- 您現(xiàn)在的位置: 微波EDA網(wǎng) >> CST >> CST設(shè)計(jì)實(shí)例 >> 正文
CST諧振腔體設(shè)計(jì)分析—CST2013設(shè)計(jì)實(shí)例
Eigenmode Calculation with JDM
CST MICROWAVE STUDIO offers the possibility to choose the JDM eigenmode solver. This solver is recommended only if a small number of eigenmodes are required (5 modes or less). Since this is a tutorial, it is convenient to reset the mesh settings to the initial values of the mesh adaptation to speed up the calculation. Open the Mesh Properties dialog for the hexahedral mesh by selecting Home: Mesh Global Properties : and set both Lines per wavelength and Lower mesh limit equal to 10.
There may be old results present from the previous solver run that will be overwritten when changing the mesh. In this case, the following warning message appears:
Press OK to acknowledge deletion of the previous results.
The solvers parameters are specified in the solver control dialog box that can be opened again by selecting Home: Simulation Start Simulation . Select from the Method drop down menu the eigenmode solver JDM and reduce the number of Modes to 5. With these settings the solver will calculate 5 modes starting from the lowest resonance frequency.
Before starting the eigenmode solver, you may select the Specials button in order to change the desired accuracy for the eigenmodes. In this case, the value of 1e-6 is sufficient and you can leave the box unchanged by pressing the OK button.
Finally, press the Start button. A few progress bars will appear in the status bar again, keeping you informed of the current status of your calculation (e.g. matrix calculation, eigenmode analysis). After the solver has finished, the resonance frequencies of the first five modes are displayed in the main view.
In order to review the solver time required to achieve these results, you can display the solver log-file by selecting Results > View Logfiles > Solver Logfile from the main menu. Please scroll down the text to obtain the timing information . The solver time required for the calculation is comparable to the AKS eigenmode solver.
Please note: In contrast to the AKS eigenmode solver, the JDM requires no guess of the highest eigenfrequency and the eigenmodes are calculated to a prescribed accuracy. The visualization of modes, Q-factor calculation and mesh adaptation are carried out as for the AKS eigenmode solver.
In contrast to AKS, the JDM does not currently support TST mesh cells. Furthermore, the AKS solver should be used if many modes have to be calculated. The JDM eigenmode solver is able to calculate eigenmodes of lossy structures (const. complex permittivity). However, if you require the Q-factors and the losses are small, it is advisable to calculate the eigenmodes of the loss-free structure first. This is done by default, see the < i>Consider losses in postprocessing only check box. Afterwards, you can compute the Q-factors by the post-processing step described previously.
-
CST中文視頻教程,資深專家講解,視頻操作演示,從基礎(chǔ)講起,循序漸進(jìn),并結(jié)合最新工程案例,幫您快速學(xué)習(xí)掌握CST的設(shè)計(jì)應(yīng)用...【詳細(xì)介紹】
- CST天線設(shè)計(jì)和天線陣設(shè)計(jì)—CST2013設(shè)計(jì)實(shí)例
CST同軸線器件的仿真設(shè)計(jì)分析—CST2013設(shè)計(jì)…
使用CST微波工作室進(jìn)行TDR計(jì)算分析
CST與Matlab連接設(shè)置
CST微波工作室和Agilent ADS 協(xié)同仿真連接設(shè)…
CST微波工作室查看VSWR結(jié)果
CST仿真分析結(jié)果如何與外部數(shù)據(jù)進(jìn)行比較
CST微波工作室采用的主要算法
使用CST微波工作室的時(shí)域求解器仿真電大問(wèn)題…
電磁兼容的數(shù)值仿真分析——CST2013
CST仿真性能和仿真技術(shù)
CST設(shè)計(jì)環(huán)境 — CST2013
推薦課程
-
7套中文視頻教程,2本教材,樣樣經(jīng)典
-
國(guó)內(nèi)最權(quán)威、經(jīng)典的ADS培訓(xùn)教程套裝
-
最全面的微波射頻仿真設(shè)計(jì)培訓(xùn)合集
-
Ansoft Designer 學(xué)習(xí)培訓(xùn)課程套裝
首套Ansoft Designer中文培訓(xùn)教材
-
矢網(wǎng),頻譜儀,信號(hào)源...,樣樣精通
-
與業(yè)界連接緊密的課程,學(xué)以致用...
-
Les Besser射頻培訓(xùn)經(jīng)典原版視頻
業(yè)界大牛Les Besser的培訓(xùn)課程...
-
PCB設(shè)計(jì)學(xué)習(xí)培訓(xùn)課程套裝
Allegro,PADS,PCB設(shè)計(jì),其實(shí)很簡(jiǎn)單..
-
Hyperlynx,SIwave,助你解決SI問(wèn)題
-
現(xiàn)場(chǎng)講授,實(shí)時(shí)交流,工作學(xué)習(xí)兩不誤