4.7 Article

Ultrasonic power measurement by Kibble balance

期刊

MEASUREMENT
卷 203, 期 -, 页码 -

出版社

ELSEVIER SCI LTD
DOI: 10.1016/j.measurement.2022.111788

关键词

Kibble balance; Ultrasonic power; Uncertainty budget; Metrology

资金

  1. Brazilian National Council for Scientific and Technological Development CNPq [312.501/2017-0, 430.376/2018-9, 307.562/2020-4, 311.175/2020-1]
  2. Research Support Foundation of the State of Rio de Janeiro Faperj [E-26/201.563/2014, E-26/260.671/2021]
  3. NPL Post Graduate Institute (PGI)
  4. Pronametro/Inmetro

向作者/读者索取更多资源

The revised International System of Units (SI) introduced the use of a Kibble balance to measure ultrasonic power without the need for precise gravity acceleration measurements. A low-cost benchtop Kibble balance was developed with a 3D printer, Raspberry microcomputer, oscilloscope, and Python programming language. The prototype achieved satisfactory results in measuring radiation power within the range of 1.4 W to 21.7 W.
In May 2019, the International System of Units (SI) was revised. The new SI outlines the measurement system that allows the realisation of the kilogram using the Kibble balance. This work aims to develop and use a benchtop Kibble balance to perform ultrasonic power measurements, which are currently performed by a conventional balance. When replacing the traditional balance with a Kibble balance, the local gravity acceleration, one of the variables for measuring the ultrasonic power, is nullified, allowing the ultrasonic power to be measured in any place of the earth, without the need to know the value of the acceleration of the gravity. A low-cost bench-top Kibble balance was built using a 3D printer, a Raspberry microcomputer, an oscilloscope, and Python programming language. The prototype developed was able to measure a radiation power range from 1.4 W to 21.7 W and it obtained uncertainties lower than 5 % for the range above 9.6 W. Therefore, it is concluded that the developed system presented satisfactory results, especially considering that the system was built from a 3D printer. It is proposed that the system can be used as a basis for the development of new ultrasonic power measurement systems using the Kibble balance method.

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