Immigration to Canada as an electronics engineer. A very quick way to move to Canada in 2024 as an electronics engineer, either by yourself or with your family.
Using electrical components like semiconductors, transistors, diodes, and others to create electronic circuits, devices, integrated circuits, and electronic systems is what is referred to as electronic engineering.
Printed circuit boards are frequently used in the design of passive electrical components by engineers. In order to accomplish a specific functionality, electronic engineers also test circuits constructed utilizing a variety of electrical components, such as resistors, capacitors, inductors, etc.
You're in luck if you want to immigrate to Canada as an electronics engineer. Canada is in need of more electronic engineers, therefore whether or not you have a job offer, you could be able to obtain a Canadian permanent residency visa.
You've probably heard online that in order to access the Express Entry process, you must first have a work offer to relocate to Canada. However, as an electronics engineer, you have additional choices to obtain your Canada visa right away.
First off, because there is such a high demand for Electronics Engineers in Canada, the occupation is listed on the targeted occupations list, also known as the NOC list (National Occupation Code List), which is open to applicants for immigration under the immigration program of the Canadian government.
The Code For Electronics Engineers In Canada
On the NOC, the Code for Electronics Engineers is 2133.
This is fantastic news for Electronics Engineers who are certified and wish to reside and work in Canada.
As an Electronics Engineer looking to immigrate to Canada, we will be looking at the Federal Skilled Worker visa and Provincial Nominee program. Express Entry for Canada is not a visa class at all; it is simply the method (or database) that Canadian Immigration uses to select the right candidates for a permanent residency visa.
Electronics engineers from all over the world are able to apply for a Canada residency through Express Entry if they meet the necessary requirements in their home country in terms of education, training, and experience.
Canadian Electronics Engineering Job Titles
Electronics engineers who wish to immigrate to Canada to work in this NOC category 2133 may have positions with the following job titles:
- analog amplifier design engineer
- antenna engineer
- audio engineer – electricity and electronics
- avionics engineer
- broadcasting professional engineer
- chief electrical engineer
- chief electronics engineer
- Chief engineer – electric power
- Chief engineer – radio and television broadcasting
- circuit design engineer
- control systems engineer
- design and development engineer – electrical and electronic systems
- digital circuit design engineer
- displays and controls design engineer
- electrical and electronics research engineer
- electrical design engineer
- electrical distribution engineer
- electrical distribution planning engineer
- electrical energy transmission engineer
- electrical energy transmission planning engineer
- electrical engineer
- electrical equipment engineer
- electrical network engineer
- electrical power scheduling engineer
- electrical power systems design engineer
- electrical power systems service engineer
- electrical process control engineer
- electrical research engineer
- electrical systems planning engineer
- electrical systems protection engineer
- electronics engineer
- electronics research engineer
- electronics test engineer
- instrumentation and control engineer
- instrumentation engineer
- line construction engineer
- low voltage equipment engineer
- meter engineer
- metrology engineer
- microelectronics engineer
- overhead electrical distribution engineer
- process instrumentation engineer
- protective relay engineer
- radar engineer
- radio and television broadcasting design engineer
- radio and television broadcasting systems design engineer
- radio research engineer
- research engineer – nanoelectronics
- roadway lighting design engineer
- rural electrification engineer
- satellite antenna engineer
- satellite instrumentation engineer
- signal engineer
- spacecraft electronics engineer
- technical services electrical engineer
- television systems engineer
- underground electrical distribution engineer
All these roles held by Electronics Engineers are eligible to apply under this specific NOC category of 7251
The abilities needed to become an electronics engineer immigrant to Canada
Electronics engineers will typically be able to demonstrate knowledge of or experience with the following when coming to Canada:
Conduct studies on the viability, construction, functionality, and efficiency of electrical generating and distribution networks, electrical equipment and components, and electronic communication, instrumentation, and control systems, apparatus, and components.
