Identyfikatory
Warianty tytułu
Oszacowanie indukcyjności rozproszonej kondensatorów na podstawie analizy prądów rozładowania
Języki publikacji
Abstrakty
This paper gives a description of measurement method which can be used in practice of carrying out measurement of stray inductance of tested capacitive object with the unknown value of electrical capacitance. Stray inductance is determined by means of analysis of previously smoothed by the least squares method curves of discharge current caused by overdamped discharge of tested capacitive object. An example of practical implementation and the analysis of factors that affect the accuracy of proposed method are also given.
W artykule opisano metodę pomiarową, która może być zastosowana w praktyce do pomiaru indukcyjności rozproszonej badanego obiektu pojemnościowego przy nieznanej wartości pojemności. Indukcyjność rozproszoną wyznacza się na podstawie analizy wygładzonych wcześniej metodą najmniejszych kwadratów krzywych prądu wyładowania wywołanego rozładowaniem badanego obiektu pojemnościowego.
Wydawca
Czasopismo
Rocznik
Tom
Strony
175--179
Opis fizyczny
Bibliogr. 18 poz., rys., tab.
Twórcy
autor
- National Technical University "Kharkiv Polytechnic Institute", 2, Department of Electrical Insulation and Cable Engineering Kyrpychova str.,61002, Kharkiv, Ukraine
Bibliografia
- [1] Ozaki T. , I to N. , Nakamura S, Kawai J Changes in capacitance and dielectric dissipation factor of water-treed XLPE with applied voltage, Electrical Engineering in Japan, 144 (2003), No. 1, 12-20.
- [2] Fothergi l l J.C., L iu T., Dodd S.J., Dissado L.A., Nilsson U.H. The measurement of very low conductivity and dielectric loss in XLPE cables: a possible method to detect degradation due to thermal aging IEEE Transactions on Dielectrics and Electrical Insulation, 18 (2011), No. 5, 1544-1553.
- [3] Zaengl W.S. Dielectric spectroscopy in time and frequency domain for HV power equipment, part 1: Theoretical Considerations, IEEE Electrical Insulation Magazine, 19 (2003), No. 5, 5-19
- [4] Younsi K., Neti P., Shah M., Yingneng Zhou J., Krahn J., Weeber K. Online capacitance and dissipation factor monitoring of AC motor stator insulation, IEEE Transactions on Dielectrics and Electrical Insulation, 17 (2010), No. 5, 1441- 1452
- [5] Kropotin O., Tkachenko V., Shepelev A., Petrova E., Goryunov V., Bigun A. Mathematical model of XLPE insulated cable power line with underground installation, Przegląd Elektrotechniczny, 95 (2019), No. 6, 77-80
- [6] Bera S.C., Chattopadhyay S. A modified Shering bridge for measurement of the dielectric parameters of a material and the capacitance of a capacitive transducer, Measurement, 33 (2003), No. 1, 3-7
- [7] Rathore T.S. A novel backlash circuit and scheme for capacitance measurement IETE Technical Review, (1984), No. 1, 110
- [8] Roj J., C ichy A. Method of measurement of capacitance and dielectric loss factor using artificial neural networks, Measurement Science Review, 15 (2015), No. 3, 127-131
- [9] Raven M.S. , Raven D. New approaches to the direct measurement of capacitance, Electrocomponent Science and Technology, 4 (1977), No. 1, 37-42
- [10] Ramos P.M. , Janei ro F. M. , Radi l T. Comparison of impedance measurements in a DSP using ellipse-fit and sevenparameter sine-fit algorithms, Measurement, 42, (2009), No. 9, 1370-1379.
- [11] Shijie Sun, Lijun Xu, Zhang Cao, Hai l i Zhou and Wuqiang Yang. A high-speed electrical impedance measurement circuit based on information-filtering demodulation, Measurement Science and Technology, 25 (2014), No. 7, 075010,
- [12] Chabowski K., Piasecki T., Dzierka A. Simple wide frequency range impedance meter based on AD5933 integrated circuit, Metrology and Measurement Systems, 22 (2015), No. 1, 13-24,
- [13] Siami S., Daude N., Joubert Ch., Merle P. Minimization of the stray inductance in metalized capacitors: Connections and winding geometry dependence, The European Physical Journal Applied Physics, 4 (1998), No. 1, 37-43
- [14] Ingal ls M. , Kent G. Monolithic capacitors as transmission lines, IEEE Transactions on Microwave Theory and Techniques, MTT-35 (1987), No. 11, 964-970
- [15] Joubert Ch., Beroual A ., Rojat G. Magnetic field and current distribution in metalized capacitors, Journal of Applied Physics, 76 (1994), No. 9, 37-43
- [16] Wong, C.S . Effect of stray inductance on capacitive voltage divider, IEEE Journal of Applied Physics, 56 (1986), No. 2, 673- 675
- [17] Patry I., Nicola M., Marinescu C., Vladoi L., Nitu M. , C. Achievement of current pulses of high amplitude using a voltage pulse generator, Annals of the University of Crainova, Electrical Engineering series, 43 (2019), No. 1, 71- 78.
- [18] Neiman L .R. , Demi r chjan K.S. Theoretical foundations of electrical engineering, Part 1, Leningrad, 1959.(in Russisn)
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-7cc74d64-aa4e-4f44-af00-449ac4373017