这一关系式在微波电路分析与设计,特别是微波反馈电路分析与设计中甚为有用。
These formulas are useful in analyses and designs of microwave circuits, especially of microwave feedback circuits.
以上一系列研究和成果对于新型微波平面电路的分析和设计有着重要的意义。
The research summarized above is of significant importance for the analysis and design of modern microwave planar circuits.
利用径向传输线理论对微波有源网络的扇形偏置电路进行了分析。
The analysis of sector bias circuit for microwave active networks is made by means of the theory of radial transmission line.
单根与耦合微带线的分析与综合是微波集成电路(MIC)设计的基础。
Microwave Integrated Circuits (MICs) design is based on the analysis and synthesis of the single microstrip line and the coupled microstrip lines.
微波电路非线性理论的分析和研究已经逐渐引起人们的关注。
Analysis and study of non-linear theory of Microwave circuit have gradually attracted people's attention.
波导结是微波电路的基本构件,然而许多业已广为应用的波导结迄今仍未准确定量分析过。
While the waveguide junctions are the basic components of microwave circuits, many popularly used waveguide junctions have not yet been precisely analyzed.
基于麦克斯韦方程组的电磁场理论(场方法)和基于基尔霍夫定律的电路理论(路方法)是分析微波传输线的主要理论工具。
Electromagnetic field theory based on Maxwell's equations (field method) and circuit theory based on Kirchhoff's laws (circuit method) are the main tools to analyze transmission line problems.
如何精确地设计和分析微波电路变得非常关键。
How to accurately design and analysis of microwave circuits becomes a very crucial part in these applications.
从分析速调管输出回路的电磁场分量入手,结合微波电路理论,提出了计算速调管输出回路间隙阻抗的场分析法。
A new method (field analysis method) is presented to calculate gap-impedance in a klystron output circuit based on the analysis of the electromagnetic field components and microwave circuit theory.
检波器是电路系统中的常规部件之一,被广泛应用于标量网路分析仪、六端口网络、微波瞬时接收机等系统中。
Detector is one of the conventional components of the circuit system, which is usually used in scalar network analyzer, six-port network, and microwave transient receiver system.
对介质加载圆柱谐振腔进行严格分析是进行微波电路设计和微波介电测试的基础。
Rigorous analysis of dielectric-loaded cylindrical resonant cavity is the basis of microwave circuit design and microwave dielectric measurement.
同时,这一模型对分析结构复杂的混合微波电路有很大意义。
This model is very useful for analyzing complex microwave circuits.
利用微波器件、电路、微波等有关知识,对固态源各组成部分进行了分析、比较和选取,确定了固态源的实现方案。
Choose the main component elements of SSMS using related microwave, circuit, heat transfer knowledge, and decide the SSMS's forming project.
传统的设计和分析方法都是建立在弱非线性基础上,对于强非线性的微波电路不再适用。
Traditional design and analysis methods of these circuits are based on circuits in weak nonlinear circumstance. But for strong nonlinear circuits, these methods are not suitable.
本文通过微波网络分解,将复杂的多层微波电路分解为结构相对简单的子结构电路进行分析。
Through microwave network decomposition principle, we divided multilayered microwave circuit into simple circuit of sub-structure to analyze.
对于现有的微波毫米波集成电路的分析和设计能力可以有数量级的提高,全面真实地刻画微波毫米波集成电路的电磁模型,大幅度地缩短电路设计周期。
It can greatly improve the MMIC analysis and design ability as well as much more exactly found the MMIC EM model and prominently reduce the MMIC design cycle.
然后通过三维电磁场仿真,并结合微波电路理论对封装结构,特别是高频信号传输路径进行了优化设计,另外对盖板的效应进行了定性分析。
Then, package structure, especially the signal transmitting path structure is optimized using 3d electromagnetic simulation and microwave circuit theory. Effect of package lid is also studied.
然后通过三维电磁场仿真,并结合微波电路理论对封装结构,特别是高频信号传输路径进行了优化设计,另外对盖板的效应进行了定性分析。
Then, package structure, especially the signal transmitting path structure is optimized using 3d electromagnetic simulation and microwave circuit theory. Effect of package lid is also studied.
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