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Ewolucja przełączalnych regulatorów napięcia
Języki publikacji
Abstrakty
To satisfy the fast voltage regulation and low input harmonic current distortion, a voltage regulator and a power factor correction (PFC) pre-regulator need to be existed. Cascading the voltage regulator with the PFC pre-regulator is the simplest way to implement the switching voltage regulator. The voltage regulator and PFC pre-regulator is processed the input power for switching regulator serially. The switching regulators efficiency has confirmed deteriorate. The requirement of the harmonic emission has been satisfied by the various types of the non-cascading PFC switching regulators. In this paper, the evolution of the switching regulator and various types of the non-cascading PFC switching regulator is discussed and the design of implementation of different output power levels for two types of non-cascading PFC switching regulator is presented.
Do regulacji napięcia skuteczną metodą jest kaskadowe połączenie regulatorów napięcia I układów korekcji współczynnika mocy PFC. W artykule omówiono ewolucje różnych przełączalnych regulatorów napięcia. Przedstawiono też projekt i zastosowanie dwóch rodzajów regulatorów nie połączonych kaskadowo.
Wydawca
Czasopismo
Rocznik
Tom
Strony
154--160
Opis fizyczny
Bibliogr. 43 poz., rys., tab.
Twórcy
autor
- Wydział Elektrotechniki, Elektroniki i Inżynierii Systemów, Universiti Kebangsaan Malezji, 43600, UKM Bangi, Malezja
autor
- Wydział Elektrotechniki, Elektroniki i Inżynierii Systemów, Universiti Kebangsaan Malezji, 43600, UKM Bangi, Malezja
autor
- Wydział Elektrotechniki, Elektroniki i Inżynierii Systemów, Universiti Kebangsaan Malezji, 43600, UKM Bangi, Malezja
autor
- Wydział Elektrotechniki, Elektroniki i Inżynierii Systemów, Universiti Kebangsaan Malezji, 43600, UKM Bangi, Malezja
autor
- Wydział Elektrotechniki, Elektroniki i Inżynierii Systemów, Universiti Kebangsaan Malezji, 43600, UKM Bangi, Malezja
Bibliografia
- [1] Teh Y. K., Mohd-Yasin F., Choong F., Reaz M. I., Kordesch A. V., Design and analysis of UHF micropower CMOS DTMOST rectifiers, IEEE Transactions on Circuits and Systems II: Express Briefs, 56(2009), 122-126.
- [2] Uddin J., Reaz M. B. I., Hasan M. A., Nordin A. N., Ibrahimy M. I., Ali M. A. M., UHF RFID antenna architectures and applications, Scientific Research and Essays, 5(2010), 1033-1051.
- [3] Khaw M. K., Mohd-Yasin F., Reaz M. I., Recent advances in the integrated circuit design of RFID transponder, in Proceedings book of the 2004 IEEE International Conference on Semiconductor Electronics (ICSE 2004), 2004, 326-330.
- [4] Rahman L. F., Reaz M. B. I., Mohd. Ali M. A., Kamada M., Design of an EEPROM in RFID tag: Employing mapped EPC and IPv6 address, in Proceedings book of the IEEE Asia- Pacific Conference on Circuits and Systems, (APCCAS 2010), Kuala Lumpur, Dec. 6-9, 2010, 168-171.
- [5] Mohd-Yasin F., Khaw M. K., Reaz M. B. I., Techniques of RFID systems: Architectures and applications, Microwave Journal, 49(2006), 62-74.
- [6] Mohd-Yasin F., Khaw M. K., Reaz M. B. I., Radio frequency identification: Evolution of transponder circuit design, Microwave Journal, 49(2006), 56-70.
- [7] Owen E. L., A history of harmonics in power systems, IEEE Industry Application Magazine, 4(1998), No. 1, 6-12.
- [8] Mack G.W., Surya S., Understanding Power System Harmonics, IEEE Power Engineering Review, 21(2001), No.11, 8-11.
- [9] Singh B., Al-Haddad K., Chandra A., A review of active filters for power quality improvement, IEEE Transactions on Industrial Electronics, 46(1999), No. 2, 960-971.
