Article : [PAP488]
Titre : H.S. KIM, F. BLAABJERG, B. BAK-JENSEN, J. CHOI, Novel Instantaneous Power Compensation Theory in Three-Phase Systems, EPE'2001.
Cité dans : [DIV174] EPE'2001, European Conference on Power Electronics and Applications, Graz, Autriche, 27-28 août 2001. Cité dans : [DIV292] T. LEQUEU, Informations diverses sur la simulation et conception en électronique de puissance, novembre 2019.Auteur : Hyosung Kim - Cheonan National Technical College - 275 Budae, Cheonan Chungnam - 330-717 Korea
Congrés : 9th European Conference on Power Electronics and Applications
Date : du 25 au 29 août 2001
Lien : private/01PP412.pdf - 116 Ko, 10 pages, PP00412.
Lien : mailto:hyk@iet.auc.dk
Lien : mailto:fbl@iet.auc.dk
Lien : mailto:bbj@iet.auc.dk
Lien : mailto:choi@power.chungbuk.ac.kr
Info : The simulations were performed by the power electronics simulation package PSIM V4.1.
Keywords : Power Quality, Harmonics, Active Filters
Abstract : This paper proposes a novel power compensation theory in three-phase systems. Three
transformation methods were compared to explain the theory more clearly. Proposed power compensation
theory provides two-degree of freedom to control the system currents by only compensating the instantaneous
imaginary powers without using any energy storage element. This paper proposes a Reference Current
Control method that controls the neutral-line current and the rotating phase currents separately and makes
the system currents sinusoidal and balanced in any circuit conditions such as unbalanced or distorted
voltages and/or unbalanced or nonlinear loads. Simulation results show the superiority of the power
compensation theory both in definition and compensation.
The authors wish to acknowledge the financial support of Elfor and SJS, Denmark.
Bibliographie |
[1] : [ART018] M. AKAGI, Y. KANZAWA, A. NABAE, Instantaneous reactive power compensators comprising switching devices without energy storage components, IEEE Transaction on Industry Applications, vol. 20, N° 3, mai-june 1984, pp 625-630.
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