Wire Wound Chip Inductor
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Applications:
RF products:
Cellular phone (CDMA/GSM/PHS).
Cordless phone (DECT/CT1CT2).
Remote control, security system.
Wireless PDA.
WLL, wireless LAN/mouse/keyboard/earphone.
VCO, RF module and other wireless products.
Base station, repeater.
GPS receiver.
Broad Band Applications:
CATV filter, tuner.
Cable modem/XDSL tuner.
Set top box.
IT Applications:
USB 2.0.
IEEE 1394.
Features:
Wire wound ceramic construction provide high SRF.
Ultra-compact inductors provide exceptional Q values.
Low profile, high current are available.
Miniature SMD chip inductor for fully automated assembly.
Outstanding endurance from pull-up force, mechanical shock and pressure.
Tighter tolerance down to ±2%.
Smaller size of 0402 (1005).
Terminal wraparound : approximately 0.007 inches/0.18mm both ends
Dimensions : Millimetres
Dimensions
Wire Wound Chip Inductor
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Standard
Series A
(Maximum)
B
(Maximum)
C
(Maximum)
D
(Reference) E F G H I J
0402 1.27 0.76 0.61 0.15 0.51 0.23 0.56 0.66 0.50 0.46
0603
1.80 1.12 1.02 0.38 0.76 0.33 0.86 1.02 0.64 0.64
0805 2.29 1.73
1.52
0.51 1.27 0.44 1.02 1.78
1.02
0.76
1206
3.56 2.16 0.50 1.60 0.50 2.20 1.93 1.78
Dimensions : Millimetres
Series A
(Maximum)
B
(Maximum)
C
(Maximum)
D
(Reference) E F G H I J
0805
2.29 1.73 1.03 0.51 1.27 0.44 1.02 1.78 1.02 0.76
High Current/High Q
Low Profile
Series A
(Maximum)
B
(Maximum)
C
(Maximum)
D
(Reference) E F G H I J
0603
1.80 1.12 1.02 0.38 0.76 0.33 0.86 1.02 0.64 0.64
0805
2.29 1.73 1.52 0.51 1.27 0.44 1.02 1.78 1.02 0.76
Dimensions : Millimetres
Dimensions : Millimetres
Colour Coding
Colour Coding
0603/0805/1206 series (0402 series is no colour coding)
Because of small sizes, these parts are marked with a single colour dot.
The inductance value represented by the dot is shown on the data page for each series.
Wire Wound Chip Inductor
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Inductance
(nH)
Tolerance
(%)
Quality
Factor/Minimum
Self Resonant
Frequency/Minimum
(GHz)
Resistance
DC/Maximum
()
Current
DC/Maximum
(mA)
900MHz 1.7GHz
L Q L Q
1.0 at 250MHz 10 16 12.70 0.045 1360 1.02 77 1.02 69
2.2 at 250MHz 10, 5
19
10.80 0.070 960 2.19 59 2.23 100
3.3 at 250MHz
10, 5, 2
7.00 0.066 840 3.10 65 3.12 87
4.7 at 250MHz 18 4.70 0.130 640 4.55 48 4.68 68
6.8 at 250MHz 20 4.80 0.083 680 6.56 63 6.93 78
10 at 250MHz 21 3.90 0.195 480 9.80 50 10.10 67
12 at 250MHz
24
3.60 0.120 640 11.90 53 12.70 71
15 at 250MHz 3.28 0.172 560 14.60 55 15.50 77
18 at 250MHz
25
3.10 0.230 420 18.30 57 20.30 62
22 at 250MHz 2.80
0.300
400
23.20 53 26.80 53
27 at 250MHz
24
2.48 28.70 49 33.50 63
33 at 250MHz 2.35 0.350 34.90 31 41.70 32
39 at 250MHz
25
2.10
0.550 200 41.70 47 50.20 45
47 at 250MHz 0.830 150 50.00 38 55.80 37
56 at 250MHz 1.76 0.970
100
57.40 49 72.40 40
68 at 250MHz 22 1.62 1.120 69.60 45 83.40 38
Standard Electrical Specifications
0402 Wire Wound Chip Inductors/Standard
Wire Wound Chip Inductor
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Inductance
(nH)
Tolerance
(%)
Quality
Factor/Minimum
Self Resonant
Frequency/
Minimum
(GHz)
Resistance
DC/Maximum
()
Current
DC/Maximum
