SES CDEGS Suite 18.0 x64 – Download

Description

CDEGS (Current Distribution, Electromagnetic Field, Grounding and Soil Structure Analysis) is a powerful set of integrated software tools designed to accurately analyze a wide variety of electromagnetic-related problems encountered in all industries connected to electrical networks.Complex Soil Structures such as multi-zone, horizontally layered soils with arbitrary number of layers and resistivity and single-zones containing cylindrical, hemispherical, semicircular, inclined, vertical and horizontal layers. Finally, horizontal multilayer soils that can contain embedded confined soil volumes with arbitrary resistivity are available to help you tackle even the most challenging project.

The CDEGS software package (Current Distribution, Electromagnetic Fields, Grounding and Soil Structure Analysis) is dedicated to accurately analyze problems related to grounding, electromagnetic fields, electromagnetic interference including AC/DC interference mitigation studies and various aspects of cathodic protection and anode bed analysis from a global perspective. CDEGS The package’s software suite includes eight powerful and accurate calculation engines (modules) and numerous software automation and utility tools that link the various components together. CDEGS Computer Conductor Currents and electromagnetic fields generated by an arbitrary network of energized conductors anywhere above or below ground for normal, fault, lightning and transient conditions. CDEGS models simple and multi-component conductors, including bare, coated pipe and pipe-attached cable systems buried in complex soil formations. CDEGS, coupled with the toll-free support of the world’s leading R&D design team, provides you with a cost-effective learning aid for areas ranging from simple grounding grid design to the behavior of complex networks of buried conductors energized above and below ground by lightning or other transients.

Features of SES CDEGS Suite:

direct Solutions to Maxwell’s equations
CircuitBased analysis
Limited Element Methods
to reverse Algorithms
About Fourier Transform and Transient Analysis
Hybrid Methods
Wonderful GRAPHICS
Conductor and pipes, physical dimensions and electromagnetic properties
metallic Plates
Magnetic Induction
Capacitor Effect
Avoid Make simplifying assumptions and model any system in a realistic manner
to compute Currents flowing in arbitrary networks of conductors, and their associated electric fields, magnetic fields, and scalar potentials
Take take into account the electrical complexity of soil structures
in the correct form Calculate line parameters of an arbitrary 3D network
decide Realistic current distribution among all metal paths connected to the power network subject to various fault scenarios