Majoring in Electrical Engineering in Canada

What do students learn in Canadian electrical engineering majors?

Electrical engineering courses usually allow students to learn through a wide range of disciplines and practices.

》Electrical Engineering Theory Courses

Generally, the courses of the Electrical Engineering degree emphasize the basic principles of important electronic equipment, such as circuit theory, control system principles, and instrumentation and telecommunications principles. The course also enables students to master more advanced engineering concepts and designs. It is the mastery of these advanced stages that enables electrical engineering graduates to make breakthroughs in electrical, electronic products and system technology.
You can also choose to focus on specific areas of electronic engineering before graduation, such as computer applications, communication networks, industrial control, or power distribution. After all, many people gain interest in specific segments, such as solar panels.
As a graduate of the electrical engineering major, you would possess skills and knowledge in the following fields:

• Calculus for Electronics
• Circuit Analysis
• Communication Networks
• Power System Analysis and Design
• Basics of Electromagnetism
• Electronic Manufacturing Processes
• Electronic Engineering Materials
• Engineering Statistics
• Feedback Control
• Engineer Marketing and Communication
• Microcontroller Systems
• Electronic Physics
• Power System Components
• Sensor and Signal Conditioning
• Signal Processing and Filters
• Electronic Engineering Technology Exchange
• Electronic Technology Mathematics
• Wireless System Design

Employment prospects of Canadian electrical engineering graduates

As the name implies, people who have completed the program in electrical engineering are naturally eager to become electrical engineers. Electrical engineers are engineering professionals responsible for designing, developing, testing, evaluating and supervising the safe operations of electrical components and systems. Within each field of work of an electronic engineer, there is an opportunity to specialize in certain functions and subdivided fields.
The work of an electronic engineer includes:

• Maintain and troubleshoot systems
• Conduct electrical engineering research
• Specify, design, implement and test products and systems
• Design and simulate electronic product prototypes
• Design electronic product manufacturing process
• Establish testing and quality control procedures
• Ensure products meet quality specifications and safety standards
• Review electrical engineering project design recommendations
• Make recommendations on products, system specifications, design, development, testing or application
• Prepare drawings and specifications for project construction
• Design electronic product prototypes
• Implement, develop and test products and systems
• Design manufacturing processes related to products
• Develop testing and quality control procedures to meet safety standards and quality specifications

Working environments for electronic engineers are likely to be:

• Designing in a network of computer terminals;
• In a manufacturing plant to design and manufacture communication equipment and other products;
• Working with power grids or circuit parts in an electrical engineering project;
• In a laboratory as a research and development expert;
• In a university or university as a lecturer in electrical engineering;
• In the office as a salesperson and marketing specialist for electrical and electronic equipment;

》Jobs available for graduates of electronic engineering

In fact, the skills, knowledge and abilities you acquire by studying electrical engineering majors can also be applied to occupations that are indirectly related to electrical engineering or even occupations that are not related to electrical engineering. In the following, we have selected some of the occupations that we believe are relevant to this degree or those that require similar skills.

• Aerospace Engineer
• Automation Engineer
• Circuit Designer
• Electrical Engineer
• Electrical System Engineer
• Electrician
• Electrical Engineer
• Energy Efficiency Engineer
• Energy Engineer
• Hardware Engineer
• Nuclear Engineer
• Product Development Engineer
• Robotics Expert
• Technical Writer
• Telecom Engineer
• Telecom Technician
• University Professor

Please note: Some occupations listed above require additional education, training and/or experience. For example, to take on government projects in Canada, you must obtain permission from a professional engineer (P. Eng).

Salary of electrical engineering graduates: Average salary earned per year & the determinant of income

The level of salary that can be obtained as a graduate in electrical engineering may vary widely and usually depends on the following factors:

• Education level (Bachelor, Graduate, etc.)
• Whether you are ultimately engaged in electrical engineering
• Whether you have a professional title (such as P.Eng)
• Amount of work experience accumulated
• The size and type of company
• Industry
• Employment location

Examples:

• In Alberta, the average salary as an electrical engineer is $94,843 per year.
• According to employment statistics from the Government of British Columbia (BC), the overall average salary of people in BC working in the electrical engineering field is $85,548 per year.
• According toPayScale statisticsin Canada, the average annual salary for entry-level electrical engineers is $60,714.

Three electrical engineering qualifications: college diploma, undergraduate degree, graduate degree

Salary of Canadian Electrical Engineers

• Specialist diploma:Usually completed in 2-3 years. Generally subdivided into a specific field, such as automotive, etc.
• Bachelor’s Degree: Usually completed in 4 years
• Master’s Degree: usually completed in 2-3 years. Electrical engineering graduates research, design, develop and test machinery that drives generators, engines, gearboxes, turbines, refrigeration and air-conditioning equipment, machine tools, material handling systems, computers, prosthetics, biomechanical implants, pumps and industrial production equipment devices.

Three courses including mathematics and physics or three BTEC courses are typical admission requirements for undergraduate degree courses.

The Best Schools for Electrical Engineering

According toMacLean's latest program rankings of Canadian universities结果显示，
1、University of Toronto (Engineering major)
2、University of Waterloo(Engineering major)
3、UBC(Engineering major)
4、University of Alberta(Engineering major)
5、McGill University(Engineering major)
6、University of Ottawa(Engineering major)
7、 Queen’s University(Engineering major)
8、Université de Montréal(University of Montreal Engineering major)
9、McMaster University(Engineering major)
10、University of Calgary （Engineering major )
11、University of Victoria (Engineering major)
12、Université Laval (Laval University - French institution)
13、Ryerson University（Ryerson UniversityEngineering major)
14、 University of Saskatchewan（University of SaskatchewanEngineering major)
15、Western University （Engineering major )
16、York University （Engineering major)
17、Dalhousie University （Dalhousie UniversityEngineering major)
18、Lakehead University （Engineering major)
19、Simon Fraser University（Engineering major)
20、Concordia University（Engineering major)