It is made by winding two coils around the magnet in the same direction. The design allows differential (differential mode) transmission signals to pass while eliminating common mode noise using the inductor’s power.
The same directional current will flow through coils 1 and 2, leading to the combination of their magnetic flux and increasing impedance, thus removing common mode noise.
General Features
Realizes high attenuation and high cut-off frequency
Realizes ultra mini size and low RDC
Application
General electronic equipment
Resonant circuits, PLL circuits, noise reduction circuits, and others
Why Samsung
Features of Products (Technology)
Shields common mode noise by realizing precise tolerance based on the high Q ferrite powder and coiling structure.
Sectional View
External electrodes and coils are found at the bottom. The ferrite cover layer, which is used to realize impedance characteristics, is also configured here.
It is made by winding two coils around the magnet in the same direction. The design allows differential (differential mode) transmission signals to pass while eliminating common mode noise using the inductor’s power.
The same directional current will flow through coils 1 and 2, leading to the combination of their magnetic flux and increasing impedance, thus removing common mode noise.
General Features
- Realizes high attenuation and high cut-off frequency
- Realizes ultra mini size and low RDC
Application
- General electronic equipment
- Resonant circuits, PLL circuits, noise reduction circuits, and others
Why Samsung
Features of Products (Technology)
Shields common mode noise by realizing precise tolerance based on the high Q ferrite powder and coiling structure.
Sectional View
External electrodes and coils are found at the bottom. The ferrite cover layer, which is used to realize impedance characteristics, is also configured here.