|
J Material Characteristics |
|
Property |
Unit |
Symbol |
Value |
Max.
Permeabilität |
Freq. MHz Resonanz |
Freq. MHz Breitband |
Freq. MHz Drossel |
|
Initial Permeability@ B < 10 gauss |
|
µi |
5000
±20% |
9500
±20% |
0,001-1 |
0.15-12 |
1-20 |
|
Flux Density @ Field Strength |
Gauss
Oersted |
B
H |
4300
430 |
Mittlere Feld-
Linienlänge
|
Ober-
fläche
|
Volumen
|
|
Residual Flux Density |
Gauss |
Br |
1800 |
8.9 cm |
0,79 cm² |
7 cm³ |
|
Saturation Flux Density (4,300 G at 15 Oe, 25°C) |
Maximum Usable Frequency
(50% roll-off) |
Relative Loss Factor (tan δ/µiac) X10-6, 25°C |
Remanence (1,000 G, 25°C) |
Resistivity |
|
|
|
±15(100 kHz) |
(100 mT) |
0.5 Ω-m |
|
430 mT, 11.9 A•T/cm |
≤0.7 MHz |
|
Coercive Force |
Oersted |
|
0,16 |
Sättigungsflußdichte
10 Oe (Gauß)
4300 |
Vol.Widerstand Ω/cm
5x102 |
|
Loss Factor @ Frequency |
10-6
MHz |
Tan δ/ µi |
15
0.1 |
Remanenzflußdichte
10 Oe (Gauß)
1250 |
Σl/A(cm-1)
11.2 |
|
Temperature Coefficient of Initial Permeability (20 -70°C) |
%/°C |
|
0.6 |
Density gm/cm3
≈4.8 g/cm3 |
|
Curie Temperature |
°C |
Tc |
>140 |
|
Resistivity |
Ohm-cm |
Ρ |
300 |
|
Disaccommodation Factor |
10-6 |
˂3 |
|
Max. Usable freq |
˂ 1 |
|
50% roll-of |
|
Relative Loss Factor, |
(tan δ/µiac) |
X10-6 |
25°C
|
≤15 (100 KHz) |
|
|
Electrical Specifications |
|
Bestellnr. |
Kern-Material |
Item |
Unit/Symbol |
Condition |
Value |
AL-Toleranz |
|
|
FT140-J |
Ferrit Toroid |
AL |
nH/N2 |
@ 10 KHz |
3170 |
±20% |
|
MnZn |
|
|
Le |
cm |
N/A |
7.32 |
±10% |
|
Ae |
cm² |
N/A |
0.358 |
±10% |
|
Ve |
cm³ |
N/A |
2.62 |
±10% |
|
Initial Permeability |
µ⁰ |
@ B < 10 gauss |
5000 |
±25% |
|
Temp. Coeff. Of initial
Permeability |
% °C |
20-70°C |
0.90 |
Typ. |
|
Coercive Force |
Hc |
oersted |
N/A |
Typ. |
|
Residual Flux Density |
Gauss, Br |
N/A |
1800 |
Typ. |
|
Flux Density |
Gauss, B |
Initial (B), oersted |
4300 |
Typ. |
|
|
Gauss, H @ |
@ Field Strength (H), oersted |
430 |
Typ. |
|
Curie temperature |
°C |
Tc |
> 140 |
Nom. |
|
Resistivity |
Ω cm. p |
@ Field Strength |
0.5 Ω-m |
Typ. |
|
Loss Factor |
106
Tan δ/ µi |
Initial |
˂20 |
Typ. |
|
|
MHz |
@ Frequency |
100 |
Typ. |
|
Remanence
(1,000 G, 25°C) |
G, mT |
Typical |
˂3
(100 mT) |
Typ. |
|
|
Chart Legend |
|
Σl/A : |
le : |
Ae : |
Ve : |
AL : |
|
|
Core Constant |
Effective Path Length |
Effective Cross-Sectional |
Effective Core Volume |
Inductance Factor
|
|
|
11.2 |
8.9 |
0.79 |
7 |
5500 |
|
Dimensional Tolerances |
|
Case |
In |
Toleranz |
mm |
Toleranz |
Weight |
Gewicht |
|
B (Outer Diameter)/mm |
1.4 |
---- |
35.55 |
±0.75 |
--- |
--- |
|
A (Inner Diameter)/mm |
0.9 |
----- |
23 |
±0.90 |
--- |
--- |
|
H (Height)/mm |
0.5 |
----- |
12.7 |
±0.50 |
--- |
-- |
|
Ferrite Material Constants |
|
Specific Heat |
0.25 cal/g/°C |
|
Thermal Conductivity |
3.5 - 4.5 mW/cm-°C |
|
Coefficient of Linear Expansion |
8 - 10x10-6/°C |
|
Tensile Strength |
4.9 kgf/mm2 |
|
Compressive Strength |
42 kgf/mm2 |
|
Young's Modulus |
15x103 kgf/mm2 |
|
Hardness (Knoop) |
650 |
|
Specific Gravity |
≈4.7 g/cm3 |
|
Die oben genannten Eigenschaften sind typisch für Amidon MnZn- und NiZn-Ferrite.
The above quoted properties are typical for Amidon MnZn and NiZn ferrites. |
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