Electrical and Electronics 10, Electrical 20, 30, Electronics 20, A30, B30
Apply principles and techniques for injury prevention to ensure safety in the work area.
Apply principles and techniques for injury prevention to ensure safety in the work area.
Apply principles and techniques for injury prevention to ensure safety in the work area.
Apply principles and techniques for injury prevention to ensure safety in the work area.
Apply principles and techniques for injury prevention to ensure safety in the work area.
Apply principles and techniques for injury prevention to ensure safety in the work area.
Demonstrate safe practices when working with electricity and equipment.
Demonstrate safe practices when working with electricity and equipment.
Demonstrate safe practices when working with electricity and equipment.
Identify and use hand and power tools safely and appropriately.
Identify and use hand and power tools safely and appropriately.
Identify and use hand and power tools safely and appropriately.
Explain the purpose and structure of the Canadian Electrical Code (CEC).
Explain the basics of electron theory.
Determine current, voltage and resistance in simple circuits.
Differentiate between alternating current (AC) and direct current (DC).
Explore the concept of electromagnetism.
Determine electric power in electric circuits.
Explore electromagnetic induction.
Explain how power is typically generated and distributed in Canada.
Examine power production from renewable sources.
Explore power production and distribution management systems.
Construct and analyze series and parallel electrical circuits.
Construct and analyze combination electrical circuits.
Design and construct a variety of electrical circuits.
Investigate the role of relays in electrical circuits.
Construct and test specialty relay circuits.
Examine how conductors, wires and cables are used in the electrical and electronics industries.
Explore fuses and their properties.
Explore the use of circuit breakers in electrical circuits.
Investigate the use of ground fault circuit interrupter (GFCI) and arc fault circuit interrupter (AFCI) circuit breakers.
Wire outlet boxes in residential circuits adhering to code rules.
Investigate commercial and industrial wiring methods and materials.
Explore the use of raceways, including conduit and tubing, in electrical wiring.
Examine the use of extra-low voltage wiring in residential applications.
Investigate applications of residential and commercial automation systems.
Explore methods of installing, connecting and configuring residential and commercial automation systems.
Interpret residential construction drawings including electrical drawings.
Create electrical drawings for residential applications.
Examine the role of schematic diagrams for designing, constructing and troubleshooting electrical and electronic circuits.
Wire a variety of residential branch circuits.
Determine residential service requirements.
Explore common types of lighting technologies.
Explore the physical characteristics of lighting.
Explore common types of lighting control devices.
Investigate the purpose and operation of transformers.
Calculate voltage, current, power and efficiency of transformers.
Explore the use of transformers in electronic applications.
Investigate the operation and applications of shunt and series direct current (DC) motors.
Investigate the operation and applications of compound direct current (DC) motors and generators.
Investigate the operation and applications of alternating current (AC) induction motors.
Investigate the operation and applications of shaded pole and universal motors and alternating current generators.
Explore the purpose and applications of manual motor starters.
Explore the purpose and applications of magnetic motor starters.
Explore the purpose and operation of magnetic starter control devices and switches.
Investigate and construct magnetic motor control circuits.
Explore the purpose and operation of programmable logic controllers (PLCs).
Explore primary and secondary cells.
Investigate methods of producing electrical energy.
Measure current, voltage and resistance using a variety of meters.
Troubleshoot circuits using an oscilloscope.
Examine the purpose and operation of resistors in electronic circuits.
Measure and verify resistance values.
Explore the purpose and operation of capacitors in electronic circuits.
Investigate uses of capacitors in electronic circuits.
Investigate resistor-capacitor (RC) circuits.
Explore the purpose and operation of diodes in electronic circuits.
Investigate the properties of diodes.
Explore the purpose and operation of transistors in electronic circuits.
Analyze electronic circuits that contain negative-positive-negative (NPN) and positive-negative-positive (PNP) transistors.
Investigate the function of transistors in operational amplifier (op-amp) circuits.
Explore the role of integrated circuits (ICs) in electronic circuits.
Investigate the operating characteristics of integrated circuits (ICs).
Explore the purpose and operation of microcontrollers in electronics.
Investigate how microcontrollers can be used to control electronic devices.
Construct printed circuit boards (PCBs).
Demonstrate proficiency in soldering techniques.
Demonstrate proficiency in de-soldering techniques.
Assess the suitability of power supplies for electronic applications.
Construct and test a rectifier for use in a power supply.
Explore the operating characteristics of power supplies.
Investigate the role of inductance in tuned circuits.
Examine the role of impedance, resonant frequency, bandwidth and oscillators in tuned circuits.
Compare the characteristics of amplitude modulation (AM) and frequency modulation (FM) methods of radio broadcasting.
Examine the role of antennas in radio broadcasting.
Examine the attributes of fibre optics in radio communications.
Explore the role of binary logic in digital circuits.
Explore the purpose and operation of sequential logic circuits.
Examine the operation of digital counters and shift registers.
Examine the operation of analog and digital converters.
Investigate the environmental and economic impact of manufacturing and recycling electronic equipment.
Construct an introductory level assigned or approved electrical or electronics project.
Construct an intermediate level assigned or approved electrical or electronics project.
Construct an intermediate level assigned or approved electrical or electronics project.
Construct an advanced level assigned or approved electrical or electronics project.
Construct an advanced level assigned or approved electrical or electronics project.
Construct an advanced level assigned or approved electrical or electronics project.
Explore electrical and electronics-related occupations.
Explore electrical and electronics-related occupations.
Prepare for the work placement.
Prepare for the work placement.
Prepare for the work placement.
Prepare for the work placement.
Prepare for the work placement.
Participate in a work placement experience.
Participate in a work placement experience.
Participate in a work placement experience.
Participate in a work placement experience.
Participate in a work placement experience.
Relate one’s work placement experience to personal and career goals.
Relate one’s work placement experience to personal and career goals.
Relate one’s work placement experience to personal and career goals.
Relate one’s work placement experience to personal and career goals.
Relate one’s work placement experience to personal and career goals.
Investigate business opportunities in the electrical and electronics industries.
Investigate business opportunities in the electrical and electronics industries.
Investigate apprenticeship in the trades.
Investigate apprenticeship in the trades.