Geometry Cards
Geometry cards are used to create geometry and are placed before the EG card in the .pre file.
| Card | Description |
|---|---|
| BC | Specifies the outer boundaries of the simulation region. |
| BL | Creates a line. |
| BP | Creates a parallelogram. |
| BQ | Creates a quadrangle. |
| BT | Creates a triangle. |
| CB | Changes already assigned labels. |
| CL | Creates a circular line using segments. |
| CN | Changes the direction of the normal vector. |
| DD | Utilises domain decomposition to solve a MoM model more efficiently. |
| DK | Creates a dielectric or magnetic eighth of a sphere. |
| DP | Defines a node point. |
| DZ | Creates a cylindrical dielectric shell. |
| EG | Defines the end of the geometry. |
| EL | creates a segment of an ellipsoid |
| FA | Defines an antenna array analysis. |
| FM | Sets parameters related to the MLFMM. |
| FO | Defines a Fock region. |
| FP | Sets parameters related to the FEM. |
| HC | Creates a cylinder with a hyperbolic border. |
| HE | Creates a coil from wire segments. |
| HP | Creates a plate with a hyperbolic border. |
| HY | Creates a hyperboloid section. |
| IN | Reads an external include file containing mesh information. |
| IP | Sets the parameter that defines the degree of meshing. |
| KA | Defines the border of the PO area. |
| KK | Creates a elliptical conical segment. |
| KL | Sets the wedges in the PO area. |
| KR | Creates a planar elliptical element. |
| KU | Creates a spherical element. |
| LA | Specifies the label, for example, for segments, triangles and polygonal plates. |
| ME | Defines the medium. |
| MB | Defines a modal port boundary condition. |
| NC | Defines the name for the next configuration. |
| NU | Creates a NURBS surface from specified control points. |
| PB | Creates a paraboloid. |
| PE | Specifies the unit cell that will be used in periodic boundary condition calculations. |
| PH | Creates a flat plate with an elliptic hole. |
| PM | Creates a polygonal shape that is meshed into triangles. |
| PO | Applies the physical optics approximation. |
| PY | Creates a polygonal plate for use with UTD. |
| QT | Creates a dielectric or magnetic cuboid (meshed into tetrahedral elements). |
| QU | Creates a dielectric or magnetic cuboid (meshed into cuboidal elements). |
| RM | Specified remeshing and adaptive mesh refinement. |
| SF | Enters a scaling factor, with which all dimensions are multiplied. |
| SY | Utilises symmetry in the construction of the geometry. |
| TG | Transformation (for example, translation and rotation) of the geometric structures |
| TO | Creates a toroid. |
| TP | Transforms a point. |
| UT | Parameters for the uniform theory of diffraction (UTD). |
| UZ | Creates a cylinder for use in the UTD region. |
| VS | Specifies known visibility information (required when using physical optics with multiple reflections). |
| WA | Define all active windscreen antenna elements. |
| WG | Creates a parallelogram consisting of a wire grid. |
| WR | Defines the dielectric windscreen reference plane. |
| ZY | Creates a cylindrical element. |