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Coherence investigations of DC voltage group standard

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
A method of checking coherence of comparison results of primary DC voltage group standards is described in the paper. Usefulness of the proposed method was proved by coherence investigation of DC voltage group standard kept in the Central Military Calibration Laboratory (CWOM, Warsaw, Poland). Results obtained for the group of five Fluke DC voltage standards prove very good coherence of voltage differences results and confirmed accuracy of DC voltage unit in the CWOM at the level of 10-6 .
Rocznik
Strony
443--456
Opis fizyczny
Bibliogr. 14 poz., rys., tab., fot.
Twórcy
autor
  • Institute of Measurement Science, Electronics and Control, Silesian University of Technology, 10 Akademicka St., 44-100 Gliwice, Poland
autor
  • Electrical Reference Standards Department (ZWOWE), Central Military Calibration Laboratory (CWOM), 2 Radiowa St., 00-908 Warsaw, Poland
autor
  • Institute of Measurement Science, Electronics and Control, Silesian University of Technology, 10 Akademicka St., 44-100 Gliwice, Poland
Bibliografia
  • [1] B. Litvinov, A. Ploshinsky, and Y. Semyonov, “New group resistance standard”, Digest Conf. on Precision Electromagnetic Measurements 1, 106 (2000).
  • [2] T. Skubis, A. Met, and K. Musioł, “Coherence of comparison results for 10 mH inductance standards”, Proc. Instrumentation and Measurements Technology Conf. IMTC, IEEE 1, 1-3 (2007).
  • [3] K. Musioł, A. Met, and T. Skubis, “Automatic bridge for comparison of inductance standards”, Measurement 43, 1661-1667 (2010).
  • [4] K. Musioł and A. Met, “Coherence of comparison results obtained by new inductance comparator bridge”, Electrotechnical Review 9a/2011, 298-301 (2011).
  • [5] M. Surdu, D. Surdu, A. Lameko, and S. Kursin, “An automatic bridge for the comparison of the impedance standards, Measurement, 46, 3701-3707 (2013).
  • [6] M. Surdu, A. Lameko, I. Karpov, M. Klonz, A. Koffman, J. Kinard, and A. Tarłowski, “Bridges for the realization of the units and build-up of the scale for electrical resistance, capacitance and inductance”, Digest CPEM Conf. 1, 520-521 (2006).
  • [7] D. Vujevic and D. Ilic, “Stability of some DC reference standards”, IEEE Trans. on Instrumentation and Measurement 48, 1081-1085 (1999).
  • [8] T.J.Witt, “Maintenance and dissemination of voltage standards by Zener-diode-based instruments”, IEE Proc.-Sci. Meas. Technol. 149, 305-312 (2002).
  • [9] M. Tadeusiewicz and S. Halgas, “Tracing temperature characteristics in diode-transistor circuits having multiple DC solutions”, Bull. Pol. Ac.: Tech. 55 (3), 317-323 (2007).
  • [10] W. Janke, “Equivalent circuits for averaged description of DCDC switch-mode power converters based on separation of variables approach”, Bull. Pol. Ac.: Tech. 61 (3), 711-723 (2013).
  • [11] D. Ilić, A. ˇSala, and I. Leniˇcek, “Prediction of the output voltage of DC voltage standards”, Proc. XIX IMEKO World Congress Fundamental and Applied Metrology 1, 601-606 (2009).
  • [12] T.J.Witt, “Measurements of the temperature dependence of the output voltages of some Zener diode based voltage standards”, IEE Proc.-Sci. Meas. Technol. 145, 154-158 (1998).
  • [13] R. Kletke, Maintaining 10V DC At 0.3 Ppm Or Better In Your Laboratory, Fluke Corporation, Washington, 1996.
  • [14] E. Wozniak, “Uncertainty assessment for calibration of DC voltage standards in the Central Military Calibration Laboratory”, in Uncertainty in Theory and Practice), pp. 225-235, Central Office of Measures, Warsaw, 2011, (in Polish)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5776cf2d-60c9-496e-a043-c450c3458e41
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