George Brown Polytechnic is located on the traditional territory of the Mississaugas of the Credit First Nation and other Indigenous peoples who have lived here over time. We are grateful to share this land as treaty people who learn, work and live in the community with each other.
Electromechanical Engineering Technology - Power and Control
(T182)
Program Details
- Program Code: T182
- Credential: Ontario College Advanced Diploma
- Duration: 3 years (6 semesters)
- Method of Study: Full-time
- Starting Months: January, September
- Domestic Tuition: $6,124.00 * †
- International Tuition: $17,358.00 ** †
Program Availability
| Semester | Domestic | International |
|---|---|---|
| Fall 2022 | Closed | Closed |
| Winter 2023 | Closed | Closed |
| Spring 2023 | Not Available | Not Available |
- PGWP Eligible: No
Program Description
Program Overview
Gain expertise in advanced Power and Control systems. Our program was developed in collaboration with Toronto Hydro.
Electromechanical Engineering Technology – Power and Control is designed to provide students with both theoretical and practical experience, enabling them to work in a wide variety of electrical engineering areas including power and control systems, utilities, industrial automation and robotics, instrumentation and process control. The curriculum incorporates theory, applications, practical experience and safety practices from power systems, utilities, manufacturing, control system, automation and computer industries, along with concepts from the sciences and humanities to ensure the graduate is equipped with technical knowledge, skills and practice.
Full Description
Graduates of this program are able to meet the rapidly changing demands of industrial environments and advanced manufacturing industries through their ability to install, maintain, operate and troubleshoot increasingly sophisticated and automated equipment.
In the first two years, students gain experience with both power and control systems including electric motors, controls, PLCs, generators, transformers, electrical CAD and electrical safety code. In the third year, students continue with courses in advanced power and control systems including electrical installations, power transmission and distribution, power quality, electrical protection and control, project management, automation systems and control applications.
Graduating students perform technological functions related to:
- power and control systems
- energy
- robotics & automation
- manufacturing
- processing
- computer industries
This work is primarily in support of research, technology installation, problem-solving, product development and design at a recognized technologist level.
Your Field Education Options
Students will complete two mandatory co-op semesters.
The first co-op experience takes place between semesters 4 and 5.
The second co-op experience takes place between semesters 5 and 6.
Career & Postgraduate Study Opportunities
Industry
As technology continues to evolve at an unprecedented pace, graduates will be in high demand for their cross-disciplinary skills in types of environments including:
- utilities
- power generation & distribution
- robotics and automation
- computer industry
- manufacturing industry
- renewable energy
Educational Pathways
Other opportunities can be explored through the Transfer Guide at Transfer Guide.
Courses
Semester 1
| Code | Course Name |
|---|---|
| COMM2025 | Communicating with Impact |
| EMNG1001 | Circuit Analysis |
| GSSC1027 | Personal Finance |
| MATH1160 | Mathematics for Engineering Technology 1 |
| MENG1093 | Blueprint Reading & Metrology |
| MENG1094 | Machining Fundamentals |
Semester 2
| Code | Course Name |
|---|---|
| ELCL1047 | Residential Prints and Electrical Safety Code 1 |
| EMNG1013 | Electronic Devices |
| EMNG1015 | Motors and Controls |
| EMNG1021 | Cad Electrical Circuits |
| MATH1171 | Mathematics for Engineering Technology 2 |
| GNED | General Elective |
Semester 3
| Code | Course Name |
|---|---|
| EMNG2001 | Plc Systems 1 |
| EMNG2004 | Digital Electronics |
| EMNG2007 | Dc Circuit Fundamentals |
| EMNG2020 | Instrumentation 1 |
| EMNG2035 | Cad Electrical Layouts |
| EMNG2036 | Computer Applications |
| EMNG2047 | Transformers |
Semester 4
| Code | Course Name |
|---|---|
| CIVL3028 | Introduction to Gis Technology |
| EMNG2037 | Programming Principles |
| EMNG2041 | Robotics |
| EMNG2043 | Ac Circuit Fundamentals |
| EMNG2046 | Introduction to Mep in Commerical Buildings |
| EMNG3003 | Network Fundamentals |
| GNED | General Elective |
Co-op Placement
| Code | Course Name |
|---|---|
| TCOP1007 | Coop Work Term 1 |
Semester 5
| Code | Course Name |
|---|---|
| ELCL1048 | Electrical Installation Methods 1 |
| ELCL1057 | Residential Prints and Electrical Safety Code 2 |
| EMNG3024 | Advanced Cad (Revit) |
| EMNG3025 | Power Transmission and Distribution |
| MATH2015 | Introductory Calculus for Mechanical Technology |
| MENG2046 | Sustainable Energy Technologies |
Co-op Placement
| Code | Course Name |
|---|---|
| TCOP2007 | Coop Work Term 2 |
Semester 6
| Code | Course Name |
|---|---|
| ELCL1058 | Electrical Installation Methods 2 |
| EMNG3027 | Electrical Maintenance Management |
| EMNG3028 | Power Quality and Distribution |
| EMNG3029 | Electrical Protection and Control |
| EMNG3030 | Project Management Practices |
| MATH3006 | Calculus 2 |
Course Outline URL
Program Learning Outcomes
The graduate has reliably demonstrated the ability to:
- Fabricate and build electrical, electronic and mechanical components and assemblies in accordance with operating standards, job requirements and specifications.
