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Can computer engineers work as electrical engineers?

It is possible that computer engineers work as electrical engineers? if so, how that can be done? This is what we’ll be explaining in our article.

Can computer engineers work as electrical engineers?

Yes, a computer engineer can work as an electrical engineer, but not in all fields of electrical engineering. He can work in electrical engineering domains related to electronics fields, like electronics design, embedded systems, signal transmission, control systems, microelectronics…

Computer engineers can work as electrical engineers, but they may not have the same job duties that electrical engineers do, including test and overseeing the manufacture of electrical equipment, such as motors, generators, and wiring systems. In addition, computer engineers can’t work on power generation plants and transmission networks. 

Computer engineers may work on the hardware side of things, designing and testing computer chips and circuit boards. They may also work on the software side, creating and maintaining computer programs. 

There are many fields of electrical engineering that computer Engineers could not work on,  especially when we talk about electrical engineering domains like power engineering, Computer Software, electromagnetics, and optics.

In the next paragraph, we’ll be going to talk about the jobs you can do with a computer engineering degree.

The jobs you can work with computer engineering in the electrical engineering field

These are the principal electrical engineering jobs you can work with a computer engineering degree.

1 – electronics design

Electronics design is the process of designing electronic products, circuits, and systems. It involves the creation and development of new electronic products, as well as the improvement of existing ones. The electronics design process covers a wide range of activities, from the initial concept and feasibility studies to the final production and testing.

Computer engineers often work in electronics design because they are familiar with both hardware and software. They understand how to design and build electronic devices, as well as how to create the programs that run on them. This knowledge allows them to create systems that are more efficient and effective than those created by people who specialize in just one area.

2 – embedded systems

An embedded system is a combination of hardware and software that is designed to perform a specific function within a larger system. The hardware components of an embedded system are typically microprocessors, memory, and input/output (I/O) devices. The software components are typically the operating system and application programs.

Embedded systems are computer systems that are designed to do one specific thing. For example, in a car, you will have an electronics board or MCU responsible for controlling all electronic parts, engines, doors, airbags and so. Other examples of embedded systems include the computers that control the operations of microwaves and washing machines.

So as an embedded system engineer, you will be designing these kinds of systems, and the compute engineering background you have will be so helpful to work in embedded systems because they understand how computers work and have the background in the all necessary languages used in embedded systems, like c, c++, python, java.

3 – signal transmission

Signal transmission engineering is the study of how best to send signals between two or more points. This can involve anything from designing better antennas to improving digital signal processing algorithms. The goal is to ensure that the signal arrives at its destination with as little distortion as possible.

In simple words, Signal transmission is the process of sending a signal from one place to another. For example, when you speak on a telephone, your voice is converted into an electrical signal that is sent through the telephone wires to the person you are talking to.

Computer engineers can work in signal transmission because they are familiar with the principles of digital signal processing, and they study topics in bachelor like signals and systems. They can design algorithms that can be used to process signals in order to extract information from them.

4 – control systems

Control systems engineering is the application of mathematical and computational techniques to design and analyze feedback control systems. It covers a wide range of topics, from sensors and actuators to controller design and optimization.

A control system is a set of devices that manage, direct or regulate the behavior of other devices or systems. for instance, when the temperature of the oven cools down, an automatic system run to heat the oven again and keep the temperature stable, in the range determined.

Control systems are used in a wide variety of applications, including aircraft, ships, automobiles, manufacturing lines, lighting fixtures, heaters, security systems, and even your own body.

Computer engineers can work in control systems because they understand how computer systems work and how to control them. They can use their knowledge to develop systems that automate tasks or processes, making them more efficient and effective. For example, a computer engineer might develop a system that automatically controls the lights in a building based on the time of day and the amount of sunlight outside.

5 – microelectronics

Microelectronics engineering is the study and application of electronic devices and circuits on a very small scale. It is used in the design and manufacture of integrated circuits, microprocessors, and other similar devices. The field combines aspects of electrical engineering, computer engineering, and materials science.

These devices that microelectronics engineers are so small that they can fit on a microchip, which is about the size of a fingernail.

Computer engineers can work in microelectronics because they understand how to design and build these tiny devices. They also know how to test them to make sure they work properly.