onsemi NCD57080CDR2G Gate Driver, 8 A 8-Pin 20 V, SOIC
- RS-stocknr.:
- 202-7295
- Fabrikantnummer:
- NCD57080CDR2G
- Fabrikant:
- onsemi
Subtotaal (1 verpakking van 10 eenheden)*
€ 7,70
(excl. BTW)
€ 9,30
(incl. BTW)
GRATIS bezorging voor bestellingen van meer dan € 75,00
Laatste voorraad RS
- Laatste 2.460 stuk(s), klaar voor verzending vanaf een andere locatie
Aantal stuks | Per stuk | Per verpakking* |
|---|---|---|
| 10 + | € 0,77 | € 7,70 |
*prijsindicatie
- RS-stocknr.:
- 202-7295
- Fabrikantnummer:
- NCD57080CDR2G
- Fabrikant:
- onsemi
Specificaties
Datasheets
Wetgeving en compliance
Productomschrijving
Zoek vergelijkbare producten door een of meer kenmerken te selecteren.
Alles selecteren | Attribuut | Waarde |
|---|---|---|
| Merk | onsemi | |
| Product Type | General Purpose Driver | |
| Output Current | 8A | |
| Pin Count | 8 | |
| Fall Time | 13ns | |
| Package Type | SOIC | |
| Number of Outputs | 5 | |
| Driver Type | General Purpose | |
| Rise Time | 13ns | |
| Minimum Supply Voltage | 20V | |
| Maximum Supply Voltage | 20V | |
| Minimum Operating Temperature | -40°C | |
| Maximum Operating Temperature | 125°C | |
| Series | NCD57080 | |
| Width | 4 mm | |
| Standards/Approvals | No | |
| Height | 1.75mm | |
| Length | 5mm | |
| Mount Type | Surface | |
| Automotive Standard | No | |
| Alles selecteren | ||
|---|---|---|
Merk onsemi | ||
Product Type General Purpose Driver | ||
Output Current 8A | ||
Pin Count 8 | ||
Fall Time 13ns | ||
Package Type SOIC | ||
Number of Outputs 5 | ||
Driver Type General Purpose | ||
Rise Time 13ns | ||
Minimum Supply Voltage 20V | ||
Maximum Supply Voltage 20V | ||
Minimum Operating Temperature -40°C | ||
Maximum Operating Temperature 125°C | ||
Series NCD57080 | ||
Width 4 mm | ||
Standards/Approvals No | ||
Height 1.75mm | ||
Length 5mm | ||
Mount Type Surface | ||
Automotive Standard No | ||
The ON Semiconductor NCD57080C is a high-current single channel IGBT gate drivers with 3.75 kVrms internal galvanic isolation, designed for high system efficiency and reliability in high power applications.
Short propagation delays with accurate matching
Tight UVLO thresholds for bias flexibility