The difference between amorphous core and ferrite core
1. Saturation magnetization is 1.5T, ferrite is 0.5T;
2. The high permeability can be many times higher than that of high-conductivity Mn-Zn ferrite (thin strip);
3. High Curie temperature and good temperature characteristics;
4. The resistivity is not as high as ferrite, and the high frequency loss will still be worse than ferrite;
5. The magnetic permeability of ferrite cores is much greater than that of powdered iron cores. They are generally used in the production of high-frequency transformers and common-mode inductors. There are many gaps in the iron powder core as the air gap of the magnetic core, which are generally used for energy storage inductors and differential mode inductors.
1. Saturation magnetization is 1.5T, ferrite is 0.5T;
2. The high permeability can be many times higher than that of high-conductivity Mn-Zn ferrite (thin strip);
3. High Curie temperature and good temperature characteristics;
4. The resistivity is not as high as ferrite, and the high frequency loss will still be worse than ferrite;
5. The magnetic permeability of ferrite cores is much greater than that of powdered iron cores. They are generally used in the production of high-frequency transformers and common-mode inductors. There are many gaps in the iron powder core as the air gap of the magnetic core, which are generally used for energy storage inductors and differential mode inductors.