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This paper addresses the specific issues associated with electromagnetic compatibility that should be taken into account at the developmental stage of distributed systems. The main aim is to establish how far conducted interferences can penetrate the electric grid and how the group of converters, which individually meet EMC standards, influence the mains supply. The measured results of the spread of electromagnetic interference (EMI) current over a typical local electric grid and the low and medium voltage side of the power transformer are presented. The commonly applied, in distributed power systems, four-quadrant converter has been used as a test interference source. The limitations in the applicability of standardized methods for evaluation of aggregated conducted interferences have been presented in a system consisting of a group of two-quadrant frequency converter drives.
Rocznik
Tom
Strony
383--393
Opis fizyczny
Bibliogr. 17 poz., rys.
Twórcy
autor
- University of Zielona Góra, Institute of Electrical Engineering, 50 Podgórna St., 65-246 Zielona Góra, Poland
Bibliografia
- [1] G. Benysek, Improvement in the Quality of Delivery of Electrical Energy Using Power Electronics Systems, Springer-Verlag, London, 2007.
- [2] N. Hingorani and L. Gyugyi, Understanding FACTS: Concepts and Technology of Flexible AC Transmission Systems, Wiley-IEEE Press, New York, 2000.
- [3] Y. Han, M. Khan, L. Xu, G. Yao, L. Zhou, and C. Chen, “A new scheme for power factor correction and active filtering for six-pulse converters loads”, Bull. Pol. Ac.: Tech. 57 (2), 157–169 (2009).
- [4] Z. Chen, X. Zhang, and J. Pan, “An integrated inverter for a single-phase single-stage grid-connected PV system based on Z-source”, Bull. Pol. Ac.: Tech. 55 (3), 263–272 (2007).
- [5] A. Kempski, R. Smoleński, and R. Strzelecki, “Conducted EMI in four-quadrant AC drive system”, Proc. EPE-PEMC 2, 31–36 (2002).
- [6] A. Kempski, R. Strzelecki, R. Smoleński, and G. Benysek, “Suppression of conducted EMI in four-quadrant AC drive system”, Proc. IEEE-PESC’03 3, 1121–1126 (2003).
- [7] P.C. Magnusson, G.C. Alexander, V.K. Tripathi, and A. Weisshaar, Transmission Lines and Wave Propagation, CRC Press, Boca Raton, 2001.
- [8] G. Skibinski, R. Kerkman, D. Leggate, J. Pankau, and D. Schlegel, “Reflected wave modelling techniques for PWM AC motor drives”, Proc. APEC 2, 1021–1029 (1998).
- [9] A. Kempski, R. Smoleński, and R. Strzelecki, “Common mode current paths and their modelling in PWM inverter-fed drives”, Proc. IEEE-PESC’02 3, 1551–1556 (2002).
- [10] H. Akagi and T. Doumoto, “A passive EMI filter for preventing high-frequency leakage current from flowing through the grounded inverter heat sink of an adjustable-speed motor drive system”, IEEE Trans. on Ind. Appl. 41, 1215–1223 (2005).
- [11] H. Akagi, H. Hasegawa, and T. Doumoto, “Design and performance of a passive EMI filter for use with voltage source PWM inverter having sinusoidal output voltage and zero commonmode voltage”, IEEE Trans. on Power Electronics 19, 1069–1076 (2004).
- [12] H. Akagi and S. Tamura, “A passive EMI filter for eliminating both bearing current and ground leakage current from an inverter-driven motor power electronics”, IEEE Trans. on Power Electronics 21, 1459–1469 (2006).
- [13] S. Ogasawara and H. Akagi, “Modelling and damping of highfrequency leakage currents in PWM inverter-fed AC motor drive systems”, IEEE Trans. on Ind. Appl. 32, 1105–1113 (1996).
- [14] N. Hanigovszki, J. Poulsen, G. Spiazzi, and F. Blaabjerg, “An EMC evaluation of the use of unshielded motor cables in AC adjustable speed drive applications”, IEEE Trans. on Power Electronics 21, 273–281 (2006).
- [15] J. Hu, J. van Bloch, and W. De Doncker, “Typical impulses in power electronics and their EMI characteristics”, Proc. IEEE-PESC’04 4, 3021–3027 (2004).
- [16] G. Grandi, D. Casadei, and U. Reggiani, “Common- and differential-mode HF current components in AC motors supplied by voltage source inverters”, IEEE Trans. on Power Electronics 19, 16–24 (2004).
- [17] T.Williams, K. Armstrong, EMC for Systems and Installations, Butterworth-Heinemann Ltd, Oxford, 2000.
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Bibliografia
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bwmeta1.element.baztech-article-BPG8-0018-0011