DocumentCode
1297108
Title
Investigation on Switching Patterns of Direct Power Control Strategies for Grid-Connected DC–AC Converters Based on Power Variation Rates
Author
Hu, Jiabing ; Zhu, Z.Q.
Author_Institution
Dept. of Electron. & Electr. Eng., Sheffield Univ., Sheffield, UK
Volume
26
Issue
12
fYear
2011
Firstpage
3582
Lastpage
3598
Abstract
This paper investigates the switching patterns of direct power control (DPC) strategies for three-phase grid-connected voltage-sourced dc-ac converters. The instantaneous variation rates of active and reactive powers by applying each converter voltage vector in 12 different sectors are deduced. In terms of hysteresis look-up-table DPC, based on the power variation rates, modified switching tables are presented to alleviate the active power pulsations, and an asymmetrical hysteresis controller is proposed for active power control to eliminate its steady-state errors. As to predictive DPC, according to the power variation rates, the cause is identified to that the values of the predicted duration times for the auxiliary active voltage vector become negative. Consequently, to solve this problem, two new alternative vector sequences are proposed and compared. A simple compensation method is further added to the basic control scheme of predictive DPC to deal with grid voltage unbalances. Experimental results on a 1.5-kVA grid-connected dc-ac converter are presented to validate the feasibility of the improved switching patterns and the unbalanced compensation method on the DPC strategies for dc-ac converters.
Keywords
DC-AC power convertors; power control; power grids; switching convertors; table lookup; DPC strategies; active power control; active power pulsations; apparent power 1.5 kVA; asymmetrical hysteresis controller; auxiliary active voltage vector; direct power control strategy; hysteresis look-up-table DPC; modified switching tables; power variation rates; predictive DPC; reactive powers; three-phase grid-connected voltage-sourced DC-AC converters; Hysteresis; Reactive power; Switches; Switching frequency; Table lookup; Voltage control; DC–AC converter; direct power control (DPC); duration times; hysteresis; look-up-table (LUT); predictive;
fLanguage
English
Journal_Title
Power Electronics, IEEE Transactions on
Publisher
ieee
ISSN
0885-8993
Type
jour
DOI
10.1109/TPEL.2011.2164812
Filename
5983448
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