Major map:

Electrical Engineering

Bachelor of Science in Engineering (B.E.) - View all program options

Learn how to get the most out of your degree and prepare for your future career.

Electrical Engineering integrates theory and innovation to develop cutting-edge solutions in applications such as analog and digital electronics, microelectronics, signal processing, communications, power generation, transmission and distribution, electrical machines, computing systems, controls, computer vision and robotics.  In addition to building strong foundational knowledge in core electrical concepts, students are given the opportunity to select two out of four specialized focus areas (Power and Energy; Sensors, Circuits, and Devices; Digital Signal Processing; and Autonomous Mobile Robotics).  This program structure allows students to target their studies toward desired career paths, providing the versatile and industry-relevant skills needed to drive technological progress and societal impact.

Not a USask student?

Learn more about studying electrical engineering at USask and apply for admission.

Explore your major

Learn more about some of the required major-specific courses for this degree. View the course and program catalogue or meet with an academic advisor to understand all program requirements.

Year 1 courses

The courses listed here and in the Course and Program Catalogue are not necessarily offered each year and do not represent the totality of your requirements.

Fall Term
GE 102.2 | Introduction to Engineering I
GE 112.1 | Engineering Discipline Experience
GE 122.2 | Engineering Mechanics I
GE 132.1 | Engineering Communications I
GE 140.1 | Design I
GE 152.1 | Electrical Circuits I
GE 172.1 | Engineering Programming
CMPT 142.3 | Introduction to Computer Science for Engineers
MATH 133.4 | Engineering Mathematics I

Natural Science Series
    BIOL 102.1 | Nature for Engineering
    CHEM 142.1 | Global Impact of Chemistry for Engineering
    GEOL 102.1 | Introduction to Geology for Engineering
    PHYS 152.1 | Introduction to Atoms and Nuclei for Engineering

Winter Term
GE 103.1 | Introduction to Engineering II
GE 123.3 | Engineering Mechanics II
GE 133.2 | Engineering Communication II
GE 143.2 | Design II
GE 153.2 | Electrical Circuits II
CHEM 146.3 | General Chemistry for Engineering
MATH 134.3 | Engineering Mathematics II
PHYS 156.3 | Electromagnetism and Waves for Engineering

Discipline bridge course:
  • CMPT 146.3 | Principles of Computer Science for Engineers

Academic tips

  • Explore information about the Electrical Engineering program in the course and program catalogue
  • Meet with an academic advisor in the Engineering Student Centre, or the Undergraduate Program Chair in Electrical Engineering, for help choosing your courses and planning your degree
  • Maintain a minimum yearly average of 60% to advance to the next year of the program
  • First-year grades matter – entry into Electrical Engineering is competitive, and acceptance into the program is based on your cumulative average from First Year
  • Visit the student Learning Hub for help developing your academic skills
  • Apply for College of Engineering and university scholarships, awards and bursaries
  • Read the College of Engineering weekly e-newsletter, “The Explorer”, sent out every two weeks during the academic year
What will I learn?
  • Learn the foundation for work in the fields of analog and digital electronics, microelectronics, signal processing, communications, power generation, transmission and distribution, electrical machines, computing systems, controls, computer vision, robotics, and general electrical engineering applications
  • Topics specific to Electrical Engineering are studied in specialized focus areas in the third and fourth years

Gain relevant experience

Create local and global connections

Get career ready

 Featured courses

Explore your major

Learn more about some of the required major-specific courses for this degree. View the course and program catalogue or meet with an academic advisor to understand all program requirements.

Year 2 courses

The courses listed here and in the Course and Program Catalogue are not necessarily offered each year and do not represent the totality of your requirements.

Fall Term
CMPT 214.3 | Programming Principles and Practice
EE 205.1 | Safety and Stewardship in Electrical and Computer Engineering
EE 232.3 | Digital Electronics
EE 265.3 | Discrete Time Signals and Systems
EP 202.3 | Electric and Magnetic Fields and Circuits
MATH 223.3 | Calculus III for Engineers

Winter Term
EE 216.3 | Probability Statistics and Numerical Methods
EE 221.3 | Analog Electronics
EE 241.3 | Introduction to Electric Power Systems
EE 271.3 | Materials and Heat Transport in Electrical Engineering
EP 214.3 | Analog Signals and Systems
MATH 224.3 | Calculus IV for Engineers

You choose
Year 3 courses

The courses listed here and in the Course and Program Catalogue are not necessarily offered each year and do not represent the totality of your requirements.