(mA)
900MHz 1.7GHz Colour
Code
LQLQ
2.2 at 250MHz 10, 5 15 6.00 0.100
700
2.18 41 2.20 64 White
3.3 at 250MHz
10, 5, 2
22 >6.00 0.080 3.35 47 3.40 65 Red
4.7 at 250MHz 25
5.80
0.120 4.65 53 4.80 67 Violet
6.8 at 250MHz 27 0.110 6.75 60 7.10 81 Red
10.0 at 250MHz 31 4.80
0.130
10.0 66 10.6
83
Orange
12.0 at 250MHz
35
4.00
12.3 72 13.5 Yellow
15.0 at 250MHz
0.170
15.4 64 16.8 89 Green
18.0 at 250MHz 3.10 18.7 70 21.4 69 Blue
22.0 at 250MHz 38 3.00 0.190 22.8 73 26.1 71 Violet
27.0 at 250MHz
40
2.80
0.220
600
29.2 74 34.6 65 Gray
33.0 at 250MHz 2.30 36.0 67 49.5 42 White
39.0 at 250MHz 2.20 0.250 42.7 60 60.2 40 Black
47.0 at 200MHz
38
2.00 0.280 52.2 62 77.2 35 Brown
56.0 at 200MHz 1.90 0.310 62.5 56 97.0 26 Red
68.0 at 200MHz 37
1.70
0.340 80.5
54
168
21
Orange
82.0 at 150MHz
34
0.540
400
96.2 177 Green
100 at 150MHz 1.40 0.580 124.0 49 319.5 13 Blue
120 at 150MHz 32
1.30
0.650 300 166.0 39 529.3 8 Gray
150 at 100MHz 28 0.950 280 230.0 25 - - White
180 at 100MHz
25
1.25 1.400
250
305.0 22 - - Black
220 at 100MHz 1.20 1.600 377.0 21 - - Brown
270 at 100MHz
0.90
2.100 200 523.0 19 - - Red
330 at 100MHz 3.800
100
680.4 20 - - Blue
390 at 100MHz 4.350 734.5 29 - - Yellow
470 at 100MHz 23 0.60 3.600 80 - - - - White
Standard Electrical Specifications
0603 Wire Wound Chip Inductors/Standard
Wire Wound Chip Inductor
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Inductance
(nH)
Tolerance
(%)
Quality
Factor/Minimum
Self Resonant
Frequency/Minimum
(GHz)
Resistance
DC/Maximum
()
Current
DC/Maximum
(mA)
Colour
Code
10.0 at 250MHz
10, 5, 2
60 at 500MHz 4.200 0.10
600
Blue
12.0 at 250MHz
50 at 500MHz
4.000 0.15 Orange
15.0 at 250MHz 3.400 0.17 Yellow
18.0 at 250MHz 3.300 0.20 Green
22.0 at 250MHz 2.600 0.22
500
Blue
27.0 at 250MHz 55 at 500MHz 2.500 0.25 Violet
33.0 at 250MHz
60 at 500MHz
2.050 0.27 Gray
39.0 at 250MHz 2.000 0.29 White
47.0 at 200MHz 1.650 0.31 Black
56.0 at 200MHz 1.550 0.34 Brown
68.0 at 200MHz 1.450 0.38 Red
82.0 at 150MHz
65 at 500MHz
1.300 0.42
400
Orange
100 at 150MHz 1.200 0.46 Yellow
120 at 150MHz
50 at 250MHz
1.100 0.51 Green
150 at 100MHz 0.920 0.56 Blue
180 at 100MHz 0.870 0.64 Violet
220 at 100MHz 0.850 0.70 Gray
270 at 100MHz
48 at 250MHz
0.650 1.00 350 White
300 at 100MHz 0.600 1.40 310 Black
390 at 100MHz 0.560 1.50 290 Brown
470 at 50MHz 33 at 100MHz 0.375 1.70 250 Red
560 at 25MHz
23 at 50MHz
0.340 1.90 230 Orange
680 at 25MHz
0.200
2.20 190 Green
820 at 25MHz 2.35 180 Violet
1000 at 25MHz 20 at 50MHz
0.100 2.50 170
Gray
1,500 at 7.9MHz 16 at 25MHz Black
2,200 at 7.9MHz 16 at 7.9MHz 0.060 2.70 160 Red
3,300 at 7.9MHz
15 at 7.9MHz 0.040
4.40
90
Blue
4,700 at 7.9MHz 6.40 Green
Standard Electrical Specifications
0805 Wire Wound Chip Inductors/Standard
Wire Wound Chip Inductor
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Inductance
(nH)
Tolerance
(%)
Quality
Factor/Minimum
Self Resonant
Frequency/Minimum
(GHz)
Resistance
DC/Maximum
()
Current
DC/Maximum
(mA)
Colour
Code
10.0 at 100MHz
10, 5
40 at 300MHz
4.00 0.08
1000
Red
15.0 at 100MHz 3.20
0.10
Yellow
22.0 at 100MHz
50 at 300MHz
2.20 Blue
33.0 at 100MHz
10, 5, 2
1.80 0.11 Gray
47.0 at 100MHz
55 at 300MHz
1.50 0.13 Black
68.0 at 100MHz 1.20 0.26 950 Red
