Single-phase rectifiers with power factor correction circuits based on the boost converter have broad application in consumer equipment. A fundamental design difficultly is caused by the need to trade-off the input line current wave shape and the dynamic response of the output energy storage capacitor voltage regulation loop. The energy balance requirement inherent in single-phase systems forces a significant 100 Hz voltage ripple on the output capacitor. A highband width voltage regulation loop will feed back enough of the 100 Hz component to distort the current reference signals for the inner current control loop distorting the line wave shape. A reference model can be used to construct a ripple-free estimate of the capacitor voltage. This paper shows that improved output capacitor voltage regulation can be achieve simultaneously with a high quality input current spectrum.
Funding
Category 1 - Australian Competitive Grants (this includes ARC, NHMRC)
History
Volume
4
Issue
3
Start Page
217
End Page
226
Number of Pages
10
ISSN
1448-837X
Location
Australia
Publisher
Engineers Media
Language
en-aus
Peer Reviewed
Yes
Open Access
No
External Author Affiliations
Ergon Energy; Faculty of Sciences, Engineering and Health;
Era Eligible
Yes
Journal
Australian journal of electrical and electronics engineering.