1) rectilinear ridge waveguide
直线型脊波导
2) curvilinear ridge waveguide
曲线型脊波导
1.
Ka band rectilinear and curvilinear ridge waveguides were designed and simulated by HFSS based on the analysis of kinds of transitions.
在分析各种过渡结构的基础上 ,用高频分析软件HFSS仿真设计了Ka频段直线型脊波导过渡和曲线型脊波导过渡结构 ,在 31~ 38GHz的宽带范围内 ,插入损耗小于 0 35dB。
3) rib waveguide
脊型波导
1.
In terms of single mode transmission theory in large cross-section rib waveguide,the authors designed the VOA s structure parameters,then measured its features.
阐述Mach-Zehnder型可调光衰减器的原理,分析影响器件功率消耗和器件响应的因素,然后根据硅基波导器件大截面的单模脊型波导理论,设计VOA器件的结构参数。
4) double-rib waveguide
双脊型波导
5) right-angle trapezoidal-ridge
直角梯形脊波导
6) single ridged waveguide
单脊波导天线
1.
The paper analyzed an S-band single ridged waveguide antenna used for near field measure by FDTD method and microwave transmition line theory.
本文采用FDTD方法以及微波传输线理论对一个用于近场测量、工作在S波段的单脊波导天线进行了分析。
补充资料:波导通信(见毫米波通信)
波导通信(见毫米波通信)
wave guide communication
bodao tongxin波导通信(wave guide communieation)见毫米波通信。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条