Nanocrystalline core properties:
Material: iron-based nanocrystalline
Saturation magnetic induction intensity: 1.20T
Permeability@10KHz:>50000
Guide rate @100KHz: >10500
Curie temperature (C): 560
Lamination factor: 0.73
Bubble and magnetostriction coefficient (*10~-6): <2
Resistivity (in Q.cm): 115
Strip thickness: 30um
Core shape: ring core
Saturation magnetic induction intensity: 1.20T
Permeability@10KHz:>50000
Guide rate @100KHz: >10500
Curie temperature (C): 560
Lamination factor: 0.73
Bubble and magnetostriction coefficient (*10~-6): <2
Resistivity (in Q.cm): 115
Strip thickness: 30um
Core shape: ring core
Characteristics of nanocrystalline:
Large nanocrystals (also known as ultra-microcrystals) were mass-produced in the 1980s, directly from molten steel through rapid cooling into an amorphous strip. Soft magnetic materials, due to their extremely unique advantages, have been widely used in high-performance magnetic cores, inductive components, and transformers. Minci Electronics has developed a series of amorphous and nanocrystalline magnetic cores for common mode inductors.
The large nanocrystalline core has extremely high conductivity and wide frequency characteristics. It is suitable for I filter, BIC common mode inductance (common mode choke coil) to suppress common mode noise, unbalanced current, shaft current, and harmonics. Wave current, leakage current.
The large nanocrystalline magnetic core only needs a few turns to obtain a large inductance, which can reduce copper loss, save wires, and reduce the volume of common mode inductors.
The common-mode inductor made of large nanocrystalline magnetic cores has high common-mode insertion loss and can suppress common-mode interference in a wide frequency range, so there is no need to use complex filter circuits.
A single loop or a few turns of copper wire on the large nanocrystalline vegetable core can be made into a spike suppressor. Its structure is very simple, and the suppression effect on noise interference is very good. Compared with traditional soft magnetic materials, such as ferrite cores, nanocrystalline magnetic cores have obvious advantages, high inductance and good filteri
Large nanocrystals (also known as ultra-microcrystals) were mass-produced in the 1980s, directly from molten steel through rapid cooling into an amorphous strip. Soft magnetic materials, due to their extremely unique advantages, have been widely used in high-performance magnetic cores, inductive components, and transformers. Minci Electronics has developed a series of amorphous and nanocrystalline magnetic cores for common mode inductors.
The large nanocrystalline core has extremely high conductivity and wide frequency characteristics. It is suitable for I filter, BIC common mode inductance (common mode choke coil) to suppress common mode noise, unbalanced current, shaft current, and harmonics. Wave current, leakage current.
The large nanocrystalline magnetic core only needs a few turns to obtain a large inductance, which can reduce copper loss, save wires, and reduce the volume of common mode inductors.
The common-mode inductor made of large nanocrystalline magnetic cores has high common-mode insertion loss and can suppress common-mode interference in a wide frequency range, so there is no need to use complex filter circuits.
A single loop or a few turns of copper wire on the large nanocrystalline vegetable core can be made into a spike suppressor. Its structure is very simple, and the suppression effect on noise interference is very good. Compared with traditional soft magnetic materials, such as ferrite cores, nanocrystalline magnetic cores have obvious advantages, high inductance and good filteri
