Faculty of Engineering

The Electrical Engineering Academic Curriculum

The curriculum involves a prescribed course load in each term along with some academic milestones, which must be completed at or before specified times. Laboratory sessions are compulsory where they form part of a course. Approval from the Electrical and Computer Engineering (ECE) Undergraduate Office is required for all changes from the specified plan. Permission to carry more than the normal load in any term is at the discretion of the ECE Undergraduate Office and is dependent on both the student's previous term average and their cumulative average.

There are six co-operative work terms and the normal rules of Co-operative Education apply, as further described in the Faculty of Engineering Work Terms page of this Calendar. With permission and co-ordination through the ECE Undergraduate Office, it is possible to create eight-month co-operative work terms by rearranging the term sequence. At least five successful work terms are required to meet the degree requirements.

The promotion criteria used to determine progression through the plan are described in the Engineering Examinations and Promotions section of this Calendar. These include term-average requirements, course-grade requirements, and milestone requirements.

The term-by-term academic component of the curriculum is as follows:

Term 1A (Fall)

• ECE 105 Classical Mechanics
• ECE 150 Fundamentals of Programming
• ECE 190 Engineering Profession and Practice
• ECE 198 Project Studio
• ENGL 192/SPCOM 192 Communication in the Engineering Profession
• MATH 115 Linear Algebra for Engineering
• MATH 117 Calculus 1 for Engineering
• Workplace Hazardous Materials Milestone (see Note 1)

Term 1B (Winter Stream 8/Spring Stream 4F)

• ECE 101A (stream 4F) Work-term Reflections (see Note 1)
• ECE 102 Information Session
• ECE 106 Electricity and Magnetism
• ECE 108 Discrete Mathematics and Logic 1
• ECE 124 Digital Circuits and Systems
• ECE 140 Linear Circuits
• ECE 192 Engineering Economics and Impact on Society
• MATH 119 Calculus 2 for Engineering

Term 2A (Fall Stream 8/Winter Stream 4F)

• ECE 101B (stream 4F) or ECE 101A (stream 8) Work-term Reflections (see Note 1)
• ECE 109 Materials Chemistry for Engineers
• ECE 201 Information Session
• ECE 204 Numerical Methods
• ECE 205 Advanced Calculus 1 for Electrical and Computer Engineers
• ECE 222 Digital Computers
• ECE 240 Electronic Circuits 1
• ECE 250 Algorithms and Data Structures

Term 2B (Spring Stream 8/Fall Stream 4F)

• ECE 101C (stream 4F) or ECE 101B (stream 8) Work-term Reflections (see Note 1)
• ECE 202 Information Session
• ECE 203 Probability Theory and Statistics 1
• ECE 206 Advanced Calculus 2 for Electrical Engineers
• ECE 207 Signals and Systems
• ECE 231 Semiconductor Physics and Devices
• ECE 260 Electromechanical Energy Conversion
• ECE 298 Instrumentation and Prototyping Laboratory

Term 3A (Winter Stream 8/Spring Stream 4F)

• ECE 101D (stream 4F) or ECE 101C (stream 8) Work-term Reflections (see Note 1)
• ECE 301 Information Session
• ECE 318 Communication Systems
• ECE 340 Electronic Circuits 2
• ECE 375 Electromagnetic Fields and Waves
• ECE 380 Analog Control Systems
• One CSE, NSE, or TE (see Note 2)

Term 3B (Fall)

• ECE 101D (stream 8) Work-term Reflections (see Note 1)
• ECE 302 Information Session
• ECE 307 Probability Theory and Statistics 2
• One CSE, NSE, or TE (see Note 2)
• Choose two of the following four courses (see Note 4)
  • ECE 313 Digital Signal Processing
  • ECE 331 Electronic Devices
  • ECE 360 Power Systems and Smart Grids
  • ECE 373 Radio Frequency and Microwave Circuits
• Choose one additional course from ECE 313, ECE 320, ECE 331, ECE 351, ECE 356, ECE 358, ECE 360, ECE 373 that has not already been selected above provided prerequisites are met and subject to scheduling constraints.

