Electric company that serves customers located in the greater Toronto area. Meter read submissions, eBills, and services. ELTN, electrical technician, instrumentation and control, electrical motor controls, electrical installation methods, programmable logic controllers. An Electrical Technician earns an average wage of $20.82 per hour. A skill in Programmable Logic Controllers (PLC) / Automation is associated with high pay. Electrical Engineering Technician. Our Program. This two- year Ontario College Diploma program prepares students for career paths in the electrical, communications, manufacturing, utilities and protection fields. The program appeals to students whose interests go beyond operation of devices and equipment in their environment and extends to the challenges of understanding and analyzing the action and interaction of internal components. Students acquire basic fundamentals and take general education courses during the first two levels. In Levels 0. 3 and 0. The curriculum covers core courses in electrical principles, codes, circuitry, control systems and machinery. Students also study Auto. CAD, telecommunications, electronics, instrumentation and robotics. The program includes a strong practical component. Lectures typically introduce a new area of study and are immediately followed by practical experiments to further strengthen the student`s knowledge base. After completing one additional mathematics course, graduates are eligible to enter Level 0. Electrical Engineering Technology program. Bring Your Own Device (BYOD): Students are expected to have and use a laptop or mobile computing device when registered in this on- campus program. Hardware and software specifications required by your program are outlined at http: //algonquincollege. Mobile devices/laptops and supplies can be purchased directly from Algonquin`s New Technology Store at educational rates. SUCCESS FACTORSThis program is well- suited for students who: Enjoy applying physical and chemical laws and practising logic to find solutions to physical problems. Seek variety and opportunity in their career. Have strong observational and analytical skills. Your Career Graduates may find employment as Electrical Engineering Technicians in the following areas: design and testing, manufacturing, installation and/or supervision, diagnostics and analysis of electrical, communication, utilities, and fire protection equipment and systems. Learning Outcomes The graduate has reliably demonstrated the ability to: Interpret and produce electrical and electronics drawings including other related documents and graphics. Analyze and solve routine technical problems related to electrical systems by applying mathematics and science principles. Use, verify, and maintain instrumentation equipment and systems. Assemble, test, modify and maintain electrical circuits and equipment to fulfill requirements and specifications under the supervision of a qualified person. Install and troubleshoot static and rotating electrical machines and associated control systems under the supervision of a qualified person. Verify acceptable functionality and apply troubleshooting techniques for electrical and electronic circuits, components, equipment, and systems under the supervision of a qualified person. Analyze, assemble and troubleshoot control systems under the supervision of a qualified person. Use computer skills and tools to solve routine electrical related problems. Assist in creating and conducting quality assurance procedures under the supervision of a qualified person. Prepare and maintain records and documentation systems. Install, test and troubleshoot telecommunication systems under the supervision of a qualified person. Apply health and safety standards and best practices to workplaces. This is an integrated technician-apprenticeship program where students may also gain credits towards Industrial Electrician Apprenticeship through an Internship program. The Electrical Engineering Technician program at Algonquin College is a broad-based program that prepares students to work in any area that involves electricity. Perform tasks in accordance with relevant legislation, policies, procedures, standards, regulations and ethical principles. Configure installation and apply electrical cabling requirements and system grounding and bonding requirements for a variety of applications under the supervision of a qualified person. Assist in commissioning, testing and troubleshooting electrical power systems under the supervision of a qualified person. Select electrical equipment, systems and components to fulfill the requirements and specifications under the supervision of a qualified person. Apply project management principles to assist in the implementation of projects. Identify and apply discipline- specific practices that contribute to the local and global community through social responsibility, economic commitment and environmental stewardship. Courses. Programs at Algonquin College are delivered using a variety of instruction modes. Courses may be offered in the classroom or lab, entirely online, or in a hybrid mode which combines classroom sessions with online learning activities. Upon registration, each full- time student is provided an Algonquin email account which is used to communicate important information about program or course events. Level: 0. 