Technical Data
4319
Effective January 2018
Supersedes September 2017
DRA
Automotive grade
High power density, high efficiency, shielded drum core
power inductors
Applications
•
•
•
Product features
•
•
•
•
•
•
•
AEC-Q200 qualified
Five different mechanical sizes available
Magnetically shielded-reduces EMI
Ferrite core material
Inductance range from 0.28 µH to 1000 µH
Current range up to 56 A
Rugged construction for high shock and
vibration environments
Moisture Sensitivity Level (MSL): 1
•
•
•
Body electronics
o
Headlamps, tail lamps and interior
lighting
o
Heating Ventilation and Air
Conditioning controllers (HVAC)
o
Doors, window lift and seat control
Advanced driver assistance systems
o
Adaptive cruise control (ACC)
o
Collision avoidance system
o
Car black box system
Infotainment and cluster electronics
o
Audio subsystem: head unit and
trunk amp
o
Digital instrument cluster
o
In-Vehicle Infotainment (IVI) and
navigation
Chassis and safety electronics
o
Electronic Stability Control system
(ESC)
o
Electric parking brake
o
Electronic Power Steering (EPS)
Engine and powertrain systems
o
Diesel/gasoline engine management
o
Powertrain Control Module (PCM)/
Engine Control Unit (ECU)
o
Transmission Control Unit (TCU)
Environmental data
•
•
•
Storage temperature range (component):
-40 °C to +165 °C
Operating temperature range: -40 °C to +165 °C
(ambient plus self-temperature rise)
Solder reflow temperature:
J-STD-020 (latest revision) compliant
HALOGEN
Pb
HF
FREE
Effective January 2018
Technical Data
4319
DRA
Automotive grade
High power density, high efficiency, shielded drum core power inductors
Product specifications
DCR (Ω)
@ +25 °C
Typical
0.0040
0.0067
0.0097
0.016
0.022
0.033
0.041
0.053
0.064
0.094
0.141
0.183
0.275
0.397
0.530
0.609
0.932
1.23
1.85
2.67
3.89
4.46
5.15
DCR (Ω)
@ +25 °C
Maximum
0.0048
0.0080
0.0117
0.019
0.026
0.040
0.049
0.064
0.077
0.112
0.170
0.219
0.330
0.476
0.636
0.731
1.12
1.48
2.22
3.20
4.66
5.35
6.18
K-Factor
5
636.5
353.6
289.3
212.2
187.2
151.6
127.3
117.9
102.7
86.0
70.7
57.9
47.5
40.3
36.6
32.8
27.2
21.9
18.2
15.2
12.8
11.5
10.3
Part
Number
6
DRA73-R33-R
DRA73-1R0-R
DRA73-1R5-R
DRA73-2R2-R
DRA73-3R3-R
DRA73-4R7-R
DRA73-6R8-R
DRA73-8R2-R
DRA73-100-R
DRA73-150-R
DRA73-220-R
DRA73-330-R
DRA73-470-R
DRA73-680-R
DRA73-820-R
DRA73-101-R
DRA73-151-R
DRA73-221-R
DRA73-331-R
DRA73-471-R
DRA73-681-R
DRA73-821-R
DRA73-102-R
OCL
1
±20% (µH)
0.29
0.91
1.36
2.52
3.18
4.86
6.63
8.06
10.27
14.98
22.39
31.84
47.83
66.89
83.77
101.7
151.1
218.8
326.4
472.6
682.9
825.3
991.9
I
rms2
(A)
8.42
6.50
5.39
4.18
3.59
2.92
2.62
2.30
2.11
1.74
1.42
1.25
1.02
0.845
0.731
0.682
0.551
0.479
0.391
0.326
0.270
0.252
0.235
I
sat
1
3
(A)
14.8
8.22
6.73
4.93
4.35
3.52
2.96
2.74
2.39
2.00
1.64
1.35
1.10
0.937
0.851
0.763
0.632
0.510
0.423
0.354
0.297
0.267
0.239
I
sat
2
4
(A)
11.8
6.58
5.38
3.95
3.48
2.82
2.37
2.19
1.91
1.60
1.32
1.08
0.884
0.749
0.680
0.610
0.506
0.408
0.338
0.283
0.238
0.214
0.192
1. Open Circuit Inductance (OCL) Test Parameters: 100 kHz, 0.25 V
rms
, 0.0A dc @
+25 °C
2. I
rms
: DC current for an approximate temperature rise of 40 °C without core loss.
