conductor loss 中文意思是什麼
conductor loss
解釋
導體損耗-
Based on the maxwell ' s equations, the one - dimensional foil conductor ' s current density distribution equals the sum of the independent skin effect and the proximity effect current density distributions, and the one - dimensional foil conductor ' s loss equals the sum of the independent skin effect and the proximity effect losses
本文從maxwell電磁場方程出發對一層薄銅箔的趨膚和鄰近損耗進行了研究,得出銅箔的總損耗是趨膚和鄰近效應單獨起作用產生的損耗的和。 -
As a planar structure, microstrip fit for hybrid integrity, but their disadvantages also exist : the dissipation loss caused by conductor, radiation, and dielectric, therefore, they are not suitable to be used in millimeter wave applications and couldn ’ t compose high q passive components
微帶線作為一種平面電路結構,適合於系統的混合集成,但是這種結構也存在一定的缺陷,由於導體損耗、輻射損耗和介質損耗的存在,使得它不適于工作在毫米波波段,也無法構成高q值的部件。 -
There is integrated theoretic calculation, simple field, eliminate the reference of tan to rs, but the result comes from two samples without the conclusion of the conductor loss of cylindrical cavity
但是這種方法的測試結果是兩片超導膜的平均值,而且未考慮到金屬腔的導體損耗和其它一些因素引入的誤差。 -
The calculation results have shown that when the angles of the center electrode and the grounds decrease, the effective index, the characteristic impedance, and the conductor loss all decrease
通過計算發現,隨著中間電極角度和地電極角度增加,有效折射率、特徵阻抗同時減小,導體損耗系數也隨之減小。 -
The results show that the thickness and the width of the electrode, electrode gap and the thickness of upper cladding have different effects on microwave effective index, characteristic and conductor loss. compromising structure must be adopted in practical design to gain perfect performance
結果表明:電極的厚度和寬度、電極間距以及上包層的厚度對微波有效折射率、特徵阻抗和導體損耗的影響是不同的,在實際設計時應當綜合考慮。 -
It has been shown by our calculations that conductor loss is greatly reduced under velocity matching with relatively thick coplanar waveguide electrodes and thick buffer layer, but the characteristic impedance can not match with that of the external circuit at the same time, and the modulation bandwidth is confined in this case
然後,用一般的橢圓積分計算了普通共面波導型調制器的有效折射率、特徵阻抗和導體損耗系數。通過計算發現,採用厚電極和厚緩沖層結構,在實現速度匹配的情況下,可以大大減小導體損耗,但是由於阻抗不能同時滿足匹配,調制帶寬受到限制。 -
Connector - induced optical conductor loss
連接器引起的光導損耗 -
Induced optical conductor loss
引起的光導體損耗 -
Connector optical conductor loss
連接器光導損耗 -
Optical conductor loss
光導體損耗
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