DocumentCode
112881
Title
Wide Load Range Efficiency Improvement of a High-Power-Density Bidirectional DC–DC Converter Using an MR Fluid-Gap Inductor
Author
Ahmed, Hafiz Furqan ; Honnyong Cha ; Su-Han Kim ; Dong-Hun Kim ; Heung-Geun Kim
Author_Institution
Sch. of Energy Eng., Kyungpook Nat. Univ., Daegu, South Korea
Volume
51
Issue
4
fYear
2015
fDate
July-Aug. 2015
Firstpage
3216
Lastpage
3226
Abstract
High-power-density bidirectional dc-dc converters consisting of buck-and-boost converters are widely used in hybrid electric vehicles due to their smaller size and low cost. With a conventional constant-value inductor, the light-load efficiency of these converters is greatly reduced because of the large constant peak-to-peak current swing and relatively constant conduction losses that result in the entire load range. This paper proposes a new type of nonlinear inductor using magnetorheological (MR) fluid to improve the intermediate- and light-load efficiencies of these converters. The use of the proposed inductor does not require any additional circuit or complex control, and yet, it has benefits of decreasing conduction losses and improving efficiency due to its increasing inductance when the load is changed from heavy to light. A 3.7-kW prototype converter is built, and the efficiency from heavy to light load is measured separately using the proposed MR fluid-gap inductor and conventional air-gap inductor, which validates the advantages of the proposed MR fluid-gap inductor.
Keywords
DC-DC power convertors; hybrid electric vehicles; magnetorheology; MR fluid-gap inductor; buck-and-boost converters; constant peak-to-peak current swing; constant-value inductor; high-power-density bidirectional DC-DC converter; hybrid electric vehicles; light-load efficiency; magnetorheological fluid; nonlinear inductor; power 3.7 kW; relatively constant conduction losses; wide load range efficiency improvement; Air gaps; Fluids; Inductance; Inductors; Magnetic cores; Magnetic fields; Permeability; Bidirectional DC-DC converter; Bidirectional dc???dc converter; conduction losses; intermediate and light load efficiencies; intermediate- and light-load efficiencies; magnetorheological (MR) fluid; peak-to-peak current swing;
fLanguage
English
Journal_Title
Industry Applications, IEEE Transactions on
Publisher
ieee
ISSN
0093-9994
Type
jour
DOI
10.1109/TIA.2014.2387485
Filename
7001211
Link To Document