- Pre-recorded videos with online access
- Free updates
- Free certification
- Free technical support
sample parts
Main Training (Pre-recorded sections)
- P 01 (6 min, April 08, 2022): Course Contents and details
- P 02 (11 min, April 08, 2022): Introducing DIgSILENT
- P 03 (6 min, April 08, 2022): Comparision of common power system study software
- P 04 (7 min, April 08, 2022): Brief overview of DIgSILENT environment
- P 05 (11 min, April 08, 2022): DIgSILENT menu
- P 06 (13 min, April 08, 2022): DIgSILENT menu
- P 07 (17 min, April 08, 2022): Study tools in DIgSILENT
- P 08 (08 min, April 08, 2022): Creating a simple 3-bus system in DIgSILENT
- P 09 (17 min, April 08, 2022): Line / cable modeling and parameters
- P 10 (8 min, April 08, 2022): Generator modeling and parameters
- P 11 (7 min, April 08, 2022): Transformer modeling and parameters
- P 12 (9 min, April 08, 2022): Loads and busbar modeling and parameters
- P 13 (11 min, April 12, 2022): DIgSILENT Graphics, tools, and applications
- P 14 (12 min, April 12, 2022): DIgSILENT Graphics, tools, and applications
- P 15 (5 min, April 12, 2022): DIgSILENT Graphics, tools, and applications
- P 16 (10 min, April 12, 2022): Elements in DIgSILENT
- P 17 (8 min, April 12, 2022): Different scenarios, case studies, Variations
- P 18 (7 min, April 12, 2022): Different scenarios, case studies, Variations
- P 19 (10 min, April 16, 2022): Equipment modeling; External Grid
- P 20 (6 min, April 16, 2022): Load
- P 21 (4 min, April 16, 2022): Breaker/switch
- P 22 (12 min, April 12, 2022): Synchronous generator
- P 23 (6 min, April 16, 2022): Transformer
- P 24 (11 min, April 16, 2022): Line
- P 25 (7 min, April 16, 2022): Cable and Shunt/filter C or capacitor bank
- P 26 (16 min, April 21, 2022): Power flow study; Study setting
- P 27 (16 min, April 21, 2022): Power flow study; Different output and reporting
- P 28 (15 min, April 21, 2022): N-1 study; Study setting
- P 29 (14 min, April 21, 2022): N-1 study; Different output and reporting
- P 30 (15 min, April 22, 2022): Short-circuit study; Study setting
- P 31 (12 min, April 22, 2022): Short-circuit study; Different output and reporting
- P 32 (18 min, April 22, 2022): Transient study; Defining different events; Study setting
- P 33 (20 min, April 22, 2022): Transient study; Study setting; Different output and reporting
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Supplementary files:
- DIgSilent PowerFactory 15 User Manual
- Load Flow Analysis in DIgSILENT PowerFactory
- Load Flow and Dynamic Simulation with the Palau Grid
- Load Flow and Short Circuit Calculation (Training Material)
- Load flow Calculations (Training Course)
- DIgSILENT Programming Language (DPL)
- DPL Tutorial
- Distance Protection Tutorial
- Detailed Modelling of HV Single-Core Cale Systems
- Compatibility Issues in Time Domain Simulations with DIgSILENT PowerFactory and SIEMENS PSSE
- Cable Modelling Tutorial
- Relay Modelling
- DPL Function Reference
- Dynamic Modelling Tutorial
- Advanced Smart Grid Functionalities Based on PowerFactory
- Short-Circuit Calculations (Training Course)
- Dynamic Wind Turbine Models in Power System Simulation tool DIgSILENT
- Grid Connection of WindFarms
- Implementation of the Model of a Solar Inverter
- Improving the Photovoltaic Model in PowerFactory
- Exercises for the Power System Stability
- Grid Compatibility of Wind Generators with Hydro-Dynamically Controlled Gearbox with German Grid Codes
- DIgSILENT PowerFactory Model Documentation IEC 61400-27-1 WTG Models
- Multicore Simulation of Power System Transients
- Over-Current Protection Tutorial
- Power System Stability on Island Networks
- Power Systems Electromagnetic Transients Simulation
- PowerFactory Applications for Power System Analysis (Springer)
- Python Advanced Tutorial
- Synchronous Generator (Training Course)
- Transients in Power Systems by Lou van der Sluis
- DigSilent power factory 15 download
- Training Attachments
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General introduction and software capabilities
- Discussing basic capabilities and comparison with other network analysis programs
- Create Username and Password
- Introducing different parts, windows, and menus of the software
- building a new project
- Importing/exporting the project
- Drawing single diagram and data entrance
- Introducing the capabilities of DIGSILENT communication with other programs
- Describing graphic, display, and coloring settings
- Describing the network drawing, text, and custom shapes inserting
- Definition of area, zone, owner, and operator
- Creating case study, variation, and scenario
Equipment modeling
- Modeling of the external grid
- Modeling of transmission lines in various methods
- Modeling of the bus, switch, and circuit breaker
- Modeling of different types of transformers
- Modeling of the synchronous motor and generator
- Modeling of the capacitive banks and reactors in series or parallel connection
Load-flow study
- Reviewing the concept of load-flow study and application
- Describing load-flow calculation methods and settings
- Discussing the process of equations solve
- Reporting the results of the study
- Specifying the special outputs
- Describing graphic considerations
Single contingency (N-1) study
- Reviewing the concept of single contingency study and application
- Creating different contingency definitions and settings
- determining and checking the study results
- Describing graphic considerations
Short-circuit study
- Reviewing the concept and application of short-circuit studies
- Overviewing of the IEC-60909 standard
- Defining different types of the short-circuit studies
- Discussing short-circuit settings
- Describing graphic considerations
Transient stability study
- Reviewing the concepts of transient stability
- Defining AVR, Governor, and PSS and introducing DSL
- Defining different types of events
- Determining the appropriate parameters to create the output
- Drawing different types of curves and outputs
- Reviewing the available dynamic models in the software library
Protection study
- Review the protection concepts
- Definition of different relays types
- Definition of CT and PT
- Apply protection settings
- Check the relays’ static performance
- Check the relays’ dynamic performance
- Check the protective coordination
- Drawing the relays curves
- Describing graphic considerations
- Reviewing the available relay models in the software library
- Executing multiple instances