ETC2 MCFT000199 Wound chip ferrite inductor Datasheet

Wound Chip Ferrite Inductors
Features:
•
•
•
•
•
Very strong solderability by flow soldering, soldering iron or wave soldering.
Highly accurate dimensions, can be mounted automatically.
Terminals are highly resistant to pull forces.
Highly resistant to mechanical shocks and pressure.
Highly reliable in environments of sudden temperature change and humidity. Super Q characteristics.
These revolutionary, highly reliable wound chip inductors for automatic mounting, have been developed in response to the trend
toward high density in electronic equipment.
With metal terminals and a body of heat resistant resin, these inductors offer many superior features.
Applications:
Micro televisions, liquid crystal televisions, video cameras, portable VCRs, car radios, car stereos, thin tape radios, television tuners,
mobile telephones, radio and other electronic devices.
Figure 2
Figure 1
Dimensions
Size
0805
1008
1210
1812
0805
1008
1812
Figure
A
B
C
D
Maximum Maximum Maximum Reference
1
2
1
2
E
E
G
K
H
I
J
Maximum Maximum Maximum Maximum
2.29
1.71
1.45
0.51
-
0.44 1.02
1.27
1.78
2.92
2.79
2.10
1.20
-
0.45 1.52
2.03
2.54
3.50
2.80
2.50
1.60
0.8
-
-
-
2.00
1.20
1.60
4.80
3.50
3.50
1.80
1.1
-
-
-
2.80
1.50
3.00
2.29
1.71
1.00
0.51
-
0.44 1.02
1.27
1.78
2.92
2.79
2.10
1.20
-
0.45 1.52
2.03
2.54
4.80
3.50
3.50
1.40
1.1
-
2.80
-
-
1.02
1.02
1.50
0.76
1.27
0.76
1.27
3.00
Dimensions : Millimetres
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Page <1>
18/05/09 V1.1
Wound Chip Ferrite Inductors
Standard Electrical Specifications
0805 Wound Chip Inductors (Ferrite)
Inductance
(nH)
Tolerance
(±%)
Q
Minimum
Test
Frequency
(MHz)
0.15
Self Resonant
Frequency
(MHz)
Maximum
DCResistance
Ω)
(Ω
Maximum Rated
Current
(mA)
900
0.18
1100
0.25
700
0.35
650
0.22
550
0.33
20
25.2
0.47
350
0.45
600
0.68
300
0.60
500
280
0.80
450
250
1.05
350
110
1.10
320
3.30
60
1.50
300
4.70
45
2.10
200
6.80
36
2.70
200
30
4.50
180
1.00
J, K
1.50
2.20
15
10.00
DC current at which the inductance
Operating temperature range
Tolerance
L,Q
SRF
RDC
10
7.96
2.52
drops 10% (typical) from its value without current.
: -25°C to 85°C.
: J = ±5%, K = ±10%.
: HP4291 for 0.12 to 10uH.
: HP4291.
: AX-1152B.
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Page <2>
18/05/09 V1.1
Wound Chip Ferrite Inductors
Standard Electrical Specifications
1008 Wound Chip Inductors (Ferrite)
Self Resonant
Frequency
(MHz)
Maximum DC
Resistance
Ω)
(Ω
Maximum Rated
Current
(mA)
0.15
800
0.15
1200
0.22
600
0.25
1200
400
0.20
1100
0.47
350
0.45
900
0.68
300
0.40
800
1.00
245
0.50
600
1.50
182
0.65
550
105
0.95
500
55
1.15
350
4.70
43
1.28
300
6.80
39
1.60
300
10.00
33
2.30
250
24
2.70
200
18
3.30
180
16
4.00
120
Inductance
µH)
(µ
Tolerance
(±%)
0.33
Q
Minimum
30
Test
Frequency
(MHz)
25.2
2.20
25
7.96
3.30
J, K
15.00
20
22.00
2.52
33.00
47.00
18
14
5.90
110
68.00
18
12
9.50
90
100.00
12
8
110.00
120
DC current at which the inductance
Operating temperature range
Tolerance
L,Q
SRF
RDC
1
drops 10% (typical) from its value without current.
: -25°C to 85°C.
: J = ±5%, K = ±10%.
: HP4291 for 0.12 to 10µH.
