|
| |
BASc in Electrical Engineering | 141 |
|
The electrical engineering program has a common core with all engineering programs. In first year, students take courses which include mathematics, physics and chemistry, emphasizing the principles, applications and calculations in engineering. In the second and third year, electrical engineering students continue with fundamentals of mathematics and physics but they also study electronics, circuits, and computers. In the fourth year of electrical engineering, emphasis is placed on specialized courses with laboratory work and design projects. In electrical engineering, four options are offered:
a) communications;
b) systems engineering;
c) electronics;
d) microwave and photonic engineering.
The Baccalaureate of Applied Science in Electrical Engineering degree is accredited by the Canadian Engineering Accreditation Board of the Canadian Council of Professional Engineers and gives exemption from the technical examination requirements of the Professional Engineers of Ontario and the Ordre des ingénieurs du Québec or any other constituent associations of CCPE. |
|
| |
| First year | 36 |
| |
| Fall: | |
| CHM1310 | Principles of Chemistry | 4 |
| ENG1112 | Technical Report Writing | 3 |
| GNG1100 | Engineering Mechanics | 4 |
| GNG1101 | Fundamentals of Engineering Computation | 4 |
| MAT1320 | Calculus I | 3 |
| |
| Winter: | |
| CSI1102 | Fundamentals of Software Design | 4 |
| ELG1100 | Introduction to Electrical and Computer Engineering | 4 |
| MAT1322 | Calculus II | 3 |
| MAT1341 | Introduction to Linear Algebra | 3 |
| PHY1104 | Fundamentals of Physics for Engineers | 3 |
| PHY1304 | Physics Laboratory for Engineers | 1 |
| |
| Second year | 35 |
| |
| Fall: | |
| CEG2131 | Computer Architecture I | 4 |
| ELG2130 | Circuit Theory | 4 |
| HIS2129 | Technology, Society and Environment since 1800 | 3 |
| or | |
| PHI2394 | Scientific Thought and Social Values | 3 |
| MAT2322 | Calculus III for Engineers | 3 |
| MAT2331 | Ordinary Differential Equations and Numerical Methods | 4 |
| |
| Winter: | |
| ECO1192 | Engineering Economics | 3 |
| ELG2135 | Electronics I | 4 |
| ELG2910 | Pratique de la profession d'ingénieur / Professional Engineering Practice | 1 |
| MAT3321 | Complex Analysis and Integral Transforms | 3 |
| PHY2323 | Electricity and Magnetism | 3 |
| |
| Complementary studies elective1 | 3 |
| |
| Third year | 38 |
| |
| Fall: | |
| ELG3101 | Electromagnetic Engineering | 4 |
| ELG3120 | Signal and System Analysis | 4 |
| ELG3135 | Electronics II | 4 |
| ELG3311 | Introduction to Power Engineering | 4 |
| |
| Winter: | |
| ELG3121 | Random Signals and Systems | 4 |
| ELG3150 | Introduction to Control Systems | 4 |
| ELG3170 | Introduction to Communication Systems | 4 |
| ELG3182 | Networking and Internetworking | 4 |
| |
| Complementary studies elective1 | 6 |
| |
| Fourth year (students must choose one of the following options) | 32 |
| |
| Options: | |
| |
| Communications | |
| ELG4135 | Electronics III | 4 |
| ELG4151 | Linear Systems | 4 |
| ELG4171 | Communication Systems | 4 |
| ELG4172 | Digital Signal Processing | 4 |
| ELG4174 | Wireless Communication Fundamentals | 4 |
| ELG4392 | Electrical Engineering Design Project | 4 |
| |
| Technical electives2 | 8 |
| |
| Systems engineering | |
| CEG4153 | Computer Control in Robotics | 4 |
| ELG4151 | Linear Systems | 4 |
| ELG4152 | Modern Control Engineering | 4 |
| ELG4171 | Communication Systems | 4 |
| ELG4172 | Digital Signal Processing | 4 |
| ELG4392 | Electrical Engineering Design Project | 4 |
| |
| Technical electives2 | 8 |