Derating is necessary for AC currents. PCB layout, trace thickness and width, air-
flow and proximity of other heat generating components will affect the
temperature rise. It is recommended that the temperature of the part not exceed
+165 °C under worst case operating conditions verified in the end application.
3. I
sat
1: Peak current for approximately 30% rolloff at +25 °C.
4. I
sat
2: Peak current for approximately 40% rolloff at +125 °C.
5. K-factor: Used to determine Bp-p for core loss (see graph). B
p-p
= K * L *
∆I.
B
p-p
:(Gauss), K: (K-factor from table), L: (Inductance in µH),
∆I
(peak-to-peak ripple
current in amps).
6. Part Number Definition: DRAxxx-yyy-R
•
DRAxxx = Product code and size
•
yyy= Inductance value in uH, R = decimal point,
if no R is present then third character = number of zeros.
•
-R suffix = RoHS compliant
2
www.eaton.com/electronics
DRA
Automotive grade
High power density, high efficiency, shielded drum core power inductors
Product specifications
DCR (Ω)
@
+25
°C
Typical
0.0054
0.0078
0.0092
0.012
0.016
0.024
0.034
0.040
0.043
0.067
0.100
0.151
0.219
0.286
0.367
0.419
0.648
0.960
1.50
1.93
2.86
3.63
4.19
Technical Data
4319
Effective January 2018
Part
Number
6
DRA74-R33-R
DRA74-1R0-R
DRA74-1R5-R
DRA74-2R2-R
DRA74-3R3-R
DRA74-4R7-R
DRA74-6R8-R
DRA74-8R2-R
DRA74-100-R
DRA74-150-R
DRA74-220-R
DRA74-330-R
DRA74-470-R
DRA74-680-R
DRA74-820-R
DRA74-101-R
DRA74-151-R
DRA74-221-R
DRA74-331-R
DRA74-471-R
DRA74-681-R
DRA74-821-R
DRA74-102-R
OCL
1
±20% (µH)
0.29
0.90
1.31
2.33
3.05
4.68
6.51
8.51
9.62
15.14
22.25
33.21
46.56
68.37
81.45
98.50
150.9
218.9
328.9
471.5
682.8
815.0
1001.7
I
rms2
(A)
7.26
6.01
5.55
4.82
4.16
3.41
2.91
2.66
2.56
2.06
1.68
1.37
1.14
0.996
0.879
0.822
0.661
0.544
0.435
0.383
0.315
0.279
0.260
I
sat
1
3
(A)
18.4
10.2
8.36
6.13
5.41
4.38
3.68
3.17
2.97
2.36
1.96
1.61
1.37
1.11
1.03
0.929
0.748
0.626
0.514
0.420
0.352
0.327
0.292
I
sat
2
4
(A)
14.7
8.18
6.69
4.91
4.33
3.50
2.94
2.54
2.37
1.89
1.57
1.29
1.10
0.887
0.827
0.743
0.598
0.501
0.411
0.336
0.282
0.262
0.234
DCR (Ω)
@
+25
°C
Maximum
0.0064
0.0094
0.0110
0.015
0.020
0.029
0.040
0.048
0.052
0.080
0.120
0.181
0.263
0.343
0.440
0.503
0.780
1.15
1.79
2.31
3.43
4.35
5.02
K-Factor
5
547.9
304.4
249.0
182.6
161.1
130.4
109.6
94.5
88.4
70.2
58.3
48.1
40.9
33.0
30.8
27.7
22.3
18.6
15.3
12.5
10.5
9.7
8.7
1. Open Circuit Inductance (OCL) Test Parameters: 100 kHz, 0.25 V
rms
, 0.0 Adc @
+25 °C
2. I
rms
: DC current for an approximate temperature rise of 40 °C without core loss.