Term 4A (Spring)

• ECE 101E Work-term Reflections (see Note 1)
• ECE 401 Information Session
• ECE 498A Engineering Design Project or GENE 403 Interdisciplinary Design Project 1 (see Notes 5 and 6)
• Four elective courses, CSE, NSE, or TE, as necessary (see Note 2)

Term 4B (Winter)

• ECE 402 Information Session
• ECE 498B Engineering Design Project or GENE 404 Interdisciplinary Design Project 2 (see Notes 5 and 6)
• Four elective courses, CSE, NSE, or TE, as necessary (see Note 2)

Notes

1. Milestones have deadlines for successful completion and are shown in the terms (such as WHMIS in the 1A term) where they are normally completed. Work-term Reflections courses (ECE 101A, ECE 101B, ECE 101C, ECE 101D, and ECE 101E) are credit/no credit (CR/NCR). Further information is provided in the Work-term Reflections section.
2. There are a total of 13 electives: eight technical electives (TEs), including three in the 3B term which must be chosen from a list, three complementary studies electives (CSEs), and two natural science electives (NSEs). Constraints on the selection of TEs, CSEs, and NSEs are explained below. As per the Engineering Examinations and Promotions rules, these electives form part of a regular course load.
3. Students may take any Professional Development (PD) course approved by the Faculty of Engineering. Students must complete PD 19 and PD 20, as well as three PD elective courses to satisfy degree requirements. Among the three PD elective courses, students can take PD 22 to satisfy the Ethics Requirement as explained below.
4. During the 3B term, students must select three technical courses from a list. These courses cannot be dropped for a reduced-load term.
5. In their 4A and 4B terms, students must enrol in the ECE 498A and ECE 498B sequence or the GENE 403 and GENE 404 sequence. ECE 498A and GENE 404, and ECE 498B and GENE 403 combinations are not allowed.
6. Students in the Biomechanics Option or the Mechatronics Option must choose a compatible topic for their design project sequence in ECE 498A, ECE 498B. See the option description or option co-ordinator for details.
7. Special topics courses (ECE 493) are offered as resources and faculty interests permit. Students should consult the ECE Undergraduate Office or ECE website for upcoming topics. Some offerings may have laboratory meets.

Work-term Reflections

For each of the Work-term Reflections courses ECE 101A, ECE 101B, ECE 101C, ECE 101D, and ECE 101E, students write a short two-page report (from an online template available on the ECE website) reflecting on their work experience during the previous co-op term. Students submit it for grading in the academic term that follows the work term. If a student did not secure a co-op position, they are to reflect on what skills they used to improve their chances of a co-op position in future work terms. These courses are graded as credit/no credit (CR/NCR).

Elective Courses

Complementary Studies Electives

Students must complete three complementary studies electives (CSEs) to satisfy the Complementary Studies Requirements for Engineering Students. These are in addition to those courses that are part of the core curriculum and contain complementary studies material, such as ECE 190, ECE 192, and the Professional Development (PD) sequence. The three CSE courses are to be chosen according to the following constraint:

• Two from List C (Humanities and Social Sciences Courses)
• One from any of List A (Impact Courses), List C (Humanities and Social Sciences Courses), or List D (Other Permissible Complementary Studies Courses)

Students may take up to one technique course (i.e., learning a skill or language) as part of List D. Technique courses need ECE Undergraduate Office approval to be considered as complementary studies electives.

Students may take GENE 412/PHIL 315 as a List C CSE in which case the course will also satisfy the Ethics Requirement.

Ethics Requirement

To meet the Ethics Requirement, students must pass one of PD 22 or GENE 412/PHIL 315.

Natural Science Electives

Students are required to complete two natural science electives (NSEs), and are responsible for ensuring they meet the minimum academic units. The two NSE courses must be primarily concerned with natural science and are in addition to the science components of the core curriculum, such as ECE 105, ECE 106, ECE 109, and ECE 231.

• BIOL 110 Introductory Zoology
• BIOL 130 Introductory Cell Biology and BIOL 130L Cell Biology Laboratory
• BIOL 150 Organismal and Evolutionary Ecology
• BIOL 165 Diversity of Life
• BIOL 211 Introductory Vertebrate Zoology
• BIOL 240 Fundamentals of Microbiology and BIOL 240L Microbiology Laboratory
• BIOL 241 Introduction to Applied Microbiology
• BIOL 273 Principles of Human Physiology 1
• BIOL 373 Principles of Human Physiology 2 and BIOL 373L Human Physiology Laboratory
• CHE 161 Engineering Biology
• CHEM 123 General Chemistry 2 and CHEM 123L General Chemistry Laboratory 2
• CHEM 209 Introductory Spectroscopy and Structure
• CHEM 237 Introductory Biochemistry and CHEM 237L Introductory Biochemistry Laboratory
• CHEM 254 Introductory Chemical Thermodynamics
• CHEM 262 Organic Chemistry for Engineering and CHEM 262L Organic Chemistry Laboratory for Engineering Students
• CHEM 266 Basic Organic Chemistry 1
• CHEM 356 Introductory Quantum Mechanics
• CHEM 404 Physiochemical Aspects of Natural Waters
• EARTH 121 Introductory Earth Sciences
• EARTH 122 Introductory Environmental Sciences
• EARTH 123 Introductory Hydrology
• EARTH 221 Introductory Geochemistry
• EARTH 270 Disasters and Natural Hazards
• EARTH 281 Geological Impacts on Human Health
• ECE 403 Thermal Physics
• ECE 404 Geometrical and Physical Optics
• ECE 405 Introduction to Quantum Mechanics
• ENVE 275 Environmental Chemistry
• ENVS 200 Field Ecology
• NE 222 Organic Chemistry for Nanotechnology Engineers
• PHYS 234 Quantum Physics 1
• PHYS 263 Classical Mechanics and Special Relativity
• PHYS 275 Planets
• PHYS 280 Introduction to Biophysics
• PHYS 334 Quantum Physics 2
• PHYS 335 Condensed Matter Physics
• PHYS 375 Stars
• PHYS 380 Molecular and Cellular Biophysics
• SCI 238 Introductory Astronomy

