Curie Industrial Co., Ltd.

Curie Industrial Co., Ltd. is committed itself in developing and manufacturing next generation of magnetic material for tomorrow power electronics requirements. Super Flux Material (SF-53 & SF57) was introduced to the market in 1999 featuring higher working frequency and super flux characteristic available in Toriod, EE, ER, EP and SMQ core set. Most of the core for SMD power chokes/inductors are custom core shape & size, please contact us for our competitive part tooling charge offering.

Our EE core offer distributed gap, no fringing flux that will be ideal for Power Factory Correction application.

PDF's:

SF36Q TAF200 Material permeability vs. DC Bias vs. Frequency

SF49 TAF200 Material permeability vs. DC Bias vs. Frequency

SF49 TAF200 Material Core Loss

200 Degree C 1000 hours life test for TAF200 material

TAF200 Series Announcement

TAF200 EE Core

TAF200 Toroid Core

TAF200 SF CORE for Mhz Application

SF56Q Permeability vs DC Bias and Frequency

SF56Q Core Loss vs Peak AC Flux Density

Iron Powder Material Property

Iron Powder Material Permeability vs DC Magnetizing Force

Iron Powder Core Loss Curve

Super Flux Material

Core Losses for Super Flux Material (FC-56 & SF-57)

Super Flux FC-56 Material vs DC Bias and Frequency

Super Flux Material Core Loss vs. Time at 110 Degree C (ambient 40 degree)

Super Flux Material Core Loss vs. Time at 121 Degree C (ambient 50 degree)

SF-53 Material BH Curve

SF-53 Material Core Losses Curve

SF-53 Permeability vs DC Magnetizing Force

EE Core Iron Powder

Toriod Core Iron Powder

ER-12.8-SF57 Specification

Planar PQ-20 Core - Super Flux

Comparisons:

SF36Q TAF200 vs. Competitor Core Loss Comparison

SF36Q vs. SF49Q vs. SF56Q DC Bias Comparison

Curie SF-53-200 vs 60 L vs Amp

Curie SF-53-200 vs 60 L vs Freq

Curie SF-53-200 vs 60 Q vs Freq

Curie_SF-53-200 vs 60 Rs vs Freq

Curie SF-53-200 vs Micrometal 18 Core Loss

T68-35 Core Loss Test Result of Curie Core vs Competitor Core

SF56Q Material Core Loss Comparison