- Analyze, interpret and produce electrical, electronic and mechanical drawings and other related technical documents and graphics necessary for electromechanical design in compliance with industry standards.
- Select and use a variety of troubleshooting techniques and equipment to assess, modify, maintain and repair electromechanical circuits, equipment, processes, systems and subsystems.
- Modify, maintain and repair electrical, electronic and mechanical components, equipment and systems to ensure that they function according to specifications and to optimize production.
- Design and analyze mechanical components, processes and systems by applying engineering principles and practices.
- Design, analyze, build, select, commission, integrate and troubleshoot a variety of industrial motor controls and data acquisition devices and systems, digital circuits, passive AC and DC circuits, active circuits and microprocessor-based systems.
- Install and troubleshoot computer hardware and programming to support the electromechanical engineering environment.
- Analyze, program, install, integrate, troubleshoot and diagnose automated systems, including robotic systems.
- Establish and maintain inventory, records and documentation systems to meet organizational and industry standards and requirements.
- Select and purchase electromechanical equipment, components and systems that fulfill job requirements and functional specifications.
- Specify, coordinate and apply quality-control and quality-assurance programs and procedures to meet organizational standards and requirements.
- Work in compliance with relevant industry standards, laws and regulations, codes, policies and procedures.
- Develop strategies for ongoing personal and professional development to enhance work performance and to remain current in the field and responsive to emergent technologies and national and international standards.
- Contribute as an individual and a member of an electromechanical engineering team to the effective completion of tasks and projects.
- Design and analyze electromechanical systems by interpreting fluid mechanics and the attributes and dynamics of fluid flow used in hydraulic and fluid power systems.
- Contribute to project management through planning, implementation and evaluation of projects, and monitoring of resources, timelines and expenditures as required.
- Configure installation and apply electrical cabling requirements and system grounding and bonding requirements for a variety of power systems under the supervision of a qualified person.
- Design, commission, test and troubleshoot electrical power systems under the supervision of a qualified person.
- Select and recommend power and control equipment, systems and components to fulfill the requirements and specifications under the supervision of a qualified person.
- Apply systems analysis tools, in the management of power and control systems, to address challenges in sustainability and efficiency in order to minimize waste.
Tuition & Fees
Domestic Tuition
$6,124.00 * †
International Tuition
$17,358.00 ** †
Additional Costs
*Amounts listed are the total of tuition, materials, student service and ancillary fees for the first two semesters of programs starting in Fall 2021 Fees are subject to change for programs starting in Fall 2022 and at later dates.
** Amounts listed are the total of tuition, materials, student service and ancillary fees for the first two semesters of programs starting in Fall 2022. Fees are subject to change for programs starting in Fall 2023 and at later dates.
† Students are responsible for purchasing CSA standard safety shoes for their protection when working in the laboratories.
CSA Safety glasses are provided, but students who wish to use prescription safety glasses will be responsible for purchasing those separately.
International Students
Visit the International Fees and Related Costs page for more information.
Financial Assistance
The OSAP eligibility for this program has yet to be reviewed by the Ministry.
Admission Requirements
Applicants are selected on the basis of their academic achievement, including the required courses and any other selection criteria outlined below.
Ontario Secondary School Diploma or equivalent**
Grade 12 English (C or U)
Grade 11 Math (M or U) or Grade 12 (C or U)
**MATURE STUDENT STATUS (19 YEARS OF AGE OR OLDER AND NO OSSD)
Mature students may take the Admissions Assessment for English and math or may consider upgrading to achieve the credit(s) needed in English and math.
International Students
Visit the International Admissions page for more information regarding country specific admission requirements.
How to Apply
Domestic students should apply through Ontario Colleges.
International Students
Visit the How to Apply page for more information on how and when to apply.
International students should apply through the George Brown Polytechnic Online Application System.
