应用集总电感元件的传输线建模方法(TLM)构造了一种基于数值求解微分方程的数字仿真算法。
This paper presents a numerical simulation algorithm based on numerically solving differential equation system by means of the Transmission Line Modeling (TLM) for lumped inductor.
通过解传输线阻抗转移公式和终端输入阻抗的气隙电容表达式的联立方程得出了数值结果。
The numerical results were obtained in a table by solving the combined equation of transmission line impedance transfer equation and terminal input impedance expression in gas capacitance.
目前,解决这类问题的数值方法主要有有限差分法、有限元法、边界元法、积分方程法、传输线法等。
At present, the common numerical methods are finite difference, finite element, boundary element, integration equation and transmission line method.
结果表明,有限元法是对微带传输线进行数值分析的有效方法。
It is shown that the finite-element method is an efficient numerical analysis for microstrip transmission lines.
提出了用于数值计算的子电路离散时域等效电路模型,并以此建立了多相耦合传输线的离散时域等效电路模型。
The equivalent sub-circuit model in discrete domain is formed for numerical simulation and the equivalent model of the coupled multiphase transmission lines is then proposed in discrete domain.
数值计算结果表明等效分布电容法对均匀分布的多个小负载电容脉冲传输线具有很好的补偿作用。
The results of numerical computation show that pulse transmission line of multi-small-loading capacitance with proportional spacing…
数值计算结果表明等效分布电容法对均匀分布的多个小负载电容脉冲传输线具有很好的补偿作用。
The results of numerical computation show that pulse transmission line of multi-small-loading capacitance with proportional spacing…
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