineers design and develop control systems, such as those used in manufacturing or transportation, to ensure that equipment and machines operate efficiently and safely.
  5. Network engineer: Network engineers design and build computer networks, such as local area networks (LANs) and wide area networks (WANs), and work on improving the security and performance of these networks.
  6. Project manager: Project managers oversee the planning, execution, and delivery of electrical, electronics, and communication projects, ensuring that they are completed on time and within budget.

Universities & Schools

EHTP
Hassania School - EHTP

Hassania School - EHTP

Engineering
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National School of Applied Sciences of Tetouan

National School of Applied Sciences of Tetouan

Engineering
Tetouan, Morocco
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Euro-Mediterranean National Institute of Applied Sciences of Fes

Euro-Mediterranean National Institute of Applied Sciences of Fes

Engineering
Fes, Morocco
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National School of Applied Sciences of Kenitra

National School of Applied Sciences of Kenitra

Engineering
Kenitra, Morocco
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National School of Applied Sciences of Khouribga

National School of Applied Sciences of Khouribga

Engineering
Khouribga, Morocco
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Cadi Ayyad University
National School of Applied Sciences of Safi

National School of Applied Sciences of Safi

Engineering
Safi, Morocco
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National School of Applied Sciences of Fes

National School of Applied Sciences of Fes

Engineering
Fes, Morocco
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National School of Applied Sciences of Oujda

National School of Applied Sciences of Oujda

Engineering
Oujda, Morocco
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National School of Applied Sciences of Tangier

National School of Applied Sciences of Tangier

Engineering
Tangier, Morocco
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Certificates

T-SHAPED EXPERT

Electrical, Electronics & Communications Engineering

Engineering

You made the decision, now it's time to enhance it and gain the depth of knowledge you need to advance.

T-SHAPED EXPERT

Electrical, Electronics & Communications Engineering

Engineering

You made the decision, now it's time to enhance it and gain the depth of knowledge you need to advance.

Overview

Electrical, Electronics & Communications Engineering is a learning path that focuses on the study of the design, development, and maintenance of electrical systems and devices, as well as the creation and management of electronic and communication systems. This learning path covers a wide range of topics, including electricity, electronics, and communications, and is designed to give students a comprehensive understanding of how these systems work and how they can be used to solve real-world problems.

Students in this learning path will learn about the principles of electricity and how to design and build electrical circuits, as well as how to use electronic components to create electronic devices and systems. They will also learn about communication systems and how to design and build networks that transmit data and information over long distances.

Throughout this learning path, students will have the opportunity to apply their knowledge and skills through hands-on projects and laboratory experiences, as well as through internships and co-op programs with industry partners. This will give them the opportunity to gain practical experience and develop the skills and knowledge needed to succeed in a career in electrical, electronics, and communications engineering.

Jobs you expect

There are many different types of jobs that someone with a degree in Electrical, Electronics & Communications Engineering may be qualified for. Some examples include:

  1. Electrical engineer: Electrical engineers design and develop electrical systems, such as power plants and transmission lines, as well as electronic systems, such as computers and smartphones.
  2. Electronics engineer: Electronics engineers design and develop electronic systems, such as computers, televisions, and medical equipment.
  3. Communication engineer: Communication engineers design and build communication systems, such as phone networks and satellite systems, and work on improving the speed and reliability of these systems.
  4. Control systems engineer: Control systems engineers design and develop control systems, such as those used in manufacturing or transportation, to ensure that equipment and machines operate efficiently and safely.
  5. Network engineer: Network engineers design and build computer networks, such as local area networks (LANs) and wide area networks (WANs), and work on improving the security and performance of these networks.
  6. Project manager: Project managers oversee the planning, execution, and delivery of electrical, electronics, and communication projects, ensuring that they are completed on time and within budget.

Universities & Schools

EHTP
Hassania School - EHTP

Hassania School - EHTP

Engineering
Visit site
National School of Applied Sciences of Tetouan

National School of Applied Sciences of Tetouan

Engineering
Tetouan, Morocco
Visit site
Euro-Mediterranean National Institute of Applied Sciences of Fes

Euro-Mediterranean National Institute of Applied Sciences of Fes

Engineering
Fes, Morocco
Visit site
National School of Applied Sciences of Kenitra

National School of Applied Sciences of Kenitra

Engineering
Kenitra, Morocco
Visit site
National School of Applied Sciences of Khouribga

National School of Applied Sciences of Khouribga

Engineering
Khouribga, Morocco
Visit site
Cadi Ayyad University
National School of Applied Sciences of Safi

National School of Applied Sciences of Safi

Engineering
Safi, Morocco
Visit site
National School of Applied Sciences of Fes

National School of Applied Sciences of Fes

Engineering
Fes, Morocco
Visit site
National School of Applied Sciences of Oujda

National School of Applied Sciences of Oujda

Engineering
Oujda, Morocco
Visit site
National School of Applied Sciences of Tangier

National School of Applied Sciences of Tangier

Engineering
Tangier, Morocco
Visit site

Certificates