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.
在微波电路和天线系统中,阻抗匹配是十分重要的问题。
In microwave circuit and aerial system, impedance matching is very important.
数字微波性能指标是考核已建数字微波电路的重要依据。
Digital microwave transmission system performance criteria are important guidelines to assess operated digital microwave networks.
设计了一种采用单脊波导作为微波电路的新型行波光调制器。
A new travelling light modulator using single ridged waveguide as microwave circuit is designed.
给出若干实例,说明时方法有助于实际微波电路元件的设计。
It's illustrated by some examples, that the time-domain method is helpful to the microwave circuit elements design.
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.
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.
应用于微波电路CAD的优化结果证明了它的有效性和实用性。
The results applied to microwave circuits CAD demonstrate the efficiency and practicability of our optimization approach.
本文叙述了高可靠大功率微波电路的封装设计及工艺研究情况。
This paper described mainly study of package design and technology for high-reliability high - power microwave circuit.
所研制的微波陶瓷芯片电容器系列可广泛用于各种微波电路中。
Series of microwave ceramic chip capacitors developed in NSR can be used in various microwave circuits.
微波电路与低频电路的不同主要在于接地,互连与微带线的制造。
Microwave circuits differ from lower frequency circuits in ground connection, interconnect and manufacturing of the transmission lines.
目前流行的多层微波电路技术,正是三维空间电路技术重要应用之一。
The current popular multi-layer microwave circuit is one of the most important applications in the three-dimensional space technology.
经过训练后的神经网络模型可广泛用于解决射频微波电路的各种问题。
Once be trained, the neural network model can be used during microwave design to provide instant answers to any pre-assigned task.
本文描述了脉冲耿氏二极管、微波电路、脉冲调制器的结构和设计原则;
The design principles and structure, characters of a kind of pulse Cunndiode, microwave circuit and pulse modulator are described.
本文主要是FDTD方法在微波电路领域的应用,同时对方法进行了改进。
This paper concentrates on applications of FDTD in microwave circuits and method improvement.
测量系统采用了微波信号源、低噪声放大器和微波检波器等组成微波电路单元。
The microwave circuit unit is composed of microwave signal resource, low noise amplifier and microwave detector.
光子带隙结构在微波电路的集成度、尺寸、重量与成本上都具有不可替代的优势。
PBG structures have enormous advantages that can't be substitutable in the easier integration, greatly reduced hardware size, weight as well as cost of microwave circuits.
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.
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.
缺陷接地结构由于其带阻特性而被广泛地应用到射频微波电路中,以改善电路性能。
DGS are widely applied to rf and microwave circuits to improve the performance because of its bandgap characteristic.
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.
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.
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.
低温共烧陶瓷(LTCC)技术是实现微波电路与系统小型化、高密度的重要组装和互连技术。
Low temperature co-fired ceramics (LTCC) becomes an important packaging and interconnecting technology for realizing microwave circuit and system's miniaturization and higher density.
介绍了我省电力调度通信大楼在市区内三条微波电路被阻挡的情况,阐述了解决的方法与处理的过程。
Describes the blockage of three urban microwave circuits for the provincial electric power dispatching communication building, and discusses the countermeasures taken to eliminate the problems.
为了实现微波电路的高成品率和良好性能,在设计阶段就必须要对不连续性问题进行准确建模和研究。
In order to realize high-performance microwave circuits, it is necessary to establish accurate models and to analyze for these discontinuities.
神经网络在微波电路CAD和微波电路优化中的应用是目前非线性微波电路研究领域中的前沿课题之一。
Researching the applications of neural network techniques in the area of microwave circuits CAD and optimization design is one of the front edge issues in nonlinear microwave electronics domains.
因此,无论是微波电路CAD的常用方法还是一般电路CAD的常用方法对射频前端关键电路都不适用。
Neither the CAD methods for microwave circuit nor that for general electronics are not so applicable.
因此,无论是微波电路CAD的常用方法还是一般电路CAD的常用方法对射频前端关键电路都不适用。
Neither the CAD methods for microwave circuit nor that for general electronics are not so applicable.
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