This expert-level course is designed for experienced engineers and senior technicians responsible for the design, management, and safety of comprehensive power systems. It provides a deep dive into the distinct engineering principles, equipment specifications, and regulatory standards that govern the full spectrum of electrical power, from high-voltage transmission to low-voltage utilization.
This expert-level course offers an in-depth understanding of power distribution systems across all voltage domains from residential LV systems to industrial MV networks and utility-scale HV grids. It’s designed for engineers and technicians seeking mastery over electrical distribution, system coordination, and safety compliance.
Learners will gain both theoretical knowledge and hands-on exposure to real-life installations, protection coordination, and performance optimization in different voltage networks.
- Fundamental differences between LV, MV, and HV electrical systems.
- System design principles, insulation coordination, and fault management.
- Equipment selection: switchgear, circuit breakers, transformers, relays, and cables.
- Testing, protection, earthing, and safety procedures across all voltage levels.
- Industrial applications, commissioning, and troubleshooting methods.
In This Course You Will Be Able To:
- Design and analyze LV, MV, and HV distribution systems.
- Perform cable sizing, insulation selection, and fault calculations.
- Implement and test protection and earthing schemes.
- Coordinate switchgear and transformer selection as per IEC & IS standards.
- Supervise commissioning and preventive maintenance activities for power systems.
Curriculum
- 7 Sections
- 0 Lessons
- 4 Weeks
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- Introduction to Power System ClassificationEstablish a clear framework by defining the technical and regulatory ranges for Low (LV), Medium (MV), and High (HV) systems. This module covers the critical international standards (IEC, ANSI), typical applications for each voltage class, and the functional differences between them.0
- Low Voltage Systems (Up to 1kV)Dive into the detailed design of residential and commercial distribution. You will master cable selection, load balancing techniques, and the application and coordination of LV switchgear, including MCBs (Miniature Circuit Breakers), MCCBs (Molded Case Circuit Breakers), and ACBs (Air Circuit Breakers).0
- Medium Voltage Systems (1kV – 33kV)Address the unique challenges of industrial and utility distribution networks. This module focuses on transformer selection, proper earthing/grounding systems, and the configuration of MV switchgear (e.g., VCBs, RMUs), complete with its associated protection and metering schemes.0
- High Voltage Systems (Above 33kV)Explore the principles of power transmission and HV substation design. This section covers specialized topics such as insulation coordination to protect against transient overvoltages, high-voltage testing procedures, and the layout of key substation components.0
- System Protection & CoordinationMaster the art and science of power system protection. You will learn to perform fault level calculations, properly select Current and Potential Transformers (CTs/PTs), and design selective coordination schemes. This module features hands-on simulation using ETAP to validate relay settings and ensure system reliability.0
- Commissioning & SafetyFocus on the critical practices for system deployment and safety compliance. This module covers essential international standards (IEC, IEEE, NFPA 70E), preventive/predictive maintenance, and vital safety protocols, culminating in the performance of comprehensive arc-flash hazard studies.0
- Capstone ProjectIntegrate all acquired knowledge in a final capstone project. You will design a complete multi-voltage distribution system—from the LV load up to the HV incomer—including a full protection and coordination study, which will be presented for evaluation by industry experts.0
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Yes, you’ll use E-TAP and AutoCAD Electrical for analysis and design documentation.
It’s a blend of both with live switchgear, simulation tools, and real case projects.
You’ll earn the Enrun Certified Power Systems Specialist credential upon completion.
Requirements
- Diploma / Degree in Electrical or Electronics Engineering.
- Prior exposure to electrical circuits, switchgear, or power systems recommended.
Features
- Industry-focused practical assignments.
- Real-time fault simulation & E-TAP case studies.
- Exposure to industrial-grade switchgear and testing kits.
- Certification recognized by electrical utilities and EPCs
Target audiences
- Electrical Engineers & Professionals in utilities, EPCs, and industrial maintenance.
- Design Engineers focusing on substation or power distribution projects.
- Technicians and Supervisors managing installation and testing of switchgear and transformers.