Inductors for Power Circuits Selection Guide (Commercial Grade)
Click on the series names to view detailed information.
Commercial Grade
- Wire Wound
- Multilayer
- Thin-film
Category See here for information on various features. |
Ferrite : No Shield | Ferrite : Resin Shield | Ferrite : Shield | Metal : Resin Shield | Metal : Shield | |
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High Current |
Small Size |
NLCVFor General
0.1 to 330μH |
VLS-CX-1For Mobile
Low Profile
0.24 to 100μH |
MLPFor Mobile
Low Profile
0.47 to 10μH |
VLS-HBX-1For Mobile
High Current
Low Profile
0.33 to 22μH |
PLEA67B NEWFor Mobile
High Current
Low Profile
1.0 to 4.7μH |
MLHFor Mobile
Low Profile
0.22μH |
PLEA85DNEWFor Mobile
High Current
Low Profile
0.47 to 3.3μH |
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TFM-ALC/ALDFor Mobile
High Current
Low Profile
0.47 to 1.0μH |
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VLS-HBUFor Mobile
High Current
Step-up Converter
3.3 to 22μH |
TFM-BLDFor Mobile
High Current
Low Profile
0.11 to 0.33μH |
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TFM-BLENEWFor Mobile
High Current
Low Profile
0.24 to 1.0μH |
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TFM-ALM/GHMFor Mobile
High Current
Low Profile
0.47 to 2.2μH |
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TMS-ALMNEWHigh Current
Low Profile
0.10 to 10μH |
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Middle Size |
VLS-EXWide Inductance
0.47 to 680μH |
VLS-HBX-NHigh Current
Low Profile
0.33 to 22μH |
SPM-LRHigh Current
Low Profile
0.47 to 10μH |
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VLS-AFFor D-Amp
Wide Inductance
3.3 to 100μH |
B82472N400 V
150 to 1000μH |
SPMHigh Current
0.2 to 22μH |
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Large Size |
SPM-XTSuper High Current
0.18 to 2.8μH |
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VLBSuper High Current
0.09 to 0.36μH |
SPM-CTNEW
Super High Current
0.22μH |
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VLBU/VLBSSuper High Current
NEW
0.07 to 0.4μH |
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VLBUCSuper High Current
NEW
0.07 to 0.20μH |
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Large Size |
B82559S*M023NEW
150℃
2.6 to 7.9 uH |
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Very Large Size |
B82559Super High Current
0.44 to 35μH |
Features
Process | Wire Wound | These products have a structure consisting of a core with copper wires wound around it. The use of thick copper wires can reduce the DC resistance, making them suitable for applications with large currents. Composite-type products (SPM series), whose wire wound coils are integrally molded using magnetic metal powder, are also available, and are effective in countermeasures against coil acoustic noise. |
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Multi Layer | Metal conductors are printed on sheets which are then laminated to create coils. These products are well-suited to achieving smaller product sizes and lower profiles, with excellent mass-producibility. | |
Thin Film | Thin film processing is employed to make high-density pattern forming possible. Combinations with metallic magnetic materials make these products suitable for applications requiring small sizes and low profiles, as well as large currents. | |
Magnetic Material | Ferrite | These products have high μ and are suitable for high-inductance applications. They also possess consistent DC superimposition characteristics, demonstrating stable properties up to the magnetic saturation point. |
Metal | Since these products have small changes in inductance depending on temperature, and are less likely to experience magnetic saturation than ferrite, they possess soft saturation characteristics. | |
Shield Type | No Shield | A simple, open magnetic circuit type with no magnetic shielding on the coil components. |
Resin Shield | The areas around the coil are covered with resin which contains a mixture of magnetic powder such as ferrite and soft magnetic metals. Compared to shielded types, the magnetic shielding effectiveness of these products is limited, but they have good cost balance. | |
Shield | Covering the areas around the coil with a shield core and molding with magnetic materials gives these products a structure similar to a closed magnetic circuit. This type has high magnetic shielding effectiveness with lower magnetic flux leakage than all other types. |