Contact Us
School of Mechanical Engineering Technologies
Phone: 416-415-5000, ext. 4365
Email: engineeringtech@georgebrown.ca
Our office hours are 8 a.m. – 4 p.m., room D305
For more information about George Brown College, you may also call the Contact Centre at 416-415-2000 (TTY 1-877-515-5559) or long distance 1-800-265-2002.
VISIT OUR CAMPUS
Do you have questions about this program or your career options? Join us for an on-campus Information Session. You'll have the opportunity to meet our friendly instructors and staff, ask questions and experience what it's like to be in a George Brown College classroom.
International Students
Contact one of our international recruitment representatives specializing by country of origin by either booking a virtual meeting or submitting an inquiry. For more information visit the International Contact Us page
Program Description
Program Overview
Gain expertise in advanced Power and Control systems. Our program was developed in collaboration with Toronto Hydro.
Electromechanical Engineering Technology – Power and Control is designed to provide students with both theoretical and practical experience, enabling them to work in a wide variety of electrical engineering areas including power and control systems, utilities, industrial automation and robotics, instrumentation and process control. The curriculum incorporates theory, applications, practical experience and safety practices from power systems, utilities, manufacturing, control system, automation and computer industries, along with concepts from the sciences and humanities to ensure the graduate is equipped with technical knowledge, skills and practice.
Full Description
Graduates of this program are able to meet the rapidly changing demands of industrial environments and advanced manufacturing industries through their ability to install, maintain, operate and troubleshoot increasingly sophisticated and automated equipment.
In the first two years, students gain experience with both power and control systems including electric motors, controls, PLCs, generators, transformers, electrical CAD and electrical safety code. In the third year, students continue with courses in advanced power and control systems including electrical installations, power transmission and distribution, power quality, electrical protection and control, project management, automation systems and control applications.
Graduating students perform technological functions related to:
- power and control systems
- energy
- robotics & automation
- manufacturing
- processing
- computer industries
This work is primarily in support of research, technology installation, problem-solving, product development and design at a recognized technologist level.
Your Field Education Options
Students will complete two mandatory co-op semesters.
The first co-op experience takes place between semesters 4 and 5.
The second co-op experience takes place between semesters 5 and 6.
Career & Postgraduate Study Opportunities
Industry
As technology continues to evolve at an unprecedented pace, graduates will be in high demand for their cross-disciplinary skills in types of environments including:
- utilities
- power generation & distribution
- robotics and automation
- computer industry
- manufacturing industry
- renewable energy
Educational Pathways
Other opportunities can be explored through the Transfer Guide at Transfer Guide.
Courses
Semester 1
| Code | Course Name |
|---|---|
| COMM2025 | Communicating with Impact |
| EMNG1001 | Circuit Analysis |
| GSSC1027 | Personal Finance |
| MATH1160 | Mathematics for Engineering Technology 1 |
| MENG1093 | Blueprint Reading & Metrology |
| MENG1094 | Machining Fundamentals |
Semester 2
| Code | Course Name |
|---|---|
| ELCL1047 | Residential Prints and Electrical Safety Code 1 |
| EMNG1013 | Electronic Devices |
| EMNG1015 | Motors and Controls |
| EMNG1021 | Cad Electrical Circuits |
| MATH1171 | Mathematics for Engineering Technology 2 |
| GNED | General Elective |
Semester 3
| Code | Course Name |
|---|---|
| EMNG2001 | Plc Systems 1 |
| EMNG2004 | Digital Electronics |
| EMNG2007 | Dc Circuit Fundamentals |
| EMNG2020 | Instrumentation 1 |
| EMNG2035 | Cad Electrical Layouts |
| EMNG2036 | Computer Applications |
| EMNG2047 | Transformers |
Semester 4
| Code | Course Name |
|---|---|
| CIVL3028 | Introduction to Gis Technology |
| EMNG2037 | Programming Principles |
| EMNG2041 | Robotics |
| EMNG2043 | Ac Circuit Fundamentals |
| EMNG2046 | Introduction to Mep in Commerical Buildings |
| EMNG3003 | Network Fundamentals |
| GNED | General Elective |
Co-op Placement
| Code | Course Name |
|---|---|
| TCOP1007 | Coop Work Term 1 |
Semester 5
| Code | Course Name |
|---|---|
| ELCL1048 | Electrical Installation Methods 1 |
| ELCL1057 | Residential Prints and Electrical Safety Code 2 |
| EMNG3024 | Advanced Cad (Revit) |
| EMNG3025 | Power Transmission and Distribution |
| MATH2015 | Introductory Calculus for Mechanical Technology |
| MENG2046 | Sustainable Energy Technologies |
Co-op Placement
| Code | Course Name |
|---|---|
| TCOP2007 | Coop Work Term 2 |
Semester 6
| Code | Course Name |
|---|---|
| ELCL1058 | Electrical Installation Methods 2 |
| EMNG3027 | Electrical Maintenance Management |
| EMNG3028 | Power Quality and Distribution |
| EMNG3029 | Electrical Protection and Control |
| EMNG3030 | Project Management Practices |
| MATH3006 | Calculus 2 |
Course Outline URL
Tuition & Fees
Domestic Tuition
$6,124.00 * †
International Tuition
$17,358.00 ** †
Additional Costs
*Amounts listed are the total of tuition, materials, student service and ancillary fees for the first two semesters of programs starting in Fall 2021 Fees are subject to change for programs starting in Fall 2022 and at later dates.
