Sumida CDRH10D68RT125NP-101PC Smd power inductor Datasheet

SMD Power Inductor
CDRH10D68R/T125
Description
• Ferrite drum core construction.
• Magnetically shielded.
• L W H:10.6 10.6 7.0 mm Max.
• Product weight: 2.7g(Ref.)
• Moisture Sensitivity Level: 1
• RoHS compliance.
• Halogen Free available.
• Qualified with AEC-Q200.
RoHS
× ×
Halogen
Free
Dimension - [mm]
10.2±0.4
6.8±0.2
4.
0
±
2.
01
4.0±0.1
5
1
.
0
±
5
.
1
0
.
7
13
.8
5
1
.
0
±
5
.
1
Ma
x.
× ×
Environmental Data
• Operating temperature range: -40
+125
(including coil’s self temperature rise)
• Storage temperature range: -40
+125
• Solder reflow temperature: 260
peak.
℃~ ℃
℃~ ℃
℃
Packaging
• Carrier tape and reel packaging
Applications
• Automotive.
Land pattern and Schematics - [mm]
0
.
2
6
.
6
0
.
2
4.4
(1.5
μH~10μH)
(15
μH~1.0mH)
Page 1 of 5
Revised: 7-Jan-14
SMD Power Inductor
CDRH10D68R/T125
Electrical Characteristics
Part No.
Stamp
CDRH10D68RT125NP-1R5NC
1R5
CDRH10D68RT125NP-2R2NC
2R2
CDRH10D68RT125NP-3R3NC
3R3
CDRH10D68RT125NP-4R7NC
4R7
CDRH10D68RT125NP-6R2NC
6R2
CDRH10D68RT125NP-7R5NC
7R5
CDRH10D68RT125NP-100PC
100
CDRH10D68RT125NP-150PC
150
CDRH10D68RT125NP-220PC
220
CDRH10D68RT125NP-330PC
330
CDRH10D68RT125NP-470PC
470
CDRH10D68RT125NP-680PC
680
CDRH10D68RT125NP-101PC
101
CDRH10D68RT125NP-151PC
151
CDRH10D68RT125NP-221PC
221
CDRH10D68RT125NP-331PC
331
CDRH10D68RT125NP-471PC
471
CDRH10D68RT125NP-681PC
681
CDRH10D68RT125NP-102PC
102
[
μ
]※
Inductance
( H)
Within
1
±30%
2.2±30%
3.3±30%
4.7±30%
6.2±30%
7.5±30%
10±25%
15±25%
22±25%
33±25%
47±25%
68±25%
100±25%
150±25%
220±25%
330±25%
470±25%
680±25%
1000±25%
1.5
Ω
D.C.R.
(m )[Max.]
(at20 ) 2
℃※
(A)※
(at125℃)
(at20℃)
(Typ)
Saturation current
3
Temperature
rise current
( ) 4
A※
6.1(4.9)
11.00
8.50
10.50
7.1(5.7)
10.50
7.50
9.50
8.5(6.8)
7.80
5.60
8.30
9.9(7.9)
7.15
5.17
7.60
14.2(11.3)
5.95
4.14
6.45
16.4(13.0)
5.50
3.89
5.55
21.4(17.1)
4.40
3.60
4.40
30.6(24.5)
3.60
2.85
3.60
39.1(31.3)
3.10
2.47
3.10
59.1(47.3)
2.60
1.85
2.60
88.3(70.6)
2.00
1.60
2.00
125(100)
1.80
1.24
1.80
175(140)
1.50
1.05
1.50
250(200)
1.23
0.86
1.23
370(296)
1.00
0.73
1.00
465(372)
0.80
0.55
0.91
703(562)
0.68
0.50
0.72
1030(828)
0.60
0.40
0.61
1560(1253)
0.45
0.33
0.49
※ 1 Measuring frequency inductance at 100kHz.
※ 2 ( ) are typical value
※ 3 Saturation current: The value of D.C. current when the inductance decreases to 65% of it’s nominal value.
※ 4 Temperature rise current: The value of D.C. current when the temperature rise is △t=40℃(Ta=20℃).
