Articles | Volume 8, issue 2
https://doi.org/10.5194/jsss-8-329-2019
https://doi.org/10.5194/jsss-8-329-2019
Regular research article
 | 
18 Dec 2019
Regular research article |  | 18 Dec 2019

AC characteristics of low-ohmic foil shunts influenced by eddy currents in the mounting body

Mario Schönecker-Baußmann

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Cited articles

Bergsten, T. and Rydler, K.-E.: Realization of Absolute Phase and AC Resistance of Current Shunts by Ratio Measurements, IEEE T. Instrument. Meas., 68, 2041–2046, https://doi.org/10.1109/TIM.2018.2882927, 2019. a
Bosco, G. C., Garcocz, M., Lind, K., Pogliano, U., Rietveld, G., Tarasso, V., Voljč, B., and Zachovalová, V. N.: Phase Comparison of High Current Shunts up to 100 kHz, IEEE T. Instrument. Meas., 60, 2359–2365, https://doi.org/10.1109/TIM.2011.2108553, 2011. a
Budovsky, I.: Standard of Electrical Power at Frequencies Up to 200 kHz, IEEE T. Instrument. Meas., 58, 1010–1016, https://doi.org/10.1109/TIM.2008.2012376, 2009. a
Eaton, J. W., Bateman, D., Hauberg, S., and Wehbring, R.: GNU Octave, 3rd Edn., available at: http://www.gnu.org/software/octave/octave.pdf (last access: 17 December 2019), 2011. a, b
GDA: Aluminium in der Elektrotechnik und Elektronik, technisches Merkblatt E01, GDA Gesamtverband der Aluminiumindustrie, Düsseldorf, available at: http://www.aluinfo.de/files/_media/dokumente/Downloads/Technische Daten/Merkblaetter/E1_Aluminium_in_der_Elektrotechnik_und_Elektronik.pdf (last access: 17 December 2019), 1999. a
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Short summary
We came across some problems with the current measurement shunts while building a transfer normal power analyzer for 150 kHz within a cooperation project of the manufacturer ZES ZIMMER along with PTB, the National Metrology Institute of Germany and Bundesnetzagentur Berlin. We decided to utilize simulations with the numerical field simulation program Fast Henry to determine the cause of this frequency behavior. We found adequate justification and give recommendations for the shunt manufacturing.