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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   

    Eigenmode Visualization and Q-Factor Calculation  

    Eigenmode Visualization

    The eigenmode results can be accessed by selecting the corresponding item in the navigation tree from the 2D/3D Results  Modes folder.  The field patterns for each mode will be stored in subfolders named Mode N where N represents the mode number.

     To visualize the electric field of the first mode, select the corresponding item from the navigation bar: 2D/3D Results  Modes  Mode 1 e.  The result data will then be visualized in a three dimensional vector plot as shown in the above picture. (Please note: The field amplitudes of the modes will always be normalized such that each mode contains a total energy of 1 Joule.)

    In many cases, it is more important to visualize the fields in a cross section plane. Therefore, please switch to the 2D field visualization mode by pressing 2D/3D Plot: Sectional View  3D Fields on 2D Plane . The field data should then be visualized and appear similar to the picture below.  Please refer to the Workflow and Solver Overview manual or press the F1 key for online help to obtain more information on field visualization options.

     In addition to the graphical field visualization, some information text containing maximum field strength values and resonance frequencies will also be shown in the main window. 

    Q Factor Calculation

     The eigenmodes internal Q-factors, which are an important quantity for cavity design, can be easily derived from the field patterns.  Open the loss and Q-factor calculation dialog box by selecting Post Processing:  2D/3D Field Post Processing  > Loss and Q 

    The only setting that requires specification here is the conductivity of the enclosing metal.  By default, the conductivity of the Cond. Enclosure is set to copper (5.8e7 S/m).

    You may change this setting by clicking on the first row and selecting the Modify button that opens the following dialog box:

 

    In this example, you can set the Conductivity value to silver (6.16e7 S/m) and press the OK button.

    Back in the loss and Q factor calculation dialog box you should now select the desired Mode from the H-Field data list, e.g. the fundamental mode Mode 1.  Finally, press the Calculate button to obtain the Q factor value.

     The Q-factor is calculated to be 4.36"104 for the fundamental mode.

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