This table will helps to make the right ferrite material choice. Mention there is a difference in common mode suppression or wide band impedance transformers. In case of common mode suppression the number of turns will change the usable frequency range.
Ferrite material help| Material | Common mode choke frequency range (single turn) | Common mode choke frequency range (multiple turns) | Impedance transformer | 1:1 Balun (Choke) |
|---|---|---|---|---|
| #31 | 3,5 - 100 MHz | 1,5 - 50 MHz | - | 1,5 - 30 MHz |
| #43 | 25 - 600 MHz | 2 - 60 MHz | 2 - 50 MHz | 2 - 30 MHz |
| #52 | 150 - 1000 MHz | 4 - 150 MHz | 1 - 60 MHz | 1 - 60 MHz |
| #61 | 200 - 2000 MHz | 5 - 200 MHz | 15 - 200 MHz | 10 - 100 MHz |
| #77 | 200 kHz - 10 MHz | 100 kHz - 10 MHz | 0,5 - 8 MHz | 1 - 8 MHz |
31 Material
| Property | Symbol | Value | Unit |
|---|---|---|---|
| Initial Permeability | µi | 1500 | |
| Flux Density @ Field strength | B H | 3900 5 | Gauss Oersted |
| Residual Flux Density | Br | 3200 | Gauss |
| Coersive force | Hc | 0.28 | Oersted |
| Loss Factor @ Frequency | Tan δ/ µi | 20 1.0 | 10^-6 MHz |
| Temperature Coefficient of Initial Permeability (20 -70°C) | 1.6 | %/°C | |
| Curie Temperature | Tc | >130 | °C |
| Resistivity | ρ | 3000 | ohm-cm |
43 Material
| Property | Symbol | Value | Unit |
|---|---|---|---|
| Initial Permeability | µi | 800 | |
| Flux Density @ Field strength | B H | 2900 10 | Gauss Oersted |
| Residual Flux Density | Br | 1300 | Gauss |
| Coersive force | Hc | 0.45 | Oersted |
| Loss Factor @ Frequency | Tan δ/ µi | 250 1.0 | 10^-6 MHz |
| Temperature Coefficient of Initial Permeability (20 -70°C) | 1.25 | %/°C | |
| Curie Temperature | Tc | >130 | °C |
| Resistivity | ρ | 1×10^5 | ohm-cm |
52 Material
| Property | Symbol | Value | Unit |
|---|---|---|---|
| Initial Permeability | µi | 250 | |
| Flux Density @ Field strength | B H | 4200 10 | Gauss Oersted |
| Residual Flux Density | Br | 3300 | Gauss |
| Coersive force | Hc | 0.6 | Oersted |
| Loss Factor @ Frequency | Tan δ/ µi | 45 1.0 | 10^-6 MHz |
| Temperature Coefficient of Initial Permeability (20 -70°C) | 0.75 | %/°C | |
| Curie Temperature | Tc | >250 | °C |
| Resistivity | ρ | 1 x 10^9 | ohm-cm |
61 Material
| Property | Symbol | Value | Unit |
|---|---|---|---|
| Initial Permeability | µi | 125 | |
| Flux Density @ Field strength | B H | 2500 15 | Gauss Oersted |
| Residual Flux Density | Br | 1000 | Gauss |
| Coersive force | Hc | 1.1 | Oersted |
| Loss Factor @ Frequency | Tan δ/ µi | 30 1.0 | 10^-6 MHz |
| Temperature Coefficient of Initial Permeability (20 -70°C) | 0.1 | %/°C | |
| Curie Temperature | Tc | >300 | °C |
| Resistivity | ρ | 1 x 10^8 | ohm-cm |
77 Material
| Property | Symbol | Value | Unit |
|---|---|---|---|
| Initial Permeability | µi | 2000 | |
| Flux Density @ Field strength | B H | 5100 5 | Gauss Oersted |
| Residual Flux Density | Br | 1800 | Gauss |
| Coersive force | Hc | 0.25 | Oersted |
| Loss Factor @ Frequency | Tan δ/ µi | 15 0.1 | 10^-6 MHz |
| Temperature Coefficient of Initial Permeability (20 -70°C) | 1.2 | %/°C | |
| Curie Temperature | Tc | >200 | °C |
| Resistivity | ρ | 100 | ohm-cm |