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Analiza schematu strukturalnego wzbudnicy systemu reflektometrycznego
Języki publikacji
Abstrakty
The analysis of the structural scheme of the reflectometric system exciter was carried out. We show that the basic block diagram for the construction of range of the inverter is a single ring exciter digital frequency synthesizer. The mathematical model of range of the inverter exciter provides an analysis of the structural schemes of inverter with pathogen spectral methods. These expressions of the spectral power density of the phase fluctuations allowed to take into account the effect of the circuit elements of the inverter of the pathogen on its spectral characteristics and calculate the dispersion, the average deviation of the phase in the frequency band and the mean square raid exciter output signal phase.
Wykonano analizę schematu strukturalnego wzbudnicy systemu reflektometrycznego. Pokazujemy, że podstawowym schematem blokowym do budowy szeregu inwerterów jest cyfrowy syntezator częstotliwości z pojedynczą pętlą. Matematyczny model szeregu falowników przedstawia analizę schematów strukturalnych falownika za pomocą metod spektralnych patogenu. Te wyrażenia widmowej gęstości mocy fluktuacji fazowych pozwoliły uwzględnić wpływ elementów obwodu falownika patogenu na jego charakterystykę widmową i obliczyć dyspersję, średnie odchylenie fazy w paśmie częstotliwości i rms wzbudnica fazy sygnału wyjściowego.
Wydawca
Czasopismo
Rocznik
Tom
Strony
83--87
Opis fizyczny
Bibliogr. 25 poz., rys.
Twórcy
autor
- Lublin University of Technology, Institute of Electronics and Information Technology, Nadbystrzycka 38A, 20-618 Lublin, Poland
autor
- Kharkiv Petro Vasylenko National Technical University of Agriculture, Alchevskyh, 44, Kharkiv, 61002 Ukraine
autor
- Kharkiv Petro Vasylenko National Technical University of Agriculture, Alchevskyh, 44, Kharkiv, 61002 Ukraine
autor
- Lviv National Agricultural University, St. Vladimir the Great, 1, Dublyany, Ukraine
Bibliografia
- [1] Kowalski J., Jak pisać tekst do Przeglądu, Przegląd Elektrotechniczny, 78 (2002), nr 5, 125-128
- [2] Johnson B., Pike G.E., Preparation of Papers for Transactions, IEEE Trans. Magn., 50 (2002), No. 5, 133-137
- [1] Semenov B.Y., Power electronics : professional solutions, Solon-Press, (2011), 416
- [2] Meleshyn V.I., Transistor converters, Technosphere, (2005), 632
- [3] Rozanov J.K., Power Electronics, Energoatomisdat, (2007), 470
- [4] Automation of pumping stations on the basis of the frequency of electric company Delta Electronics. - M. : Real-Time Systems JSC, 2013. - 10 p.
- [5] Mikhalev P.I., PLL circuits and synthesizers on the Analog Devices manufactured basis, Components and Technology, no. 4, (2005)
- [6] Van-Tris G.L., Functional methods of non-linear behavior analyzing of the phase locked loop systems, Proceedings of the IEEE 52 no 8 (1964), 894 - 911.
- [7] Pupkov K.A., Kapalin V.I., Yushchenko A.S., Functional series in the non-linear systems theory, M: Nauka, (2005), 448
- [8] Wróblewski P., Smolik W., Development of magnetic nanoparticles tomography in nuclear and medical electronics division, Informatyka, Automatyka, Pomiary w Gospodarce i Ochronie Środowiska - IAPGOS, 7(2017), no. 1., 125-129
- [9] Gubernatorov O.I., Sokolov Y.N., Digital synthesizers of radio systems frequency, Energy, (2007), 176
- [10] Rice S.О., Volterra Systems With more than one input port (Distortion in a freguency conuerter), Bell Syst Tech., (2011), no.8, 1255-1271
- [11] Artym A.A., Frequency methods of analysis and synthesis FAP systems / A.A. Artym, S.V. Trifonov. - M.: Svyaz, 2006. - 160 p.
- [12] Manassevich V., Frequency synthesizer. / V. Manassevich . - M.: Svyaz, 2008. - 384 p.
- [13] Karlov B.V. Modern frequency converters: management and hardware implementation. - M.: Power electronics, 2004, № 1
- [14] Kuhtetsky S.V. Simple electronic inverter for induction heating. - M.: - ICCT SB RAS, 2013. - 45 p.
- [15] Zobnin I.O. A new approach in the design of thyristor converters. Overview. - M.: Energoizdat, 2007. - 15 p.
- [16] Belov L., Stable frequency synthesizers, Electronics: Science, Technology, Business, (2004), no.3
- [17] Shtropenin G., Integrated RF PLL frequency synthesizer National Semicondactor, Components and Technology, (2006), no.7
- [18] Starikov O., PLL method and principles of synthesizing highfrequency signals, Chip News, (2001), no. 6-8, 10
- [19] Lysychenko R.M., Influence investigation of the elements characteristics of range of pathogens inverter voltage converters on their spectral characteristics, Journal of Kharkiv Petro Vasylenko National Technical University of Agriculture, Engineering, (2014) no. 153, 186
- [20] Lysychenko R.M. Theoretical analysis of the spectral characteristics of the range of voltage inverters, Proceedings of the Eighth International Scientific and Technical Conference, (2015), 578
- [21] Wieteska M., Obrębski W., Piątkowska-Janko E., Sawionek B., Bogorodzki P., Increasing the signal to noise ratio in low-field mr scanner at department of nuclear and medical electronics, Informatyka, Automatyka, Pomiary w Gospodarce i Ochronie Środowiska - IAPGOS, 7(2017), no. 1., 133-136
- [22] Lysychenko R.M. The calculation method of the phase inverter synchronization frequency converter. III International scientific conference "Problems and prospects of energy electrotechnologies and automation in agriculture" Kyiv Ukraine 17-18.12.2015 K .: NUBiP Eng. -124 p.
- [23] Lysychenko R.M., Analysis of ways of improving the energy efficiency of electric drive in agriculture, Journal of Kharkiv Petro Vasylenko National Technical University of Agriculture, Engineering, (2016), no. 175, 173
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5fd815b8-613c-4bb1-ad22-275f3b4e1f3c