MnZn-ferrite power materials
| Features |
Grade |
Initial permeability μi |
Saturation flux density Bs(mT) |
Remanence Br(mT) |
Coercivity Hc(A/m) |
Curie temperature Tc(℃) |
Resistivity ρ(Ω·m) |
Datasheet |
| Conventional low loss |
P4 |
2500 |
480 |
135 |
14 |
220 |
5.5 |
PDF |
| P41 |
2400 |
495 |
170 |
13 |
230 |
4.0 |
PDF |
| P42 |
1800 |
520 |
230 |
13 |
240 |
8.0 |
PDF |
| P48 |
2500 |
515 |
150 |
13 |
220 |
5.0 |
PDF |
| Wide temp. low loss |
P45 |
3100 |
530 |
80 |
8 |
215 |
5.0 |
PDF |
| P451 |
3800 |
540 |
70 |
8 |
215 |
5.0 |
PDF |
| P452 |
3000 |
520 |
100 |
13 |
215 |
5.0 |
PDF |
| P453 |
3500 |
535 |
67 |
8 |
215 |
5.0 |
PDF |
| P47 |
3000 |
520 |
100 |
11 |
220 |
5.0 |
PDF |
| High Bs |
P49 |
1700 |
540 |
280 |
15 |
280 |
5.0 |
PDF |
| P491 |
1500 |
600 |
140 |
21 |
300 |
5.0 |
PDF |
| High frequency low loss |
P5 |
2000 |
470 |
135 |
17 |
220 |
6.4 |
PDF |
| P51 |
1500 |
490 |
215 |
35 |
250 |
12.0 |
PDF |
| P52 |
2000 |
500 |
140 |
21 |
250 |
6.5 |
PDF |
| P53 |
1200 |
515 |
180 |
38 |
280 |
10.0 |
PDF |
| P61 |
900 |
515 |
200 |
50 |
280 |
10.0 |
PDF |
| P63 |
750 |
540 |
205 |
50 |
280 |
10.0 |
PDF |
The following PF (Performance Factor: the index of throughput power capability) spectrum charts offer you the guide to selecting suitable material grade according to your application frequency conditions.
MnZn-ferrite hi-permeability materials
| Features |
Grade |
Initial permeability μi |
Saturation flux density Bs(mT) |
Remanence Br(mT) |
Temperature factor αF (10⁻⁶/℃) |
Curie temperature Tc(℃) |
Resistivity ρ(Ω·m) |
Datasheet |
| Conventional high μ for CM Chokes |
A10 |
10000 |
410 |
140 |
-0.5~1 |
130 |
0.15 |
PDF |
| A121 |
12000 |
380 |
130 |
-0.5~1 |
110 |
0.12 |
PDF |
| A13 |
12000 |
400 |
120 |
-1~1 |
125 |
0.15 |
PDF |
| A151 |
15000 |
400 |
220 |
-1~1 |
110 |
0.10 |
PDF |
| Wide band filter |
A05 |
5000 |
440 |
80 |
0~2 |
140 |
0.20 |
PDF |
| A06 |
6000 |
420 |
70 |
0~2.5 |
140 |
0.20 |
PDF |
| A07 |
7000 |
400 |
150 |
-1~1 |
130 |
0.35 |
PDF |
| A071 |
7000 |
440 |
80 |
-1~1 |
145 |
0.35 |
PDF |
| A102 |
10000 |
380 |
95 |
-1~1 |
120 |
0.15 |
PDF |
| A103 |
10000 |
420 |
70 |
1~2 |
130 |
0.15 |
PDF |
| High μ & Tc for automotives |
A072 |
7000 |
485 |
95 |
-1.5~1.5 |
180 |
0.20 |
PDF |
| A104 |
10000 |
470 |
100 |
-1.5~0 |
155 |
0.15 |
PDF |
| High μ wide temperature |
A044 |
4000 |
450 |
55 |
-1~1 |
170 |
1.00 |
PDF |
| A064 |
6000 |
470 |
135 |
-1~1 |
170 |
1.00 |
PDF |
| N10 |
10000 |
380 |
160 |
-1~1 |
100 |
0.12 |
PDF |
MnZn-ferrite telecommunication materials
| Features |
Grade |
Initial permeability μi |
Saturation flux density Bs(mT) |
Remanence Br(mT) |
Loss factor tanδ/μi (10⁻⁶) |
Curie temperature Tc(℃) |
Resistivity ρ(Ω·m) |
Datasheet |
| For wide temp. LAN |
A043 |
4500 |
460 |
65 |
<10 |
160 |
0.20 |
PDF |
| A061 |
6000 |
460 |
65 |
<15 |
160 |
0.20 |
PDF |
| A062 |
6000 |
460 |
100 |
<30 |
160 |
0.20 |
PDF |
| Low THD |
N07 |
7000 |
400 |
70 |
<30 |
130 |
0.15 |
PDF |
| A101 |
10000 |
400 |
175 |
<90 |
130 |
0.15 |
PDF |
| Low ηB |
N4 |
2500 |
450 |
180 |
<3 |
170 |
7.5 |
PDF |
| N42 |
3800 |
530 |
100 |
<2.5 |
250 |
5.0 |
PDF |
| N43 |
750 |
490 |
400 |
<15 |
250 |
2.0 |
PDF |
NiZn-ferrite EMI suppression materials
| Features |
Grade |
Initial permeability μi |
Saturation flux density Bs(mT) |
Remanence Br(mT) |
