A Study on TCal (Touchless Calibration): Contribution to Metrology for Industry 4.0

New Approaches in Engineering Research Vol. 14 Pub Date : 2021-08-25 DOI:10.9734/bpi/naer/v14/12855d

S. Andonov

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Abstract

In 2018, as contribution to the area of calibrations in Industry 4.0, the novel concept of Touchless Calibration (TCal) was introduced. In this paper, a study, accompanied by explanations, results, uncertainty and cost-benefit analysis, followed by practical experiment for the validation of TCal in the area of DC voltage calibrations are presented. Touchless Calibration (TCal) is introduced as a future development in calibration metrology on the XXII IMEKO Congress in Belfast in 2018. TCal is dealing mostly with decreasing the steps necessary to provide calibration traceability. Missing steps actually contribute to considerable decreasing of time and costs of calibration keeping the calibration traceability on high level. In the scope of Metrology for Industry 4.0, it could be one of the important improvements bringing increased effectiveness and efficiency for manufacturing industry. It is shown by this study, implementing the worst-case scenarios, that TCal can be used in manufacturing companies for the calibration of any measurement system used to measure DC voltages in the range from 0 V to 10 V with tolerances (USL – LSL) bigger than 0.44825 V (± 0.22413 V).

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TCal(非接触式校准)研究:对工业4.0计量的贡献

2018年，作为对工业4.0校准领域的贡献，引入了非接触式校准(TCal)的新概念。本文提出了一项研究，并附有解释、结果、不确定度和成本效益分析，然后进行了实际实验，以验证TCal在直流电压校准领域的有效性。在2018年贝尔法斯特举行的第22届IMEKO大会上，介绍了非接触式校准(TCal)作为校准计量学的未来发展。TCal主要致力于减少提供校准可追溯性所需的步骤。遗漏的步骤实际上有助于大大减少校准的时间和成本，保持高水平的校准可追溯性。在工业4.0的计量范围内，它可能是为制造业带来更高效益和效率的重要改进之一。本研究表明，在最坏的情况下，TCal可用于制造公司校准用于测量0 V至10 V范围内直流电压的任何测量系统，其公差(USL - LSL)大于0.44825 V(±0.22413 V)。

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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New Approaches in Engineering Research Vol. 14

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