Sumida CDRH80D65BT150NP-471MC Smd power inductor Datasheet

SMD Power Inductor
CDRH80D65B/T150
Description

Ferrite drum core construction

Magnetically shielded

Qualified AEC-Q200

Operating Temperature: -55˚C to +150˚C
(including self-heating)
Applications

LED Head light for Automobile

ECU, DC/DC converter

Automotive and other high temperature, high reliability application
Dimension [mm]
Reference Land pattern [mm]
Connection
Note: This specification is subject to change without notice. Please contact your nearest sales office for updated information when placing an order.
Page 1 of 5
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Ver.1.0 (December 21, 2016)
SMD Power Inductor
CDRH80D65B/T150
Electrical Characteristics
Inductance
Part No.
(μH)
※1
D.C.R (mΩ)
Saturation Current (A)
(±30%)
at 20℃ TYP.
※2
Temperature Rise Current
(A) TYP. ※3
CDRH80D65BT150NP-1R0NC
1.0 ±30%
6.4
14.3
8.74
CDRH80D65BT150NP-1R5NC
1.5 ±30%
7.5
11.6
7.80
CDRH80D65BT150NP-2R2NC
2.2 ±30%
9.6
9.50
6.71
CDRH80D65BT150NP-3R3NC
3.3 ±30%
10.8
7.65
6.35
CDRH80D65BT150NP-3R9NC
3.9 ±30%
11.8
7.05
6.10
CDRH80D65BT150NP-4R7NC
4.7 ±30%
13.2
6.49
5.49
CDRH80D65BT150NP-6R8NC
6.8 ±30%
15.8
5.40
5.02
CDRH80D65BT150NP-100MC
10 ±20%
19.8
4.50
4.54
CDRH80D65BT150NP-150MC
15 ±20%
35.0
3.55
3.16
CDRH80D65BT150NP-220MC
22 ±20%
49.0
2.94
2.83
CDRH80D65BT150NP-330MC
33 ±20%
86.0
2.42
1.93
CDRH80D65BT150NP-470MC
47 ±20%
105
2.02
1.74
CDRH80D65BT150NP-680MC
68 ±20%
131
1.67
1.57
CDRH80D65BT150NP-101MC
100 ±20%
168
1.41
1.37
CDRH80D65BT150NP-151MC
150 ±20%
267
1.17
1.09
CDRH80D65BT150NP-221MC
220 ±20%
475
0.94
0.73
CDRH80D65BT150NP-331MC
330 ±20%
646
0.77
0.67
CDRH80D65BT150NP-471MC
470 ±20%
799
0.64
0.61
CDRH80D65BT150NP-681MC
680 ±20%
1180
0.53
0.46
CDRH80D65BT150NP-102MC
1000 ±20%
1980
0.43
0.35
※ Measuring frequency inductance at 100kHz,1V.
※ Saturation current: DC current which becomes inductance value drop by 30% from the nominal value.
※ Temperature rise current: The value of D.C. current when the temperature of coil becomes ⊿T=40℃(Ta=20℃).
Please note that when using the product for automotive while applying current with audio-frequency (AF) signals
may result in audible noises due to magnetostriction. Also, in order to avoid noise problem, operating with Non-AF
signals would be recommended. The noise may amplify depending on the coil mount area on the PCB.
Note: This specification is subject to change without notice. Please contact your nearest sales office for updated information when placing an order.
Page 2 of 5
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Ver.1.0 (December 21, 2016)
SMD Power Inductor
CDRH80D65B/T150
3.0
60
1.0
50
2.0
40
2.5
50
0.8
40
2.0
40
0.6
30
1.5
30
0.4
20
1.0
20
10
30
1.0
20
10
0.5
0
0.0
10
0.0
0
0.0
5
10
15
20
0
5
10
15
0
0
2
4
Idc(A)
CDRH80D65BT150NP-3R3NC
6
8 10 12
Idc(A)
CDRH80D65BT150NP-3R9NC
CDRH80D65BT150NP-4R7NC
6.0
60
4.0
40
4.0
40
5.0
50
3.0
30
3.0
30
4.0
40
2.0
20
2.0
20
3.0
30
2.0
20
1.0
10
1.0
10
1.0
10
