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Published in: Measurement Techniques 9/2021

08-02-2022 | INTERNATIONAL COLLABORATION

National Standards of the Harmonic Coefficient Unit of the Russian Federation and the Republic of Belarus: Results of Comparisons

Authors: S. V. Bezdenezhnykh, O. V. Kaminsky, K. A. Stal’nova, A. V. Galygo, N. A. Gerasimova

Published in: Measurement Techniques | Issue 9/2021

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Abstract

The article presents the results of supplementary comparisons of the national standards of the harmonic coefficient unit of the Russian Federation (VNIIFTRI) and the Republic of Belarus (BelGIM). A mass-produced harmonic coefficient meter was used as a reference carrier. The differences between the harmonic coefficient unit reproduced by national standards and the reference values do not exceed the extended uncertainty for all measured harmonic coefficient values at all frequencies. Thus, the measurement and calibration capabilities of the laboratories participating in the comparisons have been confirmed.
Literature
1.
go back to reference F. A. Platonov, E. O. Akhromeeva, V. A. Babarykin, et al., “State primary standard of the harmonic coefficient unit in the range of 0.001–100% for signals with fundamental harmonic in the frequency range of 10–200000 Hz GET 188-2010,” Izmer. Tekhn., No. 3, 3–6 (2016). F. A. Platonov, E. O. Akhromeeva, V. A. Babarykin, et al., “State primary standard of the harmonic coefficient unit in the range of 0.001–100% for signals with fundamental harmonic in the frequency range of 10–200000 Hz GET 188-2010,” Izmer. Tekhn., No. 3, 3–6 (2016).
2.
go back to reference N. B. Petrov, “Some errors of analog-digital measurement of nonlinear distortions,” Izmer. Tekhn., No. 5, 51 (1979). N. B. Petrov, “Some errors of analog-digital measurement of nonlinear distortions,” Izmer. Tekhn., No. 5, 51 (1979).
3.
go back to reference A. A. Gorlach, M. Ya. Mints, and V. N. Chinkov, Digital Signal Processing in Measuring Equipment, Tekhnika, Kiev (1985). A. A. Gorlach, M. Ya. Mints, and V. N. Chinkov, Digital Signal Processing in Measuring Equipment, Tekhnika, Kiev (1985).
4.
go back to reference M. Ya. Mints and V. N. Chinkov, “Estimation of discretization error for digital measuring devices based on digital processing of instantaneous signal values,” Metrologiya, No. 11, 43–49 (1987). M. Ya. Mints and V. N. Chinkov, “Estimation of discretization error for digital measuring devices based on digital processing of instantaneous signal values,” Metrologiya, No. 11, 43–49 (1987).
5.
go back to reference M. Ya. Mints and V. N. Chinkov, “Microprocessor meters for nonlinear distortions: algorithms for digital processing of the measuring signal and error estimation,” Izmer. Tekhn., No. 4, 56-59 (1995). M. Ya. Mints and V. N. Chinkov, “Microprocessor meters for nonlinear distortions: algorithms for digital processing of the measuring signal and error estimation,” Izmer. Tekhn., No. 4, 56-59 (1995).
6.
go back to reference Yu. A. Bryukhanov and Yu. A. Lukashevich, “Nonlinear distortions of harmonic signals at quantization on level,” Radiotekhnika, No. 10, 57-60 (2009). Yu. A. Bryukhanov and Yu. A. Lukashevich, “Nonlinear distortions of harmonic signals at quantization on level,” Radiotekhnika, No. 10, 57-60 (2009).
7.
go back to reference Yu. A. Bryukhanov and Yu. A. Lukashevich, “Nonlinear distortions of signals in sigma–delta converters,” Radiotekhnika, No. 6, 89-94 (2015). Yu. A. Bryukhanov and Yu. A. Lukashevich, “Nonlinear distortions of signals in sigma–delta converters,” Radiotekhnika, No. 6, 89-94 (2015).
8.
go back to reference F. J. Harris, “On the use of windows for harmonic analysis with the discrete Fourier transform,” Proc. IEEE, 66, No. 1, 51-83 (1978). ADSCrossRef F. J. Harris, “On the use of windows for harmonic analysis with the discrete Fourier transform,” Proc. IEEE, 66, No. 1, 51-83 (1978). ADSCrossRef
Metadata
Title
National Standards of the Harmonic Coefficient Unit of the Russian Federation and the Republic of Belarus: Results of Comparisons
Authors
S. V. Bezdenezhnykh
O. V. Kaminsky
K. A. Stal’nova
A. V. Galygo
N. A. Gerasimova
Publication date
08-02-2022
Publisher
Springer US
Published in
Measurement Techniques / Issue 9/2021
Print ISSN: 0543-1972
Electronic ISSN: 1573-8906
DOI
https://doi.org/10.1007/s11018-022-02004-9