Power Materials
High Perrneability Materials
Power Loss VS Temperature Curve
Permeability Vs Frequency
Permeability Vs. Temperature
Materials Characteristics
|
材質特性 |
Power Materials |
PARAMETER |
symbol |
Unit |
MATERIALS |
NP1 |
NP2 |
Initial
Permeability
(B≦10Gauss(0.1mT).=25℃) |
i |
- |
2500 ±25﹪ |
2500
±25﹪ |
Saturation
Flux Density
at H=10 Oe |
Bms |
Gauss
(mT) |
4900
(490) |
5100
(500) |
Residual
Flux Density |
Br |
Gauss
(mT) |
1100
(110) |
1000
(100) |
Coercive
Force |
Hc |
Oersteds |
0.14 |
0.13 |
Curie
Temperature |
Tc |
℃ |
>
220 |
>
215 |
Optimum
Frequency |
f
max |
MHz |
0.5 |
0.5 |
DC
resistivity |
e |
OHM-M |
11 |
7 |
Power
Loss (Typical) |
f
= 25 KHz |
B=2000 Gauss(200mT) |
f
= 100 KHz |
B=2000 Gauss(200mT) |
|
=25℃ |
=80℃ |
=25℃ |
=80℃ |
|
PL |
mW
/ CM |
110
80
700
480 |
-
-
500
260 |
Mass
Density |
d |
g
/ CM |
4.8~4.9 |
4.7~4.8 |
Temperature
factor
=+25℃ to +70℃ |
F |
x 10 /K |
1 |
1 |
Disaccommodation
factor |
DF |
x
10 |
≦4 |
≦4 |
Relative
Loss Factor
at B≦10 Gauss(0.1mT)
f = 100KHz , =25℃ |
tan/ i |
x
10 |
- |
- |
|
Parameter Shown are Typical values based upon measurements use Toroldal core withOD=25m/m , ID=15 m/m ,Ht=15 m/m |
High Permeability Materials |
PARAMETER |
symbol |
Unit |
MATERIALS |
N05 |
N07 |
N10 |
N5X |
Initial
Permeablllty
(B≦10Gauss(0.1mT).=25℃) |
i |
- |
5000 ±25﹪ |
7000
±25﹪ |
10000 ±30﹪ |
4200 ±25﹪ |
Saturation
Flux Density
at H=10 Oe |
Bms |
Gauss
(mT) |
4300
(430) |
4300
(430) |
4100
(410) |
4100
(410) |
Residual
Flux Density |
Br |
Gauss
(mT) |
1100
(110) |
1100
(110) |
400
(40) |
1100
(110) |
Coercive
Force |
Hc |
Oersteds |
0.08 |
0.08 |
0.08 |
0.07 |
Curie
Temperature |
Tc |
℃ |
>
140 |
>120 |
>120 |
>135 |
Optimum
Frequency |
f
max |
MHz |
0.2 |
0.1 |
0.1 |
0.2 |
DC
resistivity |
e |
OHM-M |
1.0 |
0.15 |
0.18 |
1.1 |
Power
Loss (Typical) |
f
= 25 KHz |
B=2000
Gauss(200mT) |
f
= 100 KHz |
B=2000
Gauss(200mT) |
|
=25℃ |
=80℃ |
=25℃ |
=80℃ |
|
PL |
mW
/ CM |
- |
- |
- |
- |
Mass
Density |
d |
g
/ CM |
4.8~4.9 |
4.8~4.9 |
4.8~4.9 |
4.8~4.9 |
Temperature
factor
=+25℃ to +70℃ |
F |
x 10 /K |
≦1 |
≦1 |
≦1 |
≦1 |
Disaccommodation
factor |
DF |
x
10 |
≦3 |
≦2 |
≦2 |
≦2 |
at
B≦10 Gauss(0.1mT)
f = 100KHz , =25℃ |
tan/ i |
x
10 |
<7 |
<30 |
<30 |
<6 |
|
Parameter Shown are Typical values based upon measurements use Toroldal core withOD=25m/m , ID=15 m/m ,Ht=15 m/m |
Low Power Loss For High Frequency Material Characteristics |
|
Symbol |
Unit |
Measuring Conditions |
Temp. |
NP2 |
NP5 |
NP7 |
NP9 |
N38 |
Initial Permeability |
Ui |
|
|
2500 |
2400 |
3200 |
1400 |
3800 |
