Skip navigation

Power Inductors, Semi-Shielded (Coated)


End of Life / Lifetime Buy Johanson’s Semi-Shielded, Power Inductors (LPC series) are designed for electronic circuits that demand high power capabilities in the smallest sizes. Offered in 8 different sizes, this series features magnetic shielding, inductance values from 0.68µH to 220µH, and profiles are low as 2.40mm. Ideal applications include DC/DC converters, power supplies, data storage devices, scientific devices, industrial, and consumer electronics.



Product Range Summary

SIZE CODEINDUCTANCE RANGERATED CURRENT RANGE
Based on Inductance Change
RATED CURRENT RANGE
Based on Temperature Rise
DC RESISTANCE RANGEOPERTING 1
TEMPERTURE RANGE
24100.68 - 22.0 μH0.40 - 2.60 A0.40 - 2.50 A60 mΩ - 1470 mΩ 
30101.00 - 100.0 μH0.15 - 2.30 A0.18 - 2.30 A50 mΩ - 5.00 Ω
-40ºC to +125ºC
30121.00 - 47.0 μH0.23 - 1.90 A0.35 - 1.71 A45 mΩ - 1250 mΩ
30151.00 - 100.0 μH0.25 - 2.30 A0.30 - 2.30 A28 mΩ - 2100 mΩ
40180.82 - 220.0 μH0.30 - 4.70 A0.28 - 4.00 A16 mΩ - 2960 mΩ
40251.00 - 220.0 μH0.20 - 3.00 A0.20 - 3.00 A12 mΩ - 2300 mΩ
50401.50 - 47.0 μH1.10 - 6.00 A0.90 - 3.60 A15 mΩ - 270 mΩ
60451.00 - 220.0 μH0.55 - 8.60 A0.50 - 6.50 A10 mΩ - 920 mΩ
Consult Factory for values not listed in the product range 1 Including self-generated heat
TEST FREQUENCY: 100KHz, 1V
STORAGE TEMPERATURE: -10ºC to +40ºC, humidity 30 to 70% R.H.
MOISTURE SENSITIVITY LEVEL: MSL - 1
Electrical Schematic: No Polarity
Electrical Schematic no-polarity

2410

UnitsInchesmm
      Not marked
2410 Power Inductor Schematic
L
0.094
±0.004
2.40
±0.10
W0.094
±0.004
2.40
±0.10
T
max
0.039
1.00
 PartMaterial2410 Power Inductor Core
1Ferrite CoreNi-Zn Ferrite
2Copper WireCu / P180 Grd 1
3TerminationAg / Ni / Sn

4
AdhesiveSilicon Base Resin
Magnetic PowderNi-Zn Ferrite
Part NumberInductance
@ 100KHz, 1V
Rated Current Based *1
on Inductance Change
Rated Current Based *2
on Temperature Rise
DC
Resistance
DC Resistance
Tolerance
LPC2410R68NE0.68 μH, ±30%2.60 A2.50 A60 mΩ±30%
LPC24101R0NE1.0 μH, ±30%2.00 A1.90 A70 mΩ±30%
LPC24101R5ME1.5 μH, ±20%1.50 A1.50 A110 mΩ±20%
LPC24102R2ME2.2 μH, ±20%1.30 A1.20 A140 mΩ±20%
LPC24103R3ME3.3 μH, ±20%1.05 A1.00 A220 mΩ±20%
LPC24104R7ME4.7 μH, ±20%0.92 A0.90 A290 mΩ±20%
LPC24106R8ME6.8 μH, ±20%0.75 A0.65 A410 mΩ±20%
LPC2410100ME10.0 μH, ±20%0.60 A0.55 A690 mΩ±20%
LPC2410150ME15.0 μH, ±20%0.50 A0.45 A1020 mΩ±20%
LPC2410220ME22.0 μH, ±20%0.50 A0.45 A1020 mΩ±20%

*1. Idc1: Based on inductance change (△L/Lo: -30%

*2. Idc2: Based on temperature rise (△T: 40ºC TYP.)

