Measurement off three-phase electrical sizes on non-insusible form to microcomputer meter

  • Filip Marković University of Pristina, Faculty of Technical Sciences, Kosovska Mitrovica, Serbia
  • Slobodan Bjelić University of Pristina, Faculty of Technical Sciences, Kosovska Mitrovica, Serbia
  • Violeta Milićević Academy of Professional Studies South Serbia, Department of Business Studies Blace, Serbia
  • Nenad Marković Visoka tehnička škola strukovnih studija iz Uroševca, Leposavić, Srbija
Keywords: microcomputer meter, algorithm, three-phase electrical size, VHDL code

Abstract

In the paper is describing a procedure for measuring the three-phase electrical quantities used in power grids. Measuring the three-phase electrical quantities used in power grids was done with formulas that were implemented in the diagnostic block scheme using the Quartus II 13.0sp1 software package. A discrete (digital) algorithm was developed to obtain the effective values of voltage, current, active and reactive power. The results obtained are programmatically simulated, presented on the monitor or printed, and are applicable in practice.

Downloads

Download data is not yet available.

References

Bjelić, S., & Matić, D. (1996). Aplication of Digital Signal Proccesing to the Control and Protection System at Substation. In AMSE Scientific International Conference on Communication, Signals and Systems (Session 6.) CSS (Vol. 96).

Bjelić, S., Bogićević, Z., Krečković, N., & Marković, N. (2007). Estimation of current’s flow, loss of power and voltage fall down in distributive networks by using PDM KMp,q program. In 19th International Conference on Electricity Distribution, Paper 0907, Cired.

Bjelić, S., & Mladenović, V. (2006). Algoritam merno informacionog sistema za dijagnostiku kvarova u električnoj mreži. In Telekomunikacioni forum TELFOR 2006. (str. 411-413). Društvo za telekomunikacije i Akademska misao.

Bjelić, S., Matić, D., & Jakšić, U. (2006). Merne nesigurnosti programabilnih distantnih mernih članova, Zbornik radova Više tehničke škole Požarevac, 1-2, 130-135.

Markovic, N., Bjelic, S., Zivanic, J., & Jaksic, U. (2017). Simulation of the impact of higher harmonics on the transient process of induction machine fed from PWM inverters/Simuliranje utjecaja visih harmonika na prijelazni proces indukcionog stroja napajanog iz PWM invertera. Tehnicki Vjesnik-Technical Gazette, 24(1), 265-272. https://doi.org/10.17559/TV-20150502231618

Papoulis, A. (1962). The Fourier integral and its applications. McGraw-Hill Book Company.

Anthony, M.A. (1995). Electric Power System Protection and Coordination. McGraw-Hill Book Company.

Marković, N.A., & Bjelić, S.N. (2018). Zaštita od opasnog dejstva električne struje. Visoka tehnička škola strukovnih studija.

Arrillaga, J., & Watson, N.R. (2000). Power System Quality Assessment. John Wiley.

Dale, R.P., & Fardo, S.W. (2009). Electrical Distribution Systems. 2nd Edition. CRC Press.

Jakšić, U. (2015). Prilog merenju napona i struja uz primenu matričnih transformacija i prepoznavanje simetričnih komponenti. Doktorska disertacija. Univerzitet u Prištini, Fakultet tehničkih nauka.

Bjelić, S. (2018). Protection Techniques in Electrical Energy Networks. Kvark.

Institute of Electrical and Electronics Engineers. (1990). National Electrical Safety Code, 1990. (ANSI C2-1990). Institute of Electrical and Electronics Engineers.

Quartus II 13.0sp1 (64-bit) Web Edition, 06.12.2013.

Published
2020-06-30
How to Cite
Marković F., Bjelić S., Milićević V., & Marković N. (2020). Measurement off three-phase electrical sizes on non-insusible form to microcomputer meter. BizInfo (Blace) Journal of Economics, Management and Informatics, 11(1), 65-73. https://doi.org/10.5937/bizinfo2001065M