150 at 100MHz 60 at 300MHz 0.95 0.31 750 Blue
220 at 50MHz 55 at 300MHz 0.76 0.50 670 Gray
330 at 50MHz
45 at 150MHz
0.65 0.62 590 Black
470 at 50MHz 0.55 1.30 490 Red
680 at 35MHz 0.45 1.58 430 Yellow
1000 at 35MHz 0.40 2.80 320 Blue
Standard Electrical Specifications
1206 Wire Wound Chip Inductors/Standard
Standard Electrical Specifications
0805 Wire Wound Chip Inductors/Low Profile
Inductance
(nH)
Tolerance
(%)
Quality
Factor/Minimum
Self Resonant
Frequency/Minimum
(GHz)
Resistance
DC/Maximum
()
Current
DC/Maximum
(mA)
Colour
Code
10.0 at 250MHz
10, 5, 2
55 at 750MHz
3.30 0.08
800
Green
12.0 at 250MHz 3.80
0.10
Blue
15.0 at 250MHz
50 at 500MHz
2.95 Violet
18.0 at 250MHz 3.10 0.13 Gray
22.0 at 250MHz 2.90 0.15 White
27.0 at 250MHz 2.45 0.23
600
Black
33.0 at 250MHz 2.35 0.28 Brown
39.0 at 250MHz 2.20 0.33 Red
47.0 at 200MHz 2.00
0.39
Orange
56.0 at 200MHz 1.85
500
Yellow
68.0 at 200MHz
1.50
0.40 Green
82.0 at 150MHz 0.44 Blue
100.0 at 150MHz 1.20 0.64 400 Violet
120.0 at 150MHz
40 at 250MHz
1.15 0.68
300
Gray
150.0 at 150MHz 1.05 0.80 White
1000.0 at 25MHz 16 at 50MHz 0.08 3.50 170 Black
Wire Wound Chip Inductor
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Standard Electrical Specifications
0603 Wire Wound Chip Inductors/High Current
Inductance
(nH)
Tolerance
(%)
Quality
Factor/Minimum
Self Resonant
Frequency/Minimum
(GHz)
Resistance
DC/Maximum
()
Current
DC/Maximum
(mA)
Colour
Code
6.8 at 250MHz 10, 5 35 5.80 0.054 2100 Orange
10.0 at 250MHz
10, 5, 2
38
3.70 0.071
2000
Green
12.0 at 250MHz 3.00 0.075 Blue
15.0 at 250MHz
2.80
0.080
1900
Violet
18.0 at 250MHz 40
0.099
Gray
22.0 at 250MHz 42 2.40 1800 White
Standard Electrical Specifications
0805 Wire Wound Chip Inductors/High Q
Inductance
(nH)
Tolerance
(%)
Quality
Factor/Minimum
Self Resonant
Frequency/Minimum
(GHz)
Resistance
DC/Maximum
()
Current
DC/Maximum
(mA)
Colour
Code
10 at 250MHz
10, 5
80 at 1000MHz
3.00
0.060
1600
Black
12 at 250MHz 0.045 Orange
15 at 250MHz
10, 5, 2
2.80 0.100 1200 Black
18 at 250MHz 75 at 500MHz 2.55 0.060 1400 Green
22 at 250MHz 80 at 500MHz
2.00
0.100 1200 Black
27 at 250MHz 75 at 500MHz 0.070 1300 Violet
39 at 250MHz 65 at 500MHz 1.60 0.110 1100 White
Wire Wound Chip Inductor
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Item Specification Test Method
Vibration test Appearance : no damage
L change : within ±5%
Q change : within ±10%
Test device shall be soldered on the substrate
Oscillation frequency : 10 to 55 to 10Hz for 1 minute
Amplitude : 1.5mm
Time : 2 hours for each axis (X, Y & Z), total 6
hours
Resistance to
soldering-heat
Solder temperature : 270 ±5°C
Immersion time : 10 ±2 seconds
Component adhesion
(push test)
1 lbs. for 0402
2 lbs. for 0603
3 lbs. for the rest
The device should be soldered (260 ±5°C for 10 seconds) to a
tinned copper subs rate. A dynamiter force gauge should be
applied to the side of the component. The device must with stand
a minimum force of 2 or 4 pounds without a failure of adhesion
on termination
Drop Test No damage
Dropping chip by each side and each corner. Drop 10 times in
total
Drop height : 100cm
Drop weight : 125g
Solderability test 90% covered with solder Inductor shall be dipped in a melted solder bath at 245 ±5°C for
3 seconds.