** Amounts listed are the total of tuition, materials, student service and ancillary fees for the first two semesters of programs starting in Fall 2022. Fees are subject to change for programs starting in Fall 2023 and at later dates.
† Students are responsible for purchasing CSA standard safety shoes for their protection when working in the laboratories.
CSA Safety glasses are provided, but students who wish to use prescription safety glasses will be responsible for purchasing those separately.
International Students
Visit the International Fees and Related Costs page for more information.
Financial Assistance
The OSAP eligibility for this program has yet to be reviewed by the Ministry.
Admission Requirements
Applicants are selected on the basis of their academic achievement, including the required courses and any other selection criteria outlined below.
Ontario Secondary School Diploma or equivalent**
Grade 12 English (C or U)
Grade 11 Math (M or U) or Grade 12 (C or U)
**MATURE STUDENT STATUS (19 YEARS OF AGE OR OLDER AND NO OSSD)
Mature students may take the Admissions Assessment for English and math or may consider upgrading to achieve the credit(s) needed in English and math.
International Students
Visit the International Admissions page for more information regarding country specific admission requirements.
How to Apply
Domestic students should apply through Ontario Colleges.
International Students
Visit the How to Apply page for more information on how and when to apply.
International students should apply through the George Brown Polytechnic Online Application System.
Program Learning Outcomes
The graduate has reliably demonstrated the ability to:
- Fabricate and build electrical, electronic and mechanical components and assemblies in accordance with operating standards, job requirements and specifications.
- Analyze, interpret and produce electrical, electronic and mechanical drawings and other related technical documents and graphics necessary for electromechanical design in compliance with industry standards.
- Select and use a variety of troubleshooting techniques and equipment to assess, modify, maintain and repair electromechanical circuits, equipment, processes, systems and subsystems.
- Modify, maintain and repair electrical, electronic and mechanical components, equipment and systems to ensure that they function according to specifications and to optimize production.
- Design and analyze mechanical components, processes and systems by applying engineering principles and practices.
- Design, analyze, build, select, commission, integrate and troubleshoot a variety of industrial motor controls and data acquisition devices and systems, digital circuits, passive AC and DC circuits, active circuits and microprocessor-based systems.
- Install and troubleshoot computer hardware and programming to support the electromechanical engineering environment.
- Analyze, program, install, integrate, troubleshoot and diagnose automated systems, including robotic systems.
- Establish and maintain inventory, records and documentation systems to meet organizational and industry standards and requirements.
- Select and purchase electromechanical equipment, components and systems that fulfill job requirements and functional specifications.
- Specify, coordinate and apply quality-control and quality-assurance programs and procedures to meet organizational standards and requirements.
- Work in compliance with relevant industry standards, laws and regulations, codes, policies and procedures.
- Develop strategies for ongoing personal and professional development to enhance work performance and to remain current in the field and responsive to emergent technologies and national and international standards.
- Contribute as an individual and a member of an electromechanical engineering team to the effective completion of tasks and projects.
- Design and analyze electromechanical systems by interpreting fluid mechanics and the attributes and dynamics of fluid flow used in hydraulic and fluid power systems.
- Contribute to project management through planning, implementation and evaluation of projects, and monitoring of resources, timelines and expenditures as required.
- Configure installation and apply electrical cabling requirements and system grounding and bonding requirements for a variety of power systems under the supervision of a qualified person.
- Design, commission, test and troubleshoot electrical power systems under the supervision of a qualified person.
- Select and recommend power and control equipment, systems and components to fulfill the requirements and specifications under the supervision of a qualified person.
- Apply systems analysis tools, in the management of power and control systems, to address challenges in sustainability and efficiency in order to minimize waste.
Contact Us
School of Mechanical Engineering Technologies
Phone: 416-415-5000, ext. 4365
Email: engineeringtech@georgebrown.ca
Our office hours are 8 a.m. – 4 p.m., room D305
For more information about George Brown College, you may also call the Contact Centre at 416-415-2000 (TTY 1-877-515-5559) or long distance 1-800-265-2002.
