Manufacturer Part Number
NCV47701PDAJR2G
Manufacturer
onsemi
Introduction
The NCV47701PDAJR2G is an adjustable low-dropout (LDO) voltage regulator designed for automotive applications, providing precise voltage control and robust operational stability.
Product Features and Performance
Adjustable output voltage ranging from 5V to 20V
Low dropout voltage of 0.5V at 150mA load
Output current up to 350mA
Quiescent current of 230 µA
Power Supply Rejection Ratio (PSRR) of 70dB at 100Hz
Supports enable control feature
Integrated protection features: Over Current, Over Temperature, Reverse Polarity
Product Advantages
High efficiency and low quiescent current enhance battery life
Robust output voltage range suitable for diverse automotive applications
Comprehensive protection features ensuring product reliability under adverse conditions
Key Technical Parameters
Voltage Input (Max): 40V
Voltage Output (Min/Fixed): 5V
Voltage Output (Max): 20V
Voltage Dropout (Max): 0.5V @ 150mA
Current Output: 350mA
Current Quiescent (Iq): 230 µA
Current Supply (Max): 50 mA
PSRR: 70dB (100Hz)
Quality and Safety Features
Automotive Grade with AEC-Q100 qualification ensuring high reliability
Operates effectively in temperatures ranging from -40°C to 150°C
Compatibility
Surface Mount, 8-SOIC package compatible with standard PCB manufacturing processes
Application Areas
Automotive electronics
Power management for sensors and microcontrollers
Battery-operated automotive accessories
Product Lifecycle
Currently active with ongoing production and support
Not nearing discontinuation, with replacements or upgrades available if necessary in the future
Several Key Reasons to Choose This Product
Versatile and adjustable voltage output suitable for various electronic components
Low dropout enhances efficiency, particularly in low voltage situations
High PSRR ensures stable performance against supply noise
Robust thermal and current management features safeguard the device under extreme conditions
Qualified for automotive use, confirming its reliability and durability in challenging environments