Manufacturer Part Number
NCP170AXV180T2G
Manufacturer
onsemi
Introduction
The NCP170AXV180T2G is a Power Management (PMIC) Voltage Regulator, specifically a Low Drop Out (LDO) Regulator, designed for optimal power efficiency and stability in a variety of applications.
Product Features and Performance
Output Configuration: Positive
Output Type: Fixed at 1.8V
Single Regulator Design
Input Voltage up to 5.5V
Max Dropout Voltage of 0.48V @ 150mA load
Output Current Capacity: 150mA
Extremely Low Quiescent Current: 900 nA
Power Supply Rejection Ratio (PSRR): 57dB at 1kHz
Control Features include Enable function
Protection Features offer Over Current and Over Temperature safety
Operating Temperature range from -40°C to 85°C
Product Advantages
Highly efficient for battery-powered devices
Minimal dropout voltage improves performance in low input voltage situations
Ultra-low quiescent current extends battery life
High PSRR ensures stability under varied power supply conditions
Comprehensive protection features enhance product reliability
Key Technical Parameters
Voltage Input (Max): 5.5V
Voltage Output (Min/Fixed): 1.8V
Voltage Dropout (Max): 0.48V @ 150mA
Current Output: 150mA
Current Quiescent (Iq): 900 nA
PSRR: 57dB (1kHz)
Quality and Safety Features
Over Current and Over Temperature protection for enhanced safety and reliability
Compatibility
Surface Mount Mounting Type compatible with PCB designs
Packaged in SOT-563 and SOT-666 to offer design flexibility
Application Areas
Ideal for battery-powered devices, IoT, portable electronics, and low-power applications
Product Lifecycle
Status: Active
No current indications of discontinuation, ensuring long-term availability for designs
Several Key Reasons to Choose This Product
Exceptional power efficiency for prolonged battery life
Ultra-low quiescent current minimizes standby power consumption
High PSRR for stable operation across conditions
Comprehensive safety features ensure reliability in critical applications
Active product status with no near-term discontinuation concerns