XGSLab v2024 crack license download working Electromagnetic Simulation

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XGSLab, A complete software tool for the simulation of Power, Earthing, Grounding and Lightning Systems. Get in touch to request a free demo or find out more here. We will keep you up to date with the lastest XGSLab software updates…

XGSLab v2024 – A Next-Generation Platform for Grounding and Electromagnetic Simulation

Electrical power systems, industrial facilities, and transportation networks are increasingly complex, and their safe operation depends on accurate modeling of grounding systems, electromagnetic fields, and transient behaviors. Traditional calculation methods are no longer sufficient to handle large networks, non-linear conditions, and the wide frequency range involved in modern applications.

XGSLab (eXtended Grounding System Laboratory) has emerged as a powerful and widely used software platform for engineers, consultants, and researchers. It provides advanced numerical models that are compliant with international standards such as IEC, IEEE, and EN, ensuring reliable and validated results.

The release of XGSLab v2024 introduces significant improvements in usability, modeling flexibility, and analytical power.

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XGSLab v2024 crack Key Applications

XGSLab is designed to support a broad range of applications, including:

• Grounding system design and verification for substations, power plants, renewable energy installations, and industrial sites.

• Fault current and touch/step voltage analysis, ensuring safety compliance with regulatory standards.

• Electromagnetic interference studies for pipelines, railways, and telecommunication systems.

• Lightning and transient simulation, including surge propagation and protective device coordination.

• Electromagnetic field analysis, assessing human exposure and compliance with safety limits.

• Shielding and lightning protection design, particularly for large-scale facilities and sensitive installations.

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XGSLab v2024 crack What’s New in XGSLab v2024

The 2024 release brings a series of technical and practical enhancements:

• Redesigned Graphical Interface: A modern, vector-based environment with full CAD capabilities, smooth zoom, and 3D rotation.

• Advanced Data Integration: Direct import of DWG drawings, 2D/3D polylines, and complex geometries such as solids and meshes.

• Improved 3D Modeling: Standardized Z-axis orientation across modules (GSA, GSA_FD, XGSA_FD, SHIELD).

• Enhanced Scheduler: Greater control over simulation execution, allowing selective runs in multi-project workflows.

• Transient Analysis Upgrade: Capability to visualize multiple element responses within a single graph, improving insight into dynamic system behavior.

• Bug Fixes and Optimization: Refinements in performance and reliability across all modules.

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XGSLab v2024 crack Benefits for Engineers and Organizations

• Efficiency: Streamlined workflows reduce modeling time, especially when importing existing CAD data.

• Accuracy: High-fidelity models that remain consistent with IEC, IEEE, and EN standards.

• Flexibility: Modular architecture supports applications from simple grounding studies to advanced electromagnetic field simulations.

• Scalability: Capable of handling small installations as well as complex networks with thousands of elements.

• Visualization: Improved 2D/3D interface makes analysis results easier to interpret and present to stakeholders.

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XGSLab v2024 crack Conclusion

XGSLab v2024 represents a major leap forward in electromagnetic and grounding system simulation. With its enhanced CAD-based interface, improved modeling capabilities, and strengthened transient analysis tools, the software empowers engineers to solve complex electrical safety and performance challenges with confidence.

As the energy sector continues to evolve—driven by renewable integration, higher safety demands, and increased electrification—XGSLab provides a future-ready solution for both routine engineering tasks and advanced research applications.

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26 June 2024 – XGSLab Release 2024.1.1

XGSLab history began about in 1990.XGSLab stands for eXtended Grounding Software Laboratory.The first version of the GSA module was written in FORTRAN language in the years 1995 ÷ 1997.

For more than ten years GSA has been used for professional consultancy and for publications.In 2006 GSA has been rewritten in C and in 2007 the first commercial release of GSA was developed.In the years 2007 ÷ 2013 GSA has become one of the most popular grounding software in Europe, with several clients (universities and companies) worldwide.At the same time, customers’ requests have grown and it has become evident the need for a more powerful tool.

In the years 2012 ÷ 2014 was developed the first commercial release of the module GSA_FD. At the end of 2014 GSA and GSA_FD were unified in the XGSLab program. In 2015 was added the XGSA_FD module.

At the beginning of 2017 was added the module XGSA_TD. In 2017 the multilayer soil model has been implemented. The implemented algorithm is powerful and accurate and allows calculations with an arbitrary layers number. In 2018 was added the module NETS. In 2021 was added the module SHIELD.

In 2024 was added a new vector graphic interface and the module SHIELD_A.

The modules GSA, GSA_FD, XGSA_FD and XGSA_FD are based on a full wave solver of Maxwell equations in the presence of a conducting layered half space taking into account Green functions and Sommerfeld integrals. This powerful solver has been implemented using a numerical method known as PEEC (Partial Element Equivalent Circuit), and allows to simulate systems of conductors integrated with circuit components like generators and impedances.

The module NETS uses a solver of electrical networks based on circuit theory and Kirchhoff laws for multi-conductors and multi-phase systems. This solver has been implemented using a numerical method known as PCM (Phase Component Method).

The modules SHIELD and SHIELD_A are based on a full 3D numerical and analytical models and consider the most diffused methods used for the lightning shielding design.

Most people know that the electromagnetic fields are governed by a set of experimental laws known as Maxwell equations and circuit are governed by the Kirchhoff laws. But on the other hand, not many people know about the fundamental studies carried out by Green, Lorentz and Sommerfeld, about the Fourier transforms, and on the discoveries made by Ferraris, Carson, Schelkunoff and many other scientists and engineers.G. Green studied the solution of inhomogeneous differential equations and the so called Green functions are fundamental solutions of these equations satisfying homogeneous boundary conditions. For instance, the Green functions can be used as solutions of the Laplace equation that governs the scalar potential in a uniform or stratified propagation medium in quasi-static conditions.

XGSLab uses the Green functions for the calculation of the scalar potential in the multilayer soil model.H.A. Lorentz has been one of the most important theoretical physicists in the World and is known also for the Lorentz force which describes the combined electric and magnetic forces acting on a charged particle in an electromagnetic field. XGSLab uses the Lorentz equation for the calculation of the electromagnetic forces.A.J.W. Sommerfeld studied the earth reaction to the electromagnetic field and the rigorous solutions of the half space problem are known as Sommerfeld integrals, XGSLab implemented the Sommerfeld integrals for the calculation of the vector potential of horizontal or vertical electric dipoles. Without these studies would not have been possible to develop XGSLab.Furthermore, the calculation in the time domain have been made possible by using the Fourier transforms. Fourier transforms allow moving from the time domain and vice versa. G. Ferraris was one of the pioneers of AC power systems and an inventor of the multi phase power transmission systems, induction motor and alternator, some of the greatest inventions of all ages. Electromagnetic field known as an electromagnetic wave. The way in which charges and currents (i.e. streams of charges) interact with the electromagnetic field is described.