ETAP Training for Electrical Engineers Certified Course

 Course Description;

The ETAP Training for Electrical Engineers stands for Electrical Transient and Analysis Program. ETAP is designed to perform power system analysis, design, simulation, and optimization for power generation, transmission, distribution, and industrial systems.

This course is dedicated to modeling and analysis using ETAP software and its functionalities for successful design & solving various power system practical problems. ETAP is an analytical engineering software that is helpful for an electrical engineer to simulate and analyze the steady-state and dynamic power system. It is used by various sectors such as Generation, Transmission, Distribution, Industrial, Transportation and Low voltage.

Key Features of Course Divine:

• Collaboration with E‑Cell IIT Tirupati
• 1:1 Online Mentorship Platform
• Credit-Based Certification
• Live Classes Led by Industry Experts
• Live, Real-World Projects
• 100% Placement Support
• Potential Interview Training
• Resume-Building Activities

Career Opportunities After ETAP Training for Electrical Engineers:

• Power System Engineer
• Electrical Design Engineer
• Protection & Relay Engineer
• Energy Consultant
• SCADA/Automation Engineer
• Transmission & Distribution Engineer
• Electrical Maintenance Engineer
• Project Engineer / Manager

Essential Skills you will Develop ETAP Training for Electrical Engineers:

• Circuit Design & Analysis
• Power Systems
• Software Proficiency
• Analytical & Problem-Solving Skills
• Industry & Safety Knowledge
• Soft Skills

Tools Covered:

• Electrical Transient Analyzer Program
• MATLAB & Simulink
• AutoCAD Electrical

Syllabus:

Module 1: Introduction to ETAP and Power Systems Overview of ETAP software interface and tools Basics of electrical power systems Creating and managing a new ETAP project One-line diagram creation.

Module 2: Load Flow Analysis Types of load flow methods (Newton-Raphson, Gauss-Seidel) Load flow result interpretation Reactive power management
System optimization techniques.

Module 3: Short Circuit Analysis Types of faults (L-G, L-L, L-L-G, L-L-L-G) Fault current calculation and impact ANSI & IEC standard compliance Protective device coordination.

Module 4: Motor Starting Analysis Static & dynamic motor starting Voltage drop analysis during starting Acceleration time evaluation Soft starter and VFD impact study.

Module 5: Harmonic Analysis Harmonics basics and THD Source and effects of harmonics Harmonic filters design Compliance with IEEE 519.

Module 6: Transient Stability & Dynamic Simulation Time-domain simulation techniques Transient fault behavior Generator stability and rotor angle analysis
Load shedding schemes.

Module 7: Protection & Coordination Relay coordination using TCC curves
Time current characteristics (electromechanical, static, digital) Fuse and circuit breaker settings Relay settings and selectivity.

Module 8: Arc Flash Hazard Analysis Arc flash fundamentals and standards (NFPA 70E) PPE level determination Arc flash label generation Risk mitigation techniques.

Module 9: Cable Sizing & Voltage Drop Analysis Cable selection criteria Voltage drop calculations Thermal capacity and derating Underground and overhead cable modeling.

Module 10: Real-time Monitoring & Reporting SCADA integration with ETAP
Real-time simulation and data visualization Custom report generation Case study and final project submission.

Industry Projects:

• Power System Analysis
• Smart Grid and Energy
• Solar Power Plant Design
• Industrial Automation Project
• Electrical Machines Condition Monitoring

Who is this program for?

• Electrical Engineering Students
• Working Professionals
• Diploma Holders in Electrical Engineering
• Anyone Interested in Core Electrical

 How To Apply:

Mobile: 9100348679

Email: coursedivine@gmail.com