Engineers use tools like DIgSILENT PowerFactory, ETAP, PSCAD, and PSS®E for electrical system simulation. Each specializes in different domains — PowerFactory covers steady-state and dynamic studies efficiently for both AC and DC grids.
Our training explains how PowerFactory compares with ETAP and PSCAD through live demos.

Power system analysis ensures safe, reliable, and economical operation of electrical networks. It helps determine voltage levels, fault currents, stability margins, and protection settings.
Our DIgSILENT course teaches how to perform each type of analysis practically using real-world projects.

Yes. DIgSILENT offers an Educational License for students and universities. It allows small-scale modeling but includes full study functions.
In our course, we show how to install and use the free educational version before moving to professional projects.

DIgSILENT GmbH is a private German company. As of recent updates, the Managing Director and CEO is Dr. Michael Schröder. The company continues to develop PowerFactory as one of the most trusted tools worldwide.
Our course follows the official PowerFactory interface and latest version standards.

To save a project, go to Project → Save As, enter the name, and store it in the PowerFactory database. You can also use Export → DPL/DSL for backups or sharing with others.
We guide you on project management, versioning, and data backups during the training.

Among major tools, PSCAD Lite and DIgSILENT Educational editions are free for learning. Open-source options like OpenDSS or MATPOWER can also be used for academic studies.
Our course focuses on DIgSILENT PowerFactory, the industry-standard for professional projects.

Engineers commonly use DIgSILENT PowerFactory, ETAP, PSS®E, and PSCAD. Each covers different aspects such as steady-state, dynamic, and transient studies.
Our DIgSILENT training teaches how to perform all key analyses inside one integrated platform.

The three main categories are steady-state analysis (load flow, voltage profile), fault analysis (short-circuit, protection), and dynamic analysis (stability, transients).
Our PowerFactory course covers each type in detail using real case examples.

Free tools include OpenDSS, MATPOWER, and DIgSILENT Educational Edition. These are suitable for learning and research, while professional consulting requires licensed software.
We help you get started with the educational version during enrollment.

AutoCAD Electrical is used for creating single-line diagrams, panel layouts, and control schematics. It complements DIgSILENT by documenting the same networks you simulate.
Our program explains how AutoCAD Electrical drawings relate to PowerFactory models.

PowerFactory is DIgSILENT’s integrated platform for electrical system design, analysis, and optimization. It supports LV to EHV systems, renewables, protection, and grid compliance studies.
Our course provides hands-on training on PowerFactory 2024 with real industry examples.

DIgSILENT PowerFactory uses DPL (DIgSILENT Programming Language) and DSL (DIgSILENT Simulation Language) for automation and custom models.
We include scripting sessions so you can automate repetitive tasks and create control logic easily.

Open your project, define the grid, and click Calculate → Load Flow. Check voltage, losses, and power flow in the results window.
Our training walks you through load-flow settings and interpretation for transmission and distribution systems.

Dynamic simulation studies how a system behaves during disturbances such as faults or generator trips. PowerFactory models governors, exciters, and protection relays to predict stability.
We perform live dynamic studies in our advanced training sessions.

DIgSILENT PowerFactory offers stronger dynamic and stability modeling, while ETAP focuses more on protection and arc-flash analysis. Both are valuable for complete system evaluation.
Our course explains how to use PowerFactory effectively for renewable and grid-compliance projects.

Yes. PowerFactory includes dedicated libraries for solar PV, wind turbines, and battery systems. It can model grid-integration, LVRT/HVRT, and dynamic reactive control.
Our training features renewable case studies based on real project experience.

Beginners usually take 3–4 weeks to learn the basics like modeling and load flow. Advanced studies such as protection, dynamics, and scripting may take a few months of guided practice.
Our course structure ensures steady progress from fundamentals to real-time projects.

Yes. Upon successful completion, every participant receives an official Power Projects certificate recognized by industry professionals.
The certificate adds value to your résumé and proves your practical expertise.

You can register directly on www.powerprojectstraining.com. After enrollment, you’ll receive class links, materials, and lifelong access to session recordings.
Our support team assists you throughout your learning journey.