Onsite Training · Johannesburg, SA

Electrical Safety, Protection and Relays

Hands on learning in protection, relays, and Safe Systems of Work

A 2-day training program designed for technicians and engineers to build a solid understanding of electrical safety, the perils of arc flash, protection systems, and protective relays.

13th – 14th July 2026 Johannesburg - South Africa

Registration08:30 am – 09:00 am
Morning Sessions09:00 am – 01:00 pm
Networking Luncheon01:00 pm – 02:00 pm
Afternoon Session02:00 pm – 05:00 pm
Secure Your Seat View Agenda Download Brochure
Engineering Mode
System Protection
COMPLIANT
Arc Flash & Relays TEST READY ✓
Standards Update
IEC, IEEE, NFPA
Corporate Focus
Safe Systems
Course Duration
2 Days
Format
Onsite Face-to-Face Training
Location
Johannesburg - South Africa
Certification
Certificate of Attendance
Core Focus
NFPA/70E, IEC and IEEE standards
EXPERT
David Davenport – Course Facilitator
40+ Years Engineering Expertise

David Davenport

Chief Consultant Engineer - ESIPAC

Technical Director - Transmag UK

This course will be delivered by an experienced Electrical Engineer with over 40 years of expertise commencing as an electrical apprentice in the Mining industry.

Going on to continued and further studies throughout his career, David has led a career of project management on electrical infrastructure, electrical apparatus and safety procedures. He has led significant projects across a diverse range of industries including aerospace, mining, oil & gas, data-centres, heavy industry, marine and micro grids.

Certifications & Achievements

CEng in Electrical Engineering, HNC & ONC Electrical Engineering, NEBSS, IOSH Safety Certificate, Authorised Person LV & Senior Authorised Person (Safe Switching HV). Member of MIET and Fellow of Leadership and Management Institution (MInstLM). Recently awarded in The House of Lords for service to industry.

SAFETY

Course Overview

This two day training program is designed for technicians and engineers to build a solid understanding of electrical safety, the perils of arc flash and the hierarchy of control. We then move on to protection systems and protective relays, the requirements for power systems including integration of redundancy and emergency power.

The course follows international NFPA/70E; IEC and IEEE standards, combining theoretical fundamentals with practical applications and hands on examples.

Participants will start with the fundamentals of safety whilst switching/working on/or nearby live circuits. The core concepts of appropriate protection and integration schemes will progressively move to complex, with time allocated for interactive Q&A and discussions.

Key Learning Outcomes

Understand HV and LV electrical protection systems, fault analysis and short circuit studies.

Learn the critical role of CTs and VTs in relaying accurate signals and proper selection.

Familiarize with overcurrent, differential, distance, motor, generator, and transformer protection.

Develop the ability to diagnose issues and apply best practices to mitigate risks in critical settings.

Acquire hands-on experience in testing and relay coordination.

Why You Should Attend

Bridge the gap between textbooks and practical engineering applications to ensure operational excellence and safety on site.

Strengthen Competence

Reduce the risk of equipment damage, life threatening failures, and power system downtime through expert relay coordination.

🌍

International Standards

Learn how to implement IEC and IEEE standards in practical protection schemes that meet global safety benchmarks.

🛠️

Bridge the Gap

Move beyond textbooks into hands-on applications, real-life case studies, and interactive discussions.

🛡️

Work Smarter & Safer

Leverage techniques to improve system reliability, reduce downtime, and prevent catastrophic failures.

🚀

Stay Ahead in a Fast Evolving Field

As technologies evolve and systems become more integrated, understanding protection relay design, settings, and testing methods is critical for operational excellence.

