梯形时钟

2012 IEEE Nuclear Science Symposium and Medical Imaging Conference Record (NSS/MIC) Pub Date : 2012-10-01 DOI:10.1109/NSSMIC.2012.6551424

Jinyuan Wu

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引用次数: 1

摘要

通常，在传输重要信号(如系统时钟)时，传输线(如同轴电缆、双绞线电缆、印刷电路板走线等)都经过仔细端接，以消除反射。然而，如果设计得当，来自非端接电缆端的反射信号可以携带有用的信息，这些信息可以用来提高系统性能。本文研究了一开端多分接传输线的时钟分配问题。当具有足够长的上升和下降坡道的梯形时钟脉冲被馈送到这样的传输线时，由于发射和反射信号的叠加，在不同分岔处由于传播延迟引起的时序偏差可以自然地得到补偿。文中还讨论了传输线电阻损耗引起的高阶效应，推导了降低高阶偏斜的上升/下降坡道的曲线形状并进行了测试。在实际电缆上进行了测量，以验证该时钟分配方案。

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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The trapezoidal clocking

Usually, transmission lines such as coaxial cables, twist pair cables, printed circuit board traces etc. are carefully terminated to eliminate reflections when transmitting important signals such as system clocks. However, if appropriately designed, the reflection signal from the un-terminated cable end carries useful information which can be utilized to improve system performance. In this paper, multi-tap transmission lines with one open end are studied for clock distribution. When trapezoidal clock pulses with sufficiently long rising and falling ramps are fed into such a transmission line, the timing skews at different taps due to propagation delays can be compensated naturally as a result of the superposition of the transmitting and reflecting signals. Higher order effect due to resistive loss of the transmission lines is also discussed and the curve shapes of the raising/falling ramps for reducing higher order skews are derived and tested. Measurements are made on actual cables to validate this clock distribution scheme.

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2012 IEEE Nuclear Science Symposium and Medical Imaging Conference Record (NSS/MIC)

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