Bachelor of Engineering - Electronic Systems Engineering
Course Overview
This accredited Bachelor of Engineering program equips you to excel at the intersection of hardware and software, preparing you for a licensed professional engineering career. Through a project-based curriculum and mandatory co-op placements, you will develop the practical skills to design, build, and prototype innovative electronic systems and solutions. The program is designed for makers and analytical thinkers seeking rewarding roles in fields like AI, robotics, cybersecurity, and smart device technology.
Key Program Highlights
- Accredited by the Canadian Engineering Accreditation Board (CEAB), providing a direct path to licensure with Professional Engineers Ontario
- Gain 12 months of paid co-op experience that counts toward your professional engineering work requirements
- Engage in hands-on, project-based learning in state-of-the-art labs equipped with 3D printers, oscilloscopes, and rapid prototyping tools
- Master the integration of software, hardware, and embedded systems to solve real-world societal problems
- Benefit from small class sizes and prepare for high-demand careers in AI, electric vehicles, medical devices, and more
Course Overview
This accredited Bachelor of Engineering program equips you to excel at the intersection of hardware and software, preparing you for a licensed professional engineering career. Through a project-based curriculum and mandatory co-op placements, you will develop the practical skills to design, build, and prototype innovative electronic systems and solutions. The program is designed for makers and analytical thinkers seeking rewarding roles in fields like AI, robotics, cybersecurity, and smart device technology.
Key Program Highlights
- Accredited by the Canadian Engineering Accreditation Board (CEAB), providing a direct path to licensure with Professional Engineers Ontario
- Gain 12 months of paid co-op experience that counts toward your professional engineering work requirements
- Engage in hands-on, project-based learning in state-of-the-art labs equipped with 3D printers, oscilloscopes, and rapid prototyping tools
- Master the integration of software, hardware, and embedded systems to solve real-world societal problems
- Benefit from small class sizes and prepare for high-demand careers in AI, electric vehicles, medical devices, and more
Requirements
Modules
- Conestoga 101
- Introduction to Engineering Projects
- Digital Systems
- Electrical Foundations
- Foundation Module
- Math I
- Physics I
- Science, Technology and Society
- Group Dynamics
- Engineering Project II
- Electronic Foundations
- Scientific and Technical Communications
- Math II
- Physics II
- Programming Principles
- Co-op and Career Preparation
- Engineering Project III
- Telecommunications and Signal Processing
- Digital Design
- Electronics II
- Math III
- Project Management, Methods and Tools
- Data Structures and Algorithms
- Business Foundations
- Embedded Systems Hardware
- Digital Signal Processing
- Engineering Project IV
- Embedded Systems Software
- Co-op Work Term I (ESE)
- Chemistry
- Engineering Project V
- Signals and Control Systems
- Electronics III
- Operating Systems
- Probability and Statistics
- Co-op Work Term II (ESE)
- Engineering Project VI
- Data Communications and Networks
- Advanced Topics in Mathematics
- Thermodynamics
- Introduction to Natural Sciences
- Software Engineering
- Co-op Work Term III (ESE)
- Economics for Engineers
- Computer Architecture
- Wireless Communications and Networks
- Capstone Project I
- Law, Ethics and Professional Practice
- Electromagnetism
- Capstone Project II
- Selected Topics in Power Electronics
- Numerical Methods
- Artificial Intelligence
- Sustainable and Concurrent Design
- Advanced DSP Applications
- Advanced Technical Elective I
- Value Engineering and Life Cycle Costing
- Network Administration and Security
- Operations Management
