Russian Internet Journal of Industrial Engineering

The principles of construction of fiber-optic wear and tempera-ture sensors for brush motors based on fiber Bragg gratings (FBG), long period FBG, FBG with a phase ?-shift, Fabry-Perot interferometers based on FBG, multiple series of low reflection FBG. In contrast to existing developed sensors are complexed and one capable to measure the wear of the brush (change in the length of the FBG) and its temperature from the shift of the cen-tral length of the FBG. Analysis of the signal reflected from the FBG allows additionally determine the parameters of the engine speed, the contact quality and condition of brush-collector unit as a whole. Temperature resolution of sensor is 0,1 °C. Measure-ment error of wear values determines by the stability of the am-plitude parameters of laser radiation and in-formation processing and may be a unit or a fraction of a micron, if necessary.

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Morozov O.G., Aybatov D.L., Sadeev T.S. Synthesis of two-frequency radiation and its use in fiber-optic systems of distributed and multiplexed measurements [Sintez dvukhchastotnogo izlucheniya i yego primeneniya v volokonno-opticheskikh sistemakh ras-predelennykh i multipleksirovannykh izmereniy], Fizika volnovykh protsessov i radiotekhnicheskiye sistemy [Physics of wave processes and radio systems], 2010, vol. 13, no.3, pp. 84-91. (in Russ.)

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Morozov O.G., Stepushchenko O.A., Sadykov I.R. The modulation measurement methods in optical refractometric type biosensors based on fiber Bragg grating with a phase shift [Modulyatsionnyye metody izmereniy v opticheskikh biosensorakh refraktometricheskogo tipa na osnove volokonnykh reshetok bregga s fazovym sdvigom], Vestnik Povolzhskogo gosudarstvennogo tekhnologicheskogo univer-siteta. Seriya: Radiotekhnicheskiye i infokommunikatsionnyye sistemy [Herald of the Volga State Technology University. Series: Radioengineering and infocommunication systems], 2010, no. 3, pp. 3-13. (in Russ.)

Morozov O.G., Aibatov D.L. Two-frequency scanning of FBG with arbitrary reflection spectrum, Proc. of SPIE, 2007, vol. 6605, pp. 660506.

Nureev I.I. Problems setting for combined pressure and temperature sensors calibration [Postanovka zadach kalibrovki sovme-shchennykh datchikov davleniya i temperatury], Nelineynyy mir [Nonlinear world], 2015, vol. 13, no.8, pp. 26-31. (in Russ.)

Sakhabutdinov A.Zh., Salakhov D.F., Nureev I.I. Procedure of problems solving of combined pressure and temperature sensors calibration [Protsedura resheniya zadach ka-librovki sovmeshchennykh datchikov davleniya i temperatury], Nelineynyy mir [Nonlinear world], 2015, vol. 13, no.8, pp. 32-38. (in Russ.)

Morozov O.G., Nureev I.I., Feofilaktov S.V. Questions of the concept of software-defined networking systems for downhole fiber-optic telemetry [Voprosy primeneniya kontseptsii programmno-opredelyayemykh setey dlya sistem vnutriskvazhinnoy volokonno-opticheskoy telemetrii], Nelineynyy mir [Nonlinear world], 2014, vol. 12, no.10, pp. 83-90. (in Russ.)

Kupriyanov V.G., Morozov O.G. Multimode probing of sensors based on fiber Bragg gratings [Malomodovoye zondirovaniye datchikov na osnove volokonnykh reshetok Bregga], Nauchno-tekhnicheskiy vestnik Povolzhya [Scientific and Technical Volga Herald], 2013, no.4, pp. 322-325. (in Russ.)

Alyushina S.G., Denisenko P.E., Morozov O.G., et al. Fiber Bragg grating phased structure in distributed information-measuring systems [Volokonnyye reshetki Bregga s fazirovannoy strukturoy v raspredelennykh informatsionno-izmeritelnykh sistemakh], Nelineynyy mir [Nonlinear world], 2011, vol. 9, no.8, pp. 522-528. (in Russ.)

Morozov O.G., Nasybullin A.R., Vedenkin D.A. Dual-frequency method for determining the parameters of the resonant microwave sensor [Dvukhchastotnyy metod opredeleniya parametrov rezonansnykh datchikov SVCh-diapazona], Vestnik Povolzhskogo gosudarstvennogo tekhnologicheskogo universiteta. Seriya: Radiotekhnicheskie i infokommunikatsionnye sistemy [Herald of the Volga State Technology University. Series: Radioengineering and infocommunication systems], 2014, no.1 (20), pp. 76-86. (in Russ.)