具有随机影响边界条件的多导体传输线系统

2019 MIXDES - 26th International Conference "Mixed Design of Integrated Circuits and Systems" Pub Date : 2019-06-01 DOI:10.23919/MIXDES.2019.8787203

L. Brancík, E. Kolárová

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引用次数: 1

摘要

研究了用随机微分代数方程(SDAE)方法求解边界条件随机影响下多导体传输线响应的问题。通过改进的节点分析(MNA)来描述终止MTL的集总参数电路并定义边界条件，从而形成各自的sdae。通过考虑内部不确定的独立源，这些可以受到随机影响。由于MTL本身是由电讯偏微分方程(PDE)描述的，它将通过隐式Wendroff数值格式求解，MNA SDAE将在具有加性噪声的确定性DAE完成后，通过兼容的隐式欧拉格式在其随机版本中求解。MTL的响应以后处理的单个随机轨迹集的形式呈现，并以样本均值和置信区间完成。将结果与基于广义RLCG t细胞级联形成的MTL集总参数模型的结果进行比较。所有的仿真都在Matlab中完成。

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Multiconductor Transmission Line System with Stochastically Affected Boundary Conditions

The paper deals with the application of stochastic differential-algehraic equation (SDAE) approach to evaluate responses of multiconductor transmission lines (MTL) with stochastically affected boundary conditions. Respective SDAEs are formulated by a modified nodal analysis (MNA) to describe lumped-parameter circuit terminating the MTL and defining the boundary conditions. These can be under stochastic affects by considering internal non-deterministic independent sources. Because of the MTL itself is described by the telegraph partial differential equations (PDE), which will be solved via an implicit Wendroff numerical scheme, the MNA SDAE will be solved via a compatible implicit Euler scheme in its stochastic version after completing the deterministic DAE with an additive noise. The MTL’s responses are presented in the form of sets of individual stochastic trajectories postprocessed and completed with sample means and confidence intervals. The results were compared with those based on the MTL lumped-parameter model formed by generalized RLCG T-cells in cascade. All the simulations have been done in Matlab.

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2019 MIXDES - 26th International Conference "Mixed Design of Integrated Circuits and Systems"

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