导体损耗 meaning in Chinese
conductor loss
Examples
- 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
通过计算发现,随着中间电极角度和地电极角度增加,有效折射率、特征阻抗同时减小,导体损耗系数也随之减小。 - 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
但是这种方法的测试结果是两片超导膜的平均值,而且未考虑到金属腔的导体损耗和其它一些因素引入的误差。 - 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
结果表明:电极的厚度和宽度、电极间距以及上包层的厚度对微波有效折射率、特征阻抗和导体损耗的影响是不同的,在实际设计时应当综合考虑。 - 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
微带线作为一种平面电路结构,适合于系统的混合集成,但是这种结构也存在一定的缺陷,由于导体损耗、辐射损耗和介质损耗的存在,使得它不适于工作在毫米波波段,也无法构成高q值的部件。 - 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
然后,用一般的椭圆积分计算了普通共面波导型调制器的有效折射率、特征阻抗和导体损耗系数。通过计算发现,采用厚电极和厚缓冲层结构,在实现速度匹配的情况下,可以大大减小导体损耗,但是由于阻抗不能同时满足匹配,调制带宽受到限制。