复杂电子系统中受驱动线影响的敏感导线的多导体电磁耦合模型

IF 1.6 4区 工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Fan Jiang, Lulu Chen, Bing Xue, Xinxin Tian, Liang Hua Ye, Jian-Feng Li, Duo-Long Wu
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引用次数: 0

摘要

本文针对高精度加工工作台中受驱动线影响的敏感线提出了一种新型多导电磁耦合模型。推导出 N 线系统的一般耦合模型,并用于评估线耦合效应。此外,还演示了 4 线和 3 线模型,通过低于 10 MHz 的全波电磁仿真验证了模型的准确性。结果表明,所提方法与全波电磁仿真之间的误差小于 10%,证明了所提方法的高效性和准确性。当被驱动功率导线和最敏感导线的参数固定不变,相邻导线的参数扫频时,最敏感导线上感应电流的最大波动为 6.1 dB。本文提出的高效计算方法有助于降低复杂电子系统中的电磁干扰风险,提高导线的设计效率。它有望成为一种高效率、高精度的高性能方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multi-conductor electromagnetic coupling model for sensitive wires subject to driven wire in complex electronic systems

A novel multi-conductor electromagnetic coupling model for the sensitive-wire subject to driven wire in a high-precision machining workbench is proposed in this paper. The general coupling model for an N-wire system is derived and is used to evaluate the wire coupling effect. Furthermore, 4-wire and 3-wire models are demonstrated to verify the accuracy through full-wave electromagnetic simulation below 10 MHz. The results show that the error between the proposed method and the full-wave electromagnetic simulation is less than 10%, demonstrating the high efficiency and accuracy of the proposed method. When the parameters of the driven power wire and the most sensitive wire are fixed and the parameters of neighboring wires are swept, the maximum fluctuation of the induced current on the most sensitive wire is 6.1 dB. The efficient calculation method proposed in this work helps reduce the risk of electromagnetic interference in complex electronic systems and improves the design efficiency of wires. It is promising to become a high-performance method with high efficiency and precision.

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来源期刊
CiteScore
4.60
自引率
6.20%
发文量
101
审稿时长
>12 weeks
期刊介绍: Prediction through modelling forms the basis of engineering design. The computational power at the fingertips of the professional engineer is increasing enormously and techniques for computer simulation are changing rapidly. Engineers need models which relate to their design area and which are adaptable to new design concepts. They also need efficient and friendly ways of presenting, viewing and transmitting the data associated with their models. The International Journal of Numerical Modelling: Electronic Networks, Devices and Fields provides a communication vehicle for numerical modelling methods and data preparation methods associated with electrical and electronic circuits and fields. It concentrates on numerical modelling rather than abstract numerical mathematics. Contributions on numerical modelling will cover the entire subject of electrical and electronic engineering. They will range from electrical distribution networks to integrated circuits on VLSI design, and from static electric and magnetic fields through microwaves to optical design. They will also include the use of electrical networks as a modelling medium.
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