本文利用特征法对无耗非均匀传输线进行了综合。
Lossless nonuniform transmission lines are synthesized by the method of characteristics in the time-domain.
因此,对非均匀传输线的场路特性进行研究并进行结构优化非常重要。
Therefore, it is very important to study the circuit and field properties of the non-uniform transmission lines and to optimize their structures.
基于传统的阶梯式均匀传输线逼近模型,对非均匀传输线进行分段指数逼近。
Based on the conventional ladder model, the exponential model is adopted to approach the nonuniform transmission lines.
利用非均匀传输线模拟了多层平板屏蔽体,并进一步采用矩阵原理得到了屏蔽体的屏蔽效能。
A nonuniform transmission line is modeled for multilayer plates and an effective shielding is obtained by matrix theory.
本方法模型简便实用,不必进行解耦即可处理耦合传输线,并可很容易地应用于非均匀传输线的分析。
The model of this method is simple and practical and it can be applied to coupled transmission lines without decoupling and nonuniform transmission lines very easy.
科罗达等效方法可将抛物线型无损非均匀传输线用均匀传输线及若干集中参数元件组成的等效电路表示。
Based on Kuroda's identities, parabolic lossless nonuniform transmission line(NTL) can be represented by the equivalent circuit consisting of lossless uniform transmission line and lumped elements.
在均匀多导体传输线的时域有限差分法(FDTD)基础上,对非均匀多导体传输线及端接非线性负载的情况进行了分析。
Based on the uniform multi-conductor transmission lines (MTL), the FDTD method is adopted to research the transient response of the nonuniform transmission lines with nonlinear loads.
针对具有非线性负载的非均匀耦合传输线瞬态响应灵敏度分析困难的问题,提出了一种采用快速傅里叶变换的灵敏度分析方法——傅里叶变换法。
Since the sensitivity of nonuniform coupled transmission lines with nonlinear loads is hard to analyze, a new method based on fast Fourier transform is proposed.
针对具有非线性负载的非均匀耦合传输线瞬态响应灵敏度分析困难的问题,提出了一种采用快速傅里叶变换的灵敏度分析方法——傅里叶变换法。
Since the sensitivity of nonuniform coupled transmission lines with nonlinear loads is hard to analyze, a new method based on fast Fourier transform is proposed.
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