• understand what are the types of buses in power system.
• Directional Relay Protection Types and Application on ETAP.
• Differential Relay Protection (Busbar, Cable, and Transformer).
• understend types of faults
• understand the differences between ARC flash boundaries.
• understand the reason for grounding system
• understand What are harmonics
• Grounding Mate Calculations
• Transformer Design Calculation
• Relay Coordination Study
• Unbalanced Load Flow analysis
• Power System Design and Analysis using ETAP
• Motor Starting Study
• Load Flow Analysis
• Underground Cables Selection and Sizing
• Transformer Sizing
• Unbalanced Short Circuit Analysis.
• Optimum Capacitor bank sizing and placement
• Cable Pulling System
• understand ArC Flash problem
• Motor Protection Methods.
• DC Load Flow
• DC Short Circuit
• DC battery sizing
• Distance Relay Protection
• LV Protection Distribution system Coordination

If you want to start your career in Power System Design and make money from it? Or if you are interested in Electrical Engineering track? 

Then this course is the one you need. As it’s the only course which contains all this information in one Place.

This course provides some knowledge in power system modeling and analysis by utilizing the ETAP program and its features. This will enable you to effectively design and resolve different actual power system issues.

You will acquire the knowledge and skills to model and evaluate the steady-state and dynamic power system, and to perform various analysis such as arc-flash analysis, UnderGround Raceway System (URS), Cable Pulling System, transient stability, Motor Protection, motor starting analysis, short-circuit analysis, harmonics analysis, protection examples (OverCurrent Relay, Directional relay, Differential Relay, Frequency Relay, Reverse Power Relay and Voltage Relay), earthing analysis, Unbalanced Load Flow analysis, Unbalanced Short Circuit analysis, DC Short Circuit analysis, DC Load Flow analysis, Cable Sizing, Cable Pulling System, Control System Diagram and Transformer Sizing).

The course will begin with the ETAP software overview, basics of one-line diagram creation, and data entry, and quickly expand the users’ knowledge to include methods to automatically perform multiple ‘what if’ studies using multiple scenarios.

Also covered in the course is how to use ETAP to simulate transient stability analysis. In a short amount of time, the user can learn to automatically conduct numerous “what if” analyses utilizing various situations, as well as generate a single-line diagram and enter data. In order to make the concepts easier to understand for the attendees, the topics are presented with both theoretical and practical calculations.

Ultimately, you will have a foundational understanding of voltage-dependent relay coordination for a generator, as well as how to accomplish protection coordination in power systems. In order to ensure that the electrical system’s many protection devices – relays, breakers, fuses, etc. – are properly coordinated and sized for the equipment they safeguard, a protection coordination study is conducted.

Topics will be covered:

1. Load Flow using manual calculations or using Etap 19.

2. Short Circuit Study based on IEC 60909 and 61363.

3. Arc Flash Study and Label production.

4. Optimum Capacitor bank sizing and placement.

5. Over current protection.

6. Differential Relay Protection (Busbar, Cable, and Transformer).

7. Directional Relay Protection.

8. Motor Protection Methods.

9. Distance Relay Protection.

10. 3D Multi-dimensional Database.

11. DC Control System Diagram (CSD).

12. Switching Sequence Management

13. Optimum Power Flow.

14. Reverse Power Relay Protection.

15. Cable Pulling System.

16. Design a Grid-tie photovoltaic solar system with its load flow analysis.

17. Learn the idea behind the transient stability analysis.

18. Perform the transient stability analysis.

19. DC Load Flow Analysis.

20. DC Short Circuit Analysis.

21. DC ARC Flash Study.

22. DC Battery Sizing Calculation.

23. UnderGround Raceway System

24. VFD dynamic Motor starting Analysis.

25. Unbalanced Load Flow Analysis.

26. Unbalanced Short Circuit Analysis.

27. Power System Stability and Perform transient stability study.

28. Difference between Static and Dynamic Motor Starting Study.

29. Over Current Relay Settings and Star Protection.

30. Harmonics and Filter Sizing and Selection.

31. Grounding Grid Sizing.

32. Solar Array and Wind Power Plant load flow

33. Transformer Sizing

34. Underground Cables Selection and Sizing

In this Course

• You would find these tracks to be simple to pick up.

• We’ll elevate your degree of designing and analysis from scratch.

• You’ll study using an engaging, hands-on approach that will help you understand without getting bored.

To succeed, all you need is an insatiable desire and an open mind!

So don’t hesitate and click “Buy Now ” button so you can begin on the right path!

Start your Electrical Engineering career now with many practical Power System Analysis Examples accepts in our course.

Who this course is for:

• Electrical Engineer
• Beginners Who Are New To ETAP Software
• Graduate Electrical Engineers For Cracking The Interviews
• Project Engineers
• Electrical Operators
• Electrical Technicians
• Electrical Engineering Students Preparing Their Projects.