Page 2 of 5
Revised: 7-Jan-14
SMD Power Inductor
CDRH10D68R/T125
Saturation Current & Temperature Rise Graph
℃
L (20 )
μ
℃
△T
L (125 )
△ ℃
μ
△ ℃
μ
△ ℃
1. CDRH10D68RT125NP-1R5NC
L ( H)
T( )
2. CDRH10D68RT125NP-2R2NC
L ( H)
T( )
L ( H)
1.8
60
2.4
60
4.8
1.5
50
2.0
50
4.0
50
1.2
40
1.6
40
3.2
40
0.9
30
1.2
30
2.4
30
0.6
20
0.8
20
1.6
20
0.3
10
0.4
10
0.8
10
0
0.0
0
0.0
0.0
0
3
6
9
12
15
18
0
3
6
DC (A)
9
12
15
3. CDRH10D68RT125NP-3R3NC
T( )
60
0
0
18
2
4
DC (A)
μ
△ ℃
4. CDRH10D68RT125NP-4R7NC
L ( H)
T( )
6
8
10
12
DC (A)
μ
△ ℃
μ
△ ℃
5. CDRH10D68RT125NP-6R2NC
L ( H)
T( )
6. CDRH10D68RT125NP-7R5NC
L ( H)
T( )
6
60
9.0
60
9.0
5
50
7.5
50
7.5
50
4
40
6.0
40
6.0
40
3
30
4.5
30
4.5
30
2
20
3.0
20
3.0
20
1
10
1.5
10
1.5
10
0
0.0
0
0
2
4
6
8
10
0.0
12
1.5
3.0
DC (A)
4.5
6.0
7.5
0
9.0
60
0.0
0.0
1.5
3.0
DC (A)
μ
△ ℃
4.5
6.0
7.5
0
9.0
DC (A)
μ
△ ℃
7. CDRH10D68RT125NP-100PC
L ( H)
T( )
8. CDRH10D68RT125NP-150PC
L ( H)
T( )
12
60
18
10
50
8
μ
△ ℃60
9. CDRH10D68RT125NP-220PC
L ( H)
T( )
60
24
15
50
20
50
40
12
40
16
40
6
30
9
30
12
30
4
20
6
20
8
20
2
10
3
10
4
10
0
0
0
0
0
0.0
1.5
3.0
4.5
6.0
7.5
9.0
0
1
DC (A)
μ
L ( H)
2
3
4
5
0
0.0
6
0.8
1.6
DC (A)
△ ℃
10. CDRH10D68RT125NP-330PC
T( )
μ
L ( H)
2.4
3.2
4.0
4.8
DC (A)
△ ℃
11. CDRH10D68RT125NP-470PC
T( )
μ
L ( H)
60
90
△ ℃60
12. CDRH10D68RT125NP-680PC
T( )
60
60
30
50
50
50
75
50
24
40
40
40
60
40
18
30
30
30
45
30
12
20
20
20
30
20
6
10
10
10
15
10
36
0
0.0
0.6
1.2
1.8
DC (A)
2.4
3.0
0
3.6
0
0.0
0.5
1.0
1.5
2.0
DC (A)
Page 3 of 5
2.5
0
3.0
0
0.0
0.5
1.0
1.5
2.0
DC (A)
Revised: 7-Jan-14
2.5
0
3.0
SMD Power Inductor
CDRH10D68R/T125
Saturation Current & Temperature Rise Graph
℃
L (20 )
μ
℃
△T
L (125 )
△ ℃
μ
△ ℃
μ
△ ℃
13. CDRH10D68RT125NP-101PC
L ( H)
T( )
14. CDRH10D68RT125NP-151PC
L ( H)
T( )
L ( H)
120
60
180
60
300
100
50
150
50
250
50
80
40
120
40
200
40
60
30
90
30
150
30
40
20
60
20
100
20
20
10
30
10
50
10
0
0
0
0.0
0.4
0.8
1.2
1.6
2.0
0
2.4
0
0.0
0.3
0.6
DC (A)
0.9
1.2
1.5
1.8
0.0
15. CDRH10D68RT125NP-221PC
T( )
60
0.3
0.6
DC (A)
μ
△ ℃
16. CDRH10D68RT125NP-331PC
L ( H)
T( )
600
300
50
240
1.2
1.5
0
1.8
DC (A)
μ
△ ℃
17. CDRH10D68RT125NP-471PC
L ( H)
T( )
60
0.9
μ
△ ℃
18. CDRH10D68RT125NP-681PC
L ( H)
T( )
60
900
500
50
750
50
40
400
40
600
40
180
30
300
30
450
30
120
20
200
20
300
20
60
10
100
10
150
10
360
0
0.0
0.2
0.4
0.6
0.8
1.0
0
1.2
DC (A)
0
0.0
0.2
0.4
0.6
0.8
DC (A)
μ
1.0
0
1.2
0
0.00
60
0.15
0.30
0.45
0.60
0.75
DC (A)
△ ℃
19. CDRH10D68RT125NP-102PC
L ( H)
T( )
1200
60
1000
50
800
40
600
30
400
20
200
10
0
0
0.0
0.1
0.2
0.3
0.4
0.5
0.6
DC (A)
Page 4 of 5
Revised: 7-Jan-14
0
0.90
SMD Power Inductor
CDRH10D68R/T125
Solder Reflow Condition
T (℃)
300
250
Heat Endurance
260℃
230℃
200
0
60
120
180
240
245℃ PEAK
T (s)
40s
± ℃,60~120s
170 10
100
300
℃
230
150
60
100
Temperature Chart
200
10
150
50
0
T (℃)
300
250
50
0
0
60
120
180
240
300 T (s)
Please refer to the sales offices on our website - http://www.sumida.com
Hong Kong
Shanghai
Shenzhen
Taipei
Tel.+852-2880-6781
FAX.+852-2565-9600
[email protected]
Tel.+86-21-5836-3299
FAX.+86-21-5836-3266
[email protected]
Tel.+86-755-8291-0228
FAX.+86-755-8291-0338
[email protected]
Tel.+886-2-8751-2737
FAX.+886-2-8751-2738
[email protected]
Saitama(Japan)
Seoul
Singapore
San Jose
Tel.+81-48-691-7300
FAX.+81-48-691-7340
[email protected]
Tel.+82-2-6237-0777
FAX.+82-2-6237-0778
[email protected]
Tel.+65-6296-3388
FAX.+65-6841-4426
[email protected]
Tel.+1-408-321-9660
FAX.+1-408-321-9308
[email protected]
Chicago
Obernzell
Neumarkt
Tel.+1-847-545-6700
FAX. +1-847-545-6720
[email protected]
Tel.+49-8591-937-0
FAX. +49-8591-937-103
[email protected]
Tel.+49-9181-4509-110
FAX. +49-9181-4509-310
[email protected]
Page 5 of 5
Revised: 7-Jan-14
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