| |
| Electronics | |
| CEG3131 | Computer Architecture II | 4 |
| ELG4105 | Microwave Circuits | 4 |
| ELG4132 | Principles and Applications of VLSI Design | 4 |
| ELG4135 | Electronics III | 4 |
| ELG4171 | Communication Systems | 4 |
| ELG4392 | Electrical Engineering Design Project | 4 |
| |
| Techinical electives2 | 8 |
| |
| Microwave and photonic engineering | |
| ELG4104 | Antennas and Propagation | 4 |
| ELG4105 | Microwave Circuits | 4 |
| ELG4106 | Microwave and Optical Transmission Media | 4 |
| ELG4107 | Optoelectronics and Optical Components | 4 |
| ELG4173 | Optical Communications and Networking | 4 |
| ELG4392 | Electrical Engineering Design Project | 4 |
| |
| Technical electives4 | 8 |
| |
| (1) For a complete list of complementary studies electives, consult the Academic Regulations section. Depending on scheduling, HIS2129 or PHI2394 may be interchanged with a complementary studies elective. | |
| |
| (2) List of technical electives. One graduate course may be substituted for a 4000-level course for those students with a DGPA of at least 7.0 | |
| CEG3131 | Computer Architecture II | 4 |
| CEG4153 | Computer Control in Robotics | 4 |
| CEG4311 | Image Processing | 4 |
| ELG4104 | Antennas and Propagation | 4 |
| ELG4105 | Microwave Circuits | 4 |
| ELG4106 | Microwave and Optical Transmission Media | 4 |
| ELG4107 | Optoelectronics and Optical Components | 4 |
| ELG4111 | Topics in Electrical Engineering II | 4 |
| ELG4112 | Topics in Electrical Engineering I | 4 |
| ELG4132 | Principles and Applications of VLSI Design | 4 |
| ELG4135 | Electronics III | 4 |
| ELG4151 | Linear Systems | 4 |
| ELG4152 | Modern Control Engineering | 4 |
| ELG4171 | Communication Systems | 4 |
| ELG4172 | Digital Signal Processing | 4 |
| ELG4173 | Optical Communications and Networking | 4 |
| ELG4174 | Wireless Communication Fundamentals | 4 |
| ELG4183 | Higher Layer Network Protocols | 4 |
| ELG4905 | Projet / Project | 4 |
| PHY2310 | Applied Optics | 3 |
| (*) Elective only for the microwave and photonic engineering option | |
| Note: Laboratory periods on alternate weeks for most courses |
|
| |
BASc in Electrical Engineering and Computing Technology | 171 |
|
|
| |
| First year | 36 |
| |
| Fall: | |
| CHM1310 | Principles of Chemistry | 4 |
| ENG1112 | Technical Report Writing | 3 |
| GNG1100 | Engineering Mechanics | 4 |
| GNG1101 | Fundamentals of Engineering Computation | 4 |
| MAT1320 | Calculus I | 3 |
| |
| Winter: | |
| CSI1102 | Fundamentals of Software Design | 4 |
| ELG1100 | Introduction to Electrical and Computer Engineering | 4 |
| MAT1322 | Calculus II | 3 |
| MAT1341 | Introduction to Linear Algebra | 3 |
| PHY1104 | Fundamentals of Physics for Engineers | 3 |
| PHY1304 | Physics Laboratory for Engineers | 1 |
| |
| Second year | 42 |
| |
| Fall: | |
| CEG2131 | Computer Architecture I | 4 |
| CSI2114 | Data Structures | 3 |
| CSI2165 | Prolog Concepts Laboratory | 2 |
| ELG2130 | Circuit Theory | 4 |
| |
| HIS2129 | Technology, Society and Environment since 1800 | 3 |
| or | |
| PHI2394 | Scientific Thought and Social Values | 3 |
| |
| MAT2322 | Calculus III for Engineers | 3 |
| MAT2331 | Ordinary Differential Equations and Numerical Methods | 4 |
| |
| Winter: | |
| CSI2172 | C++ Concepts Laboratory | 2 |
| ECO1192 | Engineering Economics | 3 |
| ELG2135 | Electronics I | 4 |
| ELG2910 | Pratique de la profession d'ingénieur / Professional Engineering Practice | 1 |
| MAT3321 | Complex Analysis and Integral Transforms | 3 |
| PHY2323 | Electricity and Magnetism | 3 |
| |
| Complementary studies elective1 | 3 |