VISIT OUR CAMPUS
Do you have questions about this program or your career options? Join us for an on-campus Information Session. You'll have the opportunity to meet our friendly instructors and staff, ask questions and experience what it's like to be in a George Brown College classroom.
International Students
Contact one of our international recruitment representatives specializing by country of origin by either booking a virtual meeting or submitting an inquiry. For more information visit the International Contact Us page
Visit Casa Loma Campus
Book campus tourVisit Casa Loma Campus
Our Virtual Tour showcases the following areas:
- Campus Facilities
- Student Services
- Applied Learning Environments
- Labs & Classrooms
Electromechanical Engineering Technology - Power and Control
(T182)
Program Details
- Program Code: T182
- Credential: Ontario College Advanced Diploma
- Duration: 3 years (6 semesters)
- Method of Study: Full-time
- Starting Months: September
- Domestic Tuition: $5,908.00 *
Program Availability
| Semester | Domestic | International |
|---|---|---|
| Fall 2021 | Closed | Not Available |
| Winter 2022 | Not Available | Not Available |
| Spring 2022 | Not Available | Not Available |
- PGWP Eligible: No
Program Description
Program Overview
Gain expertise in advanced Power & Control systems. Our program was developed in collaboration with Toronto Hydro.
Electromechanical Engineering Technology – Power and Control is designed to provide students with both theoretical and practical experience, enabling them to work in a wide variety of electrical engineering areas including power and control systems, utilities, industrial automation and robotics, instrumentation, and process control. The curriculum incorporates theory, applications, practical experience and safety practices from power systems, utilities, manufacturing, control system, automation, and computer industries, along with concepts from the sciences and humanities to ensure the graduate is equipped with technical knowledge, skills and practice.
Full Description
Graduates of this program are able to meet the rapidly changing demands of industrial environments and advanced manufacturing industries through their ability to install, maintain, operate and troubleshoot increasingly sophisticated and automated equipment.
In the first two years, students gain experience with both power and control systems including electric motors, controls, PLCs, generators, transformers, electrical CAD and electrical safety code. In the third year, students continue with courses in advanced power and control systems including electrical installations, power transmission and distribution, power quality, electrical protection and control, project management, automation systems and control applications.
Graduating students perform technological functions related to:
- power & control systems
- energy
- robotics & automation
- manufacturing
- processing
- computer industries
This work is primarily in support of research, technology installation, problem-solving, product development and design at a recognized technologist level.
Your Field Education Options
Available
Career & Postgraduate Study Opportunities
Your Career
Graduating students perform technological functions related to:
- power & control systems
- energy
- robotics & automation
- manufacturing
- processing
- computer industries
This work is primarily in support of research, technology installation, problem-solving, product development and design at a recognized technologist level.
Industry
As technology continues to evolve at an unprecedented pace, graduates will be in high demand for their cross-disciplinary skills in types of environments including:
- utilities
- power generation & distribution
- robotics & automation
- computer industry
- manufacturing industry
- renewable energy
Courses
Semester 1
| Code | Course Name |
|---|---|
| COMM2025 | Communicating with Impact |
| EMNG1001 | Circuit Analysis |
| GSSC1027 | Personal Finance |
| MATH1160 | Mathematics for Engineering Technology 1 |
| MENG1093 | Blueprint Reading & Metrology |
| MENG1094 | Machining Fundamentals |
Semester 2
| Code | Course Name |
|---|---|
| ELCL1047 | Residential Prints and Electrical Safety Code 1 |
| EMNG1013 | Electronic Devices |
| EMNG1015 | Motors and Controls |
| EMNG1021 | Cad Electrical Circuits |
| MATH1171 | Mathematics for Engineering Technology 2 |
| GNED | General Elective |
Semester 3
| Code | Course Name |
|---|---|
| EMNG2001 | Plc Systems 1 |
| EMNG2004 | Digital Electronics |
| EMNG2007 | Dc Circuit Fundamentals |
| EMNG2020 | Instrumentation 1 |
| EMNG2035 | Cad Electrical Layouts |
| EMNG2036 | Computer Applications |
| EMNG2047 | Transformers |
Semester 4
| Code | Course Name |
|---|---|
| CIVL3028 | Introduction to Gis Technology |
| EMNG2037 | Programming Principles |
| EMNG2041 | Robotics |
| EMNG2043 | Ac Circuit Fundamentals |
| EMNG2046 | Introduction to Mep in Commerical Buildings |
| EMNG3003 | Network Fundamentals |
| GNED | General Elective |
Co-op Placement
| Code | Course Name |
|---|---|
| TCOP1007 | Coop Work Term 1 |
Semester 5
| Code | Course Name |
|---|---|
| ELCL1048 | Electrical Installation Methods 1 |
| ELCL1057 | Residential Prints and Electrical Safety Code 2 |
| EMNG3024 | Advanced Cad (Revit) |
| EMNG3025 | Power Transmission and Distribution |
| MATH2015 | Introductory Calculus for Mechanical Technology |
| MENG2046 | Sustainable Energy Technologies |
Co-op Placement
| Code | Course Name |
|---|---|
| TCOP2007 | Coop Work Term 2 |
Semester 6
| Code | Course Name |
|---|---|
| ELCL1058 | Electrical Installation Methods 2 |
| EMNG3027 | Electrical Maintenance Management |
| EMNG3028 | Power Quality and Distribution |
| EMNG3029 | Electrical Protection and Control |
| EMNG3030 | Project Management Practices |
| MATH3006 | Calculus 2 |
Course Outline URL
Program Learning Outcomes
The graduate has reliably demonstrated the ability to:
- Fabricate and build electrical, electronic and mechanical components and assemblies in accordance with operating standards, job requirements and specifications.
