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How To Become A Electronics Engineer

By David Krug 3 minute read

A degree and a career in electronics engineering is an excellent choice for engineering aspirants who appreciate working with electric-powered products.

Engineering science, advanced mathematics, circuit design, and circuit and electronic system design are all included in these degree programs, along with a wide range of other subjects.

With a typical income of six figures, electronics engineering is a more specialized and lucrative career path than that electrical engineering.

Engineering: Electrical vs Electronics

If you’re thinking about a career in electronics engineering, you might wonder what the difference is between electrical engineering and electronics engineering.

Between the two, there’s a lot of common ground. Electronics and electrical engineering are sometimes combined into a single department or degree in universities.

A subfield of electrical engineering, electronics engineering is typically coupled with computer engineering to U.S. News and World Report.

Work performed by electrical and electronics engineers is the fundamental distinction between these two fields.

An electronic engineer is responsible for developing products such as GPs (Global Positioning System) tracking systems and portable music players (BLS).

On the other side, electrical engineers construct large-scale electrical systems such as motors, vehicles and airplanes, communications networks, and radar and navigational systems for ships and aircraft.

There is a lot of overlap between electrical engineering and electronics engineering degree programs in terms of content.

An electronics engineering degree or specialty may have a more specific focus and contain more specialized training in the kind of areas handled by electronics engineers, such as digital, analog, power, and consumer electronics.

Bachelor’s degrees in electrical engineering, computer, and electrical engineering, or even electrical engineering technology are all options for future electronics engineers, according to the Bureau of Labor Statistics.

Physics and Mathematics for Electronics Engineers

As you pursue a degree in electronics engineering, you’ll need to study a wide range of disciplines, including mathematics and science.

As an engineer, you need to know how to integrate scientific and mathematical principles into your designs. Without this foundation, you won’t be able to do this. 

Accreditation Board for Engineering and Technology (ABET) requires engineering students to devote at least one-quarter to college-level math and fundamental science in order to graduate from an engineering program.

The scientific coursework for students in electronics engineering programs may be in the form of laboratory physics, chemistry, and biology, some of which are tailored expressly for future engineers.

ABET mandates all electrical and electronic engineering programs to include necessary courses in discrete mathematics, linear algebra, differential equations, complex variables, and probability and statistics.

For engineering students, the periodic table, thermodynamics, and many other areas of chemistry are essential to learning.

Electronics engineering programs core curriculum

More than anything else, engineering students should understand science and advanced math so they can use what they learn in the classroom to create equipment, systems, and processes that really solve problems.

According to ABET, the most significant coursework for aspiring electronics engineers include learning how to create electronic devices, electrical systems, and computer hardware and software.

Among these courses are basic electronics classes, laboratory courses, and computer-focused courses.

For students of electronics engineering, circuits are an essential aspect of the curriculum, with specific emphasis on D.C. circuits and design, alternating current (A.C.) circuits and design, as well as digital circuits. 

Classes on electrical components like capacitors and transistors, as well as those on current, voltage, and other core ideas of electric power, are also essential.

Studying computer science can help electronics engineering students learn more about computer programming.

Electronics engineering is a subfield of electrical and computer engineering, however, certain degree programs allow students to further specialize in a specific academic area.

If you’re interested in renewable energy electronics, mechatronic systems, nanotechnology, or power systems, for example, U.S. News & World Report says you have the option.

Senior capstone projects in ABET-accredited engineering programs put students’ scientific and math knowledge and problem-solving abilities to the test.

David Krug