DocumentCode
2580156
Title
Predictive direct power control of MV-grid-connected two-level and, three-level npc converters: experimental results
Author
Aurtenechea, S. ; Rodriguez, M.A. ; Oyarbide, E. ; Torrealday, J.R.
Author_Institution
Tecnica de Automatismo y Medida, Zamudio
fYear
2007
fDate
2-5 Sept. 2007
Firstpage
1
Lastpage
10
Abstract
This paper deals with the Predictive Direct Power Control of MV-grid-connected two-level and three- level NPC converters. The well-known direct power control is combined with a predictive selection of a voltage-vectors sequence, obtaining both high transient dynamic and constant switching frequency on high-power converters. The initial Predictive Direct Power Control proposal explored only the basic formulation based on simple vector-sequences applied to two-level converters. Later on, the same approach was extended to the family of three-level NPC converters, including the predictive direct control of neural voltage. In the same way, an advanced hybrid Predictive Direct Power Control was presented, providing only simulated data. The work presented in this paper provides experimental results of the hybrid Predictive Direct Power Control applied to two-level and three-level NPC converters. These results show that the P-DPC approach is an attractive solution to MV grid-connected applications.
Keywords
power control; power convertors; power system control; predictive control; MV-grid-connected two-level NPC converter; constant switching frequency; high transient dynamic frequency; high-power converters; multilevel converters; neural voltage; predictive direct power control; three-level NPC converter; three-phase system; vector-sequences; voltage source converter; voltage-vectors sequence; Medium voltage; Power control; Proposals; Pulse width modulation; Pulse width modulation converters; Switching converters; Switching frequency; Topology; Uniform resource locators; Voltage control; Direct Power Control; Multilevel converters; Predictive Control; Three-phase system; Voltage Source Converter (VSC);
fLanguage
English
Publisher
ieee
Conference_Titel
Power Electronics and Applications, 2007 European Conference on
Conference_Location
Aalborg
Print_ISBN
978-92-75815-10-8
Electronic_ISBN
978-92-75815-10-8
Type
conf
DOI
10.1109/EPE.2007.4417305
Filename
4417305
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