| |
| Third year | 39 |
| |
| Fall: | |
| CEG3131 | Computer Architecture II | 4 |
| ELG3101 | Electromagnetic Engineering | 4 |
| ELG3120 | Signal and System Analysis | 4 |
| ELG3135 | Electronics II | 4 |
| ELG3311 | Introduction to Power Engineering | 4 |
| |
| Winter: | |
| ELG3121 | Random Signals and Systems | 4 |
| ELG3150 | Introduction to Control Systems | 4 |
| ELG3170 | Introduction to Communication Systems | 4 |
| ELG3182 | Networking and Internetworking | 4 |
| |
| Complementary studies elective1 | 3 |
| |
| Fourth year | 44 |
| |
| Fall: | |
| CSI3125 | Concepts of Programming Languages | 4 |
| |
| Complementary studies elective1 | 3 |
| |
| Winter: | |
| CSI3310 | Operating System Principles | 3 |
| MAT1361 | Logic and Discrete Mathematics | 3 |
| SEG3300 | Introduction to Software Engineering | 3 |
| |
| Options: | |
| |
| Communications | |
| ELG4135 | Electronics III | 4 |
| ELG4151 | Linear Systems | 4 |
| ELG4171 | Communication Systems | 4 |
| ELG4172 | Digital Signal Processing | 4 |
| ELG4174 | Wireless Communication Fundamentals | 4 |
| |
| Technical electives3 | 8 |
| |
| Systems engineering | |
| CEG4153 | Computer Control in Robotics | 4 |
| ELG4151 | Linear Systems | 4 |
| ELG4152 | Modern Control Engineering | 4 |
| ELG4171 | Communication Systems | 4 |
| ELG4172 | Digital Signal Processing | 4 |
| |
| Technical electives3 | 8 |
| |
| Electronics | |
| ELG4105 | Microwave Circuits | 4 |
| ELG4132 | Principles and Applications of VLSI Design | 4 |
| ELG4135 | Electronics III | 4 |
| ELG4171 | Communication Systems | 4 |
| |
| Technical electives3 | 12 |
| |
| Microwave and photonic engineering | |
| ELG4104 | Antennas and Propagation | 4 |
| ELG4105 | Microwave Circuits | 4 |
| ELG4106 | Microwave and Optical Transmission Media | 4 |
| ELG4107 | Optoelectronics and Optical Components | 4 |
| ELG4173 | Optical Communications and Networking | 4 |
| |
| Technical electives3 | 8 |
| |
| Fifth year | 10 |
| |
| Fall: | |
| CSI4106 | Introduction to Artificial Intelligence | 3 |
| |
| Winter: | |
| SEG3310 | Object-Oriented Analysis, Design and Programming | 3 |
| ELG4392 | Electrical Engineering Design Project | 4 |
| (1) For a complete list of complementary studies electives, consult the Academic Regulations section. Depending on scheduling, HIS2129 or PHI2394 may be interchanged with a complementary studies elective. | |
| (2) Courses in the technical options may be offered in either Fall or Winter and they may be taken in either fourth or fifth year depending on scheduling. | |
| (3) List of technical electives. Note: CEG3131 is not an elective in the Computing Technology program. One graduate course may be substituted for a 4000-level course for those students with a DGPA of at least 7.0 | |
| CEG4153 | Computer Control in Robotics | 4 |
| CEG4311 | Image Processing | 4 |
| ELG4104 | Antennas and Propagation | 4 |
| ELG4105 | Microwave Circuits | 4 |
| ELG4106 | Microwave and Optical Transmission Media | 4 |
| ELG4107 | Optoelectronics and Optical Components | 4 |
| ELG4111 | Topics in Electrical Engineering II | 4 |
| ELG4112 | Topics in Electrical Engineering I | 4 |
| ELG4132 | Principles and Applications of VLSI Design | 4 |
| ELG4135 | Electronics III | 4 |
| ELG4151 | Linear Systems | 4 |
| ELG4152 | Modern Control Engineering | 4 |
| ELG4171 | Communication Systems | 4 |
| ELG4172 | Digital Signal Processing | 4 |
| ELG4173 | Optical Communications and Networking | 4 |
| ELG4174 | Wireless Communication Fundamentals | 4 |
| ELG4183 | Higher Layer Network Protocols | 4 |
