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HFSS中lumped port 与wave port 比较
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With lump port=> the excitation is applied at a point/cell, as a voltage or current.
With wave-port=> the excitation is so-called eigen-wave, such as the quasi-tem wave supported by a microstrip line. It applies over a cross-sectional area.
voltage is scalar, wave is vector by nature, hence there are substantial difference between the two. So use waveport whenever possible, because "simulation of wave phenomenon" is what HFSS is designed for. And compare with the "correct" measurement whenever possible (i.e. measure "wave", not simply "voltage").
Why lumped port is there? It is easy to applied and people found that good/reasonable results can be obtained. Why? if the frequency is low enough or the excitation is applied at sufficiently small area, then the "wave" can be described by some "voltage" or "current", which must be "measured"/"calculated"/de-embedded/etc in the correct manner.
if the excitation can be applied on some locally uniform region=>waveport,
if geometry/material discontinuities are near/closer to the point of excitation=>lumped port might be the only way.
The subject of lumped vs wave port is actually complicated. people continue to study related matters, (e.g. arguing what is the "characteristic impedance").
Reading about the various de-embedding scheme should help with the understanding....
翻译:
With lump port=> the excitation is applied at a point/cell, as a voltage or current.
lump port的激励以电压或电流的形式,加在一个点或单元上。
With wave-port=> the excitation is so-called eigen-wave, such as the quasi-tem wave supported by a microstrip line. It applies over a cross-sectional area.
而wave-port的激励称做本征波,比如微带线馈源提供的准TEM波,它加在一个横截面(剖面)上。
voltage is scalar, wave is vector by nature, hence there are substantial difference between the two. So use waveport whenever possible, because "simulation of wave phenomenon" is what HFSS is designed for. And compare with the "correct" measurement whenever possible (i.e. measure "wave", not simply "voltage").
电压是标量,而波本质上是矢量,因此两者间有很大区别。当情况允许时,尽可能选择waveport,这是由于HFSS是为“波仿真”设计的,相对于简单的“电压”,测量“波”可使结果更精确。
Why lumped port is there? It is easy to applied and people found that good/reasonable results can be obtained. Why? if the frequency is low enough or the excitation is applied at sufficiently small area, then the "wave" can be described by some "voltage" or "current", which must be "measured"/"calculated"/de-embedded/etc in the correct manner.
那为什么还要使用lumped port呢,这是由于lumped port激励的添加简单,并且可获得良好的结果。如果频率很低或者激励加在足够小的区域上,“波”就可以用“电压”或“电流”来描述,必须用正确地方式测量、计算。
if the excitation can be applied on some locally uniform region=>waveport,
if geometry/material discontinuities are near/closer to the point of excitation=>lumped port might be the only way.
另外,如果激励可以加在某些局部均匀分布的区域,应该采用waveport,如果激励点附近存在几何或材料上的不连续区,lumped port可能就是唯一选择了。
With wave-port=> the excitation is so-called eigen-wave, such as the quasi-tem wave supported by a microstrip line. It applies over a cross-sectional area.
voltage is scalar, wave is vector by nature, hence there are substantial difference between the two. So use waveport whenever possible, because "simulation of wave phenomenon" is what HFSS is designed for. And compare with the "correct" measurement whenever possible (i.e. measure "wave", not simply "voltage").
Why lumped port is there? It is easy to applied and people found that good/reasonable results can be obtained. Why? if the frequency is low enough or the excitation is applied at sufficiently small area, then the "wave" can be described by some "voltage" or "current", which must be "measured"/"calculated"/de-embedded/etc in the correct manner.
if the excitation can be applied on some locally uniform region=>waveport,
if geometry/material discontinuities are near/closer to the point of excitation=>lumped port might be the only way.
The subject of lumped vs wave port is actually complicated. people continue to study related matters, (e.g. arguing what is the "characteristic impedance").
Reading about the various de-embedding scheme should help with the understanding....
翻译:
With lump port=> the excitation is applied at a point/cell, as a voltage or current.
lump port的激励以电压或电流的形式,加在一个点或单元上。
With wave-port=> the excitation is so-called eigen-wave, such as the quasi-tem wave supported by a microstrip line. It applies over a cross-sectional area.
而wave-port的激励称做本征波,比如微带线馈源提供的准TEM波,它加在一个横截面(剖面)上。
voltage is scalar, wave is vector by nature, hence there are substantial difference between the two. So use waveport whenever possible, because "simulation of wave phenomenon" is what HFSS is designed for. And compare with the "correct" measurement whenever possible (i.e. measure "wave", not simply "voltage").
电压是标量,而波本质上是矢量,因此两者间有很大区别。当情况允许时,尽可能选择waveport,这是由于HFSS是为“波仿真”设计的,相对于简单的“电压”,测量“波”可使结果更精确。
Why lumped port is there? It is easy to applied and people found that good/reasonable results can be obtained. Why? if the frequency is low enough or the excitation is applied at sufficiently small area, then the "wave" can be described by some "voltage" or "current", which must be "measured"/"calculated"/de-embedded/etc in the correct manner.
那为什么还要使用lumped port呢,这是由于lumped port激励的添加简单,并且可获得良好的结果。如果频率很低或者激励加在足够小的区域上,“波”就可以用“电压”或“电流”来描述,必须用正确地方式测量、计算。
if the excitation can be applied on some locally uniform region=>waveport,
if geometry/material discontinuities are near/closer to the point of excitation=>lumped port might be the only way.
另外,如果激励可以加在某些局部均匀分布的区域,应该采用waveport,如果激励点附近存在几何或材料上的不连续区,lumped port可能就是唯一选择了。
这个很好啊,以前一直没弄明白这个问题
很受益,之前不明白什么时候用wave port,什么时候用lump port,很不错!
谢谢!
很精闢的解答!感謝樓主分享
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