-
Load Flow Analysis
15 Lessons-
StartDay 1: Introduction
-
StartDay 2: Ferranti Effect and SIL
-
StartDay 3: OLTC - Part 1
-
StartDay 4: OLTC - Part 2
-
StartDay 5: Transformer Modelling & ZIP Load Modelling
-
StartDay 6: Power Factor Correction
-
StartDay 7: Paralleling of Transformer
-
StartDay 8: Modelling of Three Winding Transformer and Generator Capability Curve
-
StartDay 9: Generator Modes of Operation
-
StartDay 10: Active Power Control & Tower Modelling
-
StartDay 11: Case Study - 30 MWac Solar Plant Part 1
-
StartDay 12: Case Study - 30 MVac Solar Plant Part 2
-
StartDay 13: Second Case Study - Solar Plant
-
StartDay 14: How to Create Operation Scenarios in DIgSILENT PowerFactory
-
StartDay 15: Contingency Analysis
-
-
Short Circuit Analysis
13 Lessons-
StartDay 1: Introduction
-
StartDay 2: Grid Short Circuit Current Calculation
-
StartDay 3: Per Unit Calculation and RMS Simulation
-
StartDay 4: Short Circuit Current Calculation and RMS Simulation
-
StartDay 5: Fault Near to the Source
-
StartDay 6: Fault Away from the Source and Introduction to Unbalanced Faults
-
StartDay 7: Introduction to Unbalance Fault and Symmetrical Components
-
StartDay 8: Fault Current Calculation and NGR
-
StartDay 9: Generator Grounding and Zigzag Transformer
-
StartDay 10: Zigzag Transformer + NGR
-
StartDay 11: Methods of Limiting Short Circuit Current
-
StartDay 12: Series Reactor
-
StartDay 13: IEC 60909 - Methods of Short Circuit Current Calculation and Grounding Factors
-
-
Short Circuit Analysis Materials
8 Lessons-
StartSC PPT
-
StartShort Circuit Calculation Basics
-
StartSample Calculation - 110/11 kV 45 MVA Transformer
-
StartGenerator Fault Current Calculations
-
StartSymmetrical Components PPT
-
StartSymmetrical Component Calculations
-
StartLG,LL,LLG,LLG Fault Calculations
-
StartZig Zag Transformer Sizing Calculations
-
-
Motor Acceleration Study
11 Lessons-
StartDay 1: Introduction to MAS
-
StartDay 2: MAS Basics and Motor Datasheet
-
StartDay 3: Motor Static Study Simulation
-
StartDay 4: Motor Static Study Simulation and Calculation
-
StartDay 5: MAS Dynamic Acceleration Study
-
StartDay 6: Simulation - MAS Dynamic Acceleration Study
-
StartDay 7: MAS Dynamic Simulation of Multiple Motors
-
StartDay 8: Star Delta Starter
-
StartDay 9: Rotor Resistance & Series Reactor Starting Methods
-
StartDay 10: Series Reactor Calculation - Auto Transformer Starter
-
StartDay 11: Soft Starter and Variable Speed Drive
-
-
Relay Coordination
6 Lessons-
StartDay 1: Basics of Relay Coordination
-
StartDay 2: Overcurrent and Earth Fault Protection for Motor feeder
-
StartDay 3: Overcurrent and Earth Fault Protection for Transformer feeder
-
StartDay 4: Setting Calculation for Bus Coupler and Incomer Feeder
-
StartDay 5: Introduction to LV Protection and Case Study
-
StartDay 6: Continuation of Case Study and Directional Protection
-
-
Harmonic Analysis
6 Lessons-
StartDay 1: Introduction to Harmonics
-
StartDay 2: IEEE 519 - 2014 Standard -IEEE Recommended Practice and Requirements for Harmonic Control in Electric Power Systems
-
StartDay 3: Harmonic Analysis Simulation
-
StartDay 4: Filter Design and Frequency Sweep
-
StartDay 5: Passive Filter Modelling
-
StartDay 6: Filter Design and Flicker Analysis
-
-
Harmonic Analysis Materials
8 Lessons
Power Projects
Typically replies within minutes
Typically replies within minutes
I am looking for:
Reviews
5
Top Rated
Adhil Thangal -
Outstanding Digsilent PowerFactory Course
I just finished the Digsilent PowerFactory course, and it was outstanding! The course covered key topics in power system modeling and analysis. The instructors were incredibly knowledgeable and made challenging concepts easy to understand. They included many hands-on examples that really helped reinforce what I learned. I highly recommend this course to anyone wanting to improve their skills in power system analysis with Digsilent PowerFactory.
Rahul Patel
DIGSILENT POWERFACTORY TRAINING COURSE
The course is a well-structured and in-depth program focusing on advanced topics such as Harmonic Analysis, Arc Flash Analysis, and Electromagnetic Transient Studies. It emphasizes practical applications using DIgSILENT, equipping participants with essential tools to solve real-world problems. A key aspect is the inclusion of Grid Compliance Studies, ensuring attendees are familiar with industry standards crucial for their professional growth. The hands-on sessions promote collaboration and deeper understanding, enhancing skills in complex analysis and result interpretation. Additionally, experienced instructors provide valuable industry insights, enriching the learning experience. Overall, the course offers a robust educational opportunity for professionals aiming to advance their expertise in power systems analysis.
Venkata Naga Jagadish Neelamraju Neelamraju
Digsilent PowerFactory Training Course
One of the highlights of the course is its attention to advanced topics like Harmonic Analysis, Arc Flash Analysis, and Electromagnetic Transient (EMT) Studies. Power Projects does a remarkable job of delving into these subjects, offering insights into how to utilize DIgSILENT effectively to tackle real-world challenges. The inclusion of Grid Compliance Studies further informs participants about the industry standards they need to adhere to, making this course both relevant and timely. The hands-on practical sessions are particularly noteworthy. Each participant is encouraged to engage with the software in a collaborative environment, applying the concepts learned to simulated case studies. This interactive approach facilitates a deeper comprehension of how to execute complex analysis and interpret results proficiently. Moreover, the expert instructors bring a wealth of experience, offering valuable tips and tricks based on industry best practices.
Rate this course