切角贴片在微带电路中得到了大量的应用。
Patches with corner cut are widely used in microstrip circuits.
最后给出集中参数电路和微带电路的E类放大器实例。
At last, several class E amplifiers with lumped element and microstrip circuit are given.
被测件放在测试夹具里,如二极管、晶体管、微带电路等。
DUT is placed in test fixture such as diode, transistors, microstrip circuit and so on.
本文方法对微带电路及微带天线的CAD设计将具有实际意义。
This new technique can be used as a powerful CAD tool in the analysis of planar microstrip circuits and microstrip antennas.
另外,论文还对微带电路的一种混合FDTD算法进行了研究。
The transition algorithm between the traditional FDTD and a new online FDTD is investigated.
利用微带电路作成的行波管外平衡器的理论研究和实验工作已经完成。
Theoretical and experimental research have been done for external TWT equalizer by using microstrip circuit.
介绍了运用FDTD设计和分析微带电路和天线的基础理论,分析了误差产生的原因。
The finite difference time domain (FDTD) method applied to simulate microwave circuits and antennas is presented in this paper. The computational errors have been analysed.
特别是亚波长结构的引入,使微带电路呈现出了前所未有的特性,如慢波特性、左手特性等。
In particular the introduction of sub-wavelength structures, the microstrip circuit has presented unprecedented features, such as slow-wave characteristics, left-handed properties and so on.
将微带电路向空间的辐射作为一个端口来处理,成功地消除了由于忽略电路的空间辐射效应引入的电路数字模拟误差。
The errors caused by omiting of electromagnetic radiations of opened microstrip in numerical simulating of microstrip circuits is eliminated successfully by making one circuit port of the radiation.
介绍了利用微带电路来确定一组高性能、高频印刷电路板材料的介电常数和损耗角正切的方法,且给出了一组印刷电路板材料的特性测量值。
The paper introduces measurements about dielectric constant and tangential loss angle of a group of good function and high frequency printed electronic circuit plate with microstrip circuit.
介绍了利用微带电路来确定一组高性能、高频印刷电路板材料的介电常数和损耗角正切的方法,且给出了一组印刷电路板材料的特性测量值。
The paper introduces measurements about dielectric constant and tangential loss angle of a group of good function and high frequency printed electronic circuit plate with microstrip circuit.
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