- Analyze, interpret and produce electrical, electronic and mechanical drawings and other related technical documents and graphics necessary for electromechanical design in compliance with industry standards.
- Select and use a variety of troubleshooting techniques and equipment to assess, modify, maintain and repair electromechanical circuits, equipment, processes, systems and subsystems.
- Modify, maintain, and repair electrical, electronic, and mechanical components, equipment, and systems to ensure that they function according to specifications and to optimize production.
- Design and analyze mechanical components, processes and systems by applying engineering principles and practices.
- Design, analyze, build, select, commission, integrate and troubleshoot a variety of industrial motor controls and data acquisition devices and systems, digital circuits, passive AC and DC circuits, active circuits and microprocessor-based systems.
- Install and troubleshoot computer hardware and programming to support the electromechanical engineering environment.
- Analyze, program, install, integrate, troubleshoot and diagnose automated systems, including robotic systems.
- Establish and maintain inventory, records and documentation systems to meet organizational and industry standards and requirements.
- Select and purchase electromechanical equipment, components and systems that fulfill job requirements and functional specifications.
- Specify, coordinate and apply quality-control and quality-assurance programs and procedures to meet organizational standards and requirements.
- Work in compliance with relevant industry standards, laws and regulations, codes, policies and procedures.
- Develop strategies for ongoing personal and professional development to enhance work performance and to remain current in the field and responsive to emergent technologies and national and international standards.
- Contribute as an individual and a member of an electromechanical engineering team to the effective completion of tasks and projects.
- Design and analyze electromechanical systems by interpreting fluid mechanics and the attributes and dynamics of fluid flow used in hydraulic and fluid power systems.
- Contribute to project management through planning, implementation and evaluation of projects, and monitoring of resources, timelines and expenditures as required.
- Configure installation and apply electrical cabling requirements and system grounding and bonding requirements for a variety of power systems under the supervision of a qualified person.
- Design, commission, test and troubleshoot electrical power systems under the supervision of a qualified person.
- Select and recommend power and control equipment, systems and components to fulfill the requirements and specifications under the supervision of a qualified person.
- Apply systems analysis tools, in the management of power and control systems, to address challenges in sustainability and efficiency in order to minimize waste.
Tuition & Fees
Domestic Tuition
$5,908.00 *
Additional Costs
*Amounts listed are the total of tuition, materials, student service and ancillary fees for the first two semesters of programs starting in Fall 2020 Fees are subject to change for programs starting in Fall 2021 and at later dates.
International Students
Visit the International Fees and Related Costs page for more information.
Financial Assistance
This program is approved for OSAP funding, provided the applicant meets OSAP eligibility criteria.
Admission Requirements
Applicants are selected on the basis of their academic achievement, including the required courses and any other selection criteria outlined below.
Ontario Secondary School Diploma or equivalent**
Grade 12 English (C or U)
Grade 11 Math (M or U) or Grade 12 (C or U)
**MATURE STUDENT STATUS (19 YEARS OF AGE OR OLDER AND NO OSSD)
Mature students may take the Admissions Assessment for English and Math or may consider upgrading to achieve the credit(s) needed in English and Math.
International Students
Visit the International Admissions page for more information regarding country specific admission requirements.
How to Apply
Domestic students should apply through Ontario Colleges.
International Students
Visit the How to Apply page for more information on how and when to apply.
International students should apply through the George Brown Polytechnic Online Application System.
