Digitally-controlled three phase soft-switching PFC converter with instantaneous power feedback control scheme

M. Yamamoto; H. Hattori; E. Hiraki; M. Nakaoka

doi:10.1109/PEDES.1998.1330738

Digitally-controlled three phase soft-switching PFC converter with instantaneous power feedback control scheme

M. Yamamoto, H. Hattori, E. Hiraki, M. Nakaoka

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

This paper presents a performance analysis in steady-state and transient-state of auxiliary resonant commutation snubber (ARCS)-linked three phase voltage source soft switching PFC rectifier with a digital control scheme which is suitable for high power applications as compared with three phase hard switching PFC rectifier. The system performances of this soft-switching PFC rectifier are illustrated and evaluated on the basis of the experimental results.

Original language	English
Title of host publication	PEDES 1998 - 1998 International Conference on Power Electronic Drives and Energy Systems for Industrial Growth
Editors	C. Nayar, V. Agelidis, W.B. Lawrance, S. Islam, W.W.L. Keelthipala
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	1002-1006
Number of pages	5
ISBN (Electronic)	0780348796, 9780780348790
DOIs	https://doi.org/10.1109/PEDES.1998.1330738
Publication status	Published - 1998
Externally published	Yes
Event	1998 International Conference on Power Electronic Drives and Energy Systems for Industrial Growth, PEDES 1998 - Perth, Australia Duration: Dec 1 1998 → Dec 3 1998

Publication series

Name	PEDES 1998 - 1998 International Conference on Power Electronic Drives and Energy Systems for Industrial Growth
Volume	2

Conference

Conference	1998 International Conference on Power Electronic Drives and Energy Systems for Industrial Growth, PEDES 1998
Country	Australia
City	Perth
Period	12/1/98 → 12/3/98

ASJC Scopus subject areas

Energy Engineering and Power Technology

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10.1109/PEDES.1998.1330738

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Yamamoto, M., Hattori, H., Hiraki, E., & Nakaoka, M. (1998). Digitally-controlled three phase soft-switching PFC converter with instantaneous power feedback control scheme. In C. Nayar, V. Agelidis, W. B. Lawrance, S. Islam, & W. W. L. Keelthipala (Eds.), PEDES 1998 - 1998 International Conference on Power Electronic Drives and Energy Systems for Industrial Growth (pp. 1002-1006). [1330738] (PEDES 1998 - 1998 International Conference on Power Electronic Drives and Energy Systems for Industrial Growth; Vol. 2). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/PEDES.1998.1330738

Digitally-controlled three phase soft-switching PFC converter with instantaneous power feedback control scheme. / Yamamoto, M.; Hattori, H.; Hiraki, E.; Nakaoka, M.

PEDES 1998 - 1998 International Conference on Power Electronic Drives and Energy Systems for Industrial Growth. ed. / C. Nayar; V. Agelidis; W.B. Lawrance; S. Islam; W.W.L. Keelthipala. Institute of Electrical and Electronics Engineers Inc., 1998. p. 1002-1006 1330738 (PEDES 1998 - 1998 International Conference on Power Electronic Drives and Energy Systems for Industrial Growth; Vol. 2).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Yamamoto, M, Hattori, H, Hiraki, E & Nakaoka, M 1998, Digitally-controlled three phase soft-switching PFC converter with instantaneous power feedback control scheme. in C Nayar, V Agelidis, WB Lawrance, S Islam & WWL Keelthipala (eds), PEDES 1998 - 1998 International Conference on Power Electronic Drives and Energy Systems for Industrial Growth., 1330738, PEDES 1998 - 1998 International Conference on Power Electronic Drives and Energy Systems for Industrial Growth, vol. 2, Institute of Electrical and Electronics Engineers Inc., pp. 1002-1006, 1998 International Conference on Power Electronic Drives and Energy Systems for Industrial Growth, PEDES 1998, Perth, Australia, 12/1/98. https://doi.org/10.1109/PEDES.1998.1330738

Yamamoto M, Hattori H, Hiraki E, Nakaoka M. Digitally-controlled three phase soft-switching PFC converter with instantaneous power feedback control scheme. In Nayar C, Agelidis V, Lawrance WB, Islam S, Keelthipala WWL, editors, PEDES 1998 - 1998 International Conference on Power Electronic Drives and Energy Systems for Industrial Growth. Institute of Electrical and Electronics Engineers Inc. 1998. p. 1002-1006. 1330738. (PEDES 1998 - 1998 International Conference on Power Electronic Drives and Energy Systems for Industrial Growth). https://doi.org/10.1109/PEDES.1998.1330738

Yamamoto, M. ; Hattori, H. ; Hiraki, E. ; Nakaoka, M. / Digitally-controlled three phase soft-switching PFC converter with instantaneous power feedback control scheme. PEDES 1998 - 1998 International Conference on Power Electronic Drives and Energy Systems for Industrial Growth. editor / C. Nayar ; V. Agelidis ; W.B. Lawrance ; S. Islam ; W.W.L. Keelthipala. Institute of Electrical and Electronics Engineers Inc., 1998. pp. 1002-1006 (PEDES 1998 - 1998 International Conference on Power Electronic Drives and Energy Systems for Industrial Growth).

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abstract = "This paper presents a performance analysis in steady-state and transient-state of auxiliary resonant commutation snubber (ARCS)-linked three phase voltage source soft switching PFC rectifier with a digital control scheme which is suitable for high power applications as compared with three phase hard switching PFC rectifier. The system performances of this soft-switching PFC rectifier are illustrated and evaluated on the basis of the experimental results.",

author = "M. Yamamoto and H. Hattori and E. Hiraki and M. Nakaoka",

note = "Publisher Copyright: {\textcopyright} 1998 IEEE. Copyright: Copyright 2019 Elsevier B.V., All rights reserved.; 1998 International Conference on Power Electronic Drives and Energy Systems for Industrial Growth, PEDES 1998 ; Conference date: 01-12-1998 Through 03-12-1998",

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AB - This paper presents a performance analysis in steady-state and transient-state of auxiliary resonant commutation snubber (ARCS)-linked three phase voltage source soft switching PFC rectifier with a digital control scheme which is suitable for high power applications as compared with three phase hard switching PFC rectifier. The system performances of this soft-switching PFC rectifier are illustrated and evaluated on the basis of the experimental results.

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Digitally-controlled three phase soft-switching PFC converter with instantaneous power feedback control scheme

Abstract

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ASJC Scopus subject areas

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