3010

UnitsInchesmm
      Not marked
3010 Power Inductor Schematic
L
0.118
±0.004
3.00
±0.10
W0.118
±0.004
3.00
±0.10
T
max
0.039
1.00
PartMaterial3010 Power Inductor Core
1Ferrite CoreNi-Zn Ferrite
2Copper WireCu / P180 Grd 1
3TerminationAg / Ni / Sn
4AdhesiveSilicon Base Resin
Magnetic PowderNi-Zn Ferrite
Part NumberInductance
@ 100KHz, 1V
Rated Current Based *1
on Inductance Change
Rated Current Based *2
on Temperature Rise
DC
Resistance
DC Resistance
Tolerance
LPC30101R0NE1.0 μH, ±30%2.30 A2.30 A50 mΩ±25%
LPC30101R2NE1.2 μH, ±30%2.10 A2.10 A62 mΩ±30%
LPC30101R5NE1.5 μH, ±30%1.90 A2.00 A70 mΩ±30%
LPC30102R2ME2.2 μH, ±20%1.80 A1.90 A80 mΩ±20%
LPC30103R3ME3.3 μH, ±20%1.70 A1.80 A130 mΩ±20%
LPC30104R7ME4.7 μH, ±20%1.30 A1.70 A175 mΩ±20%
LPC30106R8ME6.8 μH, ±20%0.90 A1.30 A260 mΩ±20%
LPC3010100ME10.0 μH, ±20%0.80 A0.90 A350 mΩ±20%
LPC3010150ME15.0 μH, ±20%0.70 A0.80 A510 mΩ±20%
LPC3010220ME22.0 μH, ±20%0.50 A0.70 A780 mΩ±20%
LPC3010330ME33.0 μH, ±20%0.35 A0.50 A1.10 Ω±20%
LPC3010470ME47.0 μH, ±20%0.28 A0.35 A1.60 Ω±20%
LPC3010101ME100.0 μH, ±20%0.15 A0.18 A5.00 Ω±20%

*1. Idc1: Based on inductance change (△L/Lo: -30%

*2. Idc2: Based on temperature rise (T: 40ºC TYP.)

Notes: Inductance is measured in HP-4285A Precision LCR Meter.

RDC measured in DU-5011 milli ohm meter (or equivalent).

3012

UnitsInchesmm
         Not marked
3012 Power Inductor Schematic
L0.118
±0.004
3.00
±0.10
W0.118
±0.004
3.00
±0.10
T
max
0.047
1.20
PartMaterial3012 Power Inductor Core
1Ferrite CoreNi-Zn Ferrite
2Copper WireCu / P180 Grd 1
3TerminationAg / Ni / Sn

4
AdhesiveSilicon Base Resin
Magnetic PowderNi-Zn Ferrite
Part NumberInductance
@ 100KHz, 1V
Rated Current Based *1
on Inductance Change
Rated Current Based *2
on Temperature Rise
DC
Resistance
DC Resistance
Tolerance
LPC30121R0NE1.0 μH, ±30%1.90 A1.71 A45 mΩ±20%
LPC30121R5NE1.5 μH, ±30%1.50 A1.60 A55 mΩ±20%
LPC30122R2ME2.2 μH, ±30%1.25 A1.37 A60 mΩ±20%
LPC30122R7ME2.7 μH, ±20%1.20 A1.21 A90 mΩ±20%
LPC30123R3ME3.3 μH, ±20%1.05 A1.06 A90 mΩ±20%
LPC30124R7ME4.7 μH, ±20%0.90 A0.89 A150 mΩ±20%
LPC30126R8ME6.8 μH, ±20%0.70 A0.89 A190 mΩ±20%
LPC3012100ME10.0 μH, ±20%0.60 A0.72 A270 mΩ±20%
LPC3012150ME15.0 μH, ±20%0.50 A0.57 A450 mΩ±20%
LPC3012220ME22.0 μH, ±20%0.40 A0.50 A550 mΩ±20%
LPC3012330ME33.0 μH, ±20%0.30 A0.41 A900 mΩ±20%
LPC3012470ME47.0 μH, ±20%0.23 A0.35 A1250 mΩ±20%

*1. Idc1: Based on inductance change (△L/Lo: -30%

*2. Idc2: Based on temperature rise (T: 40ºC TYP.)