Create design specifications, reports, and estimates for material costs and delivery schedules for electrical and electronic systems and equipment.
Conduct simulations, characterisation, process modelling, and integration of micro- or nanodevices in the creation of novel electrical products.
Control and observe the setup, alterations, testing, and use of electrical and electronic devices and systems.
Only qualified engineers who are immigrating to Canada are represented by the Engineers Canada desk at Emigrate Canada. When it comes to outlining your immigration pathway and the process for obtaining a Canada Visa for you (and your family), they are conversant in your field and speak your language.
Qualifications for Electronics Engineer Immigration to Canada
Electrical or electronics engineering or a relevant related engineering subject with a bachelor's degree is necessary.
It could be necessary to have a master's or doctoral degree in a related engineering field.
To approve engineering drawings and reports and to engage in professional engineering (P.Eng.) practice, one must be licensed by a provincial or territorial association of professional engineers.
Engineers can register after completing a recognized educational program, gaining three or four years of supervised engineering experience, and passing a professional practice exam.
Some businesses may demand Leadership in Energy and Environmental Design (LEED) accreditation, which is given by the Canada Green Building Council.
If you are an electronics engineer from any country in the world, feel free to get in touch with us right away for a detailed analysis of your possibilities of immigrating to Canada.
How to Become an Electronics Engineer and Immigrate to Canada
The first step in your Canadian immigration process is to use the Canadian Comprehensive Ranking System to determine your Express Entry points for Canada Immigration.
Age, credentials, and proficiency in English, French, and Competencies & Work Experience of your Partner
These elements not only help you earn significant CRS points, but they also contribute to your overall Immigration Points score, which needs to be at least 67.
You will only have 60 days to submit a formal application after Canadian Immigration issues you an ITA (Invitation to Apply) as a result of your Express Entry application. As a result, you should never submit an Express Entry application 'claiming' to have certain points without first having all of your points verified through various tests, education equivalence certificates, and professional qualification assessments.
Due to the fact that your express entry profile is only valid for one year, it makes sense to make the strongest case possible from the beginning. Once you have been invited to apply for your Canada visa, you cannot go back and have these things verified retroactively; they must be completed before you claim any points for them.
Essential Qualifications for Electronics Engineering
The essential skill sets for being a good electronics engineer include technical expertise, project management, critical thinking, and communication abilities.
However, in addition to academic achievement, candidates should also have the following ideal qualities to stand out from the competition:
- Active learning
- Innovative thinking
- Technical knowledge
- Problem-solving skills
- Operational skills
- Organizational skills
- Interpersonal skills
- Critical thinking
- Data collection and analysis
Engineering qualifications and skills in electronics
The procedure known as "Skills and Qualification Assessment" has two goals: it verifies your Electronics Engineering knowledge and credentials.
One of the goals of the Canadian Electronics Engineering Skills and Qualification Assessment is to let you claim the necessary points on both your Express Entry CRS and future Federal Skilled Trades application.
The second goal of the Canadian Electronics Engineering Skills and Qualification Assessment: Having your Electronics Engineering abilities evaluated means that you'll be eligible to work as an Electronics Engineer in Canada from the moment you receive your positive skills assessment, which also serves as your Canada Equivalent Qualification and is used for your pertinent professional registrations.
You won't have to worry about how to migrate to Canada because we'll take care of everything as soon as you start the immigration procedure. Your dedicated Electronics Engineer Canada account manager will set up your Professional Qualification equivalency process.
The clear answer is yes, provided you have a respectable overall CRS score on your Express Entry application and can obtain a Canada Federal Skilled Worker Visa with 67 immigration points.
Technically, there is no minimum CRS score needed to submit an Express Entry profile for an electronics engineer.
It makes sense to start this process as soon as it is practicable because getting a job offer (recorded properly for immigration purposes, i.e. LMT) will provide you with an immediate 600-point increase to your CRS.
