The principles of the linearization of the positional characteristics of magneto-optical displacement transducers are examined. Mathematical modeling of the positional characteristics is conducted, and results of pilot studies of prototypes of displacement transducers are presented.
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V. B. Garmash, F. A. Egorov, L. N. Kolomiets, et al., “Opportunities, challenges and prospects for fiber-measurement systems in modern instrumentation,” FOTON-EXPRESS, No. 6, Spec. Iss., 128–140 (2005).
R. G. Jackson, Novel Sensors [Russian translation], Tekhnosfera, Moscow (2007).
S. A. Matyunin, Yu. A. Fedotov, O. G. Babaev, et al., “Fiber-optical sensors based on mono-crystal films of garnet ferrites for mechatronic systems,” Proc. Engineering, No. 106, 202–209 (2015).
N. E. Konyukhov, Electromechanical Functional Transducers, Mashinostroenie, Moscow (1977).
O. B. Bul’, Method for Calculating Magnetic Systems of Electric Devices. Magnetic Circuits, Fields and FEMM Program, Akademiya, Moscow (2005).
Permanent Magnets: Handbook, Energiya, Moscow (1980).
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Translated from Izmerital’naya Tekhnika, No. 5, pp. 41–43, May, 2017.
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Matyunin, S.A., Stepanov, M.V. & Babaev, O.G. Linearization of the Positional Characteristics of a Fiber-Optic Transducer Based on the Magneto-Optical Effect. Meas Tech 60, 468–472 (2017). https://doi.org/10.1007/s11018-017-1219-y
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DOI: https://doi.org/10.1007/s11018-017-1219-y