A Feed-Forward Control Realizing Fast Response for Three-Branch Interleaved DC-DC Converter in DC Microgrid

Haojie Wang; Minxiao Han; Wenli  Yan; Guopeng  Zhao; Josep M. Guerrero

doi:10.3390/en9070529

A Feed-Forward Control Realizing Fast Response for Three-Branch Interleaved DC-DC Converter in DC Microgrid

Haojie Wang, Minxiao Han, Wenli Yan, Guopeng Zhao, Josep M. Guerrero

AAU Energy

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Abstract

It is a common practice for storage batteries to be connected to DC microgrid buses through DC-DC converters for voltage support on islanded operation mode. A feed-forward control based dual-loop constant voltage PI control for three-branch interleaved DC-DC converters (TIDC) is proposed for storage batteries in DC microgrids. The working principle of TIDC is analyzed, and the factors influencing the response rate based on the dual-loop constant voltage control for TIDC are discussed, and then the method of feed-forward control for TIDC is studied to improve the response rate for load changing. A prototype of the TIDC is developed and an experimental platform is built. The experiment results show that DC bus voltage sags or swells caused by load changing can be reduced and the time for voltage recovery can be decreased significantly with the proposed feed-forward control.

Original language	English
Article number	529
Journal	Energies
Volume	9
Issue number	7
Number of pages	12
ISSN	1996-1073
DOIs	https://doi.org/10.3390/en9070529
Publication status	Published - Jul 2016

Keywords

DC micro-grid
Response speed
Feed-forward control
Three-branch interleaved DC-DC converter
Storage battery

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10.3390/en9070529

A Feed-Forward Control Realizing Fast Response for Three-Branch Interleaved DC-DC Converter in DC MicrogridSubmitted manuscript, 4.9 MB

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title = "A Feed-Forward Control Realizing Fast Response for Three-Branch Interleaved DC-DC Converter in DC Microgrid",

abstract = "It is a common practice for storage batteries to be connected to DC microgrid buses through DC-DC converters for voltage support on islanded operation mode. A feed-forward control based dual-loop constant voltage PI control for three-branch interleaved DC-DC converters (TIDC) is proposed for storage batteries in DC microgrids. The working principle of TIDC is analyzed, and the factors influencing the response rate based on the dual-loop constant voltage control for TIDC are discussed, and then the method of feed-forward control for TIDC is studied to improve the response rate for load changing. A prototype of the TIDC is developed and an experimental platform is built. The experiment results show that DC bus voltage sags or swells caused by load changing can be reduced and the time for voltage recovery can be decreased significantly with the proposed feed-forward control. ",

keywords = "DC micro-grid, Response speed, Feed-forward control, Three-branch interleaved DC-DC converter, Storage battery",

author = "Haojie Wang and Minxiao Han and Wenli Yan and Guopeng Zhao and Guerrero, {Josep M.}",

year = "2016",

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AU - Wang, Haojie

AU - Han, Minxiao

AU - Yan, Wenli

AU - Zhao, Guopeng

AU - Guerrero, Josep M.

PY - 2016/7

Y1 - 2016/7

N2 - It is a common practice for storage batteries to be connected to DC microgrid buses through DC-DC converters for voltage support on islanded operation mode. A feed-forward control based dual-loop constant voltage PI control for three-branch interleaved DC-DC converters (TIDC) is proposed for storage batteries in DC microgrids. The working principle of TIDC is analyzed, and the factors influencing the response rate based on the dual-loop constant voltage control for TIDC are discussed, and then the method of feed-forward control for TIDC is studied to improve the response rate for load changing. A prototype of the TIDC is developed and an experimental platform is built. The experiment results show that DC bus voltage sags or swells caused by load changing can be reduced and the time for voltage recovery can be decreased significantly with the proposed feed-forward control.

AB - It is a common practice for storage batteries to be connected to DC microgrid buses through DC-DC converters for voltage support on islanded operation mode. A feed-forward control based dual-loop constant voltage PI control for three-branch interleaved DC-DC converters (TIDC) is proposed for storage batteries in DC microgrids. The working principle of TIDC is analyzed, and the factors influencing the response rate based on the dual-loop constant voltage control for TIDC are discussed, and then the method of feed-forward control for TIDC is studied to improve the response rate for load changing. A prototype of the TIDC is developed and an experimental platform is built. The experiment results show that DC bus voltage sags or swells caused by load changing can be reduced and the time for voltage recovery can be decreased significantly with the proposed feed-forward control.

KW - DC micro-grid

KW - Response speed

KW - Feed-forward control

KW - Three-branch interleaved DC-DC converter

KW - Storage battery

U2 - 10.3390/en9070529

DO - 10.3390/en9070529

M3 - Journal article

SN - 1996-1073

VL - 9

JO - Energies

JF - Energies

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M1 - 529

ER -

A Feed-Forward Control Realizing Fast Response for Three-Branch Interleaved DC-DC Converter in DC Microgrid

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