High Voltage Three Phase Systems Online Course

Master short circuit analysis and system modelling in HV three-phase networks

Overview

This online course delivers a sharp and structured exploration of high voltage three-phase systems, tailored for professionals and technical enthusiasts seeking to deepen their understanding of electrical power analysis. Through focused modules ranging from symmetrical components to system modelling, it breaks down the complexity of fault scenarios and analysis methods without overloading you with jargon.

Covering essentials such as per unit analysis, base conversions, transformer behaviour, and both symmetrical and asymmetrical faults, the course offers a clear path through the intricacies of high voltage systems. It’s designed for those who prefer logic over lectures, structure over fluff, and equations that actually add up.

Learning Outcomes

• Understand the principles of high voltage fault analysis and response.
• Perform per phase and per unit system calculations confidently.
• Analyse transformer impacts using per unit transformation rules.
• Evaluate short circuit scenarios using symmetrical components.
• Interpret asymmetrical fault patterns in three-phase systems.
• Model high voltage systems for accurate electrical fault simulation.

Course Curriculum

• Module 1: Introduction to Short Circuit Analysis for HV Three Phase Systems
• Module 2: Short Circuit Fault Analysis Overview
• Module 3: Per Phase Analysis
• Module 4: Per Unit Analysis
• Module 5: Change of Base
• Module 6: Transformers – Per Unit Analysis
• Module 7: Symmetrical Components
• Module 8: Asymmetrical Three Phase Fault Analysis
• Module 9: System Modelling

Who is this Course For

• Engineers seeking a sharper grasp of HV system behaviour.
• Electrical graduates preparing for industry-level network analysis.
• Technicians working with substations or industrial HV systems.
• Grid analysts responsible for short circuit fault studies.
• Energy consultants handling transmission system evaluations.
• Maintenance professionals focused on HV fault identification.
• Academics building specialisation in electrical power systems.
• Anyone curious about three-phase fault calculations and modelling.

Career Path

• Power Systems Engineer – Average £48,000/year
• Electrical Design Engineer – Average £42,500/year
• Transmission Planning Engineer – Average £50,000/year
• Grid Protection Analyst – Average £47,000/year
• HV Electrical Consultant – Average £55,000/year
• Substation Systems Engineer – Average £45,000/year