Custom Inductors, Filters and Chokes are used in many applications: Electromagnetic Interference filters (“EMI”), Surge Protection, Noise Cancellation, Harmonic Filtering, Signal Processing and many other frequency related applications. HSMAG has the equipment and engineering support to produce a wide range of custom Inductors, Filters and Chokes products. Our wire winding capabilities gives us the ability to manufacture miniature surface mount Inductors to as large as multiple Toroid High Current Inductors.

Inductors

Inductors

Structures: Laminate, Toroidal, Ferrite, Bobbin, Ferrite & Bobbin

Product Type Examples

Common Mode
Single Phase
3 Phase
High Current
Reactors
Lighting
Signal
Telemetry
Sensing

HSMAG Ferrite Cores – soft ferrite cores are an oxide made from Iron (Fe), Manganese (Mn), and Zinc (Zn) which are commonly referred to as manganese zinc ferrites. They have a low coercivity and are also known as soft magnetic ferrites. Because of their comparatively low losses at high frequencies, they are extensively used in switched-mode power supply (SMPS) and radio frequency (RF) transformers and inductors. Ferrite cores for the high frequency power supply and high quality communication markets are produced in a variety of shapes and sizes for inductors, pulse transformers, high frequency transformers, and noise filters. Notable characteristics of Magnetics ferrite materials are high permeability, good temperature properties, and low disaccommodation. Magnetics offers ten materials. The materials range in permeability from 900µ to 15,000µ and are available in a variety of geometries including toroids, shapes and pot cores. Hardware accessories such as bobbins, printed circuit bobbins, clamps, mounts and headers are also available. Ferrite materials summary for all Magnetics power and high permeability ferrite materials. See individual material curves: Inductors and Power Transformers – L (900µ) , R (2,300µ) , P (2,500µ) , F (3,000µ) , T (3,000µ) EMI/RFI Filters and Broadband Transformers – J (5,000µ) , W (10,000µ) , M (15,000µ) Linear Filters and Sensors – C (900µ) , E (2,000µ) , V (2,300µ)

Toroid Sendust Core

Toroid Sendust Core

Toroid Sendust Core, T Alloy Magnetic Powder Core, Sendust toroid core, Toroidal Sendust Core Replace To Kool Mu Core, High-performance ferrite T type Sendust core, Sendust Magnetic Powder Toroid Core T184 Mode: Toroid Sendust Core (Magnetic Powder Cores) Core Loss:Low Perm.vs DC Bias:Good Relative Cost:Low Frequency Range:2MHz Curie Temp.:600℃ Flux Density:10500G Temp.Stability: Good Coating:Yes Color:Black […]

 

Sendust Toroidal Core

Sendust Toroidal Core

Sendust Toroidal Core, T Magnetic Powder Sendust Core, Black Sendust Magnetic Powder Ferrite Core, sendust FeSiAl toroidal cores inductor, Toroidal Sendust Core For FPC Chokes Meet Rohs, Ferrite sendust cores T type cores Mode: Sendust Toroidal Core (Magnetic Powder Cores) Core Loss:Low Perm.vs DC Bias:Good Relative Cost:Low Frequency Range:2MHz Curie Temp.:600℃ Flux Density:10500G Temp.Stability: Good […]

 

Alloy Magnetic Powder Sendust Core

Alloy Magnetic Powder Sendust Core

Alloy Magnetic Powder Sendust Core, Ring Shape Sendust Core, T Type Sendust Ferrite Core For Fly Back Transformer, Toroidal Sendust Core For FPC Chokes Meet Rohs, Ferrite sendust cores T type cores Mode: Alloy Magnetic Powder Sendust Core (Magnetic Powder Cores) Core Loss:Low Perm.vs DC Bias:Good Relative Cost:Low Frequency Range:2MHz Curie Temp.:600℃ Flux Density:10500G Temp.Stability: […]

 

Plain Iron Powder Core

Plain Iron Powder Core

Plain Iron Powder Core, plain core,amorphous alloy core,iron dust cores,shield core,metal cores,soft ferrite materials,round toroidal core,FeNi core,magnetic ferrite core,soft bar magnet Mode: Plain Cores ( Plain Iron Powder Core) Composite: Iron powder Temperature Effects: The working temperature of iron powder core is between -65℃-125℃.When the working temperature rises than 150℃,the organic adhesive will begin to […]

 

 
 
 
EMI Ferrite Core MnZn Ferrite Core Magnetic Powder Core Iron Powder Core
 
SMD Ferrite Core Amorphous Core