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Day 01 : Introduction to PSCAD/EMTDC Environment
1 Lesson-
StartIntroduction to PSCAD/EMTDC Environment
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Day 02 : PSCAD Interface, Case file creation
1 Lesson-
StartPSCAD Environment, Creating a new case file, workspacefile, Master Library - Components exploration
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Day 04: Three Phase voltage Source Modelling and validation I
1 Lesson-
StartOverlay Graph explanation, Source Modelling and validation, Three phase voltage source model 3, calculation for R & X
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Day 05: Source modelling and validation II, Usage of Fault components
1 Lesson-
StartSource validation, Usage of Fault components, applying SLG and LLL faults, usage of Rotary switch, Assignment 1 description
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Day 06: Load Modelling and Validation - I
1 Lesson-
StartLoad Modelling, role of load modelling in various studies,Types of loads (Voltage dependent), Constant power load - modelling and validation
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Day 08: Transmission Line Modelling - I
1 Lesson-
StartTransmission line modelling, termination style and types - frequency dependent and bergeron model, tower structure modelling
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Day 10: Pi Section Modelling & Cable Modelling and Validation - I
1 Lesson-
StartModelling of Pi section ( Tr line and cable), Cable modelling - intro and types, frequency dependent modelling - Coaxial cable model
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Day 11: Cable Modelling and Validation - II
1 Lesson-
StartFD modelling - Coaxial cable modelling and validation of R X B parameters
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Day 12: Cable Modelling and Validation - III
1 Lesson-
StartPipe type cable modelling & validation of R X B parameters and Simplified cable model
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Day 13: Bergeron Modelling (Tr line and cable) , Mutual coupling, Tandem Configuration, Component wizard and Node connection
1 Lesson-
StartBergeron Modelling (Tr line and cable) , Mutual coupling, Tandem Configuration, Component wizard and Node connection
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Day 14: Shunt Reactor & Capacitor Bank modelling
1 Lesson-
StartShunt Reactor Modelling and Validation,Capacitor bank Modelling and Validation,Fault Logic Component & types of breakers
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TOV Study - Real Time Case Study - Er. S. Selvakumar
4 Lessons -
Transformer Modelling and Validation (2 & 3 Winding)
6 Lessons-
StartDay 16: Transformer Modelling, Introduction, types of transformers in PSCAD, UMEC models
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StartDay 18: Three Phase 2 winding transformer modelling - flux validation, residual flux mechanism, calculations
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StartDay 20: Three Phase 2 winding transformer modelling - inrush current validation using Multiple run block
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StartDay 20: PSCAD Application Guide 25.08.2025
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StartDay 20: Calculation Sheet 25.08.2025
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StartDay 21: Three Phase 3 winding transformer modelling - Flux and Inrush current validation using Multiple run block
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Day 22: Insulation Coordination Study, Standards, TOV
1 Lesson-
StartIntroduction to Insulation Coordination Study, IEC and IEEE standards, Insulation Coordination Procedure
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Day 23: Equipment modelling for TOV Study, Surge Arrester - Introduction, classifications, FD Modelling of Surge Arrester - Modelling & Validation
1 Lesson-
StartEquipment modelling for TOV Study, Surge Arrester - Introduction, classifications, FD Modelling of Surge Arrester - Modelling & Validation
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Day 25: Surge Arrestor energy validation and SFO Study - Introduction
1 Lesson-
StartSurge Arrestor energy validation and SFO Study - Introduction
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Day 28: Assignment reviewing & Solutions, Q/A session
1 Lesson-
StartAssignment reviewing & Solutions, Q/A session
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Day 29: Introduction to VFTO study, Standards & references, Modelling of GIS for VFTO study
1 Lesson-
StartIntroduction to VFTO study, Standards & references, Modelling of GIS for VFTO study
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Day 30: Modelling of GIS components, detailed modelling of Disconnector Switch and GIS bus bar
1 Lesson-
StartModelling of GIS components, detailed modelling of Disconnector Switch and GIS bus bar
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Day 31: Modelling of GIS components, detailed modelling of Earth switch, CT, PT, Circuit breaker, conclusion of modelling part
1 Lesson-
StartModelling of GIS components, detailed modelling of Earth switch, CT, PT, Circuit breaker, conclusion of modelling part
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Day 32: Assignment reviewing & Solutions, Q/A session
1 Lesson-
StartAssignment reviewing & Solutions, Q/A session
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Day 33: Introduction to TRV study, Definitions and Standards for TRV
1 Lesson-
StartIntroduction to TRV study, Definitions and Standards for TRV
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Day 34: Introduction to TRV study, Definitions and Standards for TRV
1 Lesson-
StartIntroduction to TRV study, Definitions and Standards for TRV
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Day 35: Introduction to Ferro-resonance Study, Modelling for Ferro-resonance study, Formulating cases
1 Lesson-
StartIntroduction to Ferro-resonance Study, Modelling for Ferro-resonance study, Formulating cases
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Day 36: Real Time Case study - Input requirement sheet preparation
1 Lesson-
StartReal Time Case study - Input requirement sheet preparation
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Day 37: Real Time Case study - SLD Review, System description
1 Lesson-
StartReal Time Case study - SLD Review, System description
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Day 38: Transmission line model, effect of source impedance
1 Lesson-
StartDay 38: Transmission line model, effect of source impedance
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Day 39: Real Time Case Study - Equipment modelling for TOV Study
1 Lesson-
StartReal Time Case Study - Equipment modelling for TOV Study
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Day 40: Real Time Case Study - Cases creation for TOV Study, Results
1 Lesson-
StartReal Time Case Study - Cases creation for TOV Study, Results
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Day 41: Real Time Case Study - TOV Conclusion, Equipment Modelling for SFO Study
1 Lesson-
StartReal Time Case Study - TOV Conclusion, Equipment Modelling for SFO Study
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Day 42: Cases creation for SFO Study, Inference and results of SFO study.