| ELG4183 | Higher Layer Network Protocols | 4 |
| ELG4905 | Projet / Project | 4 |
| PHY2310 | Applied Optics | 3 |
| (*) Elective only for the microwave and photonic engineering option | |
|
|
| |
Engineering Management and Entrepreneurship option | 142 |
|
| The engineering management and entrepreneurship option will appeal to students interested in managing their own enterprise. These skills are also important for engineers who are working in teams on both large and small-scale projects as they need to be able not only to design a product or process but also to market it effectively (to both their technical and administrative associates). Entrepreneurs are knowledgeable about the legal, financial, and administrative procedures involved when starting up new companies and they are aware of the pitfalls involved. In this option students take the bulk of their complementary studies requirements from the School of Management. |
|
| |
| First year | 36 |
| |
| Fall: | |
| CHM1310 | Principles of Chemistry | 4 |
| ENG1112 | Technical Report Writing | 3 |
| GNG1100 | Engineering Mechanics | 4 |
| GNG1101 | Fundamentals of Engineering Computation | 4 |
| MAT1320 | Calculus I | 3 |
| |
| Winter: | |
| CSI1102 | Fundamentals of Software Design | 4 |
| ELG1100 | Introduction to Electrical and Computer Engineering | 4 |
| MAT1322 | Calculus II | 3 |
| MAT1341 | Introduction to Linear Algebra | 3 |
| PHY1104 | Fundamentals of Physics for Engineers | 3 |
| PHY1304 | Physics Laboratory for Engineers | 1 |
| |
| Second year | 35 |
| |
| Fall: | |
| ADM1100 | Introduction to Business Management | 3 |
| CEG2131 | Computer Architecture I | 4 |
| ELG2130 | Circuit Theory | 4 |
| MAT2322 | Calculus III for Engineers | 3 |
| MAT2331 | Ordinary Differential Equations and Numerical Methods | 4 |
| |
| Winter: | |
| ADM2320 | Marketing | 3 |
| ECO1192 | Engineering Economics | 3 |
| ELG2135 | Electronics I | 4 |
| ELG2910 | Pratique de la profession d'ingénieur / Professional Engineering Practice | 1 |
| MAT3321 | Complex Analysis and Integral Transforms | 3 |
| PHY2323 | Electricity and Magnetism | 3 |
| |
| Third year | 35 |
| ELG3101 | Electromagnetic Engineering | 4 |
| ELG3120 | Signal and System Analysis | 4 |
| ELG3135 | Electronics II | 4 |
| ELG3311 | Introduction to Power Engineering | 4 |
| |
| Winter: | |
| ELG3121 | Random Signals and Systems | 4 |
| ELG3150 | Introduction to Control Systems | 4 |
| ELG3170 | Introduction to Communication Systems | 4 |
| ELG3182 | Networking and Internetworking | 4 |
| |
| HIS2129 | Technology, Society and Environment since 1800 | 3 |
| or | |
| PHI2394 | Scientific Thought and Social Values | 3 |
| |
| Fourth year | |
| Students must take the following courses in addition to the six required courses of one of the 4000-level concentrations of the regular program: | |
| |
| Fall: | |
| ADM2340 | Financial Accounting | 3 |
| |
| Management and entrepreneurship elective1 | 3 |
| |
| Winter: | |
| ADM3313 | Introduction to Entrepreneurship | 3 |
| GNG4170 | Engineering Law | 3 |
| |
| (1) List of electives for engineering management and entrepreneurship option | |
| ADM1101 | Social Context of Business | 3 |
| ADM2336 | Organizational Behaviour | 3 |
| ADM3318 | International Business | 3 |
| ADM3319 | Comparative Management | 3 |
| ADM3324 | Industrial and Technology Marketing | 3 |
| ADM3326 | Advertising and Sales Promotion Management | 3 |
| PHI2397 | Business Ethics | 3 |
| Note: Students wishing to drop out of this option will have to complete the required complementary studies electives and the electives at the 4000-level. | |
|