Saturation Flux Density |
Bs |
mT |
1200A/m |
25℃ |
510 |
520 |
520 |
500 |
540 |
100℃ |
400 |
420 |
430 |
400 |
435 |
Remanence |
Br |
mT |
|
25℃ |
100 |
130 |
100 |
170 |
105 |
|
100℃ |
50 |
30 |
50 |
110 |
50 |
Coercivity |
Hc |
A/m |
|
25℃ |
9 |
10 |
9 |
40 |
9 |
|
100℃ |
5 |
4 |
5 |
29 |
5 |
Power Loss |
Pv |
mW/cm3 |
100KHz
200mT |
25℃ |
650 |
630 |
420 |
|
|
60℃ |
535 |
425 |
410 |
|
|
80℃ |
380 |
380 |
400 |
|
|
100℃ |
420 |
360 |
400 |
|
|
300KHz
100mT |
25℃ |
540 |
550 |
390 |
|
|
60℃ |
400 |
445 |
380 |
|
|
80℃ |
390 |
405 |
395 |
|
|
100℃ |
450 |
395 |
400 |
|
|
500KHz
50mT |
25℃ |
250 |
270 |
210 |
105 |
|
60℃ |
210 |
240 |
220 |
110 |
|
80℃ |
190 |
210 |
225 |
120 |
|
100℃ |
200 |
200 |
210 |
125 |
|
1MHz
50mT |
25℃ |
|
|
|
450 |
|
60℃ |
|
|
|
460 |
|
80℃ |
|
|
|
450 |
|
100℃ |
|
|
|
480 |
|
Curie Temperature |
Tc |
℃ |
|
|
>215 |
>240 |
>240 |
>250 |
>255 |
Density |
D |
g/cm3 |
|
|
4.9 |
4.9 |
4.9 |
4.9 |
4.85 |
Resistivity |
ρ |
Ω-m |
|
|
5.5 |
6 |
5 |
15 |
10 |
Optimum Frequency |
f |
KHz |
|
|
25KHz~500KHz |
25KHz~500KHz |
25KHz~500KHz |
500KHz~1000KHz |
KHz~KHz |
Parameter Shown are Typical values based upon measurements use Toroidal core with?OD=25m/m,ID=15m/m,Ht=10m/m
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Specific power loss for several frequency / flux density
combinations as a function of temperature |
|
Specific power loss for several frequency / flux density combinations as a function of temperature |
|
Specific power loss for several frequency / flux density combinations as a function of temperature |
|
Specific power loss for several frequency / flux density combinations as a function of temperature |
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材質應用 |
NP1/NP2
ARE DEVELOPED FOR SWITCHED MODE POWER SUPPLY APPLICATIONS AND POWER CHOKE. POWER
LOSSES ARE MINIMISED IN THE TEMPATURE RANGE 70℃~90℃.NP2
HAVE THE EXCELLENT POWER LOSSES COMPARED TO NP1, NP1/NP2 ARE AVAILABLE FOR CORE
SHAPE AS EE, EF, EFD, EER, EPC , LP, UU, UI, CI, SQI, UR, T2P, RM, PCT, POT, DRUM,
ROD, RID, RH, TOROIDS....ETC. |
N5XIS SPECIFICALLY
DEVELOPED FOR 100 BASE TX LAN APPLICATION. IT IS OPTIMIZED TO ACHEVE THE REQUIREMENT
OF 350uH MINIMIUM INDUCTANCE WITH DC-BIAS 8 mA APPLIED WITH THE TEMPATURE RANGE
OF 0℃ TO 70℃.N5X
IS AVAILBLE FOR TOROIDS ( OD<6m/m ). |
|
N05/N07/N10ARE SUITABLE FOR THE APPLICATION ON PULSE TRANSFORMER / BROAD BAND TRANSFORMER
/ COMMON MODE CHOKE AND INDUCTOR. N05/B07/N10 ARE DESIGNED FOR TOROID,RH,RID,ET,UT....ETC. |
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