基于图形模型的多段输电线路快速瞬态仿真

Progress in Electromagnetics Research Symposium : [proceedings]. Progress in Electromagnetics Research Symposium Pub Date : 2019-01-01 DOI:10.2528/PIER19042105

J. Harley, M. U. Saleh, S. Kingston, M. Scarpulla, C. Furse

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引用次数: 6

摘要

本文研究了一种计算效率高的代数图论引擎，用于模拟多段传输线中的时域一维波，如反射测量应用。多段传输线中时域信号的有效模拟具有挑战性，因为随着每个新接口的增加，传播路径的数量(以及操作的数量)呈指数增长。我们通过使用波传播的频域代数图形模型来解决这一挑战，然后通过傅里叶变换将其转换为时域。我们使用该模型实现了一种精确、稳定和计算效率高的(O(NQ)，其中N为段数，Q为带宽)研究一维波传播的方法。我们的方法需要每个界面的反射和透射系数以及每个段的复杂传播常数。我们将模拟结果与已知的解析解进行了比较。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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FAST TRANSIENT SIMULATIONS FOR MULTI-SEGMENT TRANSMISSION LINES WITH A GRAPHICAL MODEL

This paper studies a computationally efficient algebraic graph theory engine for simulating time-domain one-dimensional waves in a multi-segment transmission line, such as for reflectometry applications. Efficient simulation of time-domain signals in multi-segment transmission lines is challenging because the number of propagation paths (and therefore the number of operations) increases exponentially with each new interface. We address this challenge through the use of a frequencydomain, algebraic graphical model of wave propagation, which is then converted to the time domain via the Fourier transform. We use this model to achieve an exact, stable, and computationally efficient (O(NQ), where N is the number of segments and Q is the bandwidth) approach for studying onedimensional wave propagation. Our approach requires the reflection and transmission coefficients for each interface and each segment’s complex propagation constant. We compare our simulation results with known analytical solutions.

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Progress in Electromagnetics Research Symposium : [proceedings]. Progress in Electromagnetics Research Symposium

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