Payment Method
![hsbc](/img/service-policies-hsbc.png)
![paypal](/img/service-policies-paypal.png)
![wu](/img/service-policies-wu.png)
![mg](/img/service-policies-mg.png)
Advanced temperature monitoring with instantaneous shut-off protection
QFNManufacturer:
Mfr.Part #:
NCV3025833MTW
Datasheet:
Case Outline:
512AE
MSL Temp (°C):
260
Container Type:
REEL
EDA/CAD Models:
Send all BOMs to
[email protected],
or fill out the form below for a quote on NCV3025833MTW. Guaranteed response within
12hr.
Please fill in the short form below and we will provide you the quotation immediately.
The NCV3025833 also features a driver IC with reduced dead times and propagation delays, enhancing performance and reliability. It includes a thermal warning function to alert users of potential over-temperature situations and a thermal shutdown function to protect the driver in case of over-temperature conditions. Additionally, the Auto-DCM Mode (ZCD#) improves light-load efficiency, making the NCV3025833 a versatile and reliable solution for various power management applications
Status | Active | Case Outline | 512AE |
MSL Temp (°C) | 260 | Container Type | REEL |
After-Sales & Settlement Related
Payment Method
For alternative payment channels, please reach out to us at:
[email protected]Shipping Method
AVAQ determines and packages all devices based on electrostatic discharge (ESD) and moisture sensitivity level (MSL) protection requirements.
365-Day Product
Quality Guarantee
We promise to provide 365 days quality assurance service for all our products.
Qty. | Unit Price | Ext. Price |
---|---|---|
1+ | - | - |
The prices below are for reference only.
NCV81071AZR2G
ON Semiconductor, LLC
1000+ $0.425
STK5F1U3E2D-E
ON Semiconductor, LLC
Half Bridge (3) Driver AC Motors IGBT 44-DIP
NCV81071CZR2G
ON Semiconductor, LLC
High-speed dual MOSFET driver for efficient power management
NCV81071BZR2G
ON Semiconductor, LLC
Rugged and reliable low-side driver ideal for high-speed switching circuits
NCV5703DDR2G
ON Semiconductor, LLC
Robust, high-current driving for efficient power conversion