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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.
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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