Subtotal (1 bag of 5 units)*
Kr. 295,40
(exc. VAT)
Kr. 369,25
(inc. VAT)
FREE delivery for online orders over 500,00 kr
Last RS stock
- Final 15 unit(s), ready to ship
Units | Per unit | Per Bag* |
|---|---|---|
| 5 + | Kr. 59,08 | Kr. 295,40 |
*price indicative
- RS Stock No.:
- 863-3803
- Mfr. Part No.:
- SCR-050-0R9A070J
- Brand:
- KEMET
Specifications
Technical Reference
Legislation and Compliance
Product Details
Find similar products by selecting one or more attributes.
Select all | Attribute | Value |
|---|---|---|
| Brand | KEMET | |
| Inductance | 7mH | |
| Product Type | Common Mode Choke | |
| Series | SCR | |
| Test Frequency | 100kHz | |
| Maximum Operating Temperature | 120°C | |
| Minimum Operating Temperature | -25°C | |
| Termination Style | Solder Pad | |
| Height | 29mm | |
| Depth | 23mm | |
| Length | 29mm | |
| Select all | ||
|---|---|---|
Brand KEMET | ||
Inductance 7mH | ||
Product Type Common Mode Choke | ||
Series SCR | ||
Test Frequency 100kHz | ||
Maximum Operating Temperature 120°C | ||
Minimum Operating Temperature -25°C | ||
Termination Style Solder Pad | ||
Height 29mm | ||
Depth 23mm | ||
Length 29mm | ||
Kemet SCR Series High Impedance Common Mode Chokes
Kemet SCR coils benefit from a high permeability core that allows high impedance, whilst reducing volume by 30% and preserving the same properties. This results in reducing the part count and saving space. Kemet SCR coils can be used as common mode chokes and other typical applications include power supply devices, consumer electronics and audio visual equipment.
Rated currents up to 5 A
DC resistances as low as 47 mΩ
Inductances up to 25mH
Related links
- KEMET 7 mH 5 A Common Mode Choke 47mΩ
- Schurter 7.2 mH 50 A Common Mode Choke 7 mΩ 450 V
- KEMET 9.9 mH 7 A Common Mode Choke 19.2 mΩ 1000 V
- KEMET 2.65 mH 25 A Common Mode Choke
- KEMET 59.6 mH 400 mA Common Mode Choke 2.02 Ω 250 V
- KEMET 54 mH 800 mA Common Mode Choke 880 mΩ 250 V ac
- KEMET 17.8 mH 5 A Common Mode Choke 32.6 mΩ 1000 V
- KEMET 17.8 mH 5 A Common Mode Choke 30.59 mΩ 1000 V