Contact Us
School of Mechanical Engineering Technologies
Phone: 416-415-5000, ext. 4365
Email: engineeringtech@georgebrown.ca
Our office hours are 8 a.m. – 4 p.m., room D305
For more information about George Brown College, you may also call the Contact Centre at 416-415-2000 (TTY 1-877-515-5559) or long distance 1-800-265-2002.
VISIT OUR CAMPUS
Do you have questions about this program or your career options? Join us for an on-campus Information Session. You'll have the opportunity to meet our friendly instructors and staff, ask questions and experience what it's like to be in a George Brown College classroom.
International Students
Contact one of our international recruitment representatives specializing by country of origin by either booking a virtual meeting or submitting an inquiry. For more information visit the International Contact Us page
Program Description
Program Overview
Gain expertise in advanced Power & Control systems. Our program was developed in collaboration with Toronto Hydro.
Electromechanical Engineering Technology – Power and Control is designed to provide students with both theoretical and practical experience, enabling them to work in a wide variety of electrical engineering areas including power and control systems, utilities, industrial automation and robotics, instrumentation, and process control. The curriculum incorporates theory, applications, practical experience and safety practices from power systems, utilities, manufacturing, control system, automation, and computer industries, along with concepts from the sciences and humanities to ensure the graduate is equipped with technical knowledge, skills and practice.
Full Description
Graduates of this program are able to meet the rapidly changing demands of industrial environments and advanced manufacturing industries through their ability to install, maintain, operate and troubleshoot increasingly sophisticated and automated equipment.
In the first two years, students gain experience with both power and control systems including electric motors, controls, PLCs, generators, transformers, electrical CAD and electrical safety code. In the third year, students continue with courses in advanced power and control systems including electrical installations, power transmission and distribution, power quality, electrical protection and control, project management, automation systems and control applications.
Graduating students perform technological functions related to:
- power & control systems
- energy
- robotics & automation
- manufacturing
- processing
- computer industries
This work is primarily in support of research, technology installation, problem-solving, product development and design at a recognized technologist level.
Your Field Education Options
Available
Career & Postgraduate Study Opportunities
Your Career
Graduating students perform technological functions related to:
- power & control systems
- energy
- robotics & automation
- manufacturing
- processing
- computer industries
This work is primarily in support of research, technology installation, problem-solving, product development and design at a recognized technologist level.
Industry
As technology continues to evolve at an unprecedented pace, graduates will be in high demand for their cross-disciplinary skills in types of environments including:
- utilities
- power generation & distribution
- robotics & automation
- computer industry
- manufacturing industry
- renewable energy
Courses
Semester 1
| Code | Course Name |
|---|---|
| COMM2025 | Communicating with Impact |
| EMNG1001 | Circuit Analysis |
| GSSC1027 | Personal Finance |
| MATH1160 | Mathematics for Engineering Technology 1 |
| MENG1093 | Blueprint Reading & Metrology |
| MENG1094 | Machining Fundamentals |
Semester 2
| Code | Course Name |
|---|---|
| ELCL1047 | Residential Prints and Electrical Safety Code 1 |
| EMNG1013 | Electronic Devices |
| EMNG1015 | Motors and Controls |
| EMNG1021 | Cad Electrical Circuits |
| MATH1171 | Mathematics for Engineering Technology 2 |
| GNED | General Elective |
Semester 3
| Code | Course Name |
|---|---|
| EMNG2001 | Plc Systems 1 |
| EMNG2004 | Digital Electronics |
| EMNG2007 | Dc Circuit Fundamentals |
| EMNG2020 | Instrumentation 1 |
| EMNG2035 | Cad Electrical Layouts |
| EMNG2036 | Computer Applications |
| EMNG2047 | Transformers |
Semester 4
| Code | Course Name |
|---|---|
| CIVL3028 | Introduction to Gis Technology |
| EMNG2037 | Programming Principles |
| EMNG2041 | Robotics |
| EMNG2043 | Ac Circuit Fundamentals |
| EMNG2046 | Introduction to Mep in Commerical Buildings |
| EMNG3003 | Network Fundamentals |
| GNED | General Elective |
Co-op Placement
| Code | Course Name |
|---|---|
| TCOP1007 | Coop Work Term 1 |
Semester 5
| Code | Course Name |
|---|---|
| ELCL1048 | Electrical Installation Methods 1 |
| ELCL1057 | Residential Prints and Electrical Safety Code 2 |
| EMNG3024 | Advanced Cad (Revit) |
| EMNG3025 | Power Transmission and Distribution |
| MATH2015 | Introductory Calculus for Mechanical Technology |
| MENG2046 | Sustainable Energy Technologies |
Co-op Placement
| Code | Course Name |
|---|---|
| TCOP2007 | Coop Work Term 2 |
Semester 6
| Code | Course Name |
|---|---|
| ELCL1058 | Electrical Installation Methods 2 |
| EMNG3027 | Electrical Maintenance Management |
| EMNG3028 | Power Quality and Distribution |
| EMNG3029 | Electrical Protection and Control |
| EMNG3030 | Project Management Practices |
| MATH3006 | Calculus 2 |
Course Outline URL
Tuition & Fees
Domestic Tuition
$5,908.00 *
Additional Costs
*Amounts listed are the total of tuition, materials, student service and ancillary fees for the first two semesters of programs starting in Fall 2020 Fees are subject to change for programs starting in Fall 2021 and at later dates.
