Traceable Frequency Measurements with Counters

IF 2.7 3区 工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY
Dirk Piester, E. Staliuniene, Andreas Bauch
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引用次数: 0

Abstract

Received signals from Global Navigation Satellite Systems (GNSS) are nowadays widely used by industry laboratories for ensuring metrological traceability for their respective range of calibration services in the field of time and frequency. Usually, a local frequency standard is steered by continuous GNSS signal reception providing at its output stable and accurate reference signals for the laboratory measurement equipment, in general for synthesizers and counters. Reception of GNSS signals is surely an adequate and practical tool for the purpose, however further steps are needed to establish traceability in a strict metrological sense. Based on already available guidelines and publications, this paper is a contribution to the discussion how metrological traceability to internationally accepted standards can be established in a calibration laboratory. We restrict the discussion to equipment in common use which may not necessarily be of the highest sophistication. In this spirit, we develop a detailed scheme for an uncertainty budget comprising all links of the traceability chain from the device under test to the SI second, the scale-unit of Coordinated Universal Time. Then we go through and apply this scheme step by step to a demonstration setup for frequency measurements with a counter with varying operational parameters. In this framework, a novel approach to distinguish between components of statistical measurement uncertainty is introduced. Furthermore, the limiting uncertainty contributions are discussed and based on a suitable set of parameters an expression for the best measurement capability is given. With this scheme at hand a user may develop an uncertainty budget adapted to his own setup, especially if acceptance from a national accreditation body is sought.
使用计数器进行可溯源频率测量
全球导航卫星系统(GNSS)的接收信号如今被工业实验室广泛用于确保其各自时间和频率领域校准服务范围的计量溯源性。通常,本地频率标准由连续的全球导航卫星系统信号接收引导,其输出为实验室测量设备(一般为合成器和计数器)提供稳定准确的参考信号。接收全球导航卫星系统信号无疑是实现这一目的的适当而实用的工具,但还需要采取进一步措施,以建立严格计量意义上的可追溯性。本文以现有的指南和出版物为基础,讨论如何在校准实验室建立国际公认标准的计量溯源性。我们的讨论仅限于常见的设备,这些设备不一定是最先进的。本着这一精神,我们制定了不确定度预算的详细方案,包括从被测设备到协调世界时的标度单位 SI 秒的溯源链的所有环节。然后,我们逐步将这一方案应用于使用具有不同运行参数的计数器进行频率测量的演示装置。在此框架下,我们引入了一种新方法来区分统计测量不确定性的组成部分。此外,还讨论了极限不确定性的贡献,并根据一组合适的参数给出了最佳测量能力的表达式。有了这个方案,用户就可以根据自己的设置制定不确定性预算,尤其是在寻求国家认证机构认可的情况下。
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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来源期刊
Measurement Science and Technology
Measurement Science and Technology 工程技术-工程:综合
CiteScore
4.30
自引率
16.70%
发文量
656
审稿时长
4.9 months
期刊介绍: Measurement Science and Technology publishes articles on new measurement techniques and associated instrumentation. Papers that describe experiments must represent an advance in measurement science or measurement technique rather than the application of established experimental technique. Bearing in mind the multidisciplinary nature of the journal, authors must provide an introduction to their work that makes clear the novelty, significance, broader relevance of their work in a measurement context and relevance to the readership of Measurement Science and Technology. All submitted articles should contain consideration of the uncertainty, precision and/or accuracy of the measurements presented. Subject coverage includes the theory, practice and application of measurement in physics, chemistry, engineering and the environmental and life sciences from inception to commercial exploitation. Publications in the journal should emphasize the novelty of reported methods, characterize them and demonstrate their performance using examples or applications.
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