信号完整性增强的EBG结构与接地加强走线

IEEE Transactions on Electronics Packaging Manufacturing Pub Date : 2010-09-07 DOI:10.1109/TEPM.2010.2064778

Sang-Gyu Kim, H. Kim, Hee-Do Kang, J. Yook

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引用次数: 17

摘要

一般来说，传统的电磁带隙(EBG)结构在较宽的频率范围内有效地抑制了同时开关噪声(SSN)。然而，由于信号完整性性能的下降，将几何结构应用于高速数字电路的实际印刷电路板(pcb)的设计是困难的。本文在EBG电源平面上加入接地增强走线(GRT)，同时保证了功率完整性(PI)和信号完整性(SI)。此外，导出了EBG结构中噪声抑制带宽的定义，分析了GRT与噪声抑制带宽的相关性。利用这种相关性来确定GRT的位置，以减轻低通截止频率的退化。因此，在不降低传统EBG结构噪声抑制带宽的情况下，实现了优异的信号性能。

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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Signal Integrity Enhanced EBG Structure With a Ground Reinforced Trace

In general, a conventional electromagnetic bandgap (EBG) structure efficiently suppresses simultaneous switching noise (SSN) over a wide frequency range. However, it is difficult to apply the geometry to the design of a real printed circuit boards (PCBs) for high-speed digital circuits due to the degradation in the signal integrity performance. In this paper, a ground reinforced trace (GRT) is added to the EBG power plane to guarantee power integrity (PI) as well as signal integrity (SI) simultaneously. In addition, the definition of a noise suppression bandwidth in an EBG structure is derived for the purpose of analyzing the correlation between the GRT and the noise suppression bandwidth. This correlation is utilized to decide the location of the GRT to mitigate the degradation of the low-pass cutoff frequency. As a result, an excellent signal performance is achieved without any degradation of the noise suppression bandwidth in a conventional EBG structure.

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IEEE Transactions on Electronics Packaging Manufacturing 工程技术-工程：制造

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