Resistance to solvent test No damage on appearance and
marking MIL-STD202F, Method 215D
Environmental Characteristics
Mechanical Performance
Item Specification Test Method
Inductance
Refer to standard electrical
characteristic specification
HP4291B
Q
SRF HP8753D
DC resistance RDC Micro-Ohm meter (Gom-801G)
Rated current IDC Applied the current to coils, the inductance change should be
less than 10% to initial value
Over load test
Inductors shall have no evidence
of electrical and mechanical
damage
Applied 2 times of rated allowed DC current to inductor for a
period of 5 minute
Withstanding voltage test
Inductors shall be no evidence of
electrical and mechanical
damage
AC voltage of 500V ac applied between inductors terminal and
case for 1 minute.
Insulation resistance test 1000Mminute 100V dc applied between inductor terminal and case
Electrical Performance Test
Wire Wound Chip Inductor
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Item Specification Test Method
Temperature
Characteristic
Appearance : no damage
L change : within ±10%
Q change : within ±20%
-40°C to +125°C
Humidity Test
Temperature : 40 ±2°C
Relative humidity : 90 to 95%
Time : 96 hours ±2 hours
Measured after exposure in the room condition for 2 hours
Low Temperature Storage
Test
Temperature : -40 ±2°C
Time : 96 ±2 hours
Inductors are tested after 1 hour at room temperature
Thermal Shock Test
One cycle:
Total: 5 cycles
High Temperature
Storage Test
Temperature : 125 ±2°C
Time : 96 ±2 hours
Measured after exposure in the room condition for 1 hour
High Temperature Load
Life Test
There should be no evidence of
short of open circuit.
Temperature : 85 ±2°C
Time :1000 ±12 hours
Load : allowed DC current
Humidity Load Life
Temperature : 40 ±2°C
Relative Humidity : 90 to 95%
Time : 1000 ±12 hours
Load : allowed DC current
Climatic Test
Step Temperature
(°°C)
Time
(minute)
1-25 ±3 30
225 ±2 15
3125 ±3 30
425 ±2 15
Storage Temperature : 25 ±3°C; Humidity: <80%RH
Wire Wound Chip Inductor
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Part Number Table
Description Part Number
Inductor, 0402, 1nH MCFT000063
Inductor, 0402, 2.2nH MCFT000064
Inductor, 0402, 3.3nH MCFT000065
Inductor, 0402, 4.7nH MCFT000066
Inductor, 0402, 6.8nH MCFT000067
Inductor, 0402, 10nH MCFT000068
Inductor, 0402, 12nH MCFT000069
Inductor, 0402, 15nH MCFT000070
Inductor, 0402, 18nH MCFT000071
Inductor, 0402, 22nH MCFT000072
Inductor, 0402, 27nH MCFT000073
Inductor, 0402, 33nH MCFT000074
Inductor, 0402, 39nH MCFT000075
Inductor, 0402, 47nH MCFT000076
Inductor, 0402, 56nH MCFT000077
Inductor, 0402, 68nH MCFT000078
Inductor, 0603, 2.2nH MCFT000079
Inductor, 0603, 3.3nH MCFT000080
Inductor, 0603, 4.7nH MCFT000081
Inductor, 0603, 6.8nH MCFT000082
Inductor, 0603, 10nH MCFT000083
Inductor, 0603, 12nH MCFT000084
Inductor, 0603, 15nH MCFT000085
Inductor, 0603, 18nH MCFT000086
Inductor, 0603, 22nH MCFT000087
Inductor, 0603, 27nH MCFT000088
Inductor, 0603, 33nH MCFT000089
Inductor, 0603, 39nH MCFT000090
Inductor, 0603, 47nH MCFT000091
Inductor, 0603, 56nH MCFT000092
Inductor, 0603, 68nH MCFT000093
