What will you learn in Electrical Power Equipment Course
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Understand the roles and operation of key electrical power equipment within a network
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Differentiate between conductors and insulators and their design considerations
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Analyze circuit breaker types and their application across voltage levels
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Apply grounding principles to ensure system safety and reliability
Program Overview
Module 1: Introduction
⏳ 3 minutes 38 seconds
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Topics: Course overview and network architecture fundamentals
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Hands-on: Navigate the course interface and preview network components
Module 2: Conductors & Insulators
⏳ 18 minutes 12 seconds
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Topics: Material properties, dielectric strength, mechanical considerations
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Hands-on: Calculate conductor sizing and insulator clearances
Module 3: Circuit Breakers
⏳ 16 minutes 55 seconds
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Topics: Overcurrent protection, breaker types, fault discrimination
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Hands-on: Compare breaker characteristics for different voltage classes
Module 4: Grounding
⏳ 16 minutes 17 seconds
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Topics: Grounding systems, touch vs. step potential, earthing electrodes
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Hands-on: Design a grounding grid for a simple substation layout
Module 5: Network Design
⏳ 15 minutes (approx.)
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Topics: System configuration, radial vs. meshed networks, reliability metrics
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Hands-on: Sketch a basic radial distribution network for a small facility
Module 6: Low-Voltage Systems
⏳ 15 minutes (approx.)
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Topics: House wiring standards, panel boards, protective devices
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Hands-on: Lay out a low-voltage distribution panel for a residential load
Module 7: Electrical Cables
⏳ 17 minutes (approx.)
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Topics: Cable construction, insulation types, ampacity calculations
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Hands-on: Select cable ratings for a specified current and installation method
Module 8: Overhead Lines
⏳ 18 minutes (approx.)
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Topics: Conductor sag, clearance requirements, mechanical loading
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Hands-on: Determine minimum clearance distances for a medium-voltage line
Module 9: Transformers
⏳ 18 minutes (approx.)
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Topics: Turns-ratio, losses, cooling methods, impedance calculations
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Hands-on: Compute secondary voltages given primary ratings and turns-ratio
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Job Outlook
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Electrical and electronics engineers earn a median $111,910 annually in the U.S. (May 2024)
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Employment of electrical engineers is projected to grow 7 percent from 2020 to 2030, adding roughly 23,000 new jobs
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Skills in power generation, transmission, and distribution are in high demand across utilities and industrial sectors
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Opportunities include substation design, utility network planning, and freelance power system consulting
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