Fall Term
CME 331.3 | Microprocessor Based Embedded Systems
GE 348.3 | Engineering Economics

Winter Term
EE 382.3 | Control Systems
RCM 200.3 | Effective Professional Communication

You choose

Academic tips

Add to your major

Choose from a variety of options to complement your major.

Gain relevant experience

Create local and global connections

Get career ready

USask Student Competencies

USask Student Competencies are the knowledge, skills, and attributes developed and leveraged to achieve success in your learning and work:

  • Engaging in our intercultural society
  • Nurturing successful relationships
  • Leveraging technology
  • Adaptive design and problem solving
  • Communicating meaningfully
  • Cultivating well-being

Explore your major

Learn more about some of the required major-specific courses for this degree. View the course and program catalogue or meet with an academic advisor to understand all program requirements.

Final Year courses

The courses listed here and in the Course and Program Catalogue are not necessarily offered each year and do not represent the totality of your requirements.

Winter Term
GE 449.3 | Engineering in Society

Fall and Winter Terms
EE 495.6 | Senior Design Project

You choose

Apply to graduate

Academic tips

Consider applying to a graduate program
Find a program

Gain relevant experience

Create local and global connections

Get career ready

USask Student Competencies

USask Student Competencies are the knowledge, skills, and attributes developed and leveraged to achieve success in your learning and work:

  • Engaging in our intercultural society
  • Nurturing successful relationships
  • Leveraging technology
  • Adaptive design and problem solving
  • Communicating meaningfully
  • Cultivating well-being

Possible destinations

People with an electrical engineering degree take their knowledge and skills into many different industries and occupations. Note that some of the career paths listed here require further education and training.

Designations

Since the Bachelor of Science in Engineering (B.E.) program in Electrical Engineering is accredited by Engineers Canada, graduates can apply immediately to any provincial or territorial licensing body in Canada to become an Engineer in Training once they have completed their degree. After completing four years of relevant engineering work experience and passing the National Professional Practice Exam, Engineers in Training are then eligible to be licensed as a Professional Engineer (P.Eng. designation). Our graduates are also recognized internationally through the Washington Accord of the International Engineering Alliance.

USask alumni career paths

  • Aeronautical Engineer
  • Aerospace Engineer
  • Aircraft Performance Engineer
  • Astronautical Engineer
  • Automation Engineer
  • Avionics Technician
  • Building Services Engineer
  • Circuit Designer
  • Digital Signal Processing Engineer
  • Distribution Planning Engineer
  • Electrical Engineer
  • Electrical Systems Engineer
  • Electronics Engineer
  • Energy Efficiency Engineer
  • Hardware Engineer
  • Instrumentation and Control Engineer
  • Maintenance Engineer
  • Nuclear Engineer
  • Product Development Engineer
  • Project Engineer
  • Robotics Engineer
  • Robotics Technologist
  • Subsea Engineer

The most valuable experiences from my degree have been the labs - they have provided me with hands-on experience and developed my intuition. My undergraduate degree acts as a steppingstone for a more specified field of semiconductors and IC design. It provides great options with broad subjects for specialization, such as: Analog, Photonics, DSP, Robotics, Power.

—Piolo, fourth-year student in electrical engineering

Where do USask alumni work?

  • AESO
  • Apple
  • AT&T
  • ATCO Electric
  • AtlaLink
  • BC Hydro
  • BHP
  • Broadcom
  • Calian, Advanced Technologies
  • Cameco
  • Canadian Light Source
  • City of Saskatoon
  • Crestline Coach
  • Draganfly
  • Enbridge
  • Engcomp
  • Enlighted
  • ENMAX
  • Google
  • Graham Construction
  • Infinera
  • International Road Dynamics
  • Intel Corporation
  • March Consulting
  • Marvell Technologies
  • MDA Space
  • Nutrien
  • SaskEnergy
  • SaskPower
  • SaskTel
  • Siemens EDA
  • Stantec
  • Team Power Solutions
  • University of Saskatchewan
  • US Navy
  • Vecima Networks
  • Wood

Explore Canadian salaries for various occupations using the Job Bank Career Planning Tool

"I loved my labs. They were very complex and challenging but I enjoyed the process of working on it with my lab partner. The electrical engineering degree is highly recognized. I was able to get a small gig for the summer as a Project Coordinator since the hiring manager recognized how great the engineering programs at USask are in developing students, even as a second year."

—Sithika, second-year student in electrical engineering