Capacitor ripple current in an interleaved PFC converter

Author

Zhu, Jinsong ; Pratt, Annabelle

Author_Institution

Intel Asia-Pacific R&D Ltd. Shanghai, Shanghai

fYear

2008

fDate

15-19 June 2008

Firstpage

3444

Lastpage

3450

Abstract

In order to achieve high power density in power supplies, it is desirable to minimize the physical size of the energy storage capacitor. The capacitance is determined by the energy storage requirement for line outage ride-through and also the ripple current handling capability of the capacitor. In cases where ripple current considerations dominate, interleaving is well known as an effective method to reduce the capacitor ripple current. This paper presents a methodology to calculate the ripple current, both for single phase and for m interleaved phases of power factor correction (PFC) converters operating with constant load or a DC-DC converter load. Experimental results from a commercial power supply yielded a small error when compared to the calculations, showing that the proposed methodology has enough accuracy to be used as a design tool.

Keywords

DC-DC power convertors; capacitor storage; power factor correction; DC-DC converter load; capacitor ripple current; energy storage capacitor; energy storage requirement; interleaved PFC converter; line outage ride-through; power factor correction converters; Bridge circuits; Capacitance; Capacitors; DC-DC power converters; Energy storage; Frequency; Power supplies; Power system stability; Research and development; Voltage control;

fLanguage

English

Publisher

ieee

Conference_Titel

Power Electronics Specialists Conference, 2008. PESC 2008. IEEE

Conference_Location

Rhodes

ISSN

0275-9306

Print_ISBN

978-1-4244-1667-7

Electronic_ISBN

0275-9306

Type

conf

DOI

10.1109/PESC.2008.4592488

Filename

4592488