Power factor correction as the right step towards a safer environment

• Autorzy: Abramovitz A. , Yaskiv V. , Smedley K. A.

Warianty tytułu

PL

Korekcja współczynnika mocy jako właściwy krok w kierunku bezpieczniejszego środowiska

• Języki publikacji: EN

Abstrakty

EN

Generation and transfer of electrical energy can severly degrade the environment. Tthe necessity of joint research in the field of highfrequency power converters with power factor correction to protect the environment from the electromagnetic pollution was discussed. Current state of law and research in several countries was presented. Pasive and active correctors and the idea of new topology for power factor correction wer described.

PL

Działalność człowieka na polu wytwarzania energii elektrycznej powoduje znaczącą degradację środowiska naturalnego. Główny przedmiot zainteresowania przedstawiony w artykule dotyczy analizy wpływu współczynnika mocy na efektywność transferu energii elektrycznej od wytwórcy do końcowego odbiorcy. Przedstawiono stan prac legislacyjnych oraz badawczych w różnych krajach ze szczególnym uwzględnieniem Ukrainy. Opisano dwa typy korektorów, pasywny i aktywny oraz główne założenia dotyczące nowej, projektowanej topologii korektorów współczynnika mocy.

Słowa kluczowe

EN

power converter; power factor correction; high-frequency magnetic amplifier; one-cycle control

PL

przetworniki energii; korekcja współczynnika mocy; wzmacniacz magnetyczny

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 2013
• Tom: R. 89, nr 3a
• Strony: 244--246
• Opis fizyczny: Bibliogr. 14 poz.

Twórcy

autor

Abramovitz A.

• Department of Electrical and Electronics Engineering, Sami Shamoon College of Engineering, Beer-Sheva, Israel

autor

Yaskiv V.

• Departement of Radiotechnical systems, Ternopil Ivan Puluj National Technical University, Ruska Street, 56, 46001, Ternopil, Ukraine

autor

Smedley K. A.

• Department of Electrical and Computer Engineering University of California, Irvine, CA 92697-2625, USA

Bibliografia

• [1] O. García, J. A. Cobos, R. Prieto, P. Alou, J. Uceda, “Single phase power factor correction: a survey”, Transactions on Power Electronics, Vol. 18, no 3, May 2003, pp. 749- 755.
• [2] C. Qiao, K. Smedley, “A Topology Survey of Single-Stage Power Factor Corrector with a Boost Type Input Current-Shaper”, Transactions on Power Electronics, Vol. 16, no 3, May 2001, pp. 360- 368.
• [3] Yaskiv V.I. The New Methods of Switch Mode Power Supply Designing for Computer Facilities / In: Proc. of the International Workshop on Intelligent Data Asquisition and Advanced Computing Systems: Technology and Applications (IDAACS’2001), Resort Center FOROS, Foros, Crimea, Ukraine, Guly 1-4, 2001, p. 87-90.
• [4] Volodymyr Yaskiv. Using of High-Frequency Magnetic Amplifier in Switch Mode DC Power Supplies // Proceedings of the 35th Annual IEEE Power Electronic Specialists Conference (PESC’04), Aachen, Germany, 2004, p. 1658-1662.
• [5] Yaskiv V. Design Methods of Switch Mode Power Supplies // Tutorial 10 on 26-th Interna-tional Energy Conference (INTELEC), Hyatt Regency Chicago, Illinois, USA, 2004, 40 pp.
• [6] Yaskiv V. I., Yurchenko M.M. Methods of power converters designing with high level of the load current on based of highfrequency magnetic amplifiers // Journal of Institute of an Electrodynamics“Technical Electrodynamics”, Special issue “Power electronic and power efficiency”, part 2, 2006, p. 3-6.
• [7] A. Abramovitz, "Effect of the Ripple Current on Power Factor of CRM Boost APFC", Journal of Circuits, Systems and Computers, Vol. 17, No. 3, 2008, pp. 389–398.
• [8] A. Abramovitz, “Steady State Characteristics of the Off-Duty Cycle Controlled APFC with no Input Voltage Sensing“, International Review of Electrical Engineering, Dec. 2007.
• [9] A. Abramovitz and S. Ben-Yaakov, "Investigation of an Alternative APFC Control with no Sensing of Line Voltage Based on a Triangular Modulation Carrier", APEC08, Austin, Texas, Feb. (2008).
• [10] A. Abramovitz, S. Ben-Yaakov, "Simplified Static and Dynamic Models of the 3-loop Active Power Factor Correction System," EPE-97, pp. 1354-1359, (1997).
• [11] L. Zheren, K. Smedley, M. Yunhong, “Time quantity onecycle control for power-factor correctors. IEEE Transactions on Power Electronics, vol.12, no.2, March 1997, pp. 369-75. Publisher: IEEE, USA.
• [12] Z. Lai and K. Smedley, “A General PWM Modulator and Its Applications,” IEEE Transactions on Circuits and Systems I: Fundamental Theory and Applications, April 1998, vol.45, (no.4):386-96.
• [13] Z. Lai and K. Smedley, “A family of continuous-conductionmode power-factor-correction controllers based on the general pulse-width modulator,” IEEE Trans. Power Electron., vol.13, no.3, pp.501–510, May 1998.
• [14] K. Smedley and T. Jin, “One-cycle control and its applications in power quality control and renewable power generation,” in Proc. Power Eng. Soc. General Meeting, 2005, Jun. 2005, pp. 1258–1266.