Jobs for Electronics Engineers in Canada$
The Electronics Engineer code 2133 has been firmly entrenched on the Canada NOC list for many years with many opportunities all around the country. Jobs on the list are considered to be "in demand."
You may start working full-time right away as a qualified new and highly competent Permanent Resident of Canada, either directly as an employee, as a contractor, or as a self-employed individual. The pay for Electronics Engineering positions in Canada is frequently higher than in the UK, Europe, or Asia, and the work-life balance is respected by Canadian employment law.
The fact that Canadian electronics engineers are heavily unionized—a term that sounds derogatory in many areas of the world—has helped advance improved compensation and working conditions all over the nation.
Fields of Electronic Engineering
It is important to realize that there are numerous fields and disciplines involved when attempting to define electronic engineering as a whole.
Electronic engineers typically focus on a certain topic or field. This implies that a specific area of attention can be chosen.
Among the specialities in electronic engineering are:
Engineering in analog electronic systems: Within the field of electronic engineering as a whole, analog electronics continues to be a significant sector. Analogue circuits are still often utilized since they still require a lot of analogue components. The rise of the whole electronics business has made up for the fact that analogue engineering is no longer as significant as it once was, many years ago, before the explosive growth of digital electronics. A rewarding profession and a fascinating work environment can be found in analog electrical engineering.
Radiofrequency engineering: The field of radio frequency electronics has expanded recently. Wireless technology is required since so many more systems use wireless connectivity, including mobile phones, Wi-Fi, IoT, short-range links, and so much more. As a result, there is a high need for radio frequency design, which makes it a viable career path.
engineering for digital development; Today, digital techniques are used for many tasks. As a result, a lot of digital circuits are required, which calls for a certain amount of digital / logic electronic engineering. However, there may not be as much of a demand for digital engineers alone as initially thought. This is due to the fact that programmable logic chips now perform much of the logic circuits.
Programmable logic engineering: Due to the complexity of many logic and digitally-based circuits, programmable logic chips are being employed more frequently. Large amounts of logic can be put onto programmable circuits because of the widespread use of FPGAs and other programmable logic chips.
High-level design languages, such as VHDL, etc., are used to bring the design inside controllable bounds. Additionally, by altering the logic program, the design can be optimized or changed as needed.
This area of electronic engineering is expanding, and the tools are getting more advanced and exciting to use. It can lead to a highly fulfilling and exciting career, and it frequently involves some form of digital circuit design for external circuitry.
Software engineering: Today's electronic products contain a greater and greater quantity of software. Software engineering is therefore becoming more and more significant. As a result of this sector's expansion and the fact that it now accounts for at least two-thirds of many projects' development budgets, it offers tremendous chances for anyone looking to pursue a career in this field.
Systems engineering: Systems engineering is a crucial component of any product's design. Any finished thing is considered a system in this area of electronic engineering. It could be a mobile phone, a radio receiver, or a composite object made up of multiple smaller items. Systems engineering is a type of engineering that considers the entire object or system, which is made up of smaller components ranging from boards to entire units.
When an item is finally tested to confirm that it performs according to specification and to the initial requirements that were placed upon it, it looks at the operation of the entire system to guarantee that the initial requirements are accurate. Anyone interested in this field can find a great career because good systems engineers are always in demand.
Electronic engineering also encompasses a wide range of additional, more specialized fields, such as component engineering, reliability engineering, risk management, quality assurance, and many others. All are crucial and require a foundation in electronic engineering, although there are various applications for each.
Engineering Careers in Electronics
A career in electronic engineering can be tremendously satisfying. Its primary concentration is on producing electrical products, ranging from tiny electronic devices to large systems like aircraft, monitoring systems, and many other things. Every project type and field of electronic engineering has the potential to be tremendously lucrative.
Electronic engineers can work on projects that help people in a variety of fields. For example, medical equipment and safety systems both heavily rely on electronics, and many eco-projects use electronics as their primary component.