0
0.0
0
0.0
0.0
0
2
4
6
8
0.0
10
2.0
4.0
6.0
L(uΗ )
50
⊿Τ (℃)
5.0
L(uΗ )
50
⊿Τ (℃)
5.0
8.0
0
0.0
2.0
Idc(A)
Idc(A)
CDRH80D65BT150NP-6R8NC
4.0
6.0
8.0
Idc(A)
CDRH80D65BT150NP-100MC
CDRH80D65BT150NP-150MC
60
25.0
50
8.0
40
10.0
50
20.0
40
8.0
40
6.0
30
15.0
30
4.0
20
10.0
20
10
5.0
10
0
0.0
4.0
20
2.0
10
2.0
0
0.0
0.0
0.0
2.0
4.0
Idc(A)
6.0
8.0
L(uΗ )
30
0.0 1.0 2.0 3.0 4.0 5.0 6.0
Idc(A)
L(uΗ )
12.0
⊿Τ (℃)
50
⊿Τ (℃)
10.0
6.0
⊿Τ (℃)
0.2
0.5
L(uΗ )
1.5
⊿Τ (℃)
50
⊿Τ (℃)
2.5
L(uΗ )
60
Idc(A)
L(uΗ )
CDRH80D65BT150NP-2R2NC
1.2
0
L(uΗ )
⊿T
L (150℃)
CDRH80D65BT150NP-1R5NC
⊿Τ (℃)
L(uΗ )
CDRH80D65BT150NP-1R0NC
L (25℃)
⊿Τ (℃)
Saturation Current & Temperature Rise Graph
0
0.0
1.0
2.0
3.0
4.0
Idc(A)
Note: This specification is subject to change without notice. Please contact your nearest sales office for updated information when placing an order.
Page 3 of 5
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Ver.1.0 (December 21, 2016)
SMD Power Inductor
CDRH80D65B/T150
⊿T
L (150℃)
CDRH80D65BT150NP-470MC
50.0
50
60.0
60
25.0
50
40.0
40
50.0
50
20.0
40
40.0
40
15.0
30
30.0
30
10.0
20
20.0
20
10
30
20.0
20
10
10.0
0
0.0
10
0.0
0
0.0
1.0
2.0
3.0
4.0
0.0 0.5 1.0 1.5 2.0 2.5 3.0
Idc(A)
0
0.0 0.5 1.0 1.5 2.0 2.5
Idc(A)
CDRH80D65BT150NP-680MC
Idc(A)
CDRH80D65BT150NP-101MC
CDRH80D65BT150NP-151MC
250
50
80.0
40
100
50
200
40
80
40
60
30
150
30
40
20
100
20
10
50
10
0
0
30
40.0
20
20.0
10
20
0
0
0.0
0.0
0.5
1.0
1.5
L(uΗ )
60.0
2.0
0.0
Idc(A)
1.0
1.5
0
0.0
2.0
0.5
1.0
1.5
Idc(A)
Idc(A)
CDRH80D65BT150NP-221MC
CDRH80D65BT150NP-331MC
CDRH80D65BT150NP-471MC
50
600
60
250
50
400
40
500
50
200
40
400
40
150
30
300
30
100
20
200
20
100
10
50
10
0
0
0.0 0.2 0.4 0.6 0.8 1.0 1.2
Idc(A)
300
30
200
20
100
10
0
0
0.0 0.2 0.4 0.6 0.8 1.0
Idc(A)
L(uΗ )
500
⊿Τ (℃)
60
L(uΗ )
300
⊿Τ (℃)
L(uΗ )
0.5
L(uΗ )
60
⊿Τ (℃)
120
⊿Τ (℃)
50
L(uΗ )
100.0
⊿Τ (℃)
5.0
L(uΗ )
30.0
10.0
0.0
⊿Τ (℃)
60
L(uΗ )
30.0
⊿Τ (℃)
CDRH80D65BT150NP-330MC
⊿Τ (℃)
L(uΗ )
CDRH80D65BT150NP-220MC
L (25℃)
0
⊿Τ (℃)
Saturation Current & Temperature Rise Graph
0
0.0
0.2
0.4
0.6
0.8
Idc(A)
Note: This specification is subject to change without notice. Please contact your nearest sales office for updated information when placing an order.
Page 4 of 5
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Ver.1.0 (December 21, 2016)
SMD Power Inductor
CDRH80D65B/T150
Saturation Current & Temperature Rise Graph
CDRH80D65BT150NP-102MC
60
800
40
1,000
50
800
40
600
30
400
20
200
10
30
400
20
200
10
0
0
0.0
0.2
0.4
Idc(A)
0.6
0.8
L(uΗ )
1,200
⊿Τ (℃)
50
L(uΗ )
1,000
600
⊿T
L (150℃)
0
⊿Τ (℃)
CDRH80D65BT150NP-681MC
L (25℃)
0
0.0 0.1 0.2 0.3 0.4 0.5
Idc(A)
For sales office information, please click here to visit our website.
Note: This specification is subject to change without notice. Please contact your nearest sales office for updated information when placing an order.
Page 5 of 5
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Ver.1.0 (December 21, 2016)
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