CALCULATIONS OF LIGHTNING-INDUCED VOLTAGES ON MULTICONDUCTOR TRANSMISSION LINES USING HIGHER-ORDER FDTD METHODS

机译：使用高阶FDTD方法计算多导体传输线上的闪电引起电压

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The Finite-Difference Time-Domain (FDTD) solutions of lightning-induced voltages due to nearby lightning return stroke on overhead power lines are proposed by Agrawal et al. [6] and Paolone et al. [7]. In this paper, we develop above FDTD methods by using the higher-order FDTD method with second-order accuracy in time and eighth-order in space. The algorithm is applied to solve field-to-transmission line coupling equations of multiconductor transmission lines (MTL) that include both forms of the vertically- and horizontally-configured three-phase lines. The computation results with various FDTD schemes are illustrated and compared on graphs. From these results, it can be shown the influences of the phase-conductor position and the higher-order FDTD schemes on the peak value of total induced voltages at the first few microseconds. Finally, this algorithm is very suitable for studying the solutions of telegraphy or EM coupling equations of all transmission lines in EMC problems with higher accuracy.

机译：由于Agrawal等人提出了由于附近的闪电返回行程引起的闪电引起电压的有限差分时间域（FDTD）解决方案。 [6]和Paolone等人。 [7]。在本文中，我们通过使用高阶FDTD方法在空间中的时间和八分顺序中使用高阶FDTD方法来开发上面的FDTD方法。算法应用于求解包括两种形式的多导体传输线（MTL）的现场传输线耦合方程，其包括垂直和水平配置的三相线。使用各种FDTD方案的计算结果并在图表上进行比较。通过这些结果，可以示出相位导体位置和高阶FDTD方案对前几微秒的总诱导电压的峰值的影响。最后，该算法非常适合于使用更高的精度研究EMC问题中所有传输线的电报或EM耦合方程的解决方案。

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《IASTED International Conference on Power and Energy Systems》|2006年||共6页
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Vu Phan Tu; Josef Tlusty;
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中图分类 TK-53;
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Higher-order FDTD method; Multiconductor transmission lines; Lightning-induced voltages;

机译：高阶FDTD方法;多导体传输线;闪电感应电压;

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1. FDTD Computation of Lightning-Induced Voltages on Multiconductor Lines With Surge Arresters and Pole Transformers [J] . Thang Tran Huu, Baba Yoshihiro, Rakov Vladimir /A/., Electromagnetic Compatibility, IEEE Transactions on . 2015,第3期

机译：带有避雷器和磁极变压器的多导线线路上雷电感应电压的FDTD计算
2. Analysis of Lightning-Induced Voltages on Overhead Lines Using a 2-D FDTD Method and Agrawal Coupling Model [J] . Ren H.-M., Zhou B.-H., Rakov V. A., IEEE Transactions on Electromagnetic Compatibility . 2008,第3期

机译：使用二维FDTD方法和总体耦合模型分析架空线上的雷电感应电压
3. Fast and efficient calculation of lightning-induced voltages in frequency-dependent transmission lines over lossy ground [J] . Sina Mashayekhi, Behzad Kordi Electric power systems research . 2013,第may期

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4. CALCULATIONS OF LIGHTNING-INDUCED VOLTAGES ON MULTICONDUCTOR TRANSMISSION LINES USING HIGHER-ORDER FDTD METHODS [C] . Vu Phan Tu, Josef Tlusty IASTED International Conference on Power and Energy Systems . 2006

机译：使用高阶FDTD方法计算多导体传输线上的闪电引起电压
5. Efficient finite element electromagnetic analysis for high-frequency/high-speed circuits and multiconductor transmission lines. [D] . Lee, Shih-Hao. 2009

机译：高频/高速电路和多导体传输线的有效有限元电磁分析。
6. New circuit theory of multiconductor transmission lines resulting from a new practice of noise reduction [O] . Hiroshi TOKI, Kenji SATO 2014

机译：降噪新实践产生的多导体传输线新电路理论
7. Analysis of Lightning-Induced Voltages on Overhead Lines Using a 2-D FDTD Method and Agrawal Coupling Model [O] . He-ming Ren, Bi-hua Zhou, Vladimir A. Rakov, 2007

机译：用二维FDTD方法和agrawal耦合模型分析架空线路上的雷击电压

CALCULATIONS OF LIGHTNING-INDUCED VOLTAGES ON MULTICONDUCTOR TRANSMISSION LINES USING HIGHER-ORDER FDTD METHODS

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