The field of electronics engineering offers a wide range of career options. It is possible to work in nearly every size of business, from small to huge ones, occasionally on your own but more frequently as a member of a team working on a bigger business.
There are also a lot of tiny, one-person businesses that frequently provide services to larger ones, sometimes as consultants or as contractors with the specialized knowledge that larger organizations need.
Electronics engineers are in high demand due to the prevalence of electronics in modern culture. Because engineering forms can take many different shapes, people with particular interests and aptitudes can frequently employ them in certain fields.
In actuality, there are a huge variety of industrial fields where electronic engineering is applied and where electronic engineers are required. Here is a brief example of the various areas:
- General electronics design and development
- Telecommunications – fixed and mobile
- Automation and IoT
- Medical electronics
- Defence electronic engineering
- Manufacturing engineering – automation levels are high in many manufacturing areas
- Broadcast
- Aeronautical electronics
- Consumer products electronic engineering
- Research and development
Projects involving electronic engineering activities
There are several steps to consider when determining what could be required in an electrical engineering project, starting with the initial design concept and continuing through its design, testing, production, and services. Many different things can be intriguing, captivating, or lead to an exciting profession.
Among the activities could be:
- Development of initial design concept
- Field trials of the initial concept
- Initial design
- Development
- Design testing
- Introduction into production – liaison with the production or manufacturing department
- Post design services
- Customer liaison
- Sales and marketing support
Understanding how other departments function is a component of the electronic engineering competence in all of these operations. As a result, many graduates participate in training programs that place them in different departments.
The ability to communicate and collaborate with various departments and disciplines more effectively is a benefit of this expertise for the electronic engineer.
Skills comparison between electrical and electronic engineers
Depending on their area of focus, electrical and electronics engineers will require different talents. The top three abilities with either a significant impact on earning potential or high popularity for each discipline are summarized below.
Top Electronics Engineer Skills | Top Electrical Engineer Skills |
Project Management | Project Management |
Engineering Design | Engineering Design |
Test Engineering | Autodesk AutoCAD |
C, C++ and HDL Programming Languages | Matlab |
Electronic Troubleshooting | Programmable Logic Controllers/Automation |
While all engineers share some skills, interdisciplinary expertise is becoming more difficult for electronics and electrical engineers to acquire.
The number and variety of embedded electrical systems are expanding, and as a result, diverse technical fields are increasingly interacting with one another. Due to this, gaining deep subject knowledge and a better understanding of other fields has become more important.
According to David S. Strong, Design Engineering Chair at the Natural Sciences and Research Council of Canada, "Professional engineers in the industry not only have to work frequently with those from other disciplines and professions but often have to develop working skills and knowledge beyond their original discipline due to the requirements of their employment."
Although your concentration may change based on what industry you work in, electrical engineers and electronics engineers frequently require the same fundamental understanding of electrical systems.
In order to build a system or component within the bounds of the law, engineers in both engineering fields must be familiar with the laws, rules, and codes that apply to their particular field. Engineers in both the electrical and electronics fields must have a solid understanding of math and science, especially how those fields relate to electrical and electronic devices and systems.
A bachelor's degree with a major in electrical or electronic engineering or a major that encompasses both types of engineering is the minimum educational need for both categories of engineers. Both sorts of engineers might need to become PEs by completing the necessary tests and obtaining the necessary licenses.
Electrical and electronic engineers both need to be aware of what the other sort of engineer does since the systems they create are interconnected.
For example, an electrical engineer has to know what kinds of equipment might take power from the electrical system they have developed, and an electronics engineer needs to know how much power is available in a residential or commercial structure for the components they are constructing.
Electrical Engineering: What Is It?
Electrical engineers develop, test, and supervise the production of particular machinery or systems in addition to working on large-scale electrical projects.
