FCM1005 Series, Ferrite Beads and Chips

Results:
7
Manufacturer
Series
DC Resistance (DCR) (Max)
Impedance @ Frequency
Current Rating (Max)
Operating Temperature
Mounting Type
Size / Dimension
Height (Max)
Ratings
Package / Case
Number of Lines
Filter Type
Features
Results remaining7
Applied Filters:
FCM1005
Select
ImageProduct DetailPriceAvailabilityECAD ModelMounting TypeFeaturesOperating TemperatureRatingsPackage / CaseFilter TypeDC Resistance (DCR) (Max)Size / DimensionHeight (Max)Number of LinesImpedance @ FrequencyCurrent Rating (Max)Series
FCM 1005KF-301T01
300 OHMS @ 100 MHZ 1 POWER, SIGN
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Quantity
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PCB Symbol, Footprint & 3D Model
Surface Mount
-
-55°C ~ 125°C
-
0402 (1005 Metric)
-
500mOhm
0.039" L x 0.020" W (1.00mm x 0.50mm)
0.024" (0.60mm)
1
300 Ohms @ 100 MHz
100mA
FCM1005
FCM 1005KF-600T03
60 OHMS @ 100 MHZ 1 POWER, SIGNA
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Quantity
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PCB Symbol, Footprint & 3D Model
Surface Mount
-
-55°C ~ 125°C
-
0402 (1005 Metric)
-
-
0.039" L x 0.020" W (1.00mm x 0.50mm)
0.024" (0.60mm)
1
-
500mA
FCM1005
FCM 1005KF-601T00
600 OHMS @ 100 MHZ 1 POWER, SIGN
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Quantity
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PCB Symbol, Footprint & 3D Model
Surface Mount
-
-55°C ~ 125°C
-
0402 (1005 Metric)
-
-
0.039" L x 0.020" W (1.00mm x 0.50mm)
0.024" (0.60mm)
1
-
100mA
FCM1005
FCM 1005KF-102T00
1 KOHMS @ 100 MHZ 1 POWER, SIGNA
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Quantity
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PCB Symbol, Footprint & 3D Model
Surface Mount
-
-55°C ~ 125°C
-
0402 (1005 Metric)
-
1.2Ohm
0.039" L x 0.020" W (1.00mm x 0.50mm)
0.024" (0.60mm)
1
1 kOhms @ 100 MHz
50mA
FCM1005
FCM 1005KF-221T01
220 OHMS @ 100 MHZ 1 POWER, SIGN
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Quantity
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PCB Symbol, Footprint & 3D Model
Surface Mount
-
-55°C ~ 125°C
-
0402 (1005 Metric)
-
400mOhm
0.039" L x 0.020" W (1.00mm x 0.50mm)
0.024" (0.60mm)
1
220 Ohms @ 100 MHz
100mA
FCM1005
FCM 1005KF-121T01
120 OHMS @ 100 MHZ 1 POWER, SIGN
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Quantity
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PCB Symbol, Footprint & 3D Model
Surface Mount
-
-55°C ~ 125°C
-
0402 (1005 Metric)
-
300mOhm
0.039" L x 0.020" W (1.00mm x 0.50mm)
0.024" (0.60mm)
1
120 Ohms @ 100 MHz
100mA
FCM1005
FCM 1005KF-300T03
30 OHMS @ 100 MHZ 1 POWER, SIGNA
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Quantity
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PCB Symbol, Footprint & 3D Model
Surface Mount
-
-55°C ~ 125°C
-
0402 (1005 Metric)
-
200mOhm
0.039" L x 0.020" W (1.00mm x 0.50mm)
0.024" (0.60mm)
1
30 Ohms @ 100 MHz
300mA
FCM1005

About  Ferrite Beads and Chips

Ferrite cores are specialized devices specifically engineered to mitigate high-frequency noise and electromagnetic interference (EMI). These cores are designed to be incorporated into electric circuits, offering effective noise suppression and improved signal integrity. When selecting a ferrite core, several key characteristics need to be considered. The first is the filter type, which can be differential, signal, or power, depending on the specific application requirements. The number of lines that the ferrite core will interact with is also an important consideration, as it determines the core's ability to suppress noise across multiple channels. Another crucial characteristic is the maximum current rating, which indicates the highest current that the ferrite core can handle without compromising its functionality. This specification ensures that the core is suitable for the intended circuit and prevents any potential damage due to excessive current flow. The impedance and specified frequency are essential parameters to consider when selecting a ferrite core. Impedance determines the opposition that the core presents to the flow of alternating current at a specific frequency range. Matching the impedance of the ferrite core to the circuit's impedance helps in achieving optimal noise suppression. Lastly, the mounting type should be chosen based on the circuit's design and requirements. Ferrite cores can be free-hanging, surface-mounted, or through-hole mounted, allowing for flexibility in installation and integration within the electric circuit. In summary, ferrite cores serve as effective tools for reducing high-frequency noise and electromagnetic interference in electric circuits. Their characteristics, such as filter type, number of lines, max current rating, impedance, specified frequency, and mounting type, play vital roles in ensuring proper noise suppression and improved signal integrity. By carefully selecting and integrating ferrite cores into circuits, engineers can enhance the overall performance and reliability of electronic systems.