High Signal Integrity Transmission Line Using Microchip Capacitors and its Design Methodology

2018 7th Electronic System-Integration Technology Conference (ESTC) Pub Date : 2018-09-01 DOI:10.1109/ESTC.2018.8546390

Shumpei Matsuoka, M. Yasunaga

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引用次数: 4

Abstract

In the high-speed data transmissions in GHz domain,such as PCIe (Gen.5) and USB 5.0, slight impedance mismatching caused by via-holes and/or through-holes, or other small parasiticelements in the traces in printed circuit board (PCBs) causes serious deterioration of signal integrity (SI). And it is becoming next to impossible to ensure the SI by using the conventional impedance matching techniques as the frequency increases. In order toovercome this problem, we propose a novel high signal integrity transmission line structure called “Capacitor Segmental Transmission Line (C-STL)”. The C-STL is a novel signal integrity improving technique that makes use of not the characteristic impedance matching but the mismatching. In the C- STL, we use small microchip capacitors embedded in the PCB under the trace, and superpose the intentional reflections,which cause from the capacitors, onto the target distorted signal waves to restore them to ideal waveforms. In this paper, we also propose the design methodology of the C-STL and demonstrate its effectiveness using simulations and prototype measurements.

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采用微芯片电容的高信号完整性传输线及其设计方法

在GHz域的高速数据传输中，如PCIe (Gen.5)和USB 5.0，印刷电路板(pcb)走线中的过孔和/或通孔或其他小寄生元件引起的轻微阻抗不匹配会导致信号完整性(SI)严重恶化。随着频率的增加，使用传统的阻抗匹配技术来保证SI几乎是不可能的。为了克服这一问题，我们提出了一种新型的高信号完整性传输线结构——电容分段传输线(C-STL)。C-STL是一种新的信号完整性改善技术，它利用的不是特征阻抗匹配，而是失配。在C- STL中，我们将小型微芯片电容器嵌入PCB的走线下方，并将由电容器引起的有意反射叠加到目标失真信号波上，使其恢复到理想波形。在本文中，我们还提出了C-STL的设计方法，并通过仿真和原型测量证明了其有效性。

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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2018 7th Electronic System-Integration Technology Conference (ESTC)

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