Studies on, and a new variant of, a structural-analytical model of differentiating transformation of optical signals in a fiber-optic transducer are presented.
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V. N. Sretenskii, Metrological Support of the Production of Microelectronics Devices [in Russian], Radio i Svyaz, Moscow (1988).
A. F. Aleynikov, Multifunction Sensors [in Russian], FTI, Novosibirsk (1991).
G. Wigleb, Sensors [Russian translation], Mir, Moscow (1989).
N. Kako and Y. Yamane, Sensors and Microcomputers [Russian translation], Energoatomizdat, Leningrad (1989).
L. Osipovich, Sensors of Physical Quantities [in Russian], Mashinostroenie, Moscow (1979).
Yu. N. Koptev and A. V. Gorish, “Sensor equipment for rocket and space engineering,” Radiotekhnika, No. 10, 5–6 (1995).
Yu. N. Koptev and A. V. Gorish, “Cosmic baseline fiber-optic sensors,” Radiotekhnika, No. 10, 7–9 (1995).
A. V. Gorish, “Principles of optimization of piezoceramic sensing elements of sensors,” in: Ekologiya, Monitoring i Ratsionalnoe Prirodopolzovanie: Trudy MGUL, Iss. 294(II), 227–244 (1998).
A. V. Gorish, V. M. Grishin, and M. M. Bulkanov, “A Patent information-bibliographic data bank,” in: Materialy, Tekhnologii, Izdeliya Piezo-Elektroniki: Trudy MGUL, Iss. 294(II), 251–257 (1998).
Yu. N. Koptev et al., Sensors of Thermohysical and Mechanical Parameters. Vols. 1–3 [in Russian], IPRZhR, Moscow (1998–2000).
Ya. V. Malkov, “Philosophy of the design of sensors for the measurement of physical quantities,” Ekologiya, Monitoring i Ratsionalnoe Prirodopolzovanie: Trudy MGUL, Iss. 288(II), 58–71 (1997).
A. G. Pivkin et al., Theoretical Foundations of Amplitude-Based Fiber-Optic Pressure Transducers with Open Optical Channel: Monograph [in Russian], MGUL, Moscow (2004).
A. G. Pivkin and T. I. Murashkina, Fiber-Optic Attenuator-Type Pressure Transducers for Space Engineering [in Russian], IITs Penza State University, Penza (2005).
A. G. Pivkin et al., Development of the Theory of Light Flux Distribution in the Optical System of Reflection-Type Fiber-Optic Transducers of Physical Quantities: Monograph [in Russian], IITs Penza State University, Penza (2008).
A. G. Pivkin, “Transformation function of attenuator fiber-optic displacement transducers,” Datch. Sistemy, No. 4, 11–13 (2006).
A. G. Pivkin, “Transformation function of differentiating fiber-optic transducer with reflecting attenuator,” Datch. Sistemy, No. 6, 12 (2006).
A. G. Pivkin, “Development of theory of differentiating transformation of signals in fiber-optic transducers,” Prib. Sistemy. Upravl. Kontrol. Diagn., No. 8, 42 (2006).
A. G. Pivkin and D. I. Serebryakov, “A method of decreasing the temperature error of fiber-optic transducers,” Aviakosm. Priborostr., No. 3, 13–15 (2006).
A. G. Pivkin et al., “Differentiating transformation of signals in reflective-type fiber-optic pressure transducers,” Datch. Sistemy, No. 12, 12–14 (2006).
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Translated from Izmeritel’naya Tekhnika, No. 6, pp. 28–31, June, 2010.
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Graevskii, O.S., Kryuchkov, D.A. & Pivkin, A.G. A structural-analytical model of differentiating transformation of the signals of fiber-optic pressure transducers. Meas Tech 53, 637–642 (2010). https://doi.org/10.1007/s11018-010-9554-2
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DOI: https://doi.org/10.1007/s11018-010-9554-2