Derating is necessary for AC currents. PCB layout, trace thickness and width, air-
flow and proximity of other heat generating components will affect the
temperature rise. It is recommended that the temperature of the part not exceed
+165 °C under worst case operating conditions verified in the end application.
3. I
sat
1: Peak current for approximately 30% rolloff at +25 °C.
4. I
sat
2: Peak current for approximately 40% rolloff at +125 °C.
5. K-factor: Used to determine Bp-p for core loss (see graph). B
p-p
= K * L *
∆I.
B
p-p
:(Gauss), K: (K-factor from table), L: (Inductance in µH),
∆I
(peak-to-peak ripple
current in amps).
6. Part Number Definition: DRAxxx-yyy-R
•
DRAxxx = Product code and size
•
yyy= Inductance value in uH, R = decimal point,
if no R is present then third character = number of zeros.
•
-R suffix = RoHS compliant
www.eaton.com/electronics
3
Effective January 2018
Technical Data
4319
DRA
Automotive grade
High power density, high efficiency, shielded drum core power inductors
Product specifications
DCR (Ω)
@
+25
°C
Typical
0.0024
0.0031
0.0049
0.0070
0.0090
0.014
0.021
0.028
0.031
0.044
0.071
0.108
0.134
0.201
0.257
0.296
0.454
0.568
0.892
1.32
1.96
2.57
2.94
DCR (Ω)
@
+25
°C
Maximum
0.0028
0.0038
0.0058
0.0090
0.011
0.017
0.026
0.034
0.038
0.053
0.086
0.130
0.160
0.241
0.309
0.355
0.550
0.680
1.070
1.58
2.35
3.09
3.52
K-Factor
5
196.9
140.7
109.4
89.5
75.7
57.9
46.9
42.8
39.4
34.0
26.6
21.9
18.6
15.1
14.3
12.8
10.4
8.7
7.0
5.8
4.9
4.5
4.0
Part
Number
6
DRA124-R47-R
DRA124-1R0-R
DRA124-1R5-R
DRA124-2R2-R
DRA124-3R3-R
DRA124-4R7-R
DRA124-6R8-R
DRA124-8R2-R
DRA124-100-R
DRA124-150-R
DRA124-220-R
DRA124-330-R
DRA124-470-R
DRA124-680-R
DRA124-820-R
DRA124-101-R
DRA124-151-R
DRA124-221-R
DRA124-331-R
DRA124-471-R
DRA124-681-R
DRA124-821-R
DRA124-102-R
OCL
1
±20% (µH)
0.42
0.82
1.36
2.04
2.79
4.74
7.28
8.88
10.37
14.10
23.00
34.13
46.27
69.77
80.57
98.80
151.7
209.6
326.9
473.0
682.1
826.7
1001.0
I
rms2
(A)
13.5
11.7
9.36
7.64
6.94
5.47
4.46
3.87
3.67
3.10
2.44
1.98
1.78
1.45
1.29
1.20
0.967
0.865
0.690
0.568
0.466
0.406
0.380
I
sat
1
3
(A)
30.8
22.0
17.1
14.0
11.9
9.06
7.33
6.70
6.16
5.31
4.16
3.42
2.91
2.37
2.23
2.00
1.62
1.36
1.09
0.911
0.759
0.697
0.629
I
sat
2
4
(A)
24.6
17.6
13.7
11.2
9.48
7.25
5.87
5.36
4.93
4.25
3.33
2.74
2.33
1.90
1.79
1.60
1.30
1.09
0.874
0.729
0.607
0.557
0.503
1. Open Circuit Inductance (OCL) Test Parameters: 100 kHz, 0.25 V
rms
, 0.0 Adc @
+25 °C
2. I
rms
: DC current for an approximate temperature rise of 40 °C without core loss.
Derating is necessary for AC currents. PCB layout, trace thickness and width, air-
flow and proximity of other heat generating components will affect the
temperature rise. It is recommended that the temperature of the part not exceed
+165 °C under worst case operating conditions verified in the end application.
3. I
sat
1: Peak current for approximately 30% rolloff at +25 °C.
4. I
sat
2: Peak current for approximately 40% rolloff at +125 °C.
5. K-factor: Used to determine Bp-p for core loss (see graph). B
p-p
= K * L *
∆I.
