Electronics Engineer

Your Fit

Income

$102K

Preparation

Considerable

Growth

7.2%

Definition
Your fit with this career
How much they earn
What they do
Job satisfaction
How to become

What is an Electronics Engineer?

An Electronics Engineer designs, develops, and tests components, devices, systems, or equipment that use electricity as part of their source of power. They play a pivotal role in creating and improving products ranging from small household items to large-scale systems like communications networks or power generation equipment.

Sample job titles:

Design Engineer, Integrated Circuit Design Engineer (IC Design Engineer), Product Engineer, Test Engineer

Your test results

Why this fit score?

The fit report shows your areas of fit and misfit with Electronics Engineer.

Fit report

Test scores

The scores report summarizes what we learned about you. It shows your results on everything measured in the career test.

Scores report

How much does an Electronics Engineer earn

Income data is from Employment and Social Development Canada's 2024 wage tables. The closest match for this career in Canada’s occupational classification system is Electronics Engineer.

Bottom 10%	Bottom 25%	Median (average)	Top 25%	Top 10%
$67K per year	$80K per year	$102K per year	$128K per year	$156K per year

Compared to other careers: Median is $37K above the national average.

See income by country/state/province

What does an Electronics Engineer do?

Work environment

Electronics Engineers typically work in offices, laboratories, or industrial plants. They may be employed in various industries, including manufacturing, telecommunications, research and development, and government. The role often involves collaboration with other engineers and professionals, and can sometimes require fieldwork or on-site visits.

Quick task list

Designs and develops electronic components, devices, and systems.
Tests and modifies electronic products to ensure they meet quality and functionality standards.
Prepares specifications for electronic systems and equipment.
Supervises the manufacturing and installation of electronic equipment.
Collaborates with project managers and engineering teams to develop new products or systems.

See full list of tasks with expert relevance ratings

Areas of specialization

Communications Engineering: Focusing on systems and devices for telecommunications.
Control Systems Engineering: Developing electronic controls for machinery and equipment.
Embedded Systems Engineering: Designing and developing embedded systems within larger mechanical or electrical systems.
Power Electronics Engineering: Specializing in electronics that control and convert electric power.
Signal Processing Engineering: Working on the processing of digital and analog signals.

Description

Electronics Engineers are at the heart of the modern digital world, working to create and improve the electronic components and systems that power our daily lives. They combine principles of electrical engineering with specialized knowledge in electronics to develop innovative products and systems. This might include designing new types of semiconductor devices, developing advanced communication systems, or improving the electronic functionality of consumer products.

The role requires not only a strong foundation in engineering principles but also creativity and problem-solving skills. Electronics Engineers must be adept at analyzing complex electronic systems, identifying problems, and developing efficient solutions. They also need to be proficient with various software tools for design and simulation.

The field of electronics engineering is dynamic and ever-evolving, with new technologies and applications constantly emerging. As such, professionals in this field need to continually update their knowledge and skills. Effective communication is important, as engineers often work in multidisciplinary teams and need to explain their ideas to non-engineers.

Job Satisfaction

Sources of satisfaction

Being at the forefront of technological innovation and development.
The intellectual challenge of solving complex engineering problems.
Seeing the practical and tangible impact of one's work in technology products and systems.

You might make a good Electronics Engineer if you are...

Passionate about technology and electronics.
Skilled in problem-solving and critical thinking.
Detail-oriented, with strong analytical skills.
Proficient in mathematics and physics.
Able to work collaboratively in teams and communicate effectively.

Pros:

High demand for expertise in various industries.
Opportunities to work on cutting-edge technology and innovations.
Good earning potential and career growth prospects.

Cons:

Requires ongoing learning and adaptation to keep up with technological advances.
Can involve high-pressure projects and tight deadlines.
Some roles may require extensive desk work or time in laboratories.

How to become an Electronics Engineer

Typical education

This career typically requires a bachelor's degree in electrical engineering, electronics engineering, or a related engineering field, which takes about 4 years of post-secondary education. Some positions, particularly in research or academia, may require a master's or doctoral degree.

High school preparation

Courses:

Mathematics, particularly calculus and algebra, for foundational skills.
Physics to understand basic principles relevant to electronics.
Computer Science for developing programming and software skills.

Extra-Curricular Activities:

Participating in robotics clubs or electronics hobbyist groups.
Engaging in science and engineering fairs or competitions.
Taking part in workshops or camps focused on technology and electronics.

Preparation after high school

Pursue a bachelor's degree in electronics engineering, electrical engineering, or a related field.
Gain practical experience through internships or cooperative education programs.
Stay informed about the latest trends and advancements in electronics technology.

More resources

Institute of Electrical and Electronics Engineers (IEEE) - Offers resources and networking for electrical and electronics engineers.
International Society of Automation (ISA) - Provides information and training in automation and control systems.
Electronics Weekly - A source for the latest news in the electronics industry.
Coursera - Electronics Courses - Offers various online courses in electronics engineering and related fields.

Similar careers

Similarity is based on what people in the careers do, what they know, and what they are called. The process of establishing similarity lists is described in this white paper.