: HP4291.
: AX-1152B.
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Page <3>
18/05/09 V1.1
Wound Chip Ferrite Inductors
Standard Electrical Specifications
1210 Wound Chip Inductors (Ferrite)
Self Resonant
Frequency
(MHz)
Maximum DC
Resistance
Ω)
(Ω
Maximum Rated
Current
(mA)
1.0
120
0.70
400
1.5
85
0.85
370
75
1.00
320
3.3
60
1.20
260
4.7
50
1.50
220
40
1.80
180
30
2.10
150
20
2.80
130
20
3.70
110
33.0
17
5.60
70
47.0
15
7.00
60
68.0
12
9.00
50
100.0
10
10.00
40
8
15.00
65
7
21.00
50
Inductance
µH)
(µ
Tolerance
(±%)
Q
Minimum
2.2
Test
Frequency
(MHz)
7.96
6.8
7.96
30
10.0
15.0
K
22.0
2.52
150.0
20
0.796
220.0
DC current at which the inductance
Operating temperature range
Tolerance
L,Q
SRF
RDC
drops 10% (typical) from its value without current.
: -25°C to 85°C.
: K = ±10%, K = ±20%.
: HP4291 for 0.18µH to 82µH.
HP4284 for 100µH to 220µH.
: HP4291.
: AX-1152B.
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Page <4>
18/05/09 V1.1
Wound Chip Ferrite Inductors
Standard Electrical Specifications
1812 Wound Chip Inductors (Ferrite)
Self Resonant
Minimum Frequency
(MHz)
Maximum
DC Resistance
Ω)
(Ω
Rated Current
(mA)
1.0
100.0
0.50
450
1.5
70.0
0.60
410
55.0
0.70
380
3.3
45.0
0.80
355
4.7
35.0
1.00
315
27.0
1.20
285
10.0
20.0
1.60
250
15.0
17.0
2.50
200
13.0
3.20
180
33.0
11.0
4.00
160
47.0
10.0
5.00
140
68.0
9.0
6.00
130
100.0
8.0
8.00
110
5.0
9.00
105
4.0
10.00
100
3.5
15.00
85
26.00
62
30.00
50
Inductance
µH)
(µ
Tolerance
(±%)
Q
Minimum
Test
Frequency
(MHz)
2.2
7.960
6.8
50
22.0
K
150.0
2.520
40
220.0
0.796
330.0
470.0
30
3.0
680.0
DC current at which the inductance
Operating temperature range
Tolerance
L,Q
SRF
RDC
drops 10% (typical) from its value without current.
: -25°C to 85°C.
: K = ±10%.
: HP4291 for 0.18µH to 82µH.
HP4284 for 100µH to 820µH.
: HP4291.
: AX-1152B.
http://www.farnell.com
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Page <5>
18/05/09 V1.1
Wound Chip Ferrite Inductors
Standard Electrical Specifications
0805 Wound Chip Inductors (Ferrite) Large Current
Q
Minimum
Test
Frequency
(MHz)
Self Resonant
Minimum Frequency
(MHz)
Maximum
DC Resistance
Ω)
(Ω
1.0
15
L: 7.96/Q : 25.2
115
0.90
3.3
13
70
1.40
65
1.90
41
2.40
31
2.70
Self Resonant
Minimum Frequency
(MHz)
Maximum
DC Resistance
(Ohm)
Rated Current
(mA)
800
Inductance
µH)
(µ
Tolerance
(±%)
Rated Current
(mA)
450
4.7
J, K
15
7.96
6.8
10
14
400
1008 Wound Chip Inductors (Ferrite) Large Current
Inductance
µH)
(µ
Tolerance
(±%)
Q
Minimum
Test
Frequency
(MHz)
1.0
22
245
0.35
1.5
25
182
0.45
105
0.60
55
0.75
45
0.90
6.8
40
1.00
10.0
35
1.50
300
24
1.90
250
22.0
18
2.80
200
33.0
16
3.50
180
550
2.2
7.96
3.3
450
22
4.7
J, K
400
15.0
20
DC current at which the inductance
Operating temperature range
Tolerance
L,Q
SRF
RDC
2.52
drops 10% (typical) from its value without current.
: -25°C to 85°C.
: J = ±5%, K = ±10%.
