Electrical and electronics engineering fields are related but separate, with significant overlap. Electrical engineering is a branch of engineering concerned largely with the transmission and supply of power in the form of electricity.

Electrical engineers are primarily concerned with transmitting electrical power via mechanical equipment, ensuring electricity flows properly between locations.

Electronics engineering can be categorized as a subfield of electrical engineering. It focuses on designing and maintaining electronic equipment, such as computer components and circuitry.

The smartphone is a useful illustration of the contrasts between these two forms of engineering. An electronics engineer would design and manufacture the phone’s components, whereas an electrical engineer would focus on converting the phone’s digital data into signals that satellite relays can relay.

They both develop software and hardware, but their responsibilities differ in breadth. Electrical engineering is more expansive than electronics engineering, which is more specialized.

What Is Electrical Engineering?

In addition to working on large-scale electrical projects, electrical engineers also design, test, and oversee the production of individual equipment or systems.

It comprises engineering power systems, organizing signal processing, designing radar and navigation systems, power-producing equipment, electric motors, and electrical systems found in aircraft and automobiles. Electrical engineers may design novel energy usage methods to increase cost or efficiency and optimize infrastructure activities.

They undertake extensive calculations to create production codes and standards, manage construction schedules and money, evaluate equipment performance difficulties, and propose various solutions.

Electronics Engineering: What Is It?

Electronics engineering is a subfield of electrical engineering that focuses on designing and optimizing electronic equipment for scientific, medical, commercial, commercial, government, and industrial applications.

Electronics engineers are employed in computers, production, and transportation. They develop the internal circuitry of electronic devices such as televisions, satellites, mobile phones, GPS devices, audio-visual gear, broadcast and communication networks, and radar and sonar systems.

Electronics engineers analyze client needs, design electrical system plans, devise maintenance processes, conduct inspections to ensure safety standards, and suggest adjustments for enhanced performance.

Is There Any Overlap Between Electrical engineering and Electronics engineering?

Electrical and electronics engineers frequently collaborate on the same projects and share many major duties. They evaluate and enhance existing products, design and develop new ones, and supervise the building of various systems and equipment.

Each utilizes engineering and design software, does mathematical computations, and creates client-specific budgets.

The computer chip is an example of how both sorts of engineers may work together. An electronics engineer would construct the chip’s internal components, while an electrical engineer would focus on the chip’s integration into a broader, interconnected system.

The electrical engineer would focus on the chip’s efficient energy usage, while the electronics engineer would evaluate any problematic components. Similar to the cell phone, the distinction between the two is one of scope. Both experts are equally valuable, albeit in distinctive ways.

Differences Between Electrical engineering and Electronics engineering

While electrical and electronics engineers share many similarities, their respective areas of expertise are distinct. Electrical engineers frequently design larger systems, such as power plants, residential buildings, or business research spaces with unique electrical requirements.

Electronics engineers typically concentrate on smaller components, such as the inner workings of a computer, the electronic components of industrial equipment, and telecommunications systems.

Although both types of engineering require a bachelor’s degree, the major for each type is likely to be different unless the engineer decides to obtain a degree that allows them to perform both.

While the basic schooling is comparable, an electrical engineer must have a greater understanding of electrical machinery, constructing electrical systems, electrical energy distribution, and electrical controls for industrial facilities.

An emphasis of an electronics engineer is digital electronics, computer networking, embedded systems, and circuit boards.

Similarly, the Chartered Engineer license each engineer is likely to obtain will vary based on their area of expertise. Electrical and Computer: Computer Engineering and Electrical and Computer: Power is among the PE possibilities.

The specialty of each engineer and the field in which you work will determine which PE is most beneficial for you; however, if you’re an electronics engineer, you may receive a different PE than an electrical engineer.

What are Employment Opportunities Available?

Electrical engineers are typically employed in the following sectors:

• Engineering services
• The generation and transmission of energy
• All forms of scientific research and development initiatives

They could work on power grids, 5G networks, and renewable energy systems. Some electrical engineers specialize in energy generation while others conduct research in offices.

They can initially make an average annual salary of $74,785 and $97,000 to $106,000 after at least ten years in the field.

The need for electronics engineers is at an all-time peak and will continue to rise due to the sheer volume of technology being produced. Electronics engineers are typically engaged in the telecommunications, engineering, and federal government services industries.

Additionally, they often work in offices. Beginning salaries are $76,840 annually, rising from $95,000 to $108,000 after ten or more years.

The worldwide pandemic has increased our reliance on technology; hence, the demand for innovative products and services will continue to increase.

According to the Bureau of Labor Statistics, electrical engineering opportunities, including electronics engineering, will increase by 9 percent by 2026, adding around 16,200 jobs.

Graduates of Grantham University, notably those in the field of electronics engineering, have high success and satisfaction rates. According to the 2019 DEAC Annual Report, 92% of students attained their learning objectives, 95% are satisfied with their education, and 93% would suggest Grantham to a friend.

How much education is required for these fields?

In the same way, electrical and electronics engineers have comparable employment duties and compensation possibilities; they also require comparable levels of schooling.

Both areas require a bachelor’s degree for entry-level positions and a Professional Engineer (PE) license for promotions and supervisory positions. An electrical engineer studies electrical engineering, whereas an electronic engineer studies electronic engineering.

Graduate-level education, which enables specialization in areas such as high-performance computers and artificial intelligence and provides a more individualized course of study, increases the earning potential of both types of engineers.

Electrical engineering and electronics engineering are both popular online study topics. The academic difficulty of online programs is comparable to in-person programs, and students have comparable prospects for progression in both settings.

Although electrical and electronics engineers have overlapping roles and professions.

Despite having identical educational requirements, these two fields have distinct distinctions. Electrical engineers are concerned with the building and operation of electrical systems, whereas electronics engineers are concerned with the components and circuits of these systems.

Both sectors demand specialist knowledge in engineering subfields and offer numerous employment prospects.

Grantham realizes that time management has become a new concern in light of the COVID-19 epidemic.

Many parents are responsible for their children’s education at home, while others work multiple jobs to make up for lost money. With these new duties, it can be challenging to concentrate on your education.

However, even during challenging times, Grantham University makes it simple to begin or resume degree-seeking. You can finish coursework at your convenience with no scheduled class schedules and monthly start dates.

College of Science, Engineering, and Technology at Grantham University offers a Bachelor of Science in Electronics Engineering Technology degree program certified by the Engineering Technology Accreditation Commission of the Accreditation Board for Engineering and Technology (ABET).