XGSLab

Advanced Simulation for Grounding, EMF/Interference & Lightning

A professional suite for earthing system analysis, electromagnetic fields & interference, and lightning protection design. Validate safety, optimize performance, and document compliance to IEC/EN and IEEE criteria.

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What is XGSLab & Why It Matters

XGSLab is a modular electromagnetic simulation environment for power and industrial facilities. It covers grounding/earthing safety, electromagnetic fields & interference on nearby systems, and 3D lightning protection, helping engineers design safe, efficient, and standards-compliant installations.

Core Benefits

Benefit	Description
Modular Suite	Choose only what you need: GSA / GSA FD for grounding, XGSA FD / XGSA TD for EMF & interference (freq/time), NETS for multi-conductor networks, and SHIELD/SHIELD A for lightning shielding.
Soil Modelling Tools	Integrated SRA/SSA utilities to derive multilayer soil models from resistivity tests and seasonal conditions, improving accuracy of touch/step voltage and GPR calculations.
Deep Technical Coverage	Frequency- and time-domain solvers for buried/overhead conductors, pipelines, cables, rails, transformers, and complex meshes.
Compliance & Safety	Support for IEC/EN and IEEE criteria in grounding safety checks (touch/step), EMF limits, and lightning protection methodologies.
Interoperability	CAD-friendly workflows and export options; ideal for substations, plants, renewables, rail, utilities, and industrial sites.

Key Highlights

What XGSLab offers at a glance

Grounding safety (touch/step voltage, GPR) with multilayer soil models
EMF/EMI analysis in frequency & time domains for above/below ground conductors
3D lightning shielding using Rolling Sphere & Eriksson methods

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Grounding / Earthing (GSA, GSA FD)

Model buried grids and electrodes, evaluate GPR, and verify touch/step voltage safety against standards. Includes multilayer soil estimation from field measurements.
- Touch/Step Safety
- GPR & Current Distribution
- Soil Tools (SRA/SSA)
EMF & Interference (XGSA FD / XGSA TD)

Simulate electromagnetic fields and coupling for overhead/underground conductors, rails, pipelines, and cables in frequency or time domain to mitigate interference.
- Frequency & Time Domain
- Coupling & Induced Voltages
- Compliance Checks
Network Solver (NETS)

Solve multi-conductor, multi-phase networks across overhead lines and underground cables. Analyze interference, coupling, and return paths in complex installations.
- n-Phase/Asymmetrical Systems
- Transformers & Long Lines
- Pipelines & Rails
Lightning Shielding (SHIELD / SHIELD A)

Design 3D lightning protection using Electro-Geometric Models (Rolling Sphere, Eriksson). Evaluate protected volumes for buildings, substations, and critical equipment.
- 3D Protected Zones
- Rolling Sphere & Eriksson
- Structure Coverage

How It Works

1
Model Setup – Select the right module (GSA/GSA FD, XGSA FD/TD, NETS, SHIELD) and define scenarios.
2
Data & Geometry – Soil measurements, import site layout, conductor routes, and constraints.
3
Simulation – Run grounding safety, EMF/interference, or lightning coverage studies.
4
Reporting – Generate engineering-grade plots and compliance summaries for submission.

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XGSLab

Advanced Simulation for Grounding, EMF/Interference & Lightning

Core Benefits

What XGSLab offers at a glance

Quick access points for what XGSLab offers

Grounding / Earthing (GSA, GSA FD)

EMF & Interference (XGSA FD / XGSA TD)

Network Solver (NETS)

Lightning Shielding (SHIELD / SHIELD A)

How It Works