3015

UnitsInchesmm
         Not marked
3015 Power Inductor Schematic
L0.118
±0.004
3.00
±0.10
W0.118
±0.004
3.00
±0.10
T
max
0.059
1.50
PartMaterial3015 Power Inductor Core
1Ferrite CoreNi-Zn Ferrite
2Copper WireCu / P180 Grd 1
3TerminationAg / Ni / Sn

4
AdhesiveSilicon Base Resin
Magnetic PowderNi-Zn Ferrite
Part NumberInductance
@ 100KHz, 1V
Rated Current Based *1
on Inductance Change
Rated Current Based *2
on Temperature Rise
DC
Resistance
DC Resistance
Tolerance
LPC30151R0NE1.0 μH, ±30%2.30 A2.30 A45 mΩ±20%
LPC30151R5NE1.5 μH, ±30%2.10 A2.10 A55 mΩ±30%
LPC30152R2ME2.2 μH, ±20%1.62 A2.00 A60 mΩ±20%
LPC30152R7ME2.7 μH, ±20%1.50 A1.95 A90 mΩ±20%
LPC30153R3ME3.3 μH, ±20%1.35 A1.80 A90 mΩ±20%
LPC30154R7ME4.7 μH, ±20%1.20 A1.60 A150 mΩ±20%
LPC30155R6ME5.6 μH, ±20%1.00 A1.40 A190 mΩ±20%
LPC30156R8ME6.8 μH, ±20%0.97 A1.30 A150 mΩ±20%
LPC3015100ME10.0 μH, ±20%0.80 A1.10 A220 mΩ±20%
LPC3015150ME15.0 μH, ±20%0.65 A1.00 A300 mΩ±20%
LPC3015180ME18.0 μH, ±20%0.57 A0.90 A410 mΩ±20%
LPC3015220ME22.0 μH, ±20%0.55 A0.80 A475 mΩ±20%
LPC3015330ME33.0 μH, ±20%0.45 A0.70 A650 mΩ±20%
LPC3015390ME39.0 μH, ±20%0.40 A0.50 A850 mΩ±20%
LPC3015470ME47.0 μH, ±20%0.35 A0.45 A1100 mΩ±20%
LPC3015680ME68.0 μH, ±20%0.30 A0.35 A 1700 mΩ±20%
LPC3015820ME82.0 μH, ±20%0.27 A0.32 A1900 mΩ±20%
LPC3015101ME100.0 μH, ±20%0.25 A0.30 A2100 mΩ±20%

*1. Idc1: Based on inductance change (△L/Lo: -30%

*2. Idc2: Based on temperature rise (△T: 40ºC TYP.)

4018

UnitsInchesmm
      Marked
4018 Power Inductor Schematic
L0.157
±0.008
4.00
±0.20
W0.157
±0.008
4.00
±0.20
T
max
(R82-2R7) 0.0741.88
(3R3-221) 0.071 1.80
PartMaterial4018 Power Inductor Core
1Ferrite CoreNi-Zn Ferrite
2Copper WireCu / P180 Grd 1
3TerminationAg / Ni / Sn

4
AdhesiveSilicon Base Resin
Magnetic PowderNi-Zn Ferrite
Part NumberInductance
@ 100KHz, 1V
Rated Current Based *1
on Inductance Change
Rated Current Based *2
on Temperature Rise
DC
Resistance
DC Resistance
Tolerance
Marking
LPC4018R82NE0.82 μH, ±30%4.20 A4.00 A16 mΩ±30%R82
LPC40181R0NE1.0 μH, ±30%4.70 A3.70 A19 mΩ±30%1R0
LPC40181R2NE1.2 μH, ±30%4.00 A3.50 A21 mΩ±30%1R2
LPC40181R5NE1.5 μH, ±30%3.50 A3.10 A27 mΩ±30%1R5
LPC40182R2ME2.2 μH, ±20%3.00 A2.90 A37 mΩ±20%2R2
LPC40182R7ME2.7 μH, ±20%2.40 A2.30 A43 mΩ±20%2R7
LPC40183R3ME3.3 μH, ±20%2.30 A2.20 A55 mΩ±20%3R3
LPC40184R7ME4.7 μH, ±20%2.00 A1.90 A70 mΩ±20%4R7
LPC40186R8ME6.8 μH, ±20%1.60 A1.50 A98 mΩ±20%6R8
LPC4018100ME10.0 μH, ±20%1.40 A1.30 A150 mΩ±20%100
LPC4018150ME15.0 μH, ±20%1.10 A1.00 A220 mΩ±20%150
LPC4018220ME22.0 μH, ±20%0.95 A0.90 A290 mΩ±20%220
LPC4018330ME33.0 μH, ±20%0.75 A0.70 A460 mΩ±20%330
LPC4018470ME47.0 μH, ±20%0.62 A0.60 A650 mΩ±20%470
LPC4018680ME68.0 μH, ±20%0.50 A0.50 A940 mΩ±20%680
LPC4018101ME100.0 μH, ±20%0.45 A0.42 A 1300 mΩ±20%101
LPC4018151ME150.0 μH, ±20%0.35 A0.32 A2000 mΩ±20%151
LPC4018221ME220.0 μH, ±20%0.30 A0.28 A2960 mΩ±20%221

*1. Idc1: Based on inductance change (△L/Lo: -30%

*2. Idc2: Based on temperature rise (△T: 40ºC TYP.)

