讨论了金属栅网的微波传输线模型。
Microwave transmission line model on a cylindrical wire grid is discussed.
微带线和波导是两种重要的微波传输线,在微波领域有着十分广泛的应用。
Mircrostrip and waveguide are two important kinds of microwave transmission line which are widely used in microwave area.
为此,本文首次提出尝试利用微波传输线理论中的驻波原理测量乔木茎干含水率。
Therefore, the author try to utilize standing wave ratio of the microwave transmission line theory to measure plant water content in this paper.
仿真结果表明,微波传输线对雷达干扰脉冲具有积累放大作用,其典型积累数可达50 0以上。
Emulating result shows that microwave transmission line has an accumulation or amplifying effect on radar interference pulse, and the typical amplification multiple is more than 500.
文中利用SRD(阶跃恢复二极管)与微波传输线,通过错位对消的方法设计与制作了UW B脉冲发生器。
This paper is a report of the designing and making of a UWB pulse generator using SRD (step recovery diode) and microwave transmission line and by means of intervention and elimination.
首先依据经典的微波传输线的数学模型,在对微带线进行了分析和计算仿真的基础上,设计了基于微带线的测量线结构。
According to the classical mathematical model of the microwave transmission line, and the analysis and simulation of the microstrip, measuring line with microstrip is designed.
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.
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.
首先研究了一维微波光子晶体传输线。
First one-dimensional PBG microwave transmission line is studied.
论文首先对时域有限差分方法的原理、传输线理论以及微波网络理论予以介绍。
Fundamental principles of FDTD method, basic theory of transmission line and microwave network are first introduced.
本文用直线法研制了微波毫米波平面传输线全波分析通用软件。
A general - purpose software for the full-wave analysis of microwave and millimeter-wave planar transmission lines by the method of lines has been developed.
报道了采用电磁场全波分析方法模拟高速数字微波共面带线传输线电磁互耦特性。
A full wave simulator for the electromagnetic coupling of coplanar-type strip line in high speed digital microwave IC is described.
文章以高方向性天线及光子晶体微带传输线为例,综述了光子晶体在微波技术中的研究进展。
The application of photonic crystals in microwave devices, especially in high directive antennas and photonic bandgap microstrip structures, is reviewed.
微带线是目前混合微波集成电路和单片微波集成电路中使用最多的一种平面型传输线。
Microstrip line is a mostly used planar transmission line in hybrid microwave integrated circuit and monolithic microwave integrated circuit.
本文依据传输线理论、微波网络理论、天线原理、矩量法和矩阵理论等,建立起基本传输线方程和四种等效电路模型,为使用集总电路迭代近似方法建立了基础。
In this paper, basic transmission line equation and four kinds of lumped-circuit model were constructed according to transmission line theory, microwave network, antenna theory and matrix theory.
在探明不连续性结构对微波传输特性的影响后,再对平面传输线不连续性结构进行补偿和优化,重点研究补偿后的不连续性结构对主模散射参数的改善和影响。
Such time domain signals are then processed to get frequency domain parameters. Then, the emphasis of this study was to optimize the electrical performance using simple compensation techniques.
在探明不连续性结构对微波传输特性的影响后,再对平面传输线不连续性结构进行补偿和优化,重点研究补偿后的不连续性结构对主模散射参数的改善和影响。
Such time domain signals are then processed to get frequency domain parameters. Then, the emphasis of this study was to optimize the electrical performance using simple compensation techniques.
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