International Students
Visit the International Fees and Related Costs page for more information.
Financial Assistance
This program is approved for OSAP funding, provided the applicant meets OSAP eligibility criteria.
Admission Requirements
Applicants are selected on the basis of their academic achievement, including the required courses and any other selection criteria outlined below.
Ontario Secondary School Diploma or equivalent**
Grade 12 English (C or U)
Grade 11 Math (M or U) or Grade 12 (C or U)
**MATURE STUDENT STATUS (19 YEARS OF AGE OR OLDER AND NO OSSD)
Mature students may take the Admissions Assessment for English and Math or may consider upgrading to achieve the credit(s) needed in English and Math.
International Students
Visit the International Admissions page for more information regarding country specific admission requirements.
How to Apply
Domestic students should apply through Ontario Colleges.
International Students
Visit the How to Apply page for more information on how and when to apply.
International students should apply through the George Brown Polytechnic Online Application System.
Program Learning Outcomes
The graduate has reliably demonstrated the ability to:
- Fabricate and build electrical, electronic and mechanical components and assemblies in accordance with operating standards, job requirements and specifications.
- Analyze, interpret and produce electrical, electronic and mechanical drawings and other related technical documents and graphics necessary for electromechanical design in compliance with industry standards.
- Select and use a variety of troubleshooting techniques and equipment to assess, modify, maintain and repair electromechanical circuits, equipment, processes, systems and subsystems.
- Modify, maintain, and repair electrical, electronic, and mechanical components, equipment, and systems to ensure that they function according to specifications and to optimize production.
- Design and analyze mechanical components, processes and systems by applying engineering principles and practices.
- Design, analyze, build, select, commission, integrate and troubleshoot a variety of industrial motor controls and data acquisition devices and systems, digital circuits, passive AC and DC circuits, active circuits and microprocessor-based systems.
- Install and troubleshoot computer hardware and programming to support the electromechanical engineering environment.
- Analyze, program, install, integrate, troubleshoot and diagnose automated systems, including robotic systems.
- Establish and maintain inventory, records and documentation systems to meet organizational and industry standards and requirements.
- Select and purchase electromechanical equipment, components and systems that fulfill job requirements and functional specifications.
- Specify, coordinate and apply quality-control and quality-assurance programs and procedures to meet organizational standards and requirements.
- Work in compliance with relevant industry standards, laws and regulations, codes, policies and procedures.
- Develop strategies for ongoing personal and professional development to enhance work performance and to remain current in the field and responsive to emergent technologies and national and international standards.
- Contribute as an individual and a member of an electromechanical engineering team to the effective completion of tasks and projects.
- Design and analyze electromechanical systems by interpreting fluid mechanics and the attributes and dynamics of fluid flow used in hydraulic and fluid power systems.
- Contribute to project management through planning, implementation and evaluation of projects, and monitoring of resources, timelines and expenditures as required.
- Configure installation and apply electrical cabling requirements and system grounding and bonding requirements for a variety of power systems under the supervision of a qualified person.
- Design, commission, test and troubleshoot electrical power systems under the supervision of a qualified person.
- Select and recommend power and control equipment, systems and components to fulfill the requirements and specifications under the supervision of a qualified person.
- Apply systems analysis tools, in the management of power and control systems, to address challenges in sustainability and efficiency in order to minimize waste.
Contact Us
School of Mechanical Engineering Technologies
Phone: 416-415-5000, ext. 4365
Email: engineeringtech@georgebrown.ca
Our office hours are 8 a.m. – 4 p.m., room D305
For more information about George Brown College, you may also call the Contact Centre at 416-415-2000 (TTY 1-877-515-5559) or long distance 1-800-265-2002.
VISIT OUR CAMPUS
Do you have questions about this program or your career options? Join us for an on-campus Information Session. You'll have the opportunity to meet our friendly instructors and staff, ask questions and experience what it's like to be in a George Brown College classroom.
International Students
Contact one of our international recruitment representatives specializing by country of origin by either booking a virtual meeting or submitting an inquiry. For more information visit the International Contact Us page
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- Labs & Classrooms