Sumida CDRH10D68/ANP-561MC Ferrite drum core construction Datasheet

SMD Power Inductor
CDRH10D68/A
Description
• Ferrite drum core construction.
• Magnetically shielded.
• L W H: 10.5 10.5 7.0 mm Max.
• Product weight: 2.6 g(Ref.)
• Moisture Sensitivity Level: 1
• RoHS compliance.
• Qualification to AEC-Q200.
RoHS
× ×
Dimension - [mm]
Max.7.0(Typ.6.8)
10.0±0.5
9.0±0.5
4.0± 0.5
2.
2±
0.
3
5.
0
±
0.
10
.8
14
x.
a
M
: Electrode terminal
1.
8±
0.
3
5
.
0
±
0
.
4
5
.
0
±
0
.
9
11 (7
.9 .5
± )
0.
5
2.
2±
0.
3
Land pattern and Schematics - [mm]
× ×
Environmental Data
• Operating temperature range: -40 ~+125
(excluding coil’s self temperature rise)
+85
• Storage temperature range: -40
• Solder reflow temperature: 260
peak.
℃ ℃
℃~ ℃
℃
Packaging
• Carrier tape and reel packaging
• 13.0”diameter reel
• 500pcs per reel
Applications
• Automotive and other high temperature, high
reliability application.
11.0
3.2
3.
3. 3
4
45
°
0
.
1
1
2
.
3
Page 1 of 5
Revised: 5-Aug-11
SMD Power Inductor
CDRH10D68/A
Electrical Characteristics
Part Name
Stamp
CDRH1ØD68/ANP-1ØØMC
100
CDRH1ØD68/ANP-12ØMC
120
CDRH1ØD68/ANP-15ØMC
150
CDRH1ØD68/ANP-18ØMC
180
CDRH1ØD68/ANP-22ØMC
220
CDRH1ØD68/ANP-27ØMC
270
CDRH1ØD68/ANP-33ØMC
330
CDRH1ØD68/ANP-39ØMC
390
CDRH1ØD68/ANP-47ØMC
470
CDRH1ØD68/ANP-56ØMC
560
CDRH1ØD68/ANP-68ØMC
680
CDRH1ØD68/ANP-82ØMC
820
CDRH1ØD68/ANP-1Ø1MC
101
CDRH1ØD68/ANP-121MC
121
CDRH1ØD68/ANP-151MC
151
CDRH1ØD68/ANP-181MC
181
CDRH1ØD68/ANP-221MC
221
CDRH1ØD68/ANP-271MC
271
CDRH1ØD68/ANP-331MC
331
CDRH1ØD68/ANP-391MC
391
CDRH1ØD68/ANP-471MC
471
CDRH1ØD68/ANP-561MC
561
Inductance
( H) 1
μ ※
10μH±20%
12μH±20%
15μH±20%
18μH±20%
22μH±20%
27μH±20%
33μH±20%
39μH±20%
47μH±20%
56μH±20%
68μH±20%
82μH±20%
100μH±20%
120μH±20%
150μH±20%
180μH±20%
220μH±20%
270μH±20%
330μH±20%
390μH±20%
470μH±20%
560μH±20%
D.C.R. (mΩ)
[Max.] (Typ.)
(at 20℃)
Rated current (A)
(at 125 ) 2
26.3(21)
3.05
28.8(23)
2.80
35.0(28)
2.55
37.5(30)
2.42
51.3(41)
2.05
63.8(51)
1.90
80.0(64)
1.68
100(80)
1.50
125(100)
1.32
156(125)
1.24
191(153)
1.12
215(172)
1.03
250(200)
0.92
273(218)
0.88
359(287)
0.77
463(370)
0.70
590(472)
0.63
674(539)
0.58
740(592)
0.52
986(789)
0.47
1105(884)
0.45
1206(965)
0.40
℃※
※1 Measuring condition inductance at 100kHz.
※2. Rated current: The DC current at which the inductance decreases to 65% of its nominal value or when △t=30℃,
whichever is lower .
