Wurth Elektronik Ferrite Bead (EMI Suppression), 2 x 1.2 x 0.9mm (0805 (2012M)), 300Ω impedance at 100 MHz
- RS-artikelnummer:
- 669-4092
- Tillv. art.nr:
- 742792031
- Tillverkare / varumärke:
- Wurth Elektronik
970 I lager för avsändande samma dag
Lagt till varukorgen
Pris (ex. moms) Var (i ett paket med 10)
2,362 kr
(exkl. moms)
2,952 kr
(inkl. moms)
Enheter | Per unit | Per Pack* |
10 - 90 | 2,362 kr | 23,62 kr |
100 - 190 | 2,273 kr | 22,73 kr |
200 - 390 | 2,096 kr | 20,96 kr |
400 - 790 | 2,029 kr | 20,29 kr |
800 + | 1,996 kr | 19,96 kr |
- RS-artikelnummer:
- 669-4092
- Tillv. art.nr:
- 742792031
- Tillverkare / varumärke:
- Wurth Elektronik
Lagstiftning och ursprungsland
- COO (Country of Origin):
- TW
Produktdetaljer
High-Speed Multilayer Ferrite SMD - WE-CBF Series
Excellent anti-EMI properties and low DC resistance
Placed very close next to the interference source even with smallest size 0402, maximum impedance 1000Ω
Reliable Ni-Sn electrodes
Ideal for data line filtering and voltage de-coupling
High rated current up to 6A
Recommended for reflow soldering
Placed very close next to the interference source even with smallest size 0402, maximum impedance 1000Ω
Reliable Ni-Sn electrodes
Ideal for data line filtering and voltage de-coupling
High rated current up to 6A
Recommended for reflow soldering
Applications:
High Speed: USB 2.0, IEEE 1394, LVDS
Wide Band: Control signals, RS232, RS422, DC/DC converter, etc.
High Current: Current supply, DC/DC converter etc.
Wide Band: Control signals, RS232, RS422, DC/DC converter, etc.
High Current: Current supply, DC/DC converter etc.
Specifikationer
Attribute | Value |
---|---|
Package Type | 0805 (2012M) |
Impedance at 100 MHz | 300Ω |
Current Rating | 3A |
Type | EMI Suppression |
Dimensions | 2 x 1.2 x 0.9mm |
Length | 2mm |
Depth | 1.2mm |
Height | 0.9mm |
Maximum DC Resistance | 50mΩ |
Application | Suppression Components |
Material | Ferrite |
Series | WE-CBF |
- RS-artikelnummer:
- 669-4092
- Tillv. art.nr:
- 742792031
- Tillverkare / varumärke:
- Wurth Elektronik