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LPE-6562_08 Datasheet, PDF (1/3 Pages) Vishay Siliconix – Surface Mount Transformers/Inductors, Gapped and Ungapped, Custom Configurations Available
LPE-6562
Vishay Dale
Surface Mount Transformers/Inductors,
Gapped and Ungapped, Custom Configurations Available
DIMENSIONS in inches [millimeters]
Pad Layout
0.092 [2.34] Pad Dimensions
Typical, 10 places
0.100 [2.54]
0.058
[1.47]
0.545
[13.84]
0.603
[15.32]
Reference Only
Typical
4 places
Dimensional Outline
6
10
5
0.606
[15.39]
Max.
1
0.335 [8.51]
Max.
0.695
[17.65]
Max.
0.100
[2.54]
Typ.
0.575
[14.60]
0.028
[0.71]
0.028
[0.71]
Foot print Diagram
NOTE: Pad layout guidelines per MIL-STD-275E
(printed wiring for electronic equipment).
Tolerances: xx ± 0.01" [± 0.25 mm]. xxx ± 0.005"
[± 0.12 mm].
The underside of these components contains
metal and thus should not come into contact with
active circuit traces.
ELECTRICAL SPECIFICATIONS
(Multiple winds are connected in parallel)
Inductance Range: 10 µH to 330 000 µH, measured at 0.10 V RMS
at 10 kHz without DC current, using an HP 4263A or HP 4284A
impedance analyzer
RoHS
DC Resistance Range: 0.03 Ω to 53.7 Ω, measured at + 25 °C ± 5 °C COMPLIANT
Rated Current Range: 3.00 amps to 0.06 amps
Dielectric Withstanding Voltage: 500 V RMS, 60 Hz, 5 seconds
STANDARD ELECTRICAL SPECIFICATIONS
MODEL
DCR MAX. RATED* SATURATING
IND. IND. SCHEMATIC MAX. DC CURRENT CURRENT**
(µH) TOL. LETTER (Ω)
(Amps)
(Amps)
Ungapped Models (A)
LPE6562ER221NU
220 ± 30 %
A
0.28
0.90
N/A
LPE6562ER331NU
330 ± 30 %
A
0.34
0.81
N/A
LPE6562ER471NU
470 ± 30 %
A
0.40
0.74
N/A
LPE6562ER681NU
680 ± 30 %
A
0.48
0.67
N/A
LPE6562ER102NU
1000 ± 30 %
A
0.59
0.61
LPE6562ER152NU
1500 ± 30 %
A
0.72
0.55
LPE6562ER222NU
2200 ± 30 %
A
0.87
0.50
LPE6562ER332NU
3300 ± 30 %
A
1.07
0.45
LPE6562ER472NU
4700 ± 30 %
A
1.27
0.41
LPE6562ER682NU
6800 ± 30 %
A
1.53
0.38
LPE6562ER103NU 10 000 ± 30 %
A
1.86
0.34
LPE6562ER153NU 15 000 ± 30 %
A
2.27
0.31
LPE6562ER223NU 22 000 ± 30 %
A
8.67
0.16
LPE6562ER333NU 33 000 ± 30 %
A
10.6
0.14
LPE6562ER473NU 47 000 ± 30 %
A
12.7
0.13
LPE6562ER683NU 68 000 ± 30 %
A
15.2
0.12
LPE6562ER104NU 10 000 ± 30 %
A
18.5
0.11
LPE6562ER154NU 150 000 ± 30 %
A
37.7
0.08
LPE6562ER224NU 220 000 ± 30 %
A
45.6
0.07
LPE6562ER334NU 330 000 ± 30 %
A
53.7
0.06
Gapped Models (B)
LPE6562ER100MG
10 ± 20 %
B
0.03
3.09
LPE6562ER150MG
15 ± 20 %
B
0.04
2.79
LPE6562ER220MG
22 ± 20 %
B
0.05
2.26
LPE6562ER330MG
33 ± 20 %
B
0.08
1.81
LPE6562ER470MG
47 ± 20 %
D
0.12
1.48
LPE6562ER680MG
68 ± 20 %
C
0.19
1.20
LPE6562ER101MG
100 ± 20 %
D
0.29
0.98
LPE6562ER151MG
150 ± 20 %
E
0.45
0.78
LPE6562ER221MG
220 ± 20 %
E
0.54
0.71
LPE6562ER331MG
330 ± 20 %
E
0.84
0.57
LPE6562ER471MG
470 ± 20 %
E
1.24
0.47
LPE6562ER681MG
680 ± 20 %
E
1.89
0.38
LPE6562ER102MG
1000 ± 20 %
E
2.91
0.31
LPE6562ER152MG
1500 ± 20 %
E
4.50
0.25
LPE6562ER222MG
2200 ± 20 %
E
6.90
0.20
LPE6562ER332MG
3300 ± 20 %
E
10.4
0.16
LPE6562ER472MG
4700 ± 20 %
E
15.7
0.13
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
5.055
4.160
3.460
2.840
2.390
1.990
1.650
1.350
1.115
0.912
0.765
0.637
0.526
0.430
0.355
0.290
0.243
* DC current that will create a maximum temperature rise of 30 °C when applied at + 25 °C
ambient. ** DC current that will typically reduce the initial inductance by 20 %.
UNGAPPED MODELS: Highest possible inductance with the lowest DCR and highest Q
capability. Beneficial in filter, impedance matching and line coupling devices.
GAPPED MODELS: Capable of handling large amounts of DC current, tighter inductance
tolerance with better temperature stability than ungapped models. Beneficial in DC to DC
converters or other circuits carrying DC currents or requiring inductance stability over a
temperature range.
DESCRIPTION
LPE 6562
1000 µH
± 30 %
A
ER
e2
MODEL SIZE INDUCTANCE VALUE INDUCTANCE TOLERANCE CORE PACKAGE CODE JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
L
P
E
6
5
6
2
E
R
1
0
2
N
T
PRODUCT FAMILY
SIZE
PACKAGE
CODE
INDUCTANCE
VALUE
TOL. CORE
NOTE Series is also available with SnPb terminations by using package code RY for tape and reel (in place of ER) or SM for bulk (in place of EB).
Document Number: 34066
Revision: 10-Oct-08
For technical questions, contact: magnetics@vishay.com
www.vishay.com
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