Improved Analysis and Modeling of Leakage Inductance for Planar Transformers

Planar transformers have often been mistaken to essentially have lower leakage inductances. The "radial effect" is a natural characteristic for planar windings due to a higher aspect ratio of conductor width to conductor thickness, which gives a reduction in leakage inductance. Traditional...

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Bibliographic Details
Published in:IEEE journal of emerging and selected topics in power electronics 2019-12, Vol.7 (4), p.2225-2231
Main Authors: Ouyang, Ziwei, Hurley, William Gerard, Andersen, Michael A.E.
Format: Article
Language:English
Subjects:
Alternating current
Aspect ratio
Coils (windings)
Conductors
Eddy currents
Finite element method
Fluxes
Inductance
Leakage
Leakage inductance
Magnetic cores
magnetic field
Magnetic fields
Power transformer insulation
switched mode power supply
transformer
Transformers
Winding
Windings
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Summary:Planar transformers have often been mistaken to essentially have lower leakage inductances. The "radial effect" is a natural characteristic for planar windings due to a higher aspect ratio of conductor width to conductor thickness, which gives a reduction in leakage inductance. Traditional formulas for leakage inductance in traditional transformers, where the winding width is much smaller than the winding height, are not suitable for planar transformers. This paper specifically tailors the traditional 1-D solution of leakage inductance by decomposing the leakage flux into longitudinal and transversal fluxes. In this manner, the "eddy current effect" and the "radial effect" in leakage inductance can be analyzed individually. The proposed new formula including both ac (high-frequency eddy current effect) and dc effects (radial effect) offers an accurate prediction of leakage inductance in planar transformers. Finite element analysis and measurements are carried out to validate the proposed formula.
ISSN:2168-6777
2168-6785
DOI:10.1109/JESTPE.2018.2871968