Page 2 of 5
Revised: 5-Aug-11
SMD Power Inductor
CDRH10D68/A
Saturation Current & Temperature Rise Graph
℃
L (20 )
μ
1. CDRH10D68/ANP-100MC
L ( H)
12
℃
△T
L (125 )
△T (℃)
μ
2. CDRH10D68/ANP-120MC
L ( H)
60
18
10
50
8
△T (℃)
μ
L ( H)
3. CDRH10D68/ANP-150MC
△T (℃)
60
18
15
50
15
50
40
12
40
12
40
6
30
9
30
9
30
4
20
6
20
6
20
2
10
3
10
3
10
0
0
0
0
0
0
0
1
2
3
DC (A)
4
μ
4. CDRH10D68/ANP-180MC
L ( H)
24
5
0
△T (℃)
1
2
3
DC (A)
μ
4
5. CDRH10D68/ANP-220MC
L ( H)
60
30
20
50
16
5
60
0
△T (℃)
μ
L ( H)
1
2
DC (A)
3
6. CDRH10D68/ANP-270MC
4
△T (℃)
60
36
25
50
30
50
40
20
40
24
40
12
30
15
30
18
30
8
20
10
20
12
20
4
10
5
10
6
10
0
0
0
0
0
0
1
μ
2
DC (A)
3
7. CDRH10D68/ANP-330MC
L ( H)
48
4
0.0
△T (℃)
μ
0.8
1.6
DC (A)
2.4
8. CDRH10D68/ANP-390MC
L ( H)
60
48
40
50
32
3.2
60
0
0.0
△T (℃)
μ
L ( H)
0.8
1.6
2.4
DC (A)
9. CDRH10D68/ANP-470MC
3.2
△T (℃)
60
60
40
50
50
50
40
32
40
40
40
24
30
24
30
30
30
16
20
16
20
20
20
8
10
8
10
10
10
0
0
0
0
0
0.0 0.5 1.0 1.5 2.0 2.5 3.0
DC (A)
μ
△ ℃
10. CDRH10D68/ANP-560MC
L ( H)
T( )
90
0.0 0.4 0.8 1.2 1.6 2.0 2.4
DC (A)
μ
△ ℃
11. CDRH10D68/ANP-680MC
L ( H)
T( )
60
90
75
50
60
60
0
0.0 0.4 0.8 1.2 1.6 2.0 2.4
DC (A)
μ
L ( H)
△T (℃)
12. CDRH10D68/ANP-820MC
60
120
75
50
100
50
40
60
40
80
40
45
30
45
30
60
30
30
20
30
20
40
20
15
10
15
10
20
10
0
0
0
0
0
0.0
0.4
0.8 1.2
DC (A)
1.6
2.0
0.0 0.3 0.6 0.9 1.2 1.5 1.8
DC (A)
Page 3 of 5
60
0
0.0 0.3 0.6 0.9 1.2 1.5 1.8
DC (A)
Revised: 5-Aug-11
SMD Power Inductor
CDRH10D68/A
Saturation Current & Temperature Rise Graph
℃
L (20 )
μ
℃
△T
L (125 )
△ ℃
μ
△ ℃
13. CDRH10D68/ANP-101MC
L ( H)
T( )
14. CDRH10D68/ANP-121MC
L ( H)
T( )
120
60
180
100
50
80
μ
L ( H)
△T (℃)
15. CDRH10D68/ANP-151MC
60
180
150
50
150
50
40
120
40
120
40
60
30
90
30
90
30
40
20
60
20
60
20
20
10
30
10
30
10
0
0
0
0
0
0
0.0
0.4
0.8
DC (A)
1.2
μ
1.6
0.0
△ ℃
0.3
μ
0.6 0.9
DC (A)
1.2
1.5
60
0.0
△ ℃
16. CDRH10D68/ANP-181MC
T( )
L ( H)
17. CDRH10D68/ANP-221MC
L ( H)
T( )
240
60
300
200
50
160
μ
L ( H)
0.3
0.6 0.9
DC (A)
1.2
1.5
△T (℃)
18. CDRH10D68/ANP-271MC
60
360
250
50
300
50
40
200
40
240
40
120
30
150
30
180
30
80
20
100
20
120
20
40
10
50
10
60
10
0
0
0
0
0
μ
0
0.0 0.2 0.4 0.6 0.8 1.0 1.2
DC (A)
△ ℃
0.0
0.2
μ
0.4 0.6
DC (A)
0.8
1.0
60
0.0
△ ℃
19. CDRH10D68/ANP-331MC
L ( H)
T( )
20. CDRH10D68/ANP-391MC
L ( H)
T( )
420
60
480
350
50
280
μ
L ( H)
0.2
0.4 0.6
DC (A)
0.8
1.0
△T (℃)
21. CDRH10D68/ANP-471MC
60
600
400
50
500
50
40
320
40
400
40
210
30
240
30
300
30
140
20
160
20
200
20
70
10
80
10
100
10
0
0
0
0.0
0.2
μ
0.4
DC (A)
0.6
0.8
0
0.0
△ ℃
0.2
0.4
DC (A)
0.6
0.8
60
0
0
0.0
0.2
0.4
0.6
DC (A)
22. CDRH10D68/ANP-561MC
L ( H)
T( )
900
60
750
50
600
40
450
30
300
20
150
10
0
0
0.0
0.2
0.4
DC (A)
0.6
0.8
Page 4 of 5
Revised: 5-Aug-11
0.8
SMD Power Inductor
CDRH10D68/A
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.+852-2880-6688
FAX.+852-2565-9600
[email protected]
Tel.+86-021-5836-3299
FAX.+86-021-5836-3266
[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]
Tokyo
Seoul
Singapore
San Jose
Tel.+81-3-5202-7112
FAX.+81-3-5202-7105
[email protected]
Tel.+82-2-6237-0777
FAX.+82-2-6237-0778
[email protected]
Tel.+65-6296-3388
FAX.+65-6296-3390
[email protected]
Tel.+1-408-3219660
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: 5-Aug-11
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