A Novel Control Strategy for the Power Supply to Achieve the A Novel Control Strategy for the Power Supply to Achieve theA Novel Control Strategy for the Power Supply to Achieve the A Novel Control Strategy for the Power Supply to Achieve the 45 T / 600

Liu, W.; Ding, H.; Duan, X.; Li, L.; Herlach, F.

Artykuł - szczegóły

Tytuł artykułu

A Novel Control Strategy for the Power Supply to Achieve the A Novel Control Strategy for the Power Supply to Achieve theA Novel Control Strategy for the Power Supply to Achieve the A Novel Control Strategy for the Power Supply to Achieve the 45 T / 600

Autorzy

Liu W. , Ding H. , Duan X. , Li L. , Herlach F.

Wybrane pełne teksty z tego czasopisma

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Warianty tytułu

Nowa metod sterowania układem zasilania elektromagnesu umożliwiająca otrzymanie pola magnetycznego 45 T

Języki publikacji

Abstrakty

In order to achieve the 45 T / 600 ms flat-top field, one type of high-field quasi-continuous magnets (HFQCM) and a power supply system related are now under construction at the Wuhan National High Magnetic Field Center (WHMFC). Considering the temperature rise of the magnet and ripple minimization, the topology and the novel repetitive control method of the power supply system is detailed. Simulated results are provided to validate the proposed method.

Aby wytworzyć pole magnetyczne 45 T/600 ms opracowano specjalny typ układu zasilającego. Uwzględniono ryzyko wzrostu temperatury i potrzebę minimalizacji zafalowań.

Słowa kluczowe

high-field quasi-continuous magnets phase-controlled rectifier DC passive filter repetitive control electrical technology electrical power engineering

pole magnetyczne układ zasilania elektromagnes

Wydawca

Wydawnictwo SIGMA-NOT

Czasopismo

Przegląd Elektrotechniczny

Rocznik

2011

Tom

R. 87, nr 11

Strony

285--289

Opis fizyczny

Bibliogr. 15 poz., il., tabl., wykr.

Twórcy

autor

Liu W.

autor

Ding H.

autor

Duan X.

autor

Li L.

autor

Herlach F.

Huazhong University of Science and Technology Luoyu str. 1037, Wuhan, China, loudi_liuvv@foxmail.com

Bibliografia

[1] H. Jin, Y. Wang and G. Joos, A Hybrid Structure Using Phase- Controlled Rectifiers and High-Frequency Converters for Magnet-Load Power Supplies, IEEE Trans. Ind. Electron., 43 (1996), No. 1, 126-131.
[2] Y. Wang, G. Joos and H. Jin, DC-Side Shunt-Active Power Filter for Phase-Controlled Magnet-Load Power Supplies, IEEE Trans. Power Electron., 12 (1997), No. 5, 765-771.
[3] H. Jin and S. B. Dewan, A Combined Feed-Forward and Feedback Control Scheme for Low-Ripple Fast-Response Switch Mode Magnet Power Supplies, IEEE Trans. Magn., 30 (1994), No. 4, 1801-1804.
[4] L. Li, H. F. Ding, T. Peng, et. al., The Pulsed High Magnetic Field Facility at HUST, Wuhan, China and Associated Magnets, IEEE Trans. Appl. Supercond., 18(2008), No. 2, 596–599.
[5] J. B. Schillig, H. J. Boenig, M. Gordon, et. al., Operating Experience of the United States National High Magnetic Field Laboratory 60T Long Pulse Magnet, IEEE Trans. Appl. Supercond.,10 (2000), No. 1, 526-529.
[6] J. B. Schillig, H. J. Boenig, J. D. Rogers, et. al., Design of a 400MW Power Supply for a 60T Pulsed Magnet, IEEE Trans. Magn., 30 (1994), No. 4, 1770-1773.
[7] L. J. Campbell, H. J. Boenig, D. G. Rickel, et. al., Status of the NHMFL 60 Tesla Quasi-Continuous Magnet, IEEE Trans. Magn., 32 (1996), No. 4, 2454-2457.
[8] G. Zhuang, Y. H. Ding, M. Zhang, et. al., Reconstruction of the TEXT-U Tokamak in China, Plasma Science and Technology, 11 (2009), No. 4, 439-442.
[9] W. F. Praeg, A High-Current Low-Pass Filter for Magnet Power Supplies, IEEE Trans. Ind. Elec. and Control Instrum., IECI-17 (1970), No. 1, 16-22.
[10] K. Li, J. J. Liu, G. C. Xiao, et. al., Novel Load Ripple Voltage- Controlled Parallel DC Active Power Filters for High Performance Magnet Power Supplies, IEEE Trans. Nucl. Sci., 53 (2006), No. 3, 1530-1539.
[11] F. Herlach and N. Miura, High Magnetic Fields Science and Technology, Singapore: World Scientific Publishing, 2003.
[12] S. B. Dewan and A. Straughen, Power Semiconductor Circuits, New York: John Wiley & Sons, 1975.
[13] R. Liang and S. B. Dewan, Modeling and Control of Magnet Power Supply System with Switch-Mode Ripple Regulator, IEEE Trans. Ind. Appl., 31 (1995), No. 2, 264-272.
[14] H. J. Boenig, F. Bogdan, G. C. Moms, et. al., Design and Preliminary Test Results of the 40 MW Power Supply at the National High Magnetic Field Laboratory, IEEE Trans. Magn., 30 (1994), No. 4, 1774-1777.
[15] H. J. Boenig, J. A. Ferner, F. Bogdan, et. al., Design and Operation of a 40-MW, Highly Stabilized Power Supply, IEEE Trans. Ind. Appl., 32 (1996), No. 5, 1146-1157.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-article-PWA7-0055-0034