Control Cards
Control cards are used to specify requests and solver settings and are placed after the EG card in the .pre file.
| Card | Description |
|---|---|
| A0 | Defines a linear polarised plane wave incident on the structure. |
| A1 | Defines an excitation by means of a voltage gap on a segment (impressed electric field strength along a segment). |
| A2 | Defines an excitation by means of a voltage gap at a node (between two segments). |
| A3 | Defines an excitation by means of a magnetic ring current (TEM-frill) on a segment to model a coaxial feed. |
| A5 | Defines an excitation by means of an electric Hertzian dipole. The position and orientation in space are arbitrary. |
| A6 | Defines an excitation by means of an magnetic Hertzian dipole. The position and orientation in space are arbitrary. |
| A7 |
Defines an excitation by means of a voltage gap on an edge between two triangles. This card has been generally replaced by the AE card. |
| AC | This card reads the geometry and current distribution (possibly for more than one frequency) from an .rsd file created by a transmission line simulation program (for example, CRIPTE or CableMod) or by a PCB simulation tool (PCBMod) or by export with the OS card. The excitation is due to the electromagnetic fields radiated by these line currents. |
| AE | Defines an excitation between triangle edges similar to the A7 card, however the AE card permits the simultaneous excitation of several edges. |
| AF | Define an excitation by an impressed line current in the FEM region. |
| AI | Define an excitation by an impressed line current. |
| AJ | Define an excitation by means of an impressed current source defined using current data calculated for a PCB. |
| AK | Define an excitation by means of a voltage source connected to a radiating cable. |
| AM | Define an excitation by means of an impressed current source defined using model solution coefficients. |
| AN | Define an excitation by means of a voltage source connected to a non-radiating network port. |
| AP | Define an excitation by means of equivalent sources in an aperture (array of electrical and magnetic Hertzian dipoles). |
| AR | Define an excitation by an antenna with a given radiation pattern. |
| AS | Define an excitation by means of impressed radiating spherical modes. |
| AT | Define an excitation by means of a voltage source applied to a voxel mesh. |
| AV | Define an excitation by an impressed line current similar to the AI card, but the endpoint of the current is electrically connected to a conducting surface. |
| AW | Excitation by an impressed mode on a waveguide port. |
| BO | Insert a reflective ground in the model. |
| CA | Defines a cable path section for the cable irradiation computation. |
| CD | Defines a specific cable cross section (for example, single, coaxial, ribbon and bundle). |
| CF | Sets the type of integral equation for perfectly conducting metallic surfaces. |
| CG | Select the algorithm used to solve the matrix equation. |
| CI | Defines a cable interconnect and termination. |
| CM | Field calculation for CableMod and CRIPTE (coupling into transmission lines) or PCBMod (coupling into a PCB). |
| CO | Inserts a dielectric and/or magnetic surface on the elements. |
| CR | Specifies the orientation for a 3D anisotropic medium. |
| CS | Defines a cable path section and the centre/reference location to which a cable cross section is applied. |
| DA | Exports data to additional ASCII files. |
| DI | Defines a dielectric medium. |
| DL | Defines a layered dielectric medium. |
| EE | Adds a request to calculate error estimates. |
| EN | Indicates the end of the input file. |
| FD | Defines the FDTD solver settings. |
| FE | Adds a request to calculate the near fields. |
| FF | Add a request to calculate the far fields. |
| FR | Defines the frequencies at which the calculations are to be carried out. |
| GF | Define a homogeneous medium, a layered dielectric sphere or a planar multilayer substrate. |
| KC | Transfer the signal names in CADFEKO to POSTFEKO |
| KS | Transfer the connector names in CADFEKO to POSTFEKO. |
| L2 | Defines a complex load on a vertex. |
| LC | Defines a cable load. |
| LD | Defines a distributed load, consisting of resistance, inductance and capacitance. |
| LE | Defines a load on the edge between surface triangles. |
| LF | Impress a complex impedance between two points inside a FEM mesh. |
| LN | Defines a complex load to any non-radiating network port that is not connected to geometry. |
| LP | Defines a parallel circuit (resistance, inductance and capacitance load. |
| LS | Defines a series circuit (resistance, inductance and capacitance) load. |
| LT | Defines a series circuit (resistance, inductance or capacitance) load to a voxel mesh to be used in conjunction with the FDTD method. |
| LZ | Defines a complex load on a segment. |
| MD | Specify the options for model decomposition and write the solution coefficients to a .sol file. |
| NW | Defines a linear non-radiating network. |
| OF | Specify the offset / displacement of the origin when calculating near fields or far fields. |
| OM | Calculates the weighted set of orthogonal current-modes that are sup ported on a conducting surface. |
| OS | Saves the surface currents in a file. |
| PP | Defines the phase for periodic boundary condition calculation. |
| PR | Defines a current / voltage probe. |
| PS | Sets general control parameters. |
| PW | Defines the radiating power of a transmitting antenna. |
| RA | Defines an ideal receiving antenna. |
| SA | Defines a request to calculate SAR in dielectric media. |
| SB | Defines a magnetostatic bias field to be applied to a 3D anisotropic medium. |
| SC | Defines a SPICE circuit that can be used as a load when defining a load. |
| SD | Define shield layer definitions. |
| SH | Define solid or braided cable shields. |
| SK | Takes finite conductivity into account through the skin effect of ohmic losses; also for thin dielectric layers. |
| SP | Calculates the S-parameters for the active sources. |
| TL | Specifies a non-radiating transmission line. |
| TR | Calculates reflection and transmission coefficients for an incident plane wave on a planar structure. |
| WD | Defines the dielectric properties of the windscreen glass layers. |