Wykorzystanie cewek Rogowskiego, wykonanych w technologii PCB HDI, w układach pomiarowych zabezpieczeń

• Autorzy: Habrych Marcin , Lisowiec Aleksander

Identyfikatory

DOI

10.15199/74.2019.8.1

Warianty tytułu

EN

Application of Rogowski coils, made in PCB HDI technology, in the measuring systems of protection

• Języki publikacji: PL

Abstrakty

PL

W artykule zaprezentowano wyniki badań właściwości metrologicznych cewek Rogowskiego, wykonanych w technologii PCB HDI. Przedstawiono wyniki badań symulacyjnych oraz laboratoryjnych, które zostały wykonane na modelach fizycznych takich cewek. Ponadto opisano możliwość ich współpracy z elektroenergetyczną automatyką zabezpieczeniową.

EN

The article presents the results of research on metrological properties of Rogowski coils, made in PCB HDI technology. The results of simulation and laboratory tests were presented, which were made on the physical models of coils. Moreover, the possibility of their cooperation with the Power System Protection has been described.

Słowa kluczowe

PL

cewka Rogowskiego; przetwornik prądu; elektroenergetyczna automatyka zabezpieczeniowa

EN

Rogowski coil; current transducer; Power System Protection

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Wiadomości Elektrotechniczne
• Rocznik: 2019
• Tom: R. 87, nr 8
• Strony: 4--9
• Opis fizyczny: Bibliogr. 22 poz., rys., wykr., zdj.

Twórcy

autor

Habrych Marcin

• Katedra Energoelektryki Politechniki Wrocławskiej

autor

Lisowiec Aleksander

• Instytu Tele- i Radiotechniczny, Warzawa

Bibliografia

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• [2] Borczynski J., Kowalski Z., Miedzinski B., Szkolka S. 2004. Properties of current converters with Rogowski coil in measuring units of power protection. Mechanizacja i Automatyzacja Górnictwa, 4: 77-84.
• [3] Bull J.D., Jaeger N.A.F., Rahmatian F. 2005. A new hybrid current sensor for high-voltage applications. IEEE Trans. on Power Delivery, 20(1): 32-38.
• [4] Catalogue of LEM Company, 2004, [Online] available: http://www.dacpol.eu/pl/lem.
• [5] Chen Q., Li H., Liu Y., Zhang M. 2006. Design and characteristics of two Rogowski coils baised on printed circuit board. IEEE Trans. on Instr. and Measurement, 554(3): 939-943.
• [6] Chen Z., Wang C., Wu J., 2016. A Novel Low-Cost Multicoil-Based Smart Current Sensor for Three-Phase Currents Sensing of Overhead Conductors. IEEE Trans. on Power Delivery, 31(6): 2443-2452.
• [7] Ding W.-D., Han R., Wu J.-W., et al. 2015. Hybrid PCB Rogowski Coil for Measurement of Nanosecond-Risetime Pulsed Current. IEEE Trans. on Plasma Sci., 43(10): 3555-3561.
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• [9] Farjah A., Ghanbari T. 2014. A magnetic leakage flux-based approach for fault diagnosis in electrical machines. IEEE Sensors Journal, 14(2): 311-312.
• [10] Ferkovic L., Ilic D., Lanicek I. 2015. Influence of Axial Inclination of the Primary Conductor on Mutual Inductance of a Precise Rogowski Coil. IEEE Trans. on Instr. and Measurement, 64(11): 3045-3054.
• [11] Fjałkowski, Z., Habrych M., Lisowiec A., Miedzinski B., Wisniewski G. 2018. HDI PCB Rogowski Coils for Automated Electrical Power System Applications. IEEE Transactions on Power Delivery, 33(4): 1536-1544.
• [12] Habrych M., Lisowiec A., Miedzinski B., Wisniewski G. 2015. Applicability of Rogowski coils made in PCB HDI technology in power system protections. Conf. on Modern Electric Power Systems (MEPS), Wroclaw.
• [13] Hofer-Noser P., Karrer N. 2000. PCB Rogowski Coils for High di/dt Current Measurement. Proc. IEEE PESC, Galway, Ireland, 1296-1301.
• [14] Kojovic Lj. A. 2007. Comparative performance characteristics of current transformers and Rogowski coils used for protective relaying purposes. IEEE Power Eng. Society Gen. Meeting, 1-10: 4092-4097.
• [15] Kojovic Lj. A. 2008. Rogowski coil performance characteristics for advanced relay protection. Proc. 9th Int. Conf. on Development in Power System Protection, Glasgow.
• [16] Lesniewska E., Lisowiec A. 2016. Estimation of Influence of External Magnetic Field on New Technology Current-to-Voltage Transducers Operating in Protection System of AC Power Networks. IEEE Transactions on Power Delivery, 31(2): 541-550.
• [17] Li Z., Liu F., Tan X., Zhang L., Zhang Q. 2011. Design of Rogowski coil with external integrator for measurement of lightning current up to 400 kA. Przegląd Elektrotechniczny, 87(7): 188-192.
• [18] Lin F., Liu Y., Zhang Q. 2011. Design and Construction of a Rogowski Coil for Measuring Wide Pulsed Current. IEEE Sensors Journal, 11: 123-130.
• [19] Metwally A. 2010. Self-Integrating Rogowski Coil for High-Impulse Current Measurement. IEEE Trans. on Instr. and Measurement, 59(2): 535-360.
• [20] MUPASZ 101 - manual, [Online], available: http://www.energetyka.itr.org.pl/m101.html#tab3.
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• [22] Shadrin A., Solovev D. 2015. Instrument current transducers with Rogowski coils in protective relaying applications. Int. Journal of El. Power&Energy Systems. 73: 107-113.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).