conductor thickness 中文意思是什麼
conductor thickness
解釋
導線厚度-
Finite difference time - domain method is used to calculate the reflection for these probes and absorbing boundary condition is used to deal with the singularity in the axis of the coaxial - line in the simulation. by comparing the reflection of different probes, the best probe has been selected according to sensitive requirement. the influence of parameters : such as thickness of protective film, length of protruding inner conductor of the coaxial - line probe to the measurement has been studied
通過時域有限差分法進行數值模擬分析,並採用吸收邊界處理同軸線軸心奇異點,計算出各種探頭測量相同溶液的反射系數,根據其測量的靈敏度,選出最優設計;並通過分析所選探頭的各種設計參數,如薄膜厚度、內導體伸出長度等的變化對測量結果的影響,找出該探頭各參數的最佳范圍,使其具有高度靈敏性,以適用於測量化學反應溶液的介電常數。 -
In this modulator, coplanar strips ( cps ) are used as electrodes for they support balance mode propagation of microwave, and this is a desired merit for common optical modulator. due to the miniaturized dimensions, the metallization thickness is in the order of skin depth and the conductor losses are not negligible
雖然由於金屬的趨膚效應,電場將集中在金屬表面,但在40g以上的頻率條件下,金屬的厚度和趨膚深度在一個量級,而且此時調制器帶寬受到限制的最大根源來源於金屬電極的微波損耗。 -
These results are as follows. 1. the asymmetric cpw with conductor backing, the asymmetric cpw with wholly shielding and the asymmetric cpw with both finite substrate thickness and finite lateral ground planes are put forward, and the analyzing methods of these cpw ' s are presented
本論文給出了分析該模型的保角變換方法,歸納了該模型所能演變出的共面波導種類,推導出了該模型特性參數面向cad的封閉解析表達式。 -
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。 -
For tmon model in cylindrical resonant cavity, the influence of the position, material and thickness of the clapboard on electromagnetic field and resonant frequency was studied. for tem model in coaxial resonant cavity, the influence of shape and position of inner conductor on electromagnetic field, start - up and steady work was studied
對tm _ ( 011 )模,分析了隔板對諧振腔內電磁場分佈及諧振頻率的影響;對tem模,分析了內導體形狀、位置對諧振腔內電磁場分佈的影響;以及它們對啟動和穩定工作的影響。
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