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TDK |
INDUCTORS Magnetic shield type wound inductor for power circuits using a metallic magnetic material. Compared to ferrite wound type inductors, it is possible to achieve large current, low Rdc, and compactness. Low inductance variance in high-temperature enviro |
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TDK |
INDUCTORS Magnetic shield type wound inductor for power circuits using a metallic magnetic material. Compared to ferrite wound type inductors, it is possible to achieve large current, low Rdc, and compactness. Low inductance variance in high-temperature enviro |
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TDK |
INDUCTORS Magnetic shield type wound inductor for power circuits using a metallic magnetic material. Compared to ferrite wound type inductors, it is possible to achieve large current, low Rdc, and compactness. Low inductance variance in high-temperature enviro |
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TDK |
INDUCTORS Magnetic shield type wound inductor for power circuits using a metallic magnetic material. Compared to ferrite wound type inductors, it is possible to achieve large current, low Rdc, and compactness. Low inductance variance in high-temperature enviro |
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TDK |
INDUCTORS Metal composite type wound inductor for power circuits using a metallic magnetic material. Compared to ferrite wound type inductors, low Rdc and miniaturization can be realized due to superior DC superimposition characteristics of metallic magnetic m |
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TDK |
INDUCTORS Magnetic shield type wound inductor for power circuits using a metallic magnetic material. Compared to ferrite wound type inductors, it is possible to achieve large current, low Rdc, and compactness. Low inductance variance in high-temperature enviro |
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TDK |
INDUCTORS Magnetic shield type wound inductor for power circuits using a metallic magnetic material. Compared to ferrite wound type inductors, it is possible to achieve large current, low Rdc, and compactness. Low inductance variance in high-temperature enviro |
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TDK |
INDUCTORS Magnetic shield type wound inductor for power circuits using a metallic magnetic material. Compared to ferrite wound type inductors, it is possible to achieve large current, low Rdc, and compactness. Low inductance variance in high-temperature enviro |
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|
TDK |
INDUCTORS Magnetic shield type wound inductor for power circuits using a metallic magnetic material. Compared to ferrite wound type inductors, it is possible to achieve large current, low Rdc, and compactness. Low inductance variance in high-temperature enviro |
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|
TDK |
INDUCTORS Magnetic shield type wound inductor for power circuits using a metallic magnetic material. Compared to ferrite wound type inductors, it is possible to achieve large current, low Rdc, and compactness. Low inductance variance in high-temperature enviro |
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TDK |
INDUCTORS Magnetic shield type wound inductor for power circuits using a metallic magnetic material. Compared to ferrite wound type inductors, it is possible to achieve large current, low Rdc, and compactness. Low inductance variance in high-temperature enviro |
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|
TDK |
INDUCTORS Magnetic shield type wound inductor for power circuits using a metallic magnetic material. Compared to ferrite wound type inductors, it is possible to achieve large current, low Rdc, and compactness. Low inductance variance in high-temperature enviro |
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|
TDK |
INDUCTORS Metal composite type wound inductor for power circuits using a metallic magnetic material. Compared to ferrite wound type inductors, low Rdc and miniaturization can be realized due to superior DC superimposition characteristics of metallic magnetic m |
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TDK |
INDUCTORS Metal composite type wound inductor for power circuits using a metallic magnetic material. Compared to ferrite wound type inductors, low Rdc and miniaturization can be realized due to superior DC superimposition characteristics of metallic magnetic m |
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TDK |
Inductors |
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TDK |
INDUCTORS Metal composite type wound inductor for power circuits using a metallic magnetic material. Compared to ferrite wound type inductors, low Rdc and miniaturization can be realized due to superior DC superimposition characteristics of metallic magnetic m |
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TDK |
INDUCTORS Metal composite type wound inductor for power circuits using a metallic magnetic material. Compared to ferrite wound type inductors, low Rdc and miniaturization can be realized due to superior DC superimposition characteristics of metallic magnetic m |
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TDK |
INDUCTORS Metal composite type wound inductor for power circuits using a metallic magnetic material. Compared to ferrite wound type inductors, low Rdc and miniaturization can be realized due to superior DC superimposition characteristics of metallic magnetic m |
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TDK |
INDUCTORS Metal composite type wound inductor for power circuits using a metallic magnetic material. Compared to ferrite wound type inductors, low Rdc and miniaturization can be realized due to superior DC superimposition characteristics of metallic magnetic m |
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Desde 2024. D4U Semiconductor.
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