1) step impedance conversion
阶梯阻抗变换
1.
On the basis of the effects of PBG(photonic band-gap) structure and step impedance conversion structure in transmitting electromagnetic wave system,a novel waveguide coaxial connecter for 8mm has been discussed and studied based on above two structures,the 2D air column structure in dielectric support cushion depress the dissipation of electromagnetic wave in coaxial structure,at the sa.
基于PBG(Photonic Band-Gap)和阶梯阻抗变换结构在导波系统中对电磁波传播性能的影响,探讨和研究了将这2种周期性结构应用在8 mm波导同轴转换连接器的设计中的情况,通过在同轴腔内导体介质支撑垫中布置二维PBG结构抑制同轴部分横向溢散的电磁波,通过在波导腔体内增加阶梯阻抗结构,改善阻抗变换效率,提高波导同轴转换器件的传输性能。
2) stepped impedance transformer
阶梯阻抗变换器
1.
Optimization design for the stepped impedance transformer based on the genetic algorithm;
阶梯阻抗变换器的遗传算法优化设计
2.
Finally, broadband stepped impedance transformers are designed by four methods respectively.
用一个典型的数学算例验证了免疫算法的多峰值寻优性能,并用4种方法分别设计宽带阶梯阻抗变换器,结果表明基于免疫算法的微波电路优化设计具有可行性和高效性。
3.
In this paper, four methods are adopted respectively in designing broadband stepped impedance transformer.
最后用四种优化方法设计宽带阶梯阻抗变换器,结果表明基于嫁接遗传算法的微波电路优化设计具有高效性和精确性。
3) Waveguide ladder impedance transformation
波导阶梯阻抗变换
4) step-impedance
阶梯阻抗
1.
The structer of step-impedance can effectively reduce the length of a dielectric coaxial resonator ,each length of a step-impedance coaxial resonator is usually calculated by solving resonatant condition equation,which is complicated.
阶梯阻抗结构可以有效地降低同轴谐振器的高度,阶梯阻抗同轴谐振器的各段长度一般是通过求解谐振条件方程式来确定,计算过程繁琐。
2.
In this thesis, the related theories and technologies of the step-impedance dual-band bandpass filter are studied mainly, with an emphasis on the synthesis and design of this filter.
本文以阶梯阻抗双频带通滤波器的综合与设计为主,并研究了与之相关的理论和技术。
5) quarter-wave stepped impedance transformer
λ/4多阶阻抗变换器
6) impedance conversion
阻抗变换
1.
And it put emphasis upon studying impedance conversion mechanism of variable reactor in theory.
介绍了可变电抗器的构建和拓扑结构,从理论上着重分析研究了采用IGBT管的可变电抗器的阻抗变换机理,并运用Matlab/Simulink分别从阻性负载和感性负载两方面对可变电抗器的阻抗变换进行了仿真,绘出了仿真曲线。
2.
In this paper,the influence of base impedance conversion on two single degree-of-freedom systems rested on an elastic base is studied.
在浮筏系统中的基座和下层隔振器间增加阻抗变换器,以改变基座的阻抗特性,改变从激励到壳体的传递特性,使整个系统中与激励频率相近、并和舱段壳体振动相关的固有频率和激励频率错开。
补充资料:星接阻抗和三角接阻抗的变换
星接阻抗和三角接阻抗的变换
transformation between starc-onnected and delta-connected impedances
x ing]一e乙日kongl介e sonJ一00}Iez日伙ongde匕一。一〕huon星接阻抗和三角接阻抗的变换(t ransfor-mation betweenstar一eonneeted and delta-eonneeted imPedanees)接成星形的三个阻抗和接成三角形的三个阻抗互相替代的等效变换。它们之间的关系可用一组变换公式表示。按这组公式,用星接阻抗替换三角接阻抗或者反过来,不会影响稳态下电路其他部分的正弦电压和电流,常用于对称三相电路的分析和计算。 图1为三个阻抗21、Z:、23接成星形(又称丫形)。图2为三个阻抗Z小22。、Zal接成三角形(又称△形)。它们之间的变换公式如下:人23土图1星接阻抗图2三角接阻抗(1)将星形连接变换成三角形连接212一Z:+22+2 122及3一22+za十警(1)、|冬|矛231一23+21+2321(2)将三角形连接变换成星形连接z、-二一典乒兴-) 艺‘2士乙“3十乙31…_2 oqZI,}Z。一下万~一二-二二-汁 乙‘2士乙23十乙3‘1_Z。IZoq}艺q一二二一~二,二二--,-二二-~J 乙12十乙23十艺32夕(2) 当三个星接阻抗相等,即21一Z:一23一z丫、三个三角接阻抗相等即212一223一231一Z△时,变换公式是 Z二一32丫,Z丫一Z△/3
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参考词条