AGENDA

Training Agenda

2-Day Onsite Face-to-Face Programme

Day 1
Electrical Safety, Arc Flash, Fault Studies & Protection
Session 1: Course Objectives, Electrical Safety and HV/LV Protection Standards
  • Assess improvements in understanding electrical safety, process and planning.
  • Overview of HV and LV protection setups, relay types, and breaker systems.
  • Intro to IEC and IEEE standards governing protective relaying practices.
Session 2: Electrical Safety and Arc Flash Practices
  • Electrical safety as paramount to worker competence and confidence.
  • Improving risk assessments and applying the hierarchy of controls.
  • Prevention of arc flash through careful planning and evaluating inadvertent causes.
Session 3: Faults, Short Circuit Studies and CT/VT Fundamentals
  • Fundamentals of electrical faults, short circuit analysis, and calculation of fault currents.
  • Current and voltage transformers providing critical inputs to protective relays (ratio, accuracy class, burden, saturation).
Session 4: Overcurrent and Earth Fault Protection
  • Overcurrent and earth fault protection in HV and LV systems.
  • Instantaneous and time-delayed tripping using inverse time characteristics.
  • Detection and clearance of residual and ground fault currents.
Day 2
Protection Relays, Testing & Emergency Power Integration
🛡️
Session 1: Differential Protection
  • Principle of differential protection for detecting internal faults.
  • Application considerations: CT ratio matching, pickup settings, and stabilisation.
Session 2: Motor and Generator Protection & Black-Start
  • Protection and control schemes for motors and generators (thermal overload, locked rotor).
  • Generator protections including reverse power, loss-of-excitation, and black-start schedules.
Session 3: Transformer Protection
  • Transformer fault scenarios and dedicated protection methods.
  • Electrical and mechanical protection (REF, Buchholz relays, pressure relief).
Session 4 & 5: Safety, Relay Testing & Commissioning
  • Value of protection relays in preventing life loss and catastrophic failures.
  • Relay testing and commissioning using primary and secondary injection (e.g. OMICRON).
  • Interpretation of results, maintenance and calibration.
Final Q&A, Course Wrap Up and Feedback
  • Open Q&A to reinforce learning and revisit key concepts.
  • Summary of key takeaways and overall electrical safety framework.
08:30 – 09:00 amRegistration & Coffee Break
09:00 – 11:00 amCourse Session
11:00 – 11:30 amNetworking & Coffee Break
11:30 – 01:00 pmCourse Session
01:00 – 02:00 pmNetworking & Luncheon
02:00 – 03:00 pmCourse Session
03:00 – 03:30 pmNetworking Break
03:30 – 05:00 pmCourse Wrap-up

Who Should Attend?

This intensive engineering program is ideal for technical professionals overseeing the reliability and safety of high-stakes electrical infrastructure.

  • 🛡️
    Chief Safety / Maintenance Officers ensuring compliance and mitigating arc flash hazards
  • ⚙️
    O&M Professionals & Reliability Engineers optimizing uptime and protective relays
  • 📋
    SHE / HSE Officers responsible for safe systems of work and isolation procedures
  • 🔌
    Chief Electrical & Power Systems Engineers managing grid stability and substation commissioning
  • 👔
    CTO / COO & Asset Management Officers overseeing critical power infrastructure investments

Course Deliverables

Everything you need to implement robust safe systems of work immediately

  • 🎓
    Certificate of Attendance

    Recognized documentation of your technical safety training.

  • 📋
    Testing & Coordination Frameworks

    Ready-to-use workflows for OMICRON injection testing and relay coordination.

  • 📚
    Comprehensive Material

    Hard copies of all presentations, step-by-step guides, and engineering case studies.

  • 🔍
    Diagnostic Risk Assessments

    Frameworks to evaluate arc flash boundaries, HOC, and short circuit analysis.

FAQ

Frequently Asked Questions

A 2-day hands-on training program designed to equip technicians and engineers with a solid understanding of electrical safety, arc flash prevention, hierarchy of control, and protective relay systems based on IEC, IEEE, and NFPA standards.

Chief Safety Officers, Maintenance Officers, O&M Professionals, Asset Integrity Engineers, SHE/HSE Officers, Protection & Control Engineers, and Chief Electrical Engineers.

The course covers HV and LV protection systems, CT/VT fundamentals, overcurrent and earth fault protection, differential protection, motor/generator protection, arc flash assessments, and relay testing/commissioning.

The course is delivered as an Onsite Face-to-Face Training spanning 2 days (13th - 14th July 2026) in Johannesburg, South Africa.

Individual delegates are USD 2,795, groups (2-4) are USD 2,595/delegate, and corporate groups (5+) are USD 2,395/delegate. The fee covers all course material, lunch, and refreshments (hotel accommodation not included).

Yes, all participants will receive a Certificate of Attendance from InduLead International upon successfully completing the training.

Investment & Registration

Event Code: IL-EPSR-015  |  13th – 14th July 2026  |  Johannesburg - South Africa

Delegate 1

USD 1,295

Book 1 delegate

Per delegate

Group

USD 995

Book 2 to 4 delegates

Per delegate · Best Value

Corporate

USD 795

Book 5 or more

Per delegate · All pricing excl. taxes

Enrollment Application

Payment is required within 5 working days of receiving the invoice. For 6+ delegates, contact us directly at training@indulead.com