- [10] Redlt R., Invited paper. Power-factor correction in singlephase switching-mode power supplies—an overview, International Journal of Electronics, 77(1994), No. 5, 555-582.
- [11] Singh B., Al-Haddad K., Chandra A., A review of active filters for power quality improvement, IEEE Transactions on Industrial Electronics, 46(1999), No.5, 960-971.
- [12] Kelley A. W., Yadusky W. F., Rectifier design for minimum line current harmonics and maximum power factor, in Proceedings book of the 4th IEEE Applied Power Electronics Conference and Exposition, Baltimore, USA, March 13-17, 1989, 13-22.
- [13] Sebastian J., Jaureguizar M., Uceda J., An overview of power factor correction in single-phase off-line power supply systems, in Proceedings book of the 20th IEEE Int. Conf. on Industrial Electronics, Control and Instrumentation, Bologna, Sep. 5-9, 1994, Vol. 3, 1688-1693.
- [14] Tse C. K., Circuit theory of power factor correction in switching converters, Int. Journal of circuit theory and applications, 31(2003), No.2, 157-198.
- [15] Singh B., Singh, B.N., Chandra A., Al-Haddad K., Pandey A., Kothari D.P., A review of single-phase improved power quality AC-DC converters, IEEE Transactions on Industrial Electronics, 50(2003), No.5, 962-981.
- [16] Singh B., Singh, B.N., Chandra A., Al-Haddad K., Pandey A., Kothari D.P., A review of three-phase improved power quality AC-DC converters, IEEE Transactions on Industrial Electronics, 51(2004), No.3, 641-660.
- [17] Fernandez A., Sebastian J., Hernando M. M., Villegas P., Garcia J., Helpful hints to select a power-factor-correction solution for low-and medium-power single-phase power supplies, IEEE Transactions on Industrial Electronics, 52(2005), No.1, 46-55.
- [18] Garcia O., Cobos J.A., Prieto R., Alou P., Uceda J., Single phase power factor correction: a survey, IEEE Transactions on Power Electronics, 18(2003), No.3, 749-755.
- [19] Loera-Palomo R., Morales-Saldaña J. A., Leyva-Ramos J., Carbajal-Gutierrez E. E., Controller design for a power factor correction regulator R2P2, IET Power Electronics, 3(2010), No.5, 784-792.
- [20] Tse C. K., Chow M. H. L., Cheung M. K. H., A family of PFC voltage regulator configurations with reduced redundant power processing, IEEE Transactions on Power Electronics, 16(2006), No.6, 794-802.
- [21] Cheung M. K. H., Chow M. H. L., Tse C. K., Design and performance considerations of PFC switching regulators based on noncascading structures, IEEE Transactions on Industrial Electronics, 57(2010), No.11, 3730-3745.
- [22] Ji Y., Wang F., Single-phase diode rectifier with novel passive filters, IEEE Proceedings- Circuits, Devices and Systems, 145(1998), No.4, 254-259.
- [23] Lee J. Y., Single-stage power factor correction converter with parallel power processing for wide line and load changes, Electronics letters, 38(2002), No.9, 421-423.
- [24] Do H. L., Single-stage single-switch power factor correction AC/DC converter, IEE Proceedings-Electric Power Applications, 152(2005), No.6, 1578 – 1584.
- [25] Tse C. K., Chow M. H. L., Cheung M. K. H., Reduced redundant power processing (R2P2) PFC voltage regulators: circuit synthesis and control, in Proceedings book of the IEEE 31st Annual Power Electronics Specialists Conference, Galway, Jun. 22-23, 2000, Vo. 2, 825-830.
- [26] Chow M. H. L., Tse C., Lee Y. S., An efficient PFC voltage regulator with reduced redundant power processing, in Proceedings book of the IEEE 30th Annual Power Electronics Specialists Conference, Charleston, SC, July 1-1 1999, Vol. 1, 87-92.
- [27] Luo S., Qiu W., Wu W., Batarseh I., Flyboost power factor correction cell and a new family of single-stage AC/DC converters, IEEE Transactions on Power Electronics, 20(2005), No.1, 25-34.
