Elna Magnetics

Elna C-core Bracket
Gluing of Ferrite Cores

Epcos Materials

Ferrites and Accessories - SIFERRIT Material K1
Ferrites and Accessories - SIFERRIT Material K10
Ferrites and Accessories - SIFERRIT Material N22
Ferrites and Accessories - SIFERRIT Material N27
Ferrites and Accessories - SIFERRIT Material N41
Ferrites and Accessories - SIFERRIT Material N48
Ferrites and Accessories - SIFERRIT Material N49
Ferrites and Accessories - SIFERRIT Material N72
Ferrites and Accessories - SIFERRIT Material N87
Ferrites and Accessories - SIFERRIT Material N92
Ferrites and Accessories - SIFERRIT Material N95
Ferrites and Accessories - SIFERRIT Material N97
Ferrites and Accessories - SIFERRIT Material T38
Ferrites and Accessories - SIFERRIT Material T65
Ferrites and Accessories - SIFERRIT Material T66

Fair Rite Documents

75 Flyer
75-material paper
Cable Core English
Ferrite Tile Absorbers for EMC Test Chamber Applications
Flexible Ferrite
How to Choose Ferrite Components for EMI Suppression
SLB-75 Suppress 11-12
Use of Ferrites in Broadband Transformers

Ferroxcube Documents

10 Watt DC-DC Converter Using IIC Magnetics
14 Watt DC-DC Converter Using Integrated Inductive Components
25 Watt DC-DC converter Using Integrated Planar Magnetics
Bobbins and Accessories
Breaking Frontiers with New Micro 10,000 Ferrite Toroids
Cable Shielding
Class D audio amplifier
Design of CCFL Backlight Inverters with Frame and Bar Cores
Design of Planar Power Transformers
EP5 - A New Telecom Core Size
EPX - A New Telecom Core Range
Ferrite Absorber Tiles
Ferrite Rod Antennas for RF-identification Transponders
Ferrites For Solar Inverters
Integrated Inductive Components - Ready To Come On Board
Integrated Inductive Components
Miniature Drum Cores for Power Inductors
Multilayer Suppressors and Inductors
New ER Cores for Planar Converters
Planar E Cores
Power Ferrite Measuring Setup EMMA 2-1
SMD Beads and Chokes
SMD Coil Formers and Cores
Solar Inverters
Square Loop Ferrite Toroids for Magnetic Amplifiers
The Use of Ferrite Cores in DSL Wideband Transformers
The Use of Soft Ferrites for Interference Suppression

Ferroxcube Materials

3B1 Material Specification
3B7 Material Specification
3B46 Material Specification
3C11 Material Specification
3C81 Material Specification
3C90 Material Specification
3C91 Material Specification
3C92 Material Specification
3C93 Material Specification
3C94 Material Specification
3C95 Material Specification
3C96 Material Specification
3C97 Material Specification
3C98 Material Specification
3D3 Material Specification
3E5 Material Specification
3E6 Material Specification
3E7 Material Specification
3E10 Material Specification
3E12 Material Specification
3E25 Material Specification
3E27 Material Specification
3E55 Material Specification
3F3 Material Specification
3F4 Material Specification
3F5 Material Specification
3F35 Material Specification
3F36 Material Specification
3F45 Material Specification
3H3 Material Specification
3P1 Material Specification
3R1 Material Specification
3S1 Material Specification
3S3 Material Specification
3S4 Material Specification
3S5 Material Specification
4A11 Material Specification
4A15 Material Specification
4B1 Material Specification
4B2 Material Specification
4C65 Material Specification
4F1 Material Specification
4S2F Material Specification
4S2 Material Specification
4S3 Material Specification

Magnetics Documents

A Critical Comparison of Ferrites with Other Magnetic Materials
Common Mode Inductors for EMI Filters Require Careful Attention to Core Material Selection
Core Selection for Saturating Transformers
Curve Fit Equations for Ferrite Materials
Designing with Planar Ferrite Cores
Ferrite Core Material Selection Guide
For Flyback Transformers - Selecting a Distributed Air-Gap Powder Core
Frequently Asked Questions
Fundamentals of Tape Wound Core Design
Inductor Design in Switching Regulators
Inverter Transformer Core Design and Material Selection
KOOL Mu A Magnetic Material for Power Chokes
Kool Mu Segments
L Material - Power Ferrite for Low Losses at High Frequency
Large Kool Mu Core Shapes
Leakage Flux Considerations on KOOL Mu E-Cores
Mag Amp Cores and Materials
Magnetic Cores for Ground Fault Detectors
Magnetic Cores for Hall Effect Devices
Magnetic Cores for Pulse Compression
Magnetic Cores for Switching Power Supplies
Magnetics Power Design HR 7-12
Magnetics Brochure
Magnetics KOOL Mu E-Cores
Magnetics MPP THINZ
Magnetics Tall Powder Core Sheet
Magnetics XFLUX Cores 6.5 SiFe Cores for High Current Applications
New 40u Kool Mu Toroids
Step-gap E-Core Swing Chokes
T Material Power Ferrite for Low Losses Across A Wide Temperature Range
Techniques for Reduction of Control - Loop Interactions In Magamp Supplies
Using Magnetic Cores at High Temperatures


Amorphous Metals in Electric-Power Distribution Applications


A New Core Loss Model for Iron Powder Material
An Objective Comparison of Powder Core Materials for Inductive Components with Selected Design Examples
Calculating The High Frequency Resistance of Single and Double Layer Toroidal Windings
Design Guidelines for Iron Powder Cores
Inductor Designs for High Frequencies
Iron Powder Core Selection for RF Power Applications
Iron Powder Cores for High Q Inductors
Iron Powder Cores for Switchmode Power Supply Inductors
Practical Construction Tips For Coils Using Iron Powder Cores
Simplified Calculation of Magnetics and Electrical Losses in Unity Power Factor Boost Preregulators
Switchmode DC-AC Inverter Core Loss Calculations

TSC Ferrite International

Boost Material Improves Inductor Characteristics Under DC Bias Conditions
Design to Boost Inductance Under Direct Current Bias Conditions
Economical Soft Ferrite Core Selection for Power Transformers
Ferrites - The Most Important Properties
Measuring Soft Ferrite Core Properties
Predicting Temperature Rise of Ferrite Cored Transformers
Soft Ferrite Advantages, Capabilities and Markets
Specify Saturation Properties of Ferrite Cores to Prevent Field Failure