1 Lesson-
StartCases creation for SFO Study, Inference and results of SFO study.
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Day 43: Real Time Case Study - Results Inference of SFO Study, Conclusion of SFO Study
1 Lesson-
StartDay 43: Real Time Case Study - Results Inference of SFO Study, Conclusion of SFO Study
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Day 44: Real Time Case Study - FFO Study, Equipment modelling for FFO Study
1 Lesson-
StartReal Time Case Study - FFO Study, Equipment modelling for FFO Study
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Day 45 : Real Time Case Study - Equipment modelling for FFO Study, Cases creation of FFO
1 Lesson-
StartReal Time Case Study - Equipment modelling for FFO Study, Cases creation of FFO
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Day 46: Real Time Case Study - Analysis and observations on FFO Study, Conclusion of FFO Study
1 Lesson-
StartReal Time Case Study - Analysis and observations on FFO Study, Conclusion of FFO Study
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Day 47: Real Time Case Study - Introduction of VFTO Study, Equipment modelling - Disconnector switch VFTO modelling, Simulation
1 Lesson-
StartReal Time Case Study - Real Time Case Study - Simulation of VFTO Study, Observation and Inference; Conclusion of VFTO Study
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Day 48: Real Time Case Study
1 Lesson-
StartDay 48: Real Time Case Study - Simulation of VFTO Study, Observation and Inference; Conclusion of VFTO Study
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Day 49: Assignment reviewing & Solutions, Q/A session
1 Lesson-
StartAssignment reviewing & Solutions, Q/A session
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Day 50: Real Time Case Study - TRV Study, Equipment modelling for TRV Study
1 Lesson-
StartReal Time Case Study - TRV Study, Equipment modelling for TRV Study
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Day 51: Real Time Case Study - Cases creation of TRV Study, Inference and observations, Recommendations and mitigations of TRV
1 Lesson-
StartReal Time Case Study - Cases creation of TRV Study, Inference and observations, Recommendations and mitigations of TRV
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Day 52 : Real Time Case Study - Ferroresonance, Equipment modelling for ferroresonance study, Analysis and observations of ferroresonance study
1 Lesson-
StartReal Time Case Study - Ferroresonance, Equipment modelling for ferroresonance study, Analysis and observations of ferroresonance study
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Day 53: Conclusion of Ferroresonance study, Report Preparation, Contents, Section wise topics, analysis, inference, conclusion
1 Lesson-
StartConclusion of Ferroresonance study, Report Preparation, Contents, Section wise topics, analysis, inference, conclusion
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Day 54: Basics of HVDC
1 Lesson-
StartIntroduction to HVDC: Types, Need,Benefits, Why HVDC? Types (LCC vs VSC),Applications,Comparison: HVAC vs HVDC, HVDC Configuration: Mono-polar, Bipolar,Back-to-Back
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Day 13 - TL foreign ends, Global substitution, Introduction to insulation coordination
5 Lessons
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5
Top Rated
DIWAKAR VISHWAKARMA
The best place to upskill in power system studies
Excellent PSCAD training with clear explanations, practical simulations, and strong technical depth. The institute offers highly professional, well-structured sessions with real-time case studies and supportive trainers. A perfect blend of theory and practice—truly the best place to upskill in power system studies.
Sasadhar Sasadhar Guchhait
Insulation Coordination using PSCAD – Excellent Course for EHV Power System Engineers
Insulation Coordination study, without which the “EHV Engineering” is incomplete, is an excellent course STEP-BY-STEP and in well-structured way designed by Power Projects. It clearly shows how to start performing Insulation Coordination from very BASIC level to ADVANCED level along with Real-time project examples. With consistency and belief in Power Projects team, one can grow as really a Power System Engineer enriching with huge technical concepts and real-time project environment.
Atiq ur rahman Rehman
Insulation Coordination Course
The insulation Coordination course was very comprehensive, allowing me to grasp all the EMT modeling aspects and deep dive into PSCAD modeling. Highly recommended Power Projects team to deliver a wonderful course in an economical cost.
Venkata Naga Jagadish Jagdish
Insulation Coordination using PSCAD Software
Power Projects’ course on Insulation Coordination using PSCAD Software is an extensive program designed for engineers seeking to deepen their understanding of transient phenomena in electrical systems. Starting with an introduction to PSCAD, the course expertly guides participants through essential topics such as steady-state analysis, electro-mechanical and electromagnetic transients, and comprehensive source modeling. It allows learners to explore critical aspects of grid and load modeling, as well as transmission line and cable modeling, equipping them with the skills necessary to manage complex scenarios like sliding faults and their validations. The structured approach ensures that participants not only learn how to use PSCAD effectively but also understand the underlying principles essential for accurate system analysis. The curriculum also dives into advanced concepts of insulation coordination, covering topics such as Temporary Overvoltages (TOV) and reactor modeling, as well as the role of surge arrestors and capacitor banks. Additional modules on GIS modeling, transformer energization, and TRV studies further round out the training, providing a well-balanced perspective on insulation coordination practices. This hands-on course emphasizes practical applications, enhancing learners' capability to apply theoretical knowledge to real-world situations. Overall, Power Projects delivers a vital and comprehensive foundation for engineering professionals looking to specialize in insulation coordination and transient analysis.
Mohana krishna Duvva
Excellent course to learn PSCAD
One can learn from basics to advanced things in PSCAD after completing this course
Abel Paul Thomas -
Good beginning to grab concepts and working on pscad
Excellent way to understand concepts and learn the tools in pscad.. instructors were good ...
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