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Publication Citation: A nonlinearity in permanent-magnet systems used in watt balances

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Author(s): Shisong Li; Stephan Schlamminger; Jon R. Pratt;
Title: A nonlinearity in permanent-magnet systems used in watt balances
Published: June 25, 2014
Abstract: In watt balances that employ permanent magnet systems to generate the magnetic flux the effects of the weighing current on the magnet systems can generate a systematic bias that can lead to an error in the result if not accounted for. In this article a simple model explaining the effect of the weighing current on the yoke of the magnet is developed. This model leads to a dependence of the magnetic flux density in the gap that is proportional to the squared value of the coil current. The effect arises from changing the reluctance of the yoke by the additional field produced by the coil. Our analysis shows that the effect depends on the width of the air gap, the magnetic flux density in the air gap, and the BH curve of the yoke material. Suggestions to reduce the nonlinear effect are discussed.
Citation: Metrologia
Volume: 51
Pages: pp. 394 - 401
Keywords: watt balance; electronic kilogram; permanent magnet systems; nonlinearity
Research Areas: International System (SI) of Units, Electrical Metrology, Weights & Measures, SI (Mass), Quantum Electrical Measurements