XGSLab EMF
Powerful Electromagnetic Analysis Software
Simulate and Analyze the Electrical Effects of Transmission Lines & AC Interference Like Never Before
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Find The Best XGSLab EMF Software For Your Projects
XGSLab EMF software specializes in analyzing electromagnetic fields, electrostatic coupling, and AC interference for utility power systems. This industry-leading solution is trusted worldwide to accurately evaluate electrical effects, incorporating the global standards (IEC/TS 60479-1, EN 50522, and IEEE Std 80).
Looking for more? Explore XGSLab Grounding software and XGSLab Lightning Shielding software.
XGSLab EMF Packages
XGSA_FD
Built for EMF & EMI analysis electrical effects of transmission lines in the frequency domain.
XGSA_FD & XGSA_TD Bundle
Adds time transient analysis for lightning flashover and backflash analysis.
Professional XGSLab Suite
Complete EMF, EMI, grounding, & lightning analysis solutions.
XGSA_FD AC Interference
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Quickly Compare Software Tiers
XGSLab modules allow for frequency domain and time domain studies, as well as the full suite of grounding, lightning, and EMF solutions.
Capabilities |
XGSA_FD |
XGSA_FD & XGSA_TD Bundle |
TProfessional XGSLab Suite |
HV AC interference, AC Corrosion, NESC 5 mA, and Corona Losses & Interference |
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DC Stray current, HVDC Interference, and ICCP Calculation |
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Inductive, Capacitive, and Conductive Coupling |
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Multi-layer, Multi-zone, and Seasonal Analysis Soil Model |
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Touch & Step Voltages, Leakage Current, and Coating Stress |
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Lightning Transient Time Domain Analysis |
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Fault & Switching Transients Analysis |
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3D Lightning Shielding Evaluation |
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Fault Current Split Analysis |
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Multi-ground, Conductor, & Phasing Power System Network Solver |
Quickly Compare XGSLab EMF Modules
Includes: | Applicable for any transmission line EMF analysis | Analyze AC interference & AC corrosion | Analyze NESC 5 mA | Analyze AC interference & AC corrosion | Calculate Corona loss & interference |
Includes: | XGSA_FD & XGSA_TD Bundle includes all capabilities of XGSA_FD | Analyze magnetic fields energized by current or voltage transients | Analyze lightning transients | Analyze fault & switching transients |
Includes: | Professional XGSLab Suite includes all capabilities of XGSA_FD/TD | Adds modules for LPS shielding efficacy, fault current split analysis, unbalanced earth current calculations, and more |
- XGSA_FD
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Why Choose XGSA_FD
XGSA_FD offers comprehensive EMF and EMI analysis for complex infrastructure projects, including transmission lines, substations, and generation facilities.
Versatility: XGSA_FD handles capacitive, inductive, and conductive analysis for shared corridors and various infrastructure components like pipelines, railroads, and communication cables.
Advanced Modeling: XGSA_FD features integrated multi-layer and multi-zone soil models, along with soil seasonal analysis for accurate simulations.
Additionally, it enables custom conductor modeling and supports different types of conductors (solid, hollow, stranded, coated, or bare).
Efficiency: Designed for an efficient workflow, XGSA_FD makes complex analyses straightforward and less time-consuming.
Specialized Tools: This software module includes a corona effects tool for calculating power losses and radiofrequency interference, crucial for maintaining system efficiency and compliance.
Powerful Analytics : Based on the PEEC full wave numerical model, it accurately simulates systems with multiple electrodes of any shape and size across a wide frequency range (DC to 100 MHz).
Summary:
By choosing XGSA_FD, you gain a powerful, flexible, and efficient tool to address all your EMF and EMI analysis needs, ensuring your projects run smoothly and meet all technical requirements. - XGSA_FD & XGSA_TD
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Why Choose XGSA_FD & XGSA_TD
XGSA_FD & XGSA_TD together offer a comprehensive solution for both frequency and time-domain analysis, extending your capabilities beyond what XGSA_FD alone can provide.
Here’s why you should consider adding XGSA_TD:
Enhanced Analysis Capabilities: Time-Domain Analysis: XGSA_TD allows you to analyze lightning transients, switching transients, and fault transients in gas-insulated substations (GIS), which are critical for understanding and mitigating transient events in your systems.
Advanced Numerical Model:Both XGSA_FD and XGSA_TD are based on the PEEC full wave numerical model, ensuring robust and accurate simulations. XGSA_TD utilizes the Inverse Fast Fourier Transform (IFFT) to handle complex transient analyses effectively.
