The infection of the dimension of microstrip line to power capability of devices and the power capability of isolate resistor has been investigated in detail.
详细研究了微带线尺寸对器件功率容量的影响,以及大功率合成系统中隔离电阻功率容量的量值;
Computed results of anisotropic microstrip line and rectangular dielectric waveguide agree well with data given in the literature, the effectiveness of this method is thus justified.
文中给出了各向异性微带线及矩形介质波导的计算结果,与文献值吻合得较好,证实了本文方法的正确性。
The model uses the effective impedance of the microstrip line as the value of matched resistive load and assign it into the RL mesh region in a proper proportion.
该模型将微带线的有效阻抗作为匹配负载电阻,然后按适当的比例分布到端接面的网格中。
The radiating element of array antenna is air dielectric microstrip patch antenna, which has high efficiency, and the feed network is low loss air strip, which can reduce the loss of the feed line.
阵列天线辐射单元采用空气介质的微带贴片天线,辐射效率高;阵列天线的馈线网络采用低损耗的空气带状线形式,降低了馈线损耗。
Artificial neural network of coupling microstrip line is built, and used to analyze and design coupling microstrip line.
采用神经网络对耦合微带线进行建模,并将此模型应用到耦合微带线的分析与设计中。
The leakage of microstrip line has two forms: the surface wave form and the space wave form, and the higher order modes on microstrip line mostly leak as space wave form.
微带线泄漏一般分为表面波形式和空间波形式两类,其中微带线高次模泄漏一般以空间波的形式发生。
Based on this method, a C-band single stage microstrip line end-coupled filter has been designed and fabricated.
基于这种方法,制作了一个C波段的单级微带端耦合滤波器。
Microwave Integrated Circuits (MICs) design is based on the analysis and synthesis of the single microstrip line and the coupled microstrip lines.
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。
In this paper, an improved wide-band 90 degrees Schiffman phase shifter is presented by using a back to back microstrip line.
在此提出了一种改进的宽带移相90度希夫曼提出使用背对背微带线。
The developed theory is used to analyse the impedance-match problem of microstrip meander line ferrite phaser in X-Band, C-Band, and a good agreement with the experimental results is obtained.
用所得理论来分析X波段和C波段弯曲线型微带铁氧体移相器的阻抗匹配问题,与实验结果十分符合。
The phase constant of MLWA decreases with microstrip inductors loading along the leaky line, which results in the decrease of the main beam direction angle of MLWA.
通过在微带漏波天线的辐射边缘周期性地加载微带电感,可减小微带漏波天线的相位常数,进而减小微带漏波天线的主波束方向角。
The MoM technique is used to deal with an arbitrary load microstrip transmission line and bend.
采用矩量法技术来分析接任意负载的微带传输线和微带弯折。
There is disclosed a dielectric antenna comprising a dielectric resonator mounted in direct contact with a microstrip transmission line formed on one side of a printed circuit board.
本发明公开了一种包括电介质谐振器的电介质天线,其所述电介质谐振器安装成与在印刷电路板一侧上所形成的微带传输线直接接触。
Compared with the former microstrip multisection coupled-line configuration, our newly proposed planar one with back-to-back microstrip line is small in size and, meanwhile, has a good performance.
微带耦合与前行配置多节相比,我们的新建议与后端到后端平面微带线之一是体积小,同时,具有良好的性能。
The precise expression for the insertion loss of the parallel coupled microstrip line output bandpass filter has been given on the basis of related mathematical models.
本文在相关数学模型的基础上,推导出平行耦合微带线和平行耦合微带线输出带通滤波器插损的精确表达式。
Microstrip line is a mostly used planar transmission line in hybrid microwave integrated circuit and monolithic microwave integrated circuit.
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。
The Method of Moment (MoM) is used first for calculating the input impedance of microstrip patch antennas fed by microstrip line.
本文首先利用矩量法计算平面馈电型微带贴片天线的输入阻抗,并对其进行实验测量;
Analysis of the rectangular microstrip patch antenna excited by a microstrip transmission line is presented in this paper.
本文提出用有限元法分析微带贴片天线。
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.
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。
By inserting a slot at the edge of the rectangular slot on the ground plane and loading a C-shaped resonator near the microstrip line, dual band-notched characteristic at the central frequency at 3.
通过在地板上的矩形槽的边缘开槽和在馈线旁加载C形谐振器,该天线实现在中心频率3。
In chapter IV, two novel wide-slot antennas fed by CPW and Microstrip line have been designed.
第四章设计了微带馈电和共面波导馈电的平面宽槽超宽带天线。
Secondly, Using MATLAB and HFSS to deeply research three types of analytical method for microstrip antenna which are transmission line method, cavity mode theory and finite-element method.
其次,结合MATLAB编程仿真和HFSS建模仿真,对微带天线的三种典型分析方法进行了深入研究,即传输线法、腔模理论和有限元法,为下面宽频带微带天线的设计奠定了理论依据。
Then resonant and radiate characteristics of HMSIW are studied. Based on these characteristics, an HMSIW antenna is developed with microstrip line feeding electron.
然后研究了半模基片集成波导的谐振和辐射特性,提出了一种微带馈电的采用半模基片集成波导结构的天线。
Some microstrip structures such as microstrip line, patch antenna and microstrip branch line coupler have been simulated and the characters of these elements have been analysed.
利用FDTD法分别对微带传输线、矩形微带贴片天线和微带分支耦合器进行了仿真和特性分析。
The FDTD model of the coaxial probe- fed microstrip antennas is sets up using a simplified model of coaxial line.
利用同轴线的简化模型建立了适用于同轴馈电微带天线分析的FDTD模型。
The planar monopole antennas not only have these merits but also have the properties of wideband, low profile, and easily connecting to microstrip line feeding network.
平面单极天线以其结构尺寸小、工作频带宽、全向性能好、生产制作工艺简单等优点,广泛地应用于无线通信系统中。
The planar monopole antennas not only have these merits but also have the properties of wideband, low profile, and easily connecting to microstrip line feeding network.
平面单极天线以其结构尺寸小、工作频带宽、全向性能好、生产制作工艺简单等优点,广泛地应用于无线通信系统中。
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