1Hours. DAT8. 94. 2 Computer Applications - Electrical Students are introduced to the College computer network, spreadsheet applications, word processing software and electrical design software, including Multisim electronic workbench and Auto. CAD. Focus is on Autocad, in particular electrical applications. The standards for electrical measurement are studied and practiced. Electrical circuit design, construction and documentation are also practiced. The first module is a compulsory orientation to safe electrical work practices. In addition, the Occupational Health and Safety Act, and the Hazardous Materials Information System (WHMIS) are examined. Life in the 2. 1st century presents significant opportunities, creates potential hazards, and demands that we face new responsibilities in ethical ways. Students explore the possibilities ahead, assess their own aptitudes and strengths, and apply critical thinking and decision making tools to help resolve some of the important issues present in our complex society with its competing interests. Using a practical, vocation- oriented approach, students focus on meeting the requirements of effective communication. Through a combination of lectures, exercises, and independent learning, students practice writing, speaking, reading, listening, locating and documenting information and using technology to communicate professionally. Students develop and strengthen communication skills that contribute to success in both educational and workplace environments. Students manipulate algebraic expressions, solve algebraic equations and linear systems, and learn the properties of algebraic and transcendental functions. Students graph a variety of functions and solve problems involving complex numbers, trigonometry and vectors. Students learn to create structured programs in a high level language to solve engineering problems. This course emphasizes problem- solving strategies, program design, debugging method and program documentation. Students are introduced to available (std) library resources for a particular language; how to write appropriate user functions; how to apply code control structures and work with supported data- types and structures, such as arrays. Operation of basic electronic components, such as diodes, zener diodes, SCRs, voltage regulators, single phase and three phase rectifiers and power supplies are also studied. Students learn to design, construct, analyze and test electronic circuitry at the . They analyze three- phase circuits and learn about the construction, selection, and operational characteristics of motors and generators. The behaviour of variable frequency drives and the operational characteristics and sizing of overcurrent protection are introduced. Prerequisites: ELE8. ELE8. 61. 3 9. PHY8. 20. 1 Environmental Impact of Technology Every day newspaper headlines, movies, and television have warnings of the dire consequences of some environmental issues, such as global warming, acid rain, climate change and a host of other problems. Students are provided some of the science behind the headlines so they can make informed decisions as citizens, consumers and professionals. Students study the principles and applications of semiconductor devices, both general and special types, including IGBT's with an emphasis on their industrial applications in variable frequency drives, DC power lines, Switched Mode Power Supplies and uninterruptible power supplies (UPS). The lab portion focuses on circuit building, the use of test equipment, collecting, recording and analyzing results, including comparison to calculated values produced by computer simulation. Safe work practices are an essential part of this course. Prerequisites: ELE8. A 1. 05. 0. ELE8. Programmable Controllers This Programmable Logic Controllers (PLC) course extends the principles learned in the first year and applies them to programmable logic controllers. The emphasis is on programming and installing of the current generation of PLC technology. Industrial ladder diagrams, structured text and sequential function chart software are covered. Students develop programs to solve typical industrial applications using relay logic, counters, timers, sequencers, mathematical functions and move commands. Students configure and connect digital and analog input/output modules. Prerequisites: ELE8. ELE8. 94. 4 Building Electrical Systems with Auto. CAD Students develop their Auto. CAD skills including the use of layers, blocks, Paper. Space, Model. Space, block attributes, dynamic blocks, templates (DWT), drawing standards and DWF (Drawing Web Format). The application of standards, particularly the Canadian Electrical Code, specifications, and manufacturers' data to the design of both residential and commercial building electrical systems are included. Prerequisites: DAT8. MAT8. 10. 1 Differential Calculus Differential Calculus is the mathematical study of rates of change. The derivative, its definition and interpretation and its applications are studied. Students calculate limits and use first principles to find simple derivatives. Implicit differentiation and the product, quotient and chain rules are used to find derivatives of algebraic functions. Students use differentiation rules to find derivatives of transcendental functions.
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