ESTEAM
TICRA
Design and analysis of general antennas and scattering by large structures, including full spacecraft platforms.
Technical specifications
- Feature
- State-of-the-art higher-order MoM solver
- Feature
- MLFMM implementation tailored to higher-order MoM
- Feature
- Automatic meshing of imported CAD files
- Feature
- Selection of parametrised geometries, including wires, boxes, BoR and clusters of any of these
- Feature
- Waveguide ports, generators and measured patterns as excitations
- Feature
- Analysis of structures with composite metallic, dielectric and magnetic materials
- Feature
- Monostatic RCS
- Benefit
- Seamless integration with other products in TICRA Tools
- Benefit
- Design, analysis and validation of complex antenna installations
- Benefit
- Higher accuracy and lower memory requirements than competing full-wave solvers
- Benefit
- Analysis of highly detailed CAD models, providing better comparison with measurements
- Benefit
- Reduced model preparation through integrated CAD editing
About
ESTEAM is the tool for solving electromagnetic scattering and radiation problems of general nature involving conducting and dielectric materials. Detailed models of, for example, microstrip and helix antennas can be analysed and optimised, and ESTEAM particularly excels for modelling electrically large antennas and platforms. Real-world antennas exist near other antennas and are often mounted on structures or platforms — ESTEAM is well suited to analysing this platform scattering and antenna placement, including mounting arms or an entire spacecraft with reflectors, solar panels, and thrusters. It implements a discontinuous Galerkin method allowing combination of objects meshed with different parameters, plus decades of in-house R&D in higher-order MoM techniques combined with an accelerated MLFMM method for maximum accuracy with minimum memory consumption and high speed.
Documentation
Need the full ICD, test reports or a specific revision? Ask the supplier directly.