Curriculum Developer, Electronics and Embedded Systems Development

About the role

Please Note: If you are a current Algonquin College employee, apply to this job via the Workday application. Department: Mechanical & Transportation Technology Position Type: Part-Time Salary Range: $25.00-$100.00-Hourly Sc heduled Weekly Hours: 8 Anticipated Start Date: January 12, 2026 Length of Contract: Posting Information Posting Closing Date: Please note: jobs are posted until 11:59 pm on the job closing date. Land Acknowledgment: Algonquin College campuses in Ottawa, Perth and Pembroke are located on the traditional unceded, and unsurrendered territory of the Anishinàbe Algonquin People. The Algonquin People have inhabited and cared for these lands since time immemorial. We take this time to express our gratitude and respect to them and to the land for all that it has provided and will continue to provide. Job Description: We're excited to announce that we are currently recruiting Course Developers to build our Electronics and Embedded Systems Development (EESD) Graduate Certificate program curriculum. The EESD program will sit within our Mechanical and Transportation Technology (MTT) department. By supporting the course development now, you will be considered for teaching opportunities in the Fall and Winter 2026-2027 semesters, as well as be added to our talent pool for future roles that match your expertise and qualifications. Under the direction of the MTT Academic Chair, Part-Time EESD Course Developers are responsible to liaise with Algonquin College's (AC) Learning and Teaching Services (LTS) to develop course theory, course lab exercises, and course evaluations to support student learning and success in this domain. Course Titles and Descriptions: 1. Introduction to Embedded Systems Development Embedded systems are computer systems that are a component of larger mechanical, electrical and digital systems. They are dedicated to and optimized to be very reliable for specific tasks. They play an ever-increasing role in today's connected society and can be found in everything from home appliances to industrial automation. Students examine the fundamentals of embedded systems, including system architecture, CPUs, memory management, interfacing with sensors and peripherals, and systems programming using assembly language and the C/C++ program language. Using a variety of learning experiences, including hands-on projects and case study analysis, students develop basic skills in system development and prototyping. 2. Embedded Systems Architecture Embedded systems architecture is the key to producing an embedded system that meets the application's specific requirements, such as performance, power consumption, and cost, while also considering factors such as real-time constraints, reliability, and scalability. Real-world popular embedded systems are studied to reveal successful system architecture designs. A combination of case studies and assignments allows students to gain experience with systems architecture concepts. 3. Embedded Systems Networking Embedded systems require connectivity to integrate with other devices and systems. Students develop practical skills by setting up and troubleshooting networks in a lab environment. Topics include network topology, network architecture, physical network implementation, and standard networking protocols used in embedded systems. 4. F irmware development With the limited resources of embedded systems, firmware development focuses on efficient and sustainable use and management of those resources. Firmware provides low-level control, monitoring and data manipulation functions in an embedded system. Students implement practical and energy efficient system design patterns. Through lab-based activities, students gain experience with programming, debugging, memory management, hardware interfacing, and coding standards. 5. FPGA-HDL Programming To implement embedded systems, low-level Hardware Description Language (HDL) is necessary as part of the hardware design. With a focus on hands-on learning, students gain practical experience designing, testing, and debugging Field Programmable Gate Array (FPGA)-based systems. Students examine critical concepts such as HDL design and FPGA architecture while also developing experience with simulation, synthesis, and verification using industry-standard tools. 6. Applied Project 1 Successful embedded systems development requires intentional planning to meet stakeholder requirements and minimize project risk and cost overruns. Applying theory to practice, students design a systems architecture based on requirements gathered from clients and end-users.Students implement a minimum viable design based on the systems architecture. They also develop their project management, collaboration, and presentation skills to develop real-world embedded systems solutions. Required Qualifications: Minimum Master's degree in a relevant engineering field (e.g. Embedded Systems, Electrical Engineering, Mechantronics or Robotics,

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