Coercivity Hc(A/m) |
Curie temperature Tc(℃) |
Resistivity ρ(Ω·m) |
Datasheet |
| Automotive EMI suppression |
K081 |
800 |
400 |
272 |
21 |
190 |
10⁶ |
PDF |
| K10 |
1000 |
355 |
250 |
19 |
160 |
10⁶ |
PDF |
| K12 |
1200 |
355 |
250 |
12 |
160 |
10⁶ |
PDF |
| K13 |
1300 |
340 |
190 |
16 |
150 |
10⁶ |
PDF |
| K15 |
1500 |
330 |
200 |
11 |
130 |
10⁶ |
PDF |
| K151 |
1500 |
290 |
150 |
20 |
110 |
10⁶ |
PDF |
| K20 |
2000 |
300 |
150 |
11 |
100 |
10⁶ |
PDF |
| K25 |
2500 |
275 |
170 |
14 |
90 |
10⁶ |
PDF |
| General purpose EMI suppression |
D1C |
350 |
360 |
255 |
31 |
160 |
10⁶ |
PDF |
| D25 |
500 |
390 |
260 |
58 |
180 |
10⁶ |
PDF |
| D27 |
700 |
365 |
235 |
20 |
150 |
10⁶ |
PDF |
| D28 |
800 |
365 |
180 |
26 |
150 |
10⁶ |
PDF |
| D30 |
1000 |
340 |
115 |
28 |
140 |
10⁶ |
PDF |
| D35 |
1100 |
305 |
140 |
22 |
120 |
10⁶ |
PDF |
| D37 |
1500 |
290 |
150 |
20 |
110 |
10⁶ |
PDF |
| D40 |
2000 |
275 |
115 |
8 |
90 |
10⁶ |
PDF |
| Conventional high Bs |
A30 |
300 |
435 |
300 |
68 |
250 |
10⁶ |
PDF |
| A31 |
300 |
435 |
180 |
52 |
250 |
10⁶ |
PDF |
| A40 |
400 |
430 |
320 |
62 |
250 |
10⁶ |
PDF |
| A50 |
500 |
330 |
125 |
56 |
150 |
10⁶ |
PDF |
| Automotive high Bs |
B30 |
300 |
470 |
250 |
80 |
300 |
10⁶ |
PDF |
| B40 |
400 |
430 |
300 |
45 |
240 |
10⁶ |
PDF |
| B45 |
450 |
450 |
270 |
49 |
240 |
10⁶ |
PDF |
| B60 |
600 |
430 |
300 |
40 |
210 |
10⁶ |
PDF |
| Low permeability |
L1 |
150 |
410 |
168 |
105 |
250 |
10⁶ |
PDF |
| L2 |
60 |
421 |
274 |
141 |
250 |
10⁶ |
PDF |
| L3 |
20 |
306 |
122 |
600 |
300 |
10⁶ |
PDF |
| L4 |
50 |
395 |
255 |
200 |
300 |
10⁶ |
PDF |
| L5 |
120 |
390 |
175 |
140 |
250 |
10⁶ |
PDF |
| L6 |
14 |
266 |
175 |
1540 |
300 |
10⁶ |
PDF |
NiZn-ferrite RFID/antenna materials
| Features |
Grade |
Initial permeability μi |
Saturation flux density Bs(mT) |
Remanence Br(mT) |
Coercivity Hc(A/m) |
Curie temperature Tc(℃) |
Resistivity ρ(Ω·m) |
Datasheet |
| Rod core for antenna |
H2 |
50 |
400 |
281 |
168 |
300 |
10⁶ |
PDF |
| H3 |
100 |
330 |
234 |
87 |
250 |
10⁶ |
PDF |
| H5 |
250 |
410 |
324 |
68 |
250 |
10⁶ |
PDF |
| H5M |
230 |
430 |
272 |
92 |
280 |
10⁶ |
PDF |
| H5R |
200 |
400 |
320 |
55 |
240 |
10⁶ |
PDF |
| H5N |
300 |
390 |
260 |
154 |
200 |
10⁶ |
PDF |
| Wide tempperature RFID |
F10 |
100 |
330 |
185 |
220 |
170 |
10⁶ |
PDF |
| F52 |
500 |
330 |
150 |
70 |
140 |
10⁶ |
PDF |
| F80 |
800 |
360 |
155 |
45 |
150 |
10⁶ |
PDF |
| F100 |
1000 |
335 |
140 |
33 |
130 |
10⁶ |
PDF |
MgZn-ferrite RFID/antenna materials
| Features |
Grade |
Initial permeability μi |
Saturation flux density Bs(mT) |
Remanence Br(mT) |
Coercivity Hc(A/m) |
Curie temperature Tc(℃) |
Resistivity ρ(Ω·m) |
Datasheet |
| Rod core for antenna |
H3A |
125 |
320 |
235 |
80 |
230 |
10⁶ |
PDF |
| H3B |
150 |
330 |
245 |
90 |
220 |
10⁶ |
PDF |
| H4 |
300 |
330 |
205 |
55 |
160 |
10⁶ |
PDF |
MgZn-ferrite EMI suppression materials
| Features |
Grade |
Initial permeability μi |
Saturation flux density Bs(mT) |
Remanence Br(mT) |
Coercivity Hc(A/m) |
Curie temperature Tc(℃) |
Resistivity ρ(Ω·m) |
Datasheet |
| EMI filter |
M80 |
800 |
315 |
215 |
17 |
140 |
10⁶ |
PDF |
Concerning the material impedance spectrum for EMI suppression applications,
one can get access to the “Design tools” menu of the website and click
Spectrum simulation …
item to check out the suitable material grades.