In chapter 6, the background of microstrip-to-waveguide transition is simply presented.
第六章分析了微带—波导过渡的研究背景。
Coaxial to rectangular waveguide transition of end launcher has been analyzed and computed detailedly.
端馈式同轴矩形波导作为同轴波导变换,前人已经作了很详细的分析计算。
Using the optimization program, a coax waveguide transition component is designed, which proves feasibility and validity of the optimization program.
应用该优化程序,设计了同轴线波导过渡器,证明了该优化方案的可行性和有效性。
The transitions of SIW with microstrip are solved by using concave transition and grounded coplanar waveguide transition, which are convenient for filters synthesized with active microwave circuits.
同时,通过使用凹型过渡和接地共面波导过渡两种转换方式,解决了基片集成波导与微带线的过渡问题,从而解决了滤波器和有源微波电路的集成问题。
FET multiplier filter multiplier and amplifier integrated modular waveguide to microstrip transition.
标签FET倍频器滤波器倍频放大组件微带到波导过渡。
The mixer mainly consists of a waveguide-to-microstrip transition, input and output filters, matching networks and an antiparallel diode pair.
该混频器主要由波导-微带过渡,输入、输出滤波器以及匹配网络和反向并联混频二极管对组成。
The transition effect of the via-free transition from coplanar waveguide (CPW) to microstrip is analyzed.
分析了无通孔接地板对共面波导(CPW)至微带转换过渡的影响。
The transition from the rectangular waveguide to the cavity coupler in LINACis made by means of a matching iris, which leads to amplitude and phase asym-metries of fields in the cavity coupler.
电子直线加速器的腔式耦合器通过侧面匹配膜片和方波导相连,它引起了腔中场振幅和相位的不对称。
The mixer mainly consists of a waveguide-to-microstrip transition, input and output filters, matching networks and an antiparallel Sckottky-barrier diode pair.
该混频器主要由波导一微带过渡,输入、输出滤波器以及匹配网络和三组反向并联混频二极管对组成。
In addition, the waveguide to microstrip transition and the IF low pass filter are improved, which are used in the mixer.
另外,本文对波导到微带的对极鳍线过渡和中频低通滤波器做了改进。
Using waveguide as input port, inside the waveguide we adopt a double antipodal fin-line transition, by adding tray and E-T junction, we can adjust the amount of the branches to get more power output.
采用波导端口输入,在波导内部使用双对极鳍线过度,通过附加托盘和E-T形结,可以灵活地调整合成路数来加大功率输出。
Using waveguide as input port, inside the waveguide we adopt a double antipodal fin-line transition, by adding tray and E-T junction, we can adjust the amount of the branches to get more power output.
采用波导端口输入,在波导内部使用双对极鳍线过度,通过附加托盘和E-T形结,可以灵活地调整合成路数来加大功率输出。
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