Inductor, 0603, 82nH MCFT000094
Inductor, 0603, 100nH MCFT000095
Inductor, 0603, 120nH MCFT000096
Wire Wound Chip Inductor
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Part Number Table
Description Part Number
Inductor, 0603, 150nH MCFT000097
Inductor, 0603, 180nH MCFT000098
Inductor, 0603, 220nH MCFT000099
Inductor, 0603, 270nH MCFT000100
Inductor, 0603, 330nH MCFT000101
Inductor, 0603, 390nH MCFT000102
Inductor, 0603, 470nH MCFT000103
Inductor, 0805, 10nH MCFT000104
Inductor, 0805, 12nH MCFT000105
Inductor, 0805, 15nH MCFT000106
Inductor, 0805, 18nH MCFT000107
Inductor, 0805, 22nH MCFT000108
Inductor, 0805, 27nH MCFT000109
Inductor, 0805, 33nH MCFT000110
Inductor, 0805, 39nH MCFT000111
Inductor, 0805, 47nH MCFT000112
Inductor, 0805, 56nH MCFT000113
Inductor, 0805, 68nH MCFT000114
Inductor, 0805, 82nH MCFT000115
Inductor, 0805, 100nH MCFT000116
Inductor, 0805, 120nH MCFT000117
Inductor, 0805, 150nH MCFT000118
Inductor, 0805, 180nH MCFT000119
Inductor, 0805, 220nH MCFT000120
Inductor, 0805, 270nH MCFT000121
Inductor, 0805, 330nH MCFT000122
Inductor, 0805, 390nH MCFT000123
Inductor, 0805, 470nH MCFT000124
Inductor, 0805, 560nH MCFT000125
Inductor, 0805, 680nH MCFT000126
Inductor, 0805, 820nH MCFT000127
Inductor, 0805, 1000nH MCFT000128
Inductor, 0805, 1500nH MCFT000129
Inductor, 0805, 2200nH MCFT000130
Wire Wound Chip Inductor
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Part Number Table
Description Part Number
Inductor, 0805, 3300nH MCFT000131
Inductor, 0805, 4700nH MCFT000132
Inductor, 0805, 10nH MCFT000133
Inductor, 0805, 15nH MCFT000134
Inductor, 0805, 22nH MCFT000135
Inductor, 0805, 33nH MCFT000136
Inductor, 0805, 47nH MCFT000137
Inductor, 0805, 68nH MCFT000138
Inductor, 0805, 100nH MCFT000139
Inductor, 1206, 10nH MCFT000140
Inductor, 1206, 15nH MCFT000141
Inductor, 1206, 22nH MCFT000142
Inductor, 1206, 33nH MCFT000143
Inductor, 1206, 47nH MCFT000144
Inductor, 1206, 68nH MCFT000145
Inductor, 1206, 150nH MCFT000146
Inductor, 1206, 220nH MCFT000147
Inductor, 1206, 330nH MCFT000148
Inductor, 1206, 470nH MCFT000149
Inductor, 1206, 680nH MCFT000150
Inductor, 1206, 1000nH MCFT000151
Disclaimer This data sheet and its contents (the "Information") belong to the Premier Farnell Group (the "Group") or are licensed to it. No licence is granted for the use of it other than for information purposes
in connection with the products to which it relates. No licence of any intellectual property rights is granted. The Information is subject to change without notice and replaces all data sheets previously supplied.
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
sheet should check for themselves the Information and the suitability of the products for their purpose and not make any assumptions based on information included or omitted. Liability for loss or damage
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.
This will not operate to limit or restrict the Group's liability for death or personal injury resulting from its negligence. SPC Multicomp is the registered trademark of the Group. © Premier Farnell plc 2009.