DocumentCode
1552725
Title
LQ control of sinusoidal current PWM rectifiers
Author
Fukuda, S.
Author_Institution
Hokkaido Univ., Sapporo, Japan
Volume
144
Issue
2
fYear
1997
fDate
3/1/1997 12:00:00 AM
Firstpage
95
Lastpage
100
Abstract
A new design method based on linear quadratic control theory is developed for the design of PWM rectifiers with sinusoidal input current. PWM rectifiers are promising because they can supply DC power while keeping a sinusoidal current with unity in the fundamental power factor. There are two types, a voltage-fed rectifier and a current-fed rectifier. The former is required to simultaneously control both the fundamental power factor and direct voltage, while the latter does so for both the fundamental power factor and direct current. State feedback control is essentially suited for multi-input and multi-output systems such as these. Here, a discrete-time optimal regulator is applied to their control because it provides a microprocessor-based robust feedback system without steady-state errors in response to a step reference and/or disturbance change. The regulator is implemented using a digital signal processor. Experimental results demonstrate the validity
Keywords
PWM power convertors; DC power supply; control design; control performance; discrete-time optimal regulator; fundamental power factor; linear quadratic control theory; microprocessor-based robust feedback system; multi-input multi-output systems; sinusoidal current PWM rectifiers; state feedback control;
fLanguage
English
Journal_Title
Electric Power Applications, IEE Proceedings -
Publisher
iet
ISSN
1350-2352
Type
jour
DOI
10.1049/ip-epa:19970939
Filename
587403
Link To Document