Seamless Integration: XGSA_TD integrates seamlessly with XGSA_FD, allowing you to export self and mutual impedances for detailed studies. This enables the incorporation of complex structures analyzed in XGSA_TD into broader power system transient analyses.
Comprehensive Frequency Spectrum: XGSA_TD covers a wide frequency range from DC to 100 MHz, ensuring that you get a thorough and accurate analysis of both steady-state and transient phenomena.
Detailed and Accurate Results: The combination of XGSA_FD and XGSA_TD provides a more holistic understanding of your infrastructure’s electromagnetic behavior, ensuring that both steady-state and transient conditions are accurately modeled and analyzed.
Summary: By choosing both XGSA_FD and XGSA_TD, you equip yourself with a powerful toolset for comprehensive EMF and EMI analysis, extending from detailed frequency-domain studies to critical time-domain transient analyses. This integrated approach ensures you are well-prepared to handle the full spectrum of electromagnetic challenges in your projects
- XGSLab Suite
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Why Choose XGSLab Suite
The full XGSLabs Suite provides the most comprehensive set of tools designed to meet all your electromagnetic analysis needs, offering capabilities beyond what individual modules can achieve.
Here’s why opting for the entire suite is the most powerful solution:
Complete Toolset for Diverse Applications:
The suite includes GSA, GSA_FD, XGSA_FD, and XGSA_TD modules, each tailored for specific engineering applications, ensuring you have the right tool for any project scenario.Integrated All-in-One Package:
The suite offers seamless integration of all modules, providing an all-in-one package that simplifies workflow and enhances efficiency. This integration ensures professional development and implementation of efficient computation speeds, making it suitable for demanding and complex scenarios.Advanced Numerical Methods:
Modules like GSA and XGSA_FD use the PEEC (Partial Element Equivalent Circuit) method, known for its power and flexibility in handling complex electromagnetic problems. The NETS module uses the phase components method and graph theory, surpassing the limitations of traditional sequence components methods, allowing for more accurate and versatile network analysis.User-Friendly and Efficient:
XGSLabs is designed to be user-friendly, making it accessible for both novice and experienced engineers. The suite’s interface and functionalities streamline complex analysis, reducing the learning curve and increasing productivity.Versatility and Flexibility:
The full suite is adaptable to a wide range of engineering applications, from detailed electromagnetic field analysis to complex network studies. This flexibility makes it a virtual laboratory, empowering your team to tackle diverse engineering challenges with confidence.Summary: By choosing the full XGSLabs Suite, you equip your team with a versatile, powerful, and integrated toolset that goes beyond the capabilities of individual modules. This comprehensive approach ensures you are prepared for any engineering challenge, enhancing both the efficiency and accuracy of your projects.
Why Choose XGSA_FD
XGSA_FD offers comprehensive EMF and EMI analysis for complex infrastructure projects, including transmission lines, substations, and generation facilities.
Versatility: XGSA_FD handles capacitive, inductive, and conductive analysis for shared corridors and various infrastructure components like pipelines, railroads, and communication cables.
Advanced Modeling: XGSA_FD features integrated multi-layer and multi-zone soil models, along with soil seasonal analysis for accurate simulations.
Additionally, it enables custom conductor modeling and supports different types of conductors (solid, hollow, stranded, coated, or bare).
Efficiency: Designed for an efficient workflow, XGSA_FD makes complex analyses straightforward and less time-consuming.
Specialized Tools: This software module includes a corona effects tool for calculating power losses and radiofrequency interference, crucial for maintaining system efficiency and compliance.
Powerful Analytics : Based on the PEEC full wave numerical model, it accurately simulates systems with multiple electrodes of any shape and size across a wide frequency range (DC to 100 MHz).
Summary:
By choosing XGSA_FD, you gain a powerful, flexible, and efficient tool to address all your EMF and EMI analysis needs, ensuring your projects run smoothly and meet all technical requirements.
Why Choose XGSA_FD & XGSA_TD
XGSA_FD & XGSA_TD together offer a comprehensive solution for both frequency and time-domain analysis, extending your capabilities beyond what XGSA_FD alone can provide.
Here’s why you should consider adding XGSA_TD:
Enhanced Analysis Capabilities: Time-Domain Analysis: XGSA_TD allows you to analyze lightning transients, switching transients, and fault transients in gas-insulated substations (GIS), which are critical for understanding and mitigating transient events in your systems.
