Oval shape nanocrystalline core
Contact Person : Wang
Phone Number : +86-158-1980-9198
|Minimum Order Quantity :||10000||Price :||-|
|Packaging Details :||Carton, qulity amorphous and nanocrystalline core for High Precision Current Transformer from king magnetics||Delivery Time :||15 days|
|Payment Terms :||T/T||Supply Ability :||1000000|
|Place of Origin:||China||Brand Name:||King Magnetics|
|Certification:||RoHS, UL94-V0(Plastic Case)||Model Number:||N1703|
|Name:||Qulity Amorphous And Nanocrystalline Core For High Precision Current Transformer From King Magnetics||Material:||Amorphous And Nanocrystalline Core|
|Alloy:||Finemet And Metglas||Type:||Nanocrystalline And Amorphous Toroidal Core|
N1703 suitable for ALCI current transformer.
Amorphous and nanocrystalline technology is a very important technology in modern magnetic materials, cores and inductive components. King Magnetics has developed series of nanocrystalline cores for common mode chokes.
Nanocrystalline cores feature very high permeability over low frequency to high frequency up to 30Mhz. They are very suitable for common mode choke to used as EMC filter to compress conducted common mode noise. Compared to traditional ferrite core, nanocrystalline core has a lot of advantages as high inductance, good filter effective, small size and volume, lower turns of copper wire, lower power consumption and high efficiency.
Core dimensions: 17*13*3.2mm
High permeability nanocrystalline core for current transformer. Cased type and Epoxy coating type are available.
Nanocrystalline cores for current transformers have similar initial permeability and temperature stability compared with permalloy, with small size, light weight and less expensive. Widely used in current measurement, digital watt-hour meter and Leakage protection.
Fe-based nanocrystalline core features very high permeability, high saturation flux density, low loss makes common mode choke has large inductance with only a few turns, low copper loss and small size.
We are professional producer of amorphous core and nanocrystalline core.
|Part No.||Core dimension||Case dimension||Eff. cross area||Mean path length||Windows area|