Journal ArticleDOI
Optimal Design and Tradeoff Analysis of Planar Transformer in High-Power DC–DC Converters
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TLDR
An improved interleaving structure with optimal behaviors is proposed, which constructs the top layer paralleling with the bottom layer and then in series with the other turns of the primary, so that a lower magnetomotive force ratio m can be obtained, as well as minimized ac resistance, leakage inductance, and even stray capacitance.Abstract:
The trend toward high power density, high operating frequency, and low profile in power converters has exposed a number of limitations in the use of conventional wire-wound magnetic component structures. A planar magnetic is a low-profile transformer or inductor utilizing planar windings, instead of the traditional windings made of Cu wires. In this paper, the most important factors for planar transformer (PT) design including winding loss, core loss, leakage inductance, and stray capacitance have individually been investigated. The tradeoffs among these factors have to be analyzed in order to achieve optimal parameters. Combined with an application, four typical winding arrangements have been compared to illustrate their advantages and disadvantages. An improved interleaving structure with optimal behaviors is proposed, which constructs the top layer paralleling with the bottom layer and then in series with the other turns of the primary, so that a lower magnetomotive force ratio m can be obtained, as well as minimized ac resistance, leakage inductance, and even stray capacitance. A 1.2-kW full-bridge dc-dc converter prototype employing the improved PT structure has been constructed, over 96% efficiency is achieved, and a 2.7% improvement, compared with the noninterleaving structure, is obtained.read more
Citations
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Journal ArticleDOI
A review of power distribution planning in the modern power systems era: Models, methods and future research
TL;DR: An overview of the state-of-the-art models and methods applied to the modern power distribution planning problem can be found in this paper, where the authors analyze and classify current and future research trends in this field.
Journal ArticleDOI
Overview of Planar Magnetic Technology—Fundamental Properties
TL;DR: The major advantages and disadvantages in the use of planar magnetics for high-frequency power converters are covered in this paper, and a detailed survey of winding conduction loss, leakage inductance, and winding capacitance for planar magnetic technologies is presented.
Journal ArticleDOI
LLC Converters With Planar Transformers: Issues and Mitigation
TL;DR: In this article, the authors investigated the problem of high-parasitic capacitances produced by large overlapping layers in planar transformers (PTs) and proposed mitigation strategies to improve the performance of $LLC$ converters with PTs.
Journal ArticleDOI
Calculation of Leakage Inductance for High-Frequency Transformers
TL;DR: In this article, a detailed analysis of high-frequency leakage inductance and an accurate prediction methodology is proposed, where the highfrequency eddy current effects cause a reduction in leakage induction and the proximity effect between adjacent layers is responsible for the reduction of leakage induction.
Journal ArticleDOI
High-Frequency PCB Winding Transformer With Integrated Inductors for a Bi-Directional Resonant Converter
Bin Li,Qiang Li,Fred C. Lee +2 more
TL;DR: In this article, a novel PCB winding based magnetic structure is proposed to integrate both inductor and transformer into one component, which can be easily controlled by changing the cross-sectional area of the core or the length of the air gap.
References
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Proceedings ArticleDOI
Accurate prediction of ferrite core loss with nonsinusoidal waveforms using only Steinmetz parameters
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Soft ferrites: properties and applications
TL;DR: Ferrites - their nature, preparation and processing the expression of electrical and magnetic properties properties of some manganese zinc and nickel zinc ferrites magnetic circuit theory inductors high frequency inductors wide band transformers pulse transformers and inductors power transformers.
Proceedings ArticleDOI
Calculation of losses in ferro- and ferrimagnetic materials based on the modified Steinmetz equation
TL;DR: In this paper, the influence of nonsinusoidal flux-waveforms on the remagnetization losses in ferro- and ferrimagnetic materials of inductors, transformers and electrical machines used in power electronic applications is discussed.