- [28] Prasad A. R., Ziogas P.D., Manias S., A novel passive wave shaping method for single-phase diode rectifiers, IEEE Transactions on Industrial Electronics, 37(1990), No.6, pp. 521-530.
- [29] Garcia O., Martínez-Avial M. D., Cobos J. A., Uceda J., González J., Navas J. A., Harmonic reducer converter, IEEE Transactions on Industrial Electronics, 50(2003), No.20, 322-327.
- [30] Sivakumar S., Natarajan K., Gudelewicz R., Control of power factor correcting boost converter without instantaneous measurement of input current, IEEE Transactions on Power Electronics, 10(1995), No.4, 435-445.
- [31] Dixon L., Average current mode control of switching power supplies, Unitrode Power Supply Design Seminar Manual SEM700, Feb. 1990.
- [32] Rajagopalan J., Lee F. C., Nora P., A general technique for derivation of average current mode control laws for singlephase power-factor-correction circuits without input voltage sensing, IEEE Transactions on Power Electronics, 14(1999), No.4, 663-672.
- [33] Tse C. K., Chow M. H. L., Theoretical study of switching power converters with power factor correction and output regulation, IEEE Transactions on Circuits and Systems I: Fundamental Theory and Applications, 47(2000), No.7, 1047-1055.
- [34] Tse C. K., Zero-order switching networks and their applications to power factor correction in switching converters, IEEE Transactions on Circuits and Systems I: Fundamental Theory and Applications, 44(1997), No.8, 667-675.
- [35] Tse C. K., Chow M. H. L., Cheung M. K. H., A family of PFC voltage regulator configurations with reduced redundant power processing, IEEE Transactions on Power Electronics, 16(2001), No.6, 794-802.
- [36] Kheraluwala M. H., Steigerwald R. L., Gurumoorthy R., A fastresponse high power factor converter with a single power stage, in Proceedings book of the IEEE 22ndAnnual Conference in Power Electronics Specialists, Cambridge, MA, Jun 24-27, 1991, 769 – 779.
- [37] Qian J., Lee F.C., A high efficient single stage single switch high power factor ac/dc converter with universal input, in Proceedings book of the IEEE 12thAnnual Conference in Applied Power Electronics Conference and Exposition, Atlanta, GA, Feb. 23-27, 1997, Vol. 1, 281 – 287.
- [38] Garcia O., Cobos J.A., Prieto R., Alou P., Uceda J., Novel power factor correction AC/DC converters with high efficiency based on the forward topology, in Proceedings book of the IEEE 29thAnnual Conference in Power Electronics Specialists, Fukuoka, May 17-22, 1998, Vol.2, 1815-1821.
- [39] Sebastian J., Villegas P., Hernando M. M., Ollero S., Improving dynamic response of power factor correctors by using series-switching post-regulator, in Proceedings book of the IEEE 13thAnnual Conference in Applied Power Electronics Conference and Exposition, Anaheim, CA, Vo. 1, Feb. 15-19, 1998, 441 – 446.
- [40] Qiu W., Wu W., Luo S., Kornetzky P., Batarseh I., , Practical design considerations of a single-stage single-switch parallel PFC converter for universal voltage applications, in Proceedings book of the IEEE 37th Industry Applications Conference, Pittsburgh, USA, Oct. 13-18, 2002, 2133 – 2140.
- [41] Kim S., Enjeti P.N., A parallel-connected single-phase power factor correction approach with improved efficiency” in Proceedings book of the 17th Annual IEEE Applied Power Electronics Conference and Exposition, Dallas, USA, 1, Mar. 10-14, 2002, 263-269,.
- [42] Garcia O., Cobos J. A., Alou P., Prieto R., Uceda J., A simple single-switch single-stage AC/DC converter with fast output voltage regulation, IEEE Transactions on Power Electronics, 17(2002), No.2, 163-171.
- [43] Tse C. K., Chow M. H. L., A theoretical examination of the circuit requirements of power factor correction, in Proceedings book of the IEEE 29thAnnual Conference in Power Electronics Specialists, Fukuoka, Japan, May 17-22, 1998, 1415 – 1421.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-4522a44b-2248-4611-be5d-39ec9b1e1d15