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The theoretical principles of the construction of variational quadrature ac bridges

  • Electromagnetic Measurements
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Measurement Techniques Aims and scope

Abstract

New approaches to constructing quadratic bridges, based on a variational calibration and correction of the measurement error and the wide use of digital signal processing, which enable high metrological characteristics of the apparatus to be obtained for small dimensions and low cost, are proposed.

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References

  1. A. M. Thompson, Metrologia, 4, No. 1, 1 (1969).

    Article  ADS  Google Scholar 

  2. B. P. Kibble and G. H. Rayner, Coaxial AC Bridges, Adam Hilger Ltd., Bristol (1984).

    Google Scholar 

  3. M. Bellon, Definition of Standard Impedances, BNM-LCIE, A1-20 (1998).

  4. H. Bachmair, Design Criteria for Investigation on PTB Calculable Cross Capacitor, BNM-LCIE, P1-P27 (1998).

  5. Y. Nakamura, Capacitance Standard at ETL, BNM-LCIE, R1-R15 (1998).

  6. S. A. Awan et al., Proceedings of 9th Intern. Conference on Electromagnetic Measurement (BEMC-99), Brighton (UK), 32–34, 60/1-60/4 (1999).

  7. G. H. Rayner, IEEE Trans. Instrum. Meas., IM-21, 361 (1972).

    Article  Google Scholar 

  8. A. Hartland, B. P. Kibble, and C. W. Chua, Proc. 8th Intern. Conf. Electromagnetic Measurement (BEMC-98), Teddington (UK), 28-2, 39/1-39/5 (1999).

  9. H. Bachmair et al., IEEE Trans. Instrum. Meas., 44, No. 2, 48 (1995).

    Article  MathSciNet  Google Scholar 

  10. S. P. Giblin et al., Conf. Digest CPEM 2000, p. 158.

  11. R. E. Elmquist, ibid., p. 439.

  12. F. Delahaye, AC Bridges at BIMP, BNM-LCIE, C1-C7 (1998).

  13. B. Wood and M. Cote, AC Bridges for the R-C Chain, BNM-LCIE, E1-E20 (1998).

  14. J. Melcher, Performance of Current Equalisers in Connection with Coaxial AC Bridges, BM-LCIE, G1-G38 (1998).

  15. A. M. Jeffery et al., New Multi-Frequency Bridge at NIST, BNM-LCIE, G1-G38 (1998).

  16. G. Trapon, Coaxial AC Bridges at BNM-LCIE, BNM-LCIE, I1-I22 (1998).

  17. S. W. Chua, B. P. Kibble, and A. Hartland, Comparison of Capacitance with AC Quantized Hall Resistance, BNM-LCIE, J5-J8 (1998).

  18. S. W. Chua, B. P. Kibble, and A. Hartland, Proc. Conf. Precision Electromagnetic Measurements, Washington (DC, USA) (1998).

  19. G. Trapon et al., Conf. Digest CPEM 2000, p. 214.

  20. J. C. Hsu and Yi-sha Ku, ibid., p. 429.

  21. Y. Nakamura et al., ibid., p. 430.

  22. L. Callegaro et al., Conf. Digest CPEM 2002, p. 176.

  23. K. B. Karandeev (ed.), Transformer Measuring Bridges [in Russian], Énergiya, Moscow (1970).

    Google Scholar 

  24. S. Avramov et al., Record Conf. Precision Electromagnetic Measurements (CPEM’92), Paris (1992), p. 419.

  25. R. D. Cutkosky, IEEE Trans. Instrum. Meas., IM-34, 363 (1985).

    Google Scholar 

  26. A. C. Corney, Conf. Digest CPEM 2002, p. 176.

  27. S. A. Awan, B. P. Kibble, and I. A. Robinson, IEEE Trans. Instrum. Meas., IM-47, No. 4, 193 (2001).

    Google Scholar 

  28. E. Dierikx, Impedance Measurement at NMi-VSL, BNM-LCIE, D1-D7 (1998).

  29. V. S. Gur’yanov, Metrology: Supplement to the Journal Izmer. Tekh., No. 4, 54 (1986).

  30. V. S. Gur’yanov, M. N. Surdu, and V. P. Salyuk, Tekh. Élektrodin., No.3, 103 (1991).

    Google Scholar 

  31. F. V. Grinevich and M. N. Surdu, High-Precision Variational AC Measuring Systems [in Russian], Naukova Dumka, Kiev (1989).

    Google Scholar 

  32. F. Cabiati and G. C. Bosco, IEEE Trans. Instrum. Meas., IM-34, No. 2, 344 (1985).

    Google Scholar 

  33. F. Cabiati et al., Conf. Digest CPEM 2002, p. 178

  34. M. N. Surdu et al., Author’s Certificate No. 1661650 USSR, Otkryt., Izobret., No. 25 (1989).

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Authors and Affiliations

  1. Institute of Electrodynamics, National Academy of Sciences of Ukraine, Ukraine

    M. N. Surdu & A. L. Lameko

  2. Spetsavtomatika GNPP (Ukraine), Ukraine

    I. V. Karpov

  3. National Institute of Science and Technology (USA), Ukraine

    J. Kinard & A. Koffman

Authors
  1. M. N. Surdu
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  2. A. L. Lameko
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  3. I. V. Karpov
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  4. J. Kinard
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  5. A. Koffman
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__________

Translated from Izmeritel’naya Tekhnika, No. 10, pp. 58–63, October, 2006.

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Surdu, M.N., Lameko, A.L., Karpov, I.V. et al. The theoretical principles of the construction of variational quadrature ac bridges. Meas Tech 49, 1043–1052 (2006). https://doi.org/10.1007/s11018-006-0234-1

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  • DOI: https://doi.org/10.1007/s11018-006-0234-1

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