Manufacturer Part Number
NCV3020ADR2G
Manufacturer
onsemi
Introduction
The NCV3020ADR2G is a buck converter and DC DC Switching Controller designed for high-performance power management applications.
Product Features and Performance
Operates as a Step-Down (Buck) converter
Positive output configuration
Single output with one output phase
Voltage supply between 4.7V to 28V
Switching frequency of 300kHz
Maximum Duty Cycle of 84%
Features synchronous rectification for improved efficiency
Designed for automotive applications with a temperature range of -40°C to 125°C
Compliant with AEC-Q100 qualification standards
Surface mount, 8-SOIC package
Product Advantages
High efficiency with synchronous rectification
Wide input voltage range suitable for various applications
Robust thermal performance for use in challenging environments
Compact 8-SOIC package allows for easier integration into design
Key Technical Parameters
Output Type: Transistor Driver
Topology: Buck
Voltage Supply (Vcc/Vdd): 4.7V ~ 28V
Frequency Switching: 300kHz
Duty Cycle (Max): 84%
Operating Temperature: -40°C ~ 125°C (TJ)
Quality and Safety Features
Automotive grade with AEC-Q100 qualification indicates reliability in automotive applications
Built to withstand extreme temperatures for high durability and performance
Compatibility
Compatible with automotive power systems requiring high-efficiency buck conversion
Application Areas
Automotive power management
Industrial power supplies
High-performance data systems
Energy-efficient power solutions
Product Lifecycle
Currently active product status
Not nearing discontinuation presently
No specific information provided about replacements or upgrades
Several Key Reasons to Choose This Product
High efficiency and reduced heat generation with synchronous rectifier
Wide operational voltage range offering flexibility in application
Durability under extreme temperatures, suitable for automotive and industrial environments
Compliant with stringent automotive quality standards for reliability
Compact package facilitating easier integration in space-constrained applications