SRR6603

22
*R
oH
S
CO
M
PL
IA
N
T
Features
■ Available in E12 series
Applications
■ Unit height of 3 mm
■ Input/output of DC/DC converters
■ Current up to 3 A
■ Power supplies for:
2
•
•
•
•
■ RoHS compliant*
Portable communication equipment
Camcorders
LCD TVs
Car radios
SRR6603 Series - Shielded Power Inductors
General Specifications
Inductance 100 KHz
Test
Frequency
(KHz) Q
SRF
Nom.
(MHz)
RDC
Max.
(Ω)
I rms
(A)
Bourns Part No.
uH
Tol. %
Q
Ref.
SRR6603-1R0ML
1.0
±20
30
200
250
0.040
3.00
1.4
SRR6603-1R5ML
1.5
±20
30
200
125
0.045
2.80
0.93
SRR6603-2R2ML
2.2
±20
40
200
120
0.050
1.80
0.92
SRR6603-3R3ML
3.3
±20
40
200
120
0.055
1.60
0.75
SRR6603-4R7ML
4.7
±20
40
200
105
0.060
1.40
0.58
SRR6603-6R8ML
6.8
±20
40
200
50
0.065
1.20
0.58
SRR6603-100ML
10.0
±20
40
200
38
0.075
1.00
0.37
SRR6603-150ML
15.0
±20
40
100
33
0.090
0.80
0.31
SRR6603-220ML
22.0
±20
40
100
25
0.110
0.70
0.30
SRR6603-330ML
33.0
±20
40
100
20
0.190
0.60
0.24
SRR6603-470ML
47.0
±20
40
100
20
0.230
0.50
0.24
SRR6603-680ML
68.0
±20
40
100
15
0.290
0.40
0.17
SRR6603-101ML
100.0
±20
40
100
10
0.480
0.30
0.13
SRR6603-151ML
150.0
±20
40
100
9
0.590
0.26
0.10
SRR6603-221ML
220.0
±20
40
100
6
0.770
0.22
0.10
SRR6603-331ML
330.0
±20
40
100
5
1.400
0.20
0.07
SRR6603-471ML
470.0
±20
40
100
4
1.800
0.19
0.06
SRR6603-681ML
680.0
±20
40
100
3
2.200
0.18
0.055
SRR6603-102ML
1000.0
±20
40
100
2
3.400
0.15
0.045
SRR6603-152ML
1500.0
±20
50
100
2
4.200
0.12
0.035
SRR6603-222ML
2200.0
±20
50
100
2
8.500
0.10
0.028
SRR6603-332ML
3300.0
±20
50
100
1
11.00
00.08
0.024
SRR6603-472ML
4700.0
±20
50
100
1
13.90
00.06
0.021
SRR6603-682ML
6800.0
±20
50
100
1
25.00
00.04
0.019
SRR6603-103ML
10000.0
±20
50
100
0.8
32.80
00.02
0.017
Schematic
I sat
(A)
Test Voltage ....................................0.1 V
Reflow Soldering .. 250 °C, 10 sec. max.
(In compliance with JEDEC,
J-STD-020C, Table 4-2)
Operating Temperature
................................-55 °C to +125 °C
(Temperature rise included)
Storage Temperature
................................-55 °C to +125 °C
Resistance to Soldering Heat
.......................... 250 °C, 10 sec. max.
Materials
Core ............................... Ferrite DR & RI
Wire ............................Enameled copper
Base ..........................................Ceramic
Terminal ....................................Ag/Ni/Au
Rated Current
...............Ind. drop of 30 % typ. at Isat
Temperature Rise
.....................30 °C max. at rated Irms
Packaging .................... 600 pcs. per reel
Product Dimensions
6.60
MAX.
(.260)
220
Electrical Specifications
4.40
MAX.
(.173)
3.00
MAX.
(.118)
Recommended Layout
4.10
(.161)
REF.
1.60
(.063)
REF.
7.00
(.276)
3.00
(.118)
REF.
2.50 ± 0.10
(.098 ± .004)
1.24 ± 0.10
(.049 ± .004)
4.45 ± 0.10
(.175 ± .004)
DIMENSIONS:
*RoHS Directive 2002/95/EC Jan. 27, 2003 including annex and RoHS Recast 2011/65/EU June 8, 2011.
Specifications are subject to change without notice.
The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time.
Users should verify actual device performance in their specific applications.
MM
(INCHES)
SRR6603 Series - Shielded Power Inductors
Soldering Profile
300
<1> Max. of 10 seconds at 250 °C
<2> Max. of 30 seconds > 220 °C
250 °C
250
<1>
<2>
Temperature (°C)
200
150
120 - 150 seconds
100
Ramp-down
5 °C/second maximum
50
Ramp-up
4 °/second maximum
0
0
50
100
150
200
250
300
Time (seconds)
Packaging Specifications
178
DIA.
(7.00)
2.0 ± 0.5
(.079 ± .020)
16.5
(.650)
THICKNESS
0.10
(.004)
MAX.
13.0 ± 0.5
(.512 ± .020)
DIA.
21.0 ± 0.8
(.827 ± .031)
EMBOSSED
CAVITY
50.0
(1.969)
13.0 ± 0.5
DIA.
(.512 ± .020)
EMBOSSED
CARRIER
14
(.551)
12.0
(.472)
12.0
(.472)
4
(.157)
END
220
220
220
START
DIMENSIONS:
2
MM
(INCHES)
8
(.315)
NO COMPONENT
160
(6.299)
NO COMPONENT
COMPONENTS
390
(15.354)
USER DIRECTION OF FEED
QTY: 600 PCS. PER REEL
REV. 10/13
Specifications are subject to change without notice.
The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time.
Users should verify actual device performance in their specific applications.