TDK, SPM-LR, 5012 Shielded Wire-wound SMD Inductor with a Ferrite Core, 2.2 μH ±20% Wire-Wound 3.2A Idc
- RS Stock No.:
- 123-3167
- Mfr. Part No.:
- SPM5012T-2R2M-LR
- Brand:
- TDK
Available to back order for despatch 03.01.2025
Added
Price Each (In a Pack of 10)
Kr. 11,032
(exc. VAT)
Kr. 13,79
(inc. VAT)
Units | Per unit | Per Pack* |
10 - 90 | Kr. 11,032 | Kr. 110,32 |
100 - 240 | Kr. 8,832 | Kr. 88,32 |
250 - 490 | Kr. 8,277 | Kr. 82,77 |
500 - 990 | Kr. 7,721 | Kr. 77,21 |
1000 + | Kr. 7,166 | Kr. 71,66 |
*price indicative |
- RS Stock No.:
- 123-3167
- Mfr. Part No.:
- SPM5012T-2R2M-LR
- Brand:
- TDK
Technical Reference
Legislation and Compliance
Product Details
SPM5012 Series Magnetically Shielded Wire Wound Inductors
SPM5012 Series magnetic shield type wound inductor for power circuits use a metallic magnetic material
SPM5012 series structure has an integrated moulded coil, so hum noise is lower than with core adhesive coils
They have a low-profile with maximum heights of 1.2mm and 3.0mm allowing for different usages
Possible to achieve large current, low Rdc, and compactness
Low inductance variance in high-temperature environments with good DC superimposition characteristics
SPM5012 series structure has an integrated moulded coil, so hum noise is lower than with core adhesive coils
They have a low-profile with maximum heights of 1.2mm and 3.0mm allowing for different usages
Possible to achieve large current, low Rdc, and compactness
Low inductance variance in high-temperature environments with good DC superimposition characteristics
TDK Non Standard SMT Inductors (Chokes)
Specifications
Attribute | Value |
---|---|
Inductance | 2.2 μH |
Maximum DC Current | 3.2A |
Package/Case | 5012 |
Length | 5.4mm |
Depth | 5.1mm |
Height | 1.2mm |
Dimensions | 5.4 x 5.1 x 1.2mm |
Shielded | Yes |
Tolerance | ±20% |
Maximum DC Resistance | 67.7mΩ |
Series | SPM-LR |
Core Material | Ferrite |
Moulded | Yes |
Maximum Operating Temperature | +125°C |
Minimum Operating Temperature | -40°C |
Inductor Construction | Wire-Wound |