4025

UnitsInchesmm
        Marked
4025 Power Inductor Schematic
L0.157±0.0084.00±0.20
W0.157±0.0084.00±0.20
T
max
0.098 2.50
PartMaterial4025 Power Inductor Core
1Ferrite CoreNi-Zn Ferrite
2Copper WireCu / P180 Grd 1
3TerminationAg / Ni / Sn

4
AdhesiveSilicon Base Resin
Magnetic PowderNi-Zn Ferrite
Part NumberInductance
@ 100KHz, 1V
Rated Current Based *1
on Inductance Change
Rated Current Based *2
on Temperature Rise
DC
Resistance
DC Resistance
Tolerance
Marking
LPC40251R0NE 1.0 μH, ±30% 3.00 A 3.00 A 12 mΩ±30% 1R0
LPC40251R2NE 1.2 μH, ±30% 2.75 A 2.75 A 18 mΩ±30% 1R2
LPC40252R2NE 2.2 μH, ±30% 2.10 A 2.10 A 22 mΩ±30% 2R2
LPC40253R3ME 3.3 μH, ±20% 1.60 A 1.60 A 30 mΩ ±20% 3R3
LPC40254R7ME 4.7 μH, ±20% 1.40 A 1.40 A 40 mΩ±20% 4R7
LPC40256R8ME 6.8 μH, ±20% 1.20 A 1.20 A 70 mΩ±20% 6R8
LPC4025100ME 10.0 μH, ±20% 0.97 A 0.97 A 85 mΩ±20% 100
LPC4025150ME 15.0 μH, ±20% 0.77 A 0.77 A 120 mΩ±20% 150
LPC4025220ME 22.0 μH, ±20% 0.67 A 0.67 A 195 mΩ±20% 220
LPC4025330ME 33.0 μH, ±20% 0.50 A 0.50 A 305 mΩ±20% 330
LPC4025470ME 47.0 μH, ±20% 0.40 A 0.40 A 495 mΩ±20% 470
LPC4025680ME 68.0 μH, ±20% 0.35 A 0.35 A 710 mΩ±20% 680
LPC4025101ME 100.0 μH, ±20% 0.30 A 0.30 A 1000 mΩ±20% 101
LPC4025151ME 150.0 μH, ±20% 0.22 A 0.22 A 1600 mΩ±20% 151
LPC4025221ME 220.0 μH, ±20% 0.20 A 0.20 A 2300 mΩ±20% 121

*1. Idc1: Based on inductance change (△L/Lo: -30%

*2. Idc2: Based on temperature rise (△T: 40ºC TYP.)

5040

UnitsInchesmm
      Marked
5040 Power Inductor Schematic
L0.197±0.0085.00±0.20
W0.197±0.0085.00±0.20
T
max
0.157 4.00
PartMaterial5040 Power Inductor Core
1Ferrite CoreNi-Zn Ferrite
2Copper WireCu / P180 Grd 1
3TerminationAg / Ni / Sn

4
AdhesiveSilicon Base Resin
Magnetic PowderNi-Zn Ferrite
Part NumberInductance
@ 100KHz, 1V
Rated Current Based *1
on Inductance Change
Rated Current Based *2
on Temperature Rise
DC
Resistance
DC Resistance
Tolerance
Marking
LPC50401R5NE1.5 μH, ±30%6.00 A3.60 A15 mΩ±20%1R5
LPC50402R2NE2.2 μH, ±30%4.60 A3.50 A17 mΩ±20%2R2
LPC50403R3ME3.3 μH, ±20%3.80 A3.30 A22 mΩ±20%3R3
LPC50404R7ME4.7 μH, ±20%3.30 A3.10 A29 mΩ±20%4R7
LPC50406R8ME6.8 μH, ±20%2.60 A2.30 A49 mΩ±20%6R6
LPC50408R2ME8.2 μH, ±20%2.40 A2.20 A54 mΩ±20%8R2
LPC5040100ME10.0 μH, ±20%2.30 A2.10 A56 mΩ±20%100
LPC5040150ME15.0 μH, ±20%2.00 A1.80 A80 mΩ±20%150
LPC5040220ME22.0 μH, ±20%1.60 A1.40 A126 mΩ±20%220
LPC5040270ME27.0 μH, ±20%1.40 A1.30 A165 mΩ±20%270
LPC5040330ME33.0 μH, ±20%1.30 A1.20 A180 mΩ±20%330
LPC5040470ME47.0 μH, ±20%1.10 A0.90 A270 mΩ±20%470

