Flyer_Magnetic_Materials_eform

ŋ Excellent Magnetic Materials
for market-leading inductive
components and module solutions
High-B
High-Ohmic
Signal/EMI
High-µ
FERROCARIT®
Low-Loss
Injection
moulded
Ferrite
Injection
moulded
Composite
Tmax
DC-re sist . Ωm
Highest permeability MnZn ferrite
≤ 0,2
15000
130
≥ 0,05
Fi 410
High permeability MnZn ferrite
≤ 0,2
10000
135
≥ 0,05
Fi 360
High permeability MnZn ferrite
≤ 0,4
6000
150
≥ 0,05
Fi 320
High permeability ferrite
with broad frequency range
≤ 100
2000
140
≥ 100
Fi 294
High permeability NiZn ferrite
≤ 100
900
140
≥ 107
Fi 245
NiZn ferrite for best temperature stability
and best mechanical stress resistance
≤ 400
430
100
≥ 107
≤ 400
480
230
≥ 107
Fi 242
Low power loss NiZn ferrite with
high specific resistance
Fi 215
Low permeability NiZn ferrite
for high voltage application
≤ 400
150
385
≥ 107
Fi 110
Low permeability NiZn ferrite
≤ 1000
12
580
≥ 104
Fi 339
MnZn ferrite with highest saturation flux density
≤ 0,5
1000
250
≥ 1,5
≤ 0,5
1500
250
≥ 1,5
≤ 0,5
1800
250
≥2
≤1
2000
230
Fi 329
Fi 328
Fi 335
Power
µi (25°C)
Fi 415
MnZn ferrite with very high saturation
flux density and low losses
MnZn ferrite with high saturation flux density
and very low losses
MnZn ferrite with low losses
and high saturation flux density
Fi 325
MnZn ferrite for medium frequency
≤1
1800
230
Fi 395
MnZn ferrite with constant
low losses up to 120°C
≤ 0,4
2700
220
≤ 0,4
1500
250
High frequency MnZn ferrite up to 2 MHz
≤3
1200
240
≥ 30
MnZn ferrite for best µi
Fi 326
Fi 327
Free Shaping
f - M Hz
Fi 311s
Fi 294s
Fi 541
Fi 520
Fi 515
MnZn ferrite with lowest power
losses around 140°C
≥6
1200
220
≥ 2,5
≤ 100
600
140
≥ 107
Wide band material with high µi and best
mechanical tolerances
≤ 400
22
230
≥ 107
≤ 400
17
100
≥ 3,0
≤ 400
16
100
≥ 107
700
470
100kHz/100mT/25°C
100kHz/100mT/100°C
3000A/m/170°C
100kHz/100mT/25°C
100kHz/100mT/100°C
> 310
> 440
1800
1050
1500
650
250A/m/100°C
100kHz/200mT/25°C
100kHz/200mT/100°C
250A/m/100°C
100kHz/200mT/25°C
100kHz/200mT/100°C
250A/m/100°C
100kHz/200mT/25°C
100kHz/200mT/100°C
250A/m/100°C
200kHz/100mT/100°C
100kHz/200mT/100°C
250A/m/100°C
200kHz/100mT/25°C
200kHz/100mT/100°C
250A/m/100°C
100kHz/200mT/25°C
100kHz/200mT/100°C
250A/m/140°C
100kHz/200mT/25°C
100kHz/200mT/140°C
250A/m/100°C
1000kHz/50mT/25°C
1000kHz/50mT/100°C
> 400
> 370
> 350
> 340
> 310
≤ 0,5
Wide band material with high resistance and
best mechanical tolerances
> 300
Pv - mW/cm³
3000A/m/100°C
> 330
High ohmic ferrite with medium permeability
for best isolation
Best Bmax, low losses and best mechanical
tolerances for high temperatur applications
Bmax - mT
> 300
1000
670
140
320
520
900
560
500
450
310
170
450
400
540
Low-µ
Metal Powder
High-µ
FERROCART®
µi (25°C)
Tmax
Fe 896
Highest permeability
≤ 0,2
140
200
Fe 897
High amplitude permeability
≤ 0,2
125
200
Fe 893
High permeability material for
high premagnetization
≤ 0,2
110
200
Fe 892
Noise suppression material
≤ 0,2
100
200
Fe 876
Wide band material for high
premagnetization with low losses
≤ 0,2
75
180
Fe 886
Medium permeability material for best premagnetization
≤ 0,2
60
200
Fe 850
Wide band material for highest
premagnetization with low losses
≤ 0,3
55
180
Fe 818
Wide band material
≤ 10
18
150
Fe896
100
Fe893
Fe876
1800mT
Fe818
pow
10
1
ener
gy s
tora
metal powder
1000
Induction of application/mT
f - M Hz
Bmax
Fi329
er tr
a
tanδ//µi * 10-6
1200
0,16 MHz
nsfe
r
10
100
1600
36
650
100
46
310
40
400
43
440
0,16 MHz
700
0,16 MHz
10000A/m
800
0,02 MHz
0,3 MHz
0,05 MHz
0,5 MHz
200
10-7 Ohm*m
ge
specific
resistance
Fi335
Fi327
high
Fi292
NiZn-Ferrite
Fi242
200mT
1
650
0,16 MHz
MnZn-Ferrite
Fi328
50
0,01 MHz
110
570
1400
0,16 MHz
140
45
37
0,01 MHz
120
Pv-mW/c m³
100kHz/40mT
1600
0,16 MHz
190
µ∆
at 5000 A/m
1000
Range of frequency/kHz
10000
Fi215
Fi212
volta
ge
107 Ohm*m
Fi110
100000
1000000
SUMIDA Components & Modules GmbH | Dr. Hans-Vogt-Platz 1 | D-94130 Obernzell | Phone: +49 8591/937-100 | E-Mail: [email protected] | www.sumida-eu.com
your advantages
OVERVIEW
MnZn ferrite
NiZn ferrite
Plastoferrite
Injection molding ferrite
Metal powder cores
ADVANTAGES
Many different material types and cores are available
Flexible mass production and own R&D department
Fast supply of samples
Individual solutions (special core shapes, special material grades)
Own development and research in the field of magnetic materials
Small amounts are possible due to flexible powder production
Large cores
Securing supply in the case of a shortfall of magnetic cores
R&D-package of inductive component and material
ŋ
highest efficiency
Fi 335, Fi 395, Fi 326:
MnZn ferrite for power application
TASK:
Continuous improvement in the field of
low losses and high saturation induction
RESULT:
In comparison with the currently used materials:
Fi 335 provides 25% lower losses
Fi 395 provides a flat Pv-line
Fi 326 is optimized for high temperature
Fi 329: MnZn ferrite with higher induction
as standard material
TASK:
Development of a Bmax optimized ferrite
RESULT:
In comparison with the currently used materials,
Fi 329 provides 10% higher Bmax as market standard.
This results in 10% reduced winding, copper and ohmic losses.
lowest losses
Fi 215: NiZn ferrite with high induction
TASK:
Development of a high ohmic NiZn ferrite with optimized
saturation induction
RESULT:
In comparison with the currently used ferrites, Xenit Fi
215 provides a 30% higher saturation induction at high
ambient temperatures and so clearly increases the ignition reliability of the Xenon HID burnersat high ambient
temperatures.
Fe 896: Iron powder with high permeability
for high premagnetization
TASK:
Improvement of our unique Fe 893 for higher permeability
RESULT:
Fe 896 with a permeability of 140.
At the operation point of 1000 A/m Fe 896 provides a
30% higher permeability as market standard.
This results in 15% reduced winding, copper and ohmic losses.