Manufacturer Part Number
NCP45525IMNTWG-H
Manufacturer
onsemi
Introduction
The NCP45525IMNTWG-H is part of onsemi's ecoSWITCH™ series, focusing on power distribution switches and load drivers designed for efficient power management within electronic systems.
Product Features and Performance
General-purpose power distribution switch
High side output configuration with N-Channel output type
Supports load voltages from 0.5V to 13.5V
Compatible with supply voltages from 3V to 5.5V
Maximum output current of 6A
Typical Rds On of 18mOhm for lower power dissipation
Slew rate controlled to minimize inrush current
Non-inverting input type
Designed for surface mount technology (SMT) with a compact 8-DFN (2x2) package
Product Advantages
Efficient power management and distribution
Low on-resistance reduces losses and improves efficiency
Slew rate control protects against inrush current damages
Compact package suitable for space-