Phase noise measurement techniques using delta-sigma TDC

19th Annual International Mixed-Signals, Sensors, and Systems Test Workshop Proceedings Pub Date : 2014-12-29 DOI:10.1109/IMS3TW.2014.6997392

Yusuke Osawa, D. Hirabayashi, Naohiro Harigai, Haruo Kobayashi, K. Niitsu, O. Kobayashi

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引用次数: 12

Abstract

This paper describes two techniques for measuring phase noise of a clock using a delta-sigma time-to-digital converter (TDC). One technique uses a reference signal (which has only very small phase noise), and the other does not use a reference signal. Both proposed techniques can be implemented with relatively simple circuitry, due to the following: (i) The clock under test (CUT) is a repetitive signal. (ii) The time resolution with CUT and a reference clock can be increased by using longer measurement time with the delta-sigma TDC. (iii) The phase noise power spectrum can be calculated from the delta-sigma TDC output data using FFT. Costly high-performance spectrum analyzers which average several-time phase measurement results over a long measurement time (about 10s order), are not needed for phase noise measurement with the proposed technique. The other technique, which differs in that it uses a self-referenced clock rather than a reference signal, has potential wide applications.

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δ - σ TDC相位噪声测量技术

本文介绍了用δ - σ时间-数字转换器(TDC)测量时钟相位噪声的两种技术。一种技术使用参考信号(只有非常小的相位噪声)，另一种技术不使用参考信号。这两种技术都可以用相对简单的电路来实现，因为:(i)被测时钟(CUT)是一个重复的信号。(ii)使用δ - σ TDC较长的测量时间可以提高CUT和参考时钟的时间分辨率。(iii)利用FFT从delta-sigma TDC输出数据计算相位噪声功率谱。采用该技术测量相位噪声时，不需要昂贵的高性能频谱分析仪，该分析仪需要在很长的测量时间(约10s阶)内平均多次相位测量结果。另一种技术的不同之处在于它使用自参考时钟而不是参考信号，具有潜在的广泛应用。

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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19th Annual International Mixed-Signals, Sensors, and Systems Test Workshop Proceedings

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