如图10-16设置激励如下:右键单击 3D 模型窗口并选择 Assign Excitation->Incident wave-> Plane Wave…,出现名为 “Incident Wave Source General Data”对话框,将Excitation Location and/or Zero Phase Position设置为 X坐标 =1000mm,然后单击“Next”,进入 “Incident Wave Source Cartesian Vector Setup”的对话框...
使用Floquet端口激励并结合周期性边界,能够像传统波导端口激励一样轻松的分析周期型结构的电磁特性,从而避免了场求解器复杂的后处理过程。 入射波(Incident Wave) 是用户设置的朝某一特定方向传播的电磁波,其等相位面与传播方向垂直;入射波照射到器件表面和器件表面的夹角称为入射角。入射波激励常用于雷达反射截面(RCS...
此外,Infinite Ground Plane边界条件上可以通过设置Aperture边界条件来实现类似金属上开孔的效果。 特别注意的是,HFSS-IE的Select Material选项中只能选择金属材料(如铜、理想导体等)。 4.设置端口和激励: HFSS-IE里面的激励只能设置成Terminal Lumped Gap Port和Incident Wave两种,具体设置方法与HFSS主界面一致。通过设置...
All Channels Electronics HFSS Incident plane wave HFSS Incident plane wave November 17, 2020 at 10:21 am EM2020 Subscriber I simulated the metamaterial (transmitted array) using the incident plane wave in HFSS. when i ploted the radiation pattern, it looks including both incident field and ...
记得Maxwell有plane wave 激励选项 HFSS没有 我们也仿过导体的屏蔽特性 HFSS 只能是近似 如果需要确切的结果 可以在CST选择plane wave 并且记得如果要考虑吸收效率 选择solve inside 嗯嗯,在HFSS里面找到了plane wave,做毕设用到,现在还只是在熟悉HFSS ,谢谢你啦, miller8861 hfss有plane wave的啊 bobhit 3楼: ...
HFSS环境下不规律变化参数的参扫设置方法介绍
is for calculating the mode-based S-parameters of passive, high-frequency structures such as microstrips, waveguides, and transmission lines which are "driven" by a source, and for computing incident plane wave scattering. The S-matrix solution will be expressed in terms of the incident and ref...
HFSS中定义了多种激励方式,主要有波端口激励(Wave Port)、集总端口激励(Lumped Port)、Floquet端口激励(Floquet Port)、入射波激励(Incident Wave)、电压源激励(Voltage Source)、电流源激励(Current Source)和磁偏置激励(Magnetic Bias)。 天线必须通过传输线或者波导传输信号,天线与传输线或者波导的连接处即为馈电面...
is for calculating the mode-based S-parameters of passive, high-frequency structures such as microstrips, waveguides, and transmission lines which are "driven" by a source, and for computing incident plane wave scattering. The S-matrix solution will be expressed in terms of the incident and ref...
is for calculating the mode-based S-parameters of passive, high-frequency structures such as microstrips, waveguides, and transmission lines which are "driven" by a source, and for computing incident plane wave scattering. The S-matrix solution will be expressed in terms of the incident and ref...