One of the many electrical engineering careers includes working with digital technology. This career allows electrical engineers to work with digital technology and to develop ways to make digital technology small enough to be easy to use. Workers in this career may be able to work with cell phone companies to make the required technology small enough to fit into the smallest cell phone or they may design technology to make cell phones more efficient. This can be an exciting career for an electrical engineer and can be quite lucrative as well.
Usually, electrical engineering jobs require that engineers work with electrical systems on quite a large scale, but one branch, electronic engineering, deals with the electrical systems on a very small scale. Usually, these types of electrical engineering jobs require dealing with small integrated circuits and computer systems. Whether an electrical engineer deals with small electrical systems or large electrical systems, there are a variety of electrical engineering jobs available.
How to become an electrical engineer?
If you want to embrace a career as an electrical engineer, you are generally required to graduate from college in engineering. Just like any other engineering career, you will need to have excellent grade in mathematics and science to study in an engineering schools. Being a science-oriented student is not enough, you will be required to have good skills in English, social studies, and computers. Most recruiters also expect their engineers to be creative, curious, logical, detail-oriented and good team-workers.
Large personal gains and contributions to the community make electric engineering a very useful major that a young person could study. Electric engineers have already contributed to many sectors of life, including the applications in the aerospace industry and the military. Such influence will only enlarge as technology advances and becomes an important factor in our daily life. As electric engineers' influences grow, the importance of electric engineering also becomes more significant.
The field then subdivides into eight primary areas:
Power, control, electronics, microelectronics, signal, telecommunications,
instrumentation and, probably the fastest growing of the areas, computers. There are many who practice more than one of these sub-disciplines, but it's possible to specialize in just one of them and make quite a career out of it. There's also one very popular cross discipline called mechatronics that combines mechanical and electronic engineering. Digital and analog electronics is another form of electrical engineering technology that engineers must be well acquainted with to perform their jobs. Both digital and analog electronics are used in computers and phones, however, digital electronics are becoming more widely used as analog electronics is becoming more and more outdated. This form of electrical engineering technology requires that engineers understand Boolean algebra, digital circuits, and how logic gates work. Even those that deal with digital electronics must also understand the electrical engineering technology of analog electronics as well. Digital electronics are usually built with various analog components, so understanding how analog electronics work is essential.
You should understand that electrical engineers is not the same as electronic engineers. While the two may sound the same, there are great differences between the two. An electrical engineer will deal with electricity and electrical things on a large scale, where electronic engineers will deal with smaller electronics such as cell phones and computers and the components that are inside them.