*1. Idc1: Based on inductance change (△L/Lo: -30%

*2. Idc2: Based on temperature rise (△T: 40ºC TYP.)

6045

UnitsInchesmm
      Marked
6045 Power Inductor Schematic
L0.236±0.0086.00±0.20
W0.236±0.0086.00±0.20
T
max
0.177 4.50
PartMaterial6045 Power Inductor Core
1Ferrite CoreNi-Zn Ferrite
2Copper WireCu / P180 Grd 1
3TerminationAg / Ni / Sn

4
AdhesiveSilicon Base Resin
Magnetic PowderNi-Zn Ferrite
Part NumberInductance
@ 100KHz, 1V
Rated Current Based *1
on Inductance Change
Rated Current Based *2
on Temperature Rise
DC
Resistance
DC Resistance
Tolerance
Marking
LPC60451R0NE1.0 μH, ±30%8.60 A6.50 A10 mΩ±30%1R0
LPC60451R3NE1.3 μH, ±30%8.00 A6.00 A11 mΩ±30%1R3
LPC60451R8NE1.8 μH, ±20%7.00 A5.30 A12 mΩ±30%1R8
LPC60452R2NE2.2 μH, ±20%6.10 A5.00 A13 mΩ±30%2R2
LPC60453R0NE3.0 μH, ±20%5.00 A4.80 A17 mΩ±30%3R0
LPC60453R3NE3.3 μH, ±20%4.50 A4.50 A17 mΩ±30%3R3
LPC60454R5NE4.5 μH, ±20%4.30 A3.80 A23 mΩ±30%4R5
LPC60454R7NE4.7 μH, ±20%4.00 A3.70 A23 mΩ±30%4R7
LPC60455R6NE5.6 μH, ±20%3.80 A3.60 A26 mΩ±30%5R6
LPC60456R3NE6.3 μH, ±20%3.80 A3.60 A26 mΩ±30%6R3
LPC60456R8NE6.8 μH, ±20%3.60 A3.50 A34 mΩ±30%6R8
LPC60458R2NE8.2 μH, ±20%3.20 A3.10 A41 mΩ±30%8R2
LPC6045100ME10.0 μH, ±20%3.10 A3.00 A45 mΩ±20%100
LPC6045150ME15.0 μH, ±20%2.30 A2.30 A80 mΩ±20%150
LPC6045220ME22.0 μH, ±20%1.90 A1.90 A112 mΩ±20%220
LPC6045330ME33.0 μH, ±20%1.50 A1.50 A170 mΩ±20%330
LPC6045470ME47.0 μH, ±20%1.30 A1.30 A210 mΩ±20%470
LPC6045560ME56.0 μH, ±20%1.20 A1.20 A270 mΩ±20%560
LPC6045680ME68.0 μH, ±20%1.00 A1.00 A325 mΩ±20%680
LPC6045101ME100.0 μH, ±20%0.90 A0.90 A460 mΩ±20%101
LPC6045221ME220.0 μH, ±20%0.55 A0.50 A920 mΩ±20%221

*1. Idc1: Based on inductance change (△L/Lo: -30%

*2. Idc2: Based on temperature rise (△T: 40ºC TYP.)