B
p-p
:(Gauss), K: (K-factor from table), L: (Inductance in µH),
∆I
(peak-to-peak ripple
current in amps).
6. Part Number Definition: DRAxxx-yyy-R
•
DRAxxx = Product code and size
•
yyy= Inductance value in µH, R = decimal point,
if no R is present then third character = number of zeros.
•
-R suffix = RoHS compliant
4
www.eaton.com/electronics
DRA
Automotive grade
High power density, high efficiency, shielded drum core power inductors
Product specifications
DCR (Ω)
@
+25
°C
Typical
0.0025
0.0034
0.0033
0.0048
0.0073
0.0092
0.012
0.013
0.017
0.027
0.035
0.053
0.081
0.120
0.135
0.178
0.273
0.416
0.543
0.790
1.200
1.360
1.780
Technical Data
4319
Effective January 2018
Part
Number
6
OCL
1
I
rms
(A)
2
I
sat
1
(A)
3
I
sat
2
(A)
4
DCR (Ω)
@
+25
°C
Maximum
0.0030
0.0042
0.0039
0.0058
0.0087
0.011
0.014
0.016
0.021
0.033
0.042
0.064
0.097
0.144
0.162
0.214
0.330
0.500
0.650
0.950
1.440
1.630
2.130
K-Factor
5
176.9
126.4
98.3
80.4
68.0
52.0
46.6
42.1
38.5
30.5
25.3
20.6
16.7
14.0
12.8
11.8
9.5
7.8
6.4
5.4
4.4
4.0
3.7
±20% (µH)
0.45
0.85
1.41
2.12
2.89
4.90
6.23
7.49
9.22
14.67
20.65
31.47
47.83
68.48
80.86
97.60
150.0
222.8
325.1
466.3
683.3
813.6
992.8
DRA125-R47-R
DRA125-1R0-R
DRA125-1R5-R
DRA125-2R2-R
DRA125-3R3-R
DRA125-4R7-R
DRA125-6R8-R
DRA125-8R2-R
DRA125-100-R
DRA125-150-R
DRA125-220-R
DRA125-330-R
DRA125-470-R
DRA125-680-R
DRA125-820-R
DRA125-101-R
DRA125-151-R
DRA125-221-R
DRA125-331-R
DRA125-471-R
DRA125-681-R
DRA125-821-R
DRA125-102-R
14.7
12.7
12.9
10.6
8.63
7.67
6.81
6.41
5.57
4.45
3.95
3.19
2.59
2.13
2.01
1.75
1.41
1.14
1.00
0.826
0.673
0.632
0.552
33.2
23.7
18.4
15.1
12.8
9.76
8.74
7.90
7.22
5.72
4.74
3.86
3.13
2.64
2.41
2.21
1.79
1.47
1.19
1.01
0.834
0.758
0.695
26.6
19.0
14.8
12.1
10.2
7.81
6.99
6.32
5.77
4.58
3.79
3.09
2.51
2.11
1.93
1.77
1.43
1.18
0.96
0.805
0.667
0.606
0.556
1. Open Circuit Inductance (OCL) Test Parameters: 100 kHz, 0.25 V
rms
, 0.0 Adc @
+25 °C
2. I
rms
: DC current for an approximate temperature rise of 40 °C without core loss.
Derating is necessary for AC currents. PCB layout, trace thickness and width, air-
flow and proximity of other heat generating components will affect the
temperature rise. It is recommended that the temperature of the part not exceed
+165 °C under worst case operating conditions verified in the end application.
3. I
sat
1: Peak current for approximately 30% rolloff at +25 °C.
4. I
sat
2: Peak current for approximately 40% rolloff at +125 °C.
5. K-factor: Used to determine Bp-p for core loss (see graph). B
p-p
= K * L *
∆I.
B
p-p
:(Gauss), K: (K-factor from table), L: (Inductance in µH),
∆I
(peak-to-peak ripple
current in amps).
6. Part Number Definition: DRAxxx-yyy-R
•
DRAxxx = Product code and size
•
yyy= Inductance value in µH, R = decimal point,
if no R is present then third character = number of zeros.
•
-R suffix = RoHS compliant
www.eaton.com/electronics
5
