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SAM Phantom with Helix Antenna

Transient Analysis Examples - SAR Calculations

Transient Analysis Examples - Antennas

 

 

General Description

 

This example demonstrates the capability of the multilevel subgridding scheme. The EN 50361 SAM Phantom head (SAM = "Specific Anthropomorphic Mannequin") is used together with a simplified mobile phone with a small helix antenna. If subgridding is applied the number of mesh cells for this structure could be reduced significantly and in consequence the overall simulation runs more than ten times faster.

Note:

The SAM Phantom head has been facetted to reduce memory requirement and CAD model complexity in this example. A smooth version is included in the SAR Head & Hand - Mobile Phone example. A more detailed human model voxel data set is also available. Please contact CST support for further information.

 

Structure Generation

 

The phantom head is imported from a SAT file and is modelled by a shell filled with a liquid which represents the average material properties of the head. The working plane is set to the left hand side of the head in order to define the simplified cell phone model.

In order to obtain a fine mesh resolution of the helix antenna a local maximum mesh step is defined for this solid. Activating subgridding will keep this mesh refinement while other parts of the calculation domain are coarsened due to their wavelength resolution.

 

Solver Setup

 

To start the transient solver, an excitation source has to be defined. The excitation of the cell phone model is done by a discrete element between the helix antenna and the main body. For post processing investigations a farfield monitor and a power loss density monitor for SAR calculations are defined.

By default the transient solver calculates different subgrid levels with different time steps in order to obtain further speed-up of the simulation.

 

Post Processing

 

Using the excitation of the discrete port the resulting time signals are automatically converted into the corresponding scattering parameters. They are listed in the navigation tree in the folder 1D Results.

The SAR calculation is based on the power loss density monitor. It can be started through the Post Processing: 2D/3D Field Post Processing SAR dialog box or by setting up a post processing template in Post Processing: Result Templates Template Based Postprocessing which will be executed automatically after the solver run. After the SAR calculations are finished, the results are accessible via the folder 2D/3D Results SAR in the navigation tree.

The directivity or other farfield parameters can also be investigated in the navigation tree in the folder Farfields.

 




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