Manufacturer Part Number
NCP382LD10AAR2G
Manufacturer
onsemi
Introduction
NCP382LD10AAR2G is a power distribution switch designed for power management applications, offering controlled power distribution to its outputs.
Product Features and Performance
General-purpose power switch
Two outputs for power distribution
High Side P-Channel output configuration
On/Off interface for easy control
Slew Rate Controlled for smooth operation
Status Flag for monitoring
Current Limiting (Fixed), Over Temperature, and UVLO fault protection for safety and reliability
Supports a load voltage range of 2.5V to 5.5V
Does not require a separate supply voltage
Capable of delivering up to 1A of output current
Rds On (Typ) of 80mOhm for efficient conduction
Non-Inverting Input Type
Product Advantages
Integrated fault protection enhances system safety.
Slew rate control prevents excessive inrush current.
Status flag aids in system diagnostics and monitoring.
Compact 8-SOIC package saves space on PCB.
Key Technical Parameters
Voltage Load: 2.5V ~ 5.5V
Current Output (Max): 1A
Rds On (Typ): 80mOhm
Operating Temperature: -40°C ~ 85°C
Quality and Safety Features
Fixed current limiting prevents damage due to overcurrent conditions.
Over Temperature protection ensures stability and long operational life.
Under Voltage Lock Out (UVLO) enhances circuit safety.
Compatibility
Versatile for use in various electronic devices due to its general-purpose design and wide operating voltage range.
Application Areas
Mobile devices
Portable electronics
Power management systems
Product Lifecycle
Obsolete. Customers should seek replacements or upgrades for new designs.
Several Key Reasons to Choose This Product
Reliable power distribution with built-in fault protection for enhanced safety.
Slew rate control for minimizing inrush current, protecting downstream circuits.
Status flag feature aids in real-time system diagnostics and monitoring.
Versatile application range, suitable for a wide variety of electronic devices.
Compact design facilitates easy integration into space-constrained applications.