Environmental

SPECIFICATIONTEST PARAMETERS
VIBRATIONΔL/Lo : ≤ ±10% There shall be no mechanical damageSolder specimen inductor on the test printed circuit board. Apply vibrations in each of the x, y and z directions for 2 house for a total of 6 hours. Frequency : 10 to 50 Hz Amplitude : 1.5mm
SOLDERABILITYThe metalized area must have 90% minimum solder coverage.Dip pads in flux and dip in solder pot (NP303) at 240ºC ±5ºC
HIGH TEMPERATURE RESISTANCEΔL/Lo : ≤ ±10% There shall be no mechanical damage or electrical damage.The sample shall be left for 96 hours in an atmosphere with a temperature of 85±2ºC and a normal humidity. Upon completion of the test, the measurement shall be made after the sample has been left in a normal temperature and normal humidity for 1 hour.
LOW TEMPERATUREΔL/Lo : ≤ ±10% There shall be no mechanical damage or electrical damage.The sample shall be left for 96 hours in an atmosphere with a temperature of –30±2ºC. Upon completion of the test, the measurement shall be made after the sample has been left in a normal temperature and normal humidity for 1 hour.
MOISTURE STORAGE ΔL/Lo : ≤ ±10% There shall be no mechanical damageThe sample shall be left for 96 hours in a temperature of 40±2ºC and a humidity(RH) of 90~95%. Upon completion of the test, the measurement shall be made after the sample has been left in a normal temperature and normal humidity more than 1 hour.
SUBSTRATE BENDING L/Lo : ≤ ±10% There shall be no mechanical damage or electrical damageThe sample shall be soldered onto the printed circuit board and a load applied until the figure in the arrow direction is made approximately 3mm (keep time 5 ±1 seconds).
Substrate Bending
THERMAL SHOCKΔL/Lo : ≤ ±10% There shall be no damage or problems.The sample shall be subject to 5 continous cycles, such as shown in the following temperature cycle. Measure the test items after leaving the inductors at room temperature and humidity for 1 hour.
TPI Thermal Shock
COMPONENT ADHESION (PUSH TEST)10N Min (LPC 2410, 3010)
12N Min (LPC 3012, 3015,
4018, 4025, 5040, 6045)
The device should be reflow soldered (245 ±5ºC for 10 seconds) to a copper substrate a dynamometer force gauge should be applied to the side of the component the device must withstand a minimum force of 10N or 12N without failure of the termination attached to the component.

Soldering

RECOMMENDED FOOTPRINT:

Size CodesUnits24103010301230154018402550406045
AIn0.0310.0310.0310.0310.0590.0590.0590.063
mm0.8000.8000.8000.8001.5001.5001.5001.600
BIn0.0790.0790.1060.1060.1420.1420.1570.244
mm2.0002.0002.7002.7003.6003.6004.0005.700
CIn0.0980.0980.0870.0870.1790.1790.2010.248
mm2.5002.5002.2002.2004.5504.5505.1006.300

RECOMMENDED SOLDER ATTACHMENT: REFLOW SOLDERING:

Reflow: 2 times max

Peak Temperature: 255ºC

Max Time Above 217ºC: 90 sec max

If hand soldering must be used, follow these precautions:

Use solder iron of less than 30W when soldering.

Do not allow soldering iron tip to directly touch the ferrite body outside of the terminal electrode.

2 seconds maximum at 280ºC.

REEL DIMENSIONS (Unit: mm)

7” DIA. REEL SIZE
SIZE CODEREEL QTYTAPE TYPETAPE CODE
24102000EmbossedE
30102000EmbossedE
30122000EmbossedE
30152000EmbossedE
13” DIA. REEL SIZE
SIZE CODEREEL QTYTAPE TYPETAPE CODE
40183000EmbossedE
40253000EmbossedE
50401000EmbossedE
60451000EmbossedE

TAPPING FIGURE

TAPE DIMENSIONS (Unit: mm)

Size CodesA0B0K0TWEFDD1PP2Po10Po
24102.752.751.300.238.001.753.501.501.004.002.004.0040.00
30103.303.301.400.238.001.753.501.501.004.002.004.0040.00
30123.303.301.400.238.001.753.501.501.004.002.004.0040.00
30153.303.301.700.238.001.753.501.501.004.002.004.0040.00
40184.504.351.900.2512.001.755.501.501.508.002.004.0040.00
40254.204.202.750.3012.001.755.501.501.508.002.004.0040.00
50405.355.804.700.4016.001.755.501.501.508.002.004.0040.00
60456.306.304.700.4016.001.757.501.501.5012.002.004.0040.00

PACKAGING FORM (Unit: mm)

Size CodesABC
2410160804
3010160808
3012160808
3015160808
40184002008
40254002008
50404002008
604540020012

Features:

  • High Current Performance
  • Small and Low Profile Inductors
  • Magnetic shielding
  • Available for automatic mounting in tape and reel package

APPLICATIONS:

  • DC/DC Converter
  • Power Supplies
  • Industrial
  • Data Storage Devices
  • Consumer Electronics