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CST諧振腔體設(shè)計(jì)分析—CST2013設(shè)計(jì)實(shí)例

文章來源: CST    錄入: mweda.com   

    Mirror the Structure to Model the Entire Cavity

    Thus far you have successfully modeled half of the cavity.  The easiest way to obtain the full model is to mirror this structure at the planar back face. 

    The first step is to define the mirror plane by picking the corresponding face in the model.  Therefore, enter the smart pick mode via Modeling: Picks  > Picks .

    Once the smart pick mode is active, you should double-click on the planar back face as shown in the picture above.  If the face is hidden by the structure, you can use the view changing tools as explained in the Workflow and Solver Overview manual.  After the face has been selected, the model should look as follows:

    You should now select the cavity solid by double-clicking it.  Please confirm that its name becomes highlighted in the navigation tree.

   The next step is to use the transform tool to create the mirrored shape by pressing Modeling: Tools > Transform > Mirror

    In the dialog box that appears the Operation Mirror is selected. The mirror planes' coordinates will then be automatically set according to the previously-picked back face of the cavity, so you do not need to change any of the coordinate settings.

    Because the transformation will create a new shape by mirroring the existing one, you have to select the Copy option.  Furthermore, the original shape should also be combined with the mirrored one to form a single shape. Thus, the Unite option must also be switched on.

    Finally, you should press the OK button to create the entire cavity shown below:

 

    Solver Settings 
 
    After you have successfully modeled the cavity's geometry, you need to specify some solver settings, such as frequency range and boundary conditions, before you can finally start the solver to calculate the eigenmodes.

     Define the Frequency Range 

    For this device, the first five resonance frequencies are estimated to be below 1.5 GHz.  Open the frequency range dialog box either by pressing Simulation: Settings > Frequency .  In this dialog box you should set the upper frequency limit to 1.5 (please recall that the frequency unit has been set to GHz as shown in the status bar).

    Finally, press the OK button to store these settings.

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