Advanced Numerical Model:Both XGSA_FD and XGSA_TD are based on the PEEC full wave numerical model, ensuring robust and accurate simulations. XGSA_TD utilizes the Inverse Fast Fourier Transform (IFFT) to handle complex transient analyses effectively.
Seamless Integration: XGSA_TD integrates seamlessly with XGSA_FD, allowing you to export self and mutual impedances for detailed studies. This enables the incorporation of complex structures analyzed in XGSA_TD into broader power system transient analyses.
Comprehensive Frequency Spectrum: XGSA_TD covers a wide frequency range from DC to 100 MHz, ensuring that you get a thorough and accurate analysis of both steady-state and transient phenomena.
Detailed and Accurate Results: The combination of XGSA_FD and XGSA_TD provides a more holistic understanding of your infrastructure’s electromagnetic behavior, ensuring that both steady-state and transient conditions are accurately modeled and analyzed.
Summary: By choosing both XGSA_FD and XGSA_TD, you equip yourself with a powerful toolset for comprehensive EMF and EMI analysis, extending from detailed frequency-domain studies to critical time-domain transient analyses. This integrated approach ensures you are well-prepared to handle the full spectrum of electromagnetic challenges in your projects
Why Choose XGSLab Suite
The full XGSLabs Suite provides the most comprehensive set of tools designed to meet all your electromagnetic analysis needs, offering capabilities beyond what individual modules can achieve.
Here’s why opting for the entire suite is the most powerful solution:
Complete Toolset for Diverse Applications:
The suite includes GSA, GSA_FD, XGSA_FD, and XGSA_TD modules, each tailored for specific engineering applications, ensuring you have the right tool for any project scenario.
Integrated All-in-One Package:
The suite offers seamless integration of all modules, providing an all-in-one package that simplifies workflow and enhances efficiency. This integration ensures professional development and implementation of efficient computation speeds, making it suitable for demanding and complex scenarios.
Advanced Numerical Methods:
Modules like GSA and XGSA_FD use the PEEC (Partial Element Equivalent Circuit) method, known for its power and flexibility in handling complex electromagnetic problems. The NETS module uses the phase components method and graph theory, surpassing the limitations of traditional sequence components methods, allowing for more accurate and versatile network analysis.
User-Friendly and Efficient:
XGSLabs is designed to be user-friendly, making it accessible for both novice and experienced engineers. The suite’s interface and functionalities streamline complex analysis, reducing the learning curve and increasing productivity.
Versatility and Flexibility:
The full suite is adaptable to a wide range of engineering applications, from detailed electromagnetic field analysis to complex network studies. This flexibility makes it a virtual laboratory, empowering your team to tackle diverse engineering challenges with confidence.
Summary: By choosing the full XGSLabs Suite, you equip your team with a versatile, powerful, and integrated toolset that goes beyond the capabilities of individual modules. This comprehensive approach ensures you are prepared for any engineering challenge, enhancing both the efficiency and accuracy of your projects.
Resources
FAQs
Power systems produce electromagnetic fields that can energize nearby metallic objects that can be of sufficient magnitude to be a shock hazard for personnel and the public. The fields may be significant to damage the metallic recipient or its supporting components. Often a transmission lines sharing or crossing an existing right of way prompts an evaluation of AC interference. Common recipients of AC Interference include:
- Pipelines
- Railroads
- Communication cables
- Metallic fencing
- Buildings
AC corrosion is typically associated with pipeline integrity against accelerated corrosion. Any metallic structure in an electrolyte environment, such as a buried pipeline, will experience corrosion. AC corrosion in a phenomenon related to the induced voltages from a transmission line on a recipient pipeline causing accelerated material loss at a holiday (hole) of the coating. AC Corrosion may occur with less than 10 V, and may be much lower that personnel safety requirements for induced voltages in shared corridors.
XGSLab’s GSA, GSA_FD, XGSA_FD, and XGSA_TD modules provide soil resistivity analyzer that interpret Wenner and Schlumberger soil resistivity measurements into appropriate strata and electrical characteristics.
GSA_FD, XGSA_FD, and XGSA_TD modules provide multiple industry approaches for calculating soil’s frequency response improving the accuracy for detailed grounding, earthing, and lightning etc. studies.
XGSA_TD is default options for lightning impulse calculations include Double Exponential, Pulse and Heidler impulse characteristics; however, custom samples may be used as the impulse characteristics of the software.