This covers constructing radar and navigation systems, power-generating machinery, electric motors, and the electrical systems found in cars and airplanes, as well as coordinating signal processing and creating power systems.
New energy-use techniques may be created by electrical engineers to save costs, increase efficiency, and streamline infrastructure activities.
To develop manufacturing standards and codes, manage project budgets and timelines, look into equipment performance problems, and offer answers to numerous situations, they undertake intricate calculations.
Engineering in Electronics: What Is It?
Electronics engineering, a branch of electrical engineering, is concerned with the development and improvement of electronic apparatus for use in scientific, medical, industrial, commercial, governmental, and military fields.
Engineers in the field of electronics operate in industries like manufacturing, transportation, and computers. They create the internal circuitry for a variety of electronic devices, such as radar and sonar systems, televisions, satellites, mobile phones, GPS units, and audio-visual equipment.
Electronics engineers conduct a variety of tasks including customer needs analysis, electrical system planning, maintenance process development, inspections to ensure safety standards, and recommendations for performance enhancements.
Do the two overlap in any way?
Many fundamental duties are shared by electrical and electronics engineers, and they frequently collaborate on the same projects.
They oversee the building of various systems and pieces of equipment as well as evaluate and enhance already-existing items. Both utilize design and engineering tools, carry out mathematical operations, and create acceptable client budgets.
The computer chip serves as a prime illustration of how these two sorts of engineers may collaborate. An electrical engineer would focus on integrating the chip into a broader, connected system, while an electronics engineer would build the chip's internal components.
The electrical engineer would concentrate on the chip's proper energy utilization, and the electronics expert would look over any broken parts. The distinction between the two is a matter of scope, much like with the cell phone. In various ways, both professionals are equally valuable.
What Career Opportunities Are There?
Engineering services, energy generation and distribution, and R&D initiatives in all kinds of scientific domains are the industries where electrical engineers are most frequently engaged.
They might work on 5G networks, renewable energy systems, and electrical power grids. Most electrical engineers are office workers, some of whom concentrate on energy generation while others do research. Starting out with an annual income of $74,785, they can eventually make $97,000 to $106,000.
The need for electronics engineers is at an all-time high and will only increase due to the enormous amount of technology being produced.
Telecommunications, engineering services, and federal government services are the industries where electronic engineers are most frequently found working. They also frequently work in offices. Starting at $76,840 per year, the typical pay rises to $95,000 to $108,000 per year after ten or more years.
The need for cutting-edge goods and services will only increase because the worldwide pandemic has made us rely even more on technology.
According to the Bureau of Labor Statistics, there will be an expected 16,200 more jobs in the field of electrical engineering, which includes electronics engineering, by 2026.
Graduates of electronics engineering programs at Grantham University enjoy high success and satisfaction rates after graduation.
92% of students met their learning objectives, 95% are satisfied with their studies, and 93% stated they would recommend Grantham to a friend, according to our 2019 DEAC Annual Report.
How Much Education Is Necessary for These Fields?
Electrical and electronics engineers share many of the same duties and career opportunities, as well as having comparable educational requirements.
For entry-level work in these sectors, a four-year bachelor's degree is required, and professional engineer (PE) licenses are frequently needed to pursue promotions or supervisory positions. While an electronics engineer studies electronics engineering, an electrical engineer studies electrical engineering.
Graduate-level education, which enables specialization in fields like high-performance computing and artificial intelligence and offers a more individualized course of study, increases the earning potential of both types of engineers.
Both electrical engineering and electronics engineering are well-liked academic specialities for online learning. Both in-person and online programs provide students with the same opportunity for academic development and are just as demanding in their content.
While the professional objectives and educational qualifications for electrical and electronics engineers are similar, these two disciplines have some distinctive differences.
While electronics engineers concentrate on the particular parts and circuitry within these systems, electrical engineers are concerned with the design and operation of electrical systems. However, both sectors offer a wide range of employment options and call for specific knowledge in allied engineering domains.