Communications and Electronics Engineering


To be everywhere at the same time, something akin to imagination, but in our time of reality and fiction two sides of the same coin, geometry. After a few hundred meters of voice, the communications engineering brought us to Jupiter, following the sound and image of the crew who went to look to humanity for a viable alternative to the earth.
As a habit of studying in the engineering faculties for five years, the first year of the school is often not specialized, then the specialization starts from the second year and perhaps there is a more precise specialization in the third or fourth year depending on the policy of universities.

The Department is concerned with the study of electrical signals and electromagnetic waves in terms of the methods of generating, directing, sending, receiving and transmitting information through them, so it means the design and installation of electrical circuits and components such as resistors, electrical files, capacitors and Daiud, which are in Origin, the foundation on which all modern electrical appliances are based is starting from household items such as televisions, refrigerators, washing machines, and even cars, planes and satellites.

Study within the Department of Communications and Electronics engineering

In each semester the student teaches from 6-8 courses, some of which represent a theoretical basis for the other as courses of advanced mathematics, statistics, physics, materials science and even materials from other sections to be a public awareness student allowing him to interact with other engineers in various fields in the labor market. The majority of specialty materials are limited to network science, electronics, communication, control, and programming.

First: communication: The student examines the theoretical basis of the science of communication and theories relating to the transmission, encryption and reception of information, whether it is sound, image or video, whether it is geographically narrow through the local mobile networks or the world or the solar group through the satellites Industrial. It also examines the theory of information, probability science, entropy, and many advanced mathematics and the complex equations required for such specialization.

Second: Electronics: The student examines some of the theories used in the design and analysis of signals and electrical circuits and how to design and use electrical components such as transistor, DAIUD, and electrical bulk to store and retrieve data and information, such as in hard disks and in the Ramat. And also electrical control circuits that exist in all electrical devices.

Third: Software: teaches some programming languages such as Java, C, C++, c# and all of which represent a basis from which the student can expand in computer science and to be helpful in case he wants to design an electrical system that works through computers.

Fourth: control: In modern times, the production of technology depends on giant factories that need automated control processes, which the student teaches the basics in this section, where he studies microprocessors-micro-controllers-Sensors and may study some advanced subjects such as PLC-SCADA Systems.

5. Network Science: It is interested in shaping information that is transmitted on wired and wireless networks such as the Internet so that they are as low as possible and as accurately as possible, and is concerned with the management of the network to the extent that the information received is correct and complete without error and protected from electronic hacking.

Areas of work available in the field of telecommunications and electronics engineering

The information technology industry is one of the world's leading industries, exceeding trillions of dollars a year, and it relies mainly on creative engineers. The study of communications and electronics opens the field to work in companies at different levels, medium and giant.
  • Companies designing and manufacturing electrical appliances.
  • Mobile and terrestrial telecommunication companies.
  • Software companies and artificial intelligence.
  • Maintenance companies and technical support for mobile services.
  • Internet service provider companies.
  • Technical production and distribution companies.
  • Teaching engineering sciences for high school and university students.
  • Integrated Systems companies.

Areas of higher education in communications and electronics engineering

Postgraduate studies are generally aimed at expanding the study of advanced communication systems, examining the technical problems facing scientists in the field of communications and trying to reach a practical solution that can be applied to solve these problems. The student can get masters and PhD degrees in the fields of satellite communications, optical communications, advanced network science, industrial control and integrated organization and in many of the topics of endless communication, depending on the agreement with the University professor who He will follow the master's or doctoral thesis.

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