Technical Electives

Students are required to complete a total of eight technical electives (TEs), subject to the following conditions:

1. All of the technical courses from the 3B term (i.e., ECE 313, ECE 320, ECE 331, ECE 351, ECE 356, ECE 358, ECE 360, and ECE 373) count as TEs. At least three of these courses must be taken in the 3B term, as specified in the curriculum table above.
2. At least three TEs must be courses chosen from ECE 406 through ECE 495 or ECE 499, normally taken during the 4A and 4B terms. A list of current 4A and 4B TEs is provided below.
3. At least one TE, to a maximum of two, must be from another engineering (other than Electrical or Computer Engineering) plan; such courses must have sufficiently advanced engineering science or engineering design content to be allowed, and must be approved by the ECE Undergraduate Office. Some courses of interest may require prerequisite knowledge that is not part of the core curriculum in Electrical Engineering. Students may require extra courses or may need to seek enrolment approval from the course instructor if the prerequisite knowledge was acquired by other means.
4. The following courses are offered in the core curriculum in Computer Engineering but are considered TE courses for Electrical Engineering: ECE 224, ECE 252, ECE 327, and ECE 350. Some of these courses have prerequisites that must be met in order to enrol.
5. In all terms, elective availability is subject to scheduling constraints.

The following TE courses are normally offered for the spring (4A) term. The list is subject to change from year to year.

• ECE 414 Wireless Communications
• ECE 433 Fabrication Technologies for Micro and Nano Devices
• ECE 445 Integrated Digital Electronics
• ECE 452 Software Design and Architectures
• ECE 454 Distributed Computing
• ECE 455 Embedded Software
• ECE 457A Co-operative and Adaptive Algorithms
• ECE 457C Reinforcement Learning
• ECE 458 Computer Security
• ECE 462 Electrical Distribution Systems
• ECE 463 Design & Applications of Power Electronic Converters
• ECE 475 Radio-Wave Systems
• ECE 481 Digital Control Systems
• ECE 486 Robot Dynamics and Control
• ECE 493 Special Topics in Electrical and Computer Engineering (see Note 7)

The following TE courses are normally offered for the winter (4B) term. The list is subject to change from year to year.

• ECE 406 Algorithm Design and Analysis
• ECE 409 Cryptography and System Security
• ECE 416 Advanced Topics in Networking
• ECE 417 Image Processing
• ECE 423 Embedded Computer Systems
• ECE 432 Radio Frequency Integrated Devices and Circuits 
• ECE 444 Integrated Analog Electronics
• ECE 451 Software Requirements Specification and Analysis
• ECE 453 Software Testing, Quality Assurance and Maintenance
• ECE 457B Fundamentals of Computational Intelligence
• ECE 459 Programming for Performance
• ECE 464 High Voltage Engineering and Power System Protection
• ECE 467 Power Systems Analysis, Operations and Markets
• ECE 474 Radio and Wireless Systems
• ECE 477 Photonic Devices and Systems
• ECE 488 Multivariable Control Systems
• ECE 493 Special Topics in Electrical and Computer Engineering (see Note 7)
• ECE 495 Autonomous Vehicle

The following project elective is offered every term. Students may take it, at most, once as a TE course.

• ECE 499 Engineering Project

Workplace Hazardous Materials Information System (WHMIS)

All students must take WHMIS training. Details are described in the WHMIS Requirements section of this Calendar. Students must meet this milestone in order to remain enrolled in 1A or to enrol in any academic term beyond 1A.

Communications and Signal Processing Specialization

Students interested in pursuing this Specialization must achieve a minimum average of 60% in the specialization courses, and a minimum grade of 50% in each of the courses. Students who satisfy the requirements for Faculty Options, Specializations and Electives for Engineering Students will have the appropriate designation shown on their diploma and transcript.

Required courses:

• ECE 313 Digital Signal Processing
• ECE 318 Communication Systems

Any three courses from the following list:

• ECE 358 Computer Networks
• ECE 414 Wireless Communications
• ECE 416 Advanced Topics in Networking
• ECE 417 Image Processing
• ECE 474 Radio and Wireless Systems