: HP4291.
: HP4291.
: AX-1152B.
http://www.farnell.com
http://www.newark.com
http://www.cpc.co.uk
Page <6>
18/05/09 V1.1
Wound Chip Ferrite Inductors
Standard Electrical Specifications
1812 Wound Chip Inductors (Ferrite) Large Current
Self Resonant
Minimum Frequency
(MHz)
Maximum
DC Resistance
Ω)
(Ω
Rated Current
(mA)
1.0
200.0
0.11
1050
1.5
130.0
0.15
950
80.0
0.18
850
3.3
45.0
0.22
750
4.7
35.0
0.27
650
28.0
0.35
600
10.0
22.0
0.50
550
15.0
20.0
0.70
450
18.0
0.90
370
33.0
14.0
1.40
300
47.0
11.5
1.90
260
68.0
10.0
2.60
220
100.0
8.0
4.00
180
150.0
7.0
6.50
140
5.5
9.00
120
330.0
4.0
13.00
90
470.0
3.5
26.00
75
680.0
2.6
40.00
65
Inductance
µH)
(µ
Tolerance
(±%)
Q
Minimum
Test
Frequency
(MHz)
2.2
7.960
6.8
10
22.0
K
2.520
220.0
20
DC current at which the inductance
Operating temperature range
Tolerance
L,Q
SRF
RDC
0.796
drops 10% (typical) from its value without current.
: -25°C to 85°C.
: K = ±10%.
: HP4291 for 0.18µH to 82µH.
HP4284 for 100µH to 820µH.
: HP4291.
: AX-1152B.
http://www.farnell.com
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http://www.cpc.co.uk
Page <7>
18/05/09 V1.1
Wound Chip Ferrite Inductors
Environmental Characteristics
Mechanical Performance
Item
Vibration
Specification
Test Method
Appearance
: no damage
Test device shall be soldered on the substrate
L change
: within ±10%
Oscillation frequency: 10 to 55 to 10Hz for 1 minute
Q change
: within ±30%
Amplitude: 1.5mm
RDC
: within specification
Time: 2 hours for each axis (X, Y & Z), total 6 hours
Resistance to soldering
heat
Appearance: no damage
Pre-heating
Solder temperature
Immersion time
: 150°C, 1 minute
: 260 ±5°C
: 10 ±1 second
Solderability
The electrodes shall be at least
90% covered with new solder
coating
Lead-free inductor: after fluxing (alpha 100 or equiv), inductor
shall be dipped in a melted solder bath at 245 ±5°C, 5 ±0.5
seconds.
Environmental Performance
Item
Specification
Test Method
One cycle:
Temperature cycle
Step
Temperature
(°°C)
Time
(minute)
1
-25 ±3
30
2
25 ±2
3
3
85 ±3
30
4
25 ±2
3
Total: 100 cycles
Measured after exposure in the room condition for 24 hours
Humidity resistance
High temperature
Storage
Appearance: no damage
Temperature
: 40 ±2°C
L change: within ±10%
Relative Humidity
: 90 to 95%
Q change: within ±30%
Time
: 1000 hours
RDC: within specification
Measured after exposure in the room condition for 24 hours
Temperature
: 85 ±3°C
Relative humidity
: 20%
Applied current
: rated Current
Time
: 1000 hours
Measured after exposure in the room condition for 24 hours
Low temperature
storage
Temperature
: -25 ±3°C
Relative humidity
: 0%
Time
: 1000 hours
Measured after exposure in the room condition for 24 hours
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Page <8>
18/05/09 V1.1
Wound Chip Ferrite Inductors
Part Number Table
Description
Part Number
Inductor, Ferrite, 0805, 0.15uH
MCFT000152
Inductor, Ferrite, 0805, 0.22uH
MCFT000153
Inductor, Ferrite, 0805, 0.33uH
MCFT000154
Inductor, Ferrite, 0805, 0.47uH
MCFT000155
Inductor, Ferrite, 0805, 0.68uH
MCFT000156
Inductor, Ferrite, 0805, 1uH
MCFT000157
Inductor, Ferrite, 0805, 1.5uH
MCFT000158
Inductor, Ferrite, 0805, 2.2uH
MCFT000159
Inductor, Ferrite, 0805, 3.3uH
MCFT000160
Inductor, Ferrite, 0805, 4.7uH
MCFT000161
Inductor, Ferrite, 0805, 6.8uH
MCFT000162
Inductor, Ferrite, 0805, 10uH
MCFT000163
Inductor, Ferrite, 1008, 0.15uH
MCFT000164
Inductor, Ferrite, 1008, 0.22uH
MCFT000165
Inductor, Ferrite, 1008, 0.33uH
MCFT000166
Inductor, Ferrite, 1008, 0.47uH
MCFT000167
Inductor, Ferrite, 1008, 0.68uH
MCFT000168
Inductor, Ferrite, 1008, 1uH
MCFT000169
Inductor, Ferrite, 1008, 1.5uH
MCFT000170
Inductor, Ferrite, 1008, 2.2uH
MCFT000171
Inductor, Ferrite, 1008, 3.3uH
MCFT000172
Inductor, Ferrite, 1008, 4.7uH
MCFT000173
Inductor, Ferrite, 1008, 6.8uH
MCFT000174
Inductor, Ferrite, 1008, 10uH
MCFT000175
Inductor, Ferrite, 1008, 15uH
MCFT000176
Inductor, Ferrite, 1008, 22uH
MCFT000177
Inductor, Ferrite, 1008, 33uH
MCFT000178
Inductor, Ferrite, 1008, 47uH
MCFT000179
Inductor, Ferrite, 1008, 68uH
MCFT000180
Inductor, Ferrite, 1008, 100uH
MCFT000181
Inductor, Ferrite, 1210, 1uH
MCFT000182
Inductor, Ferrite, 1210, 1.5uH
MCFT000183
Inductor, Ferrite, 1210, 2.2uH
MCFT000184
Inductor, Ferrite, 1210, 3.3uH
MCFT000185
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Page <9>
18/05/09 V1.1
Wound Chip Ferrite Inductors
Part Number Table
Description
Part Number
Inductor, Ferrite, 1210, 4.7uH
MCFT000186
Inductor, Ferrite, 1210, 6.8uH
MCFT000187
Inductor, Ferrite, 1210, 10uH
MCFT000188
Inductor, Ferrite, 1210, 15uH
MCFT000189
Inductor, Ferrite, 1210, 22uH
MCFT000190
Inductor, Ferrite, 1210, 33uH
MCFT000191
Inductor, Ferrite, 1210, 47uH
MCFT000192
Inductor, Ferrite, 1210, 68uH
MCFT000193
Inductor, Ferrite, 1210, 100uH
MCFT000194
Inductor, Ferrite, 1210, 150uH
MCFT000195
Inductor, Ferrite, 1210, 220uH
MCFT000196
Inductor, Ferrite, 1812, 1uH
MCFT000197
Inductor, Ferrite, 1812, 1.5uH
MCFT000198
Inductor, Ferrite, 1812, 2.2uH
MCFT000199
Inductor, Ferrite, 1812, 3.3uH
MCFT000200
Inductor, Ferrite, 1812, 4.7uH
MCFT000201
Inductor, Ferrite, 1812, 6.8uH
MCFT000202
Inductor, Ferrite, 1812, 10uH
MCFT000203
Inductor, Ferrite, 1812, 15uH
MCFT000204
Inductor, Ferrite, 1812, 22uH
MCFT000205
Inductor, Ferrite, 1812, 33uH
MCFT000206
Inductor, Ferrite, 1812, 47uH
MCFT000207
Inductor, Ferrite, 1812, 68uH
MCFT000208
Inductor, Ferrite, 1812, 100uH
MCFT000209
Inductor, Ferrite, 1812, 150uH
MCFT000210
Inductor, Ferrite, 1812, 220uH
MCFT000211
Inductor, Ferrite, 1812, 330uH
MCFT000212
Inductor, Ferrite, 1812, 470uH
MCFT000213
Inductor, Ferrite, 1812, 680uH
MCFT000214
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The Information supplied is believed to be accurate but the Group assumes no responsibility for its accuracy or completeness, any error in or omission from it or for any use made of it. Users of this data
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resulting from any reliance on the Information or use of it (including liability resulting from negligence or where the Group was aware of the possibility of such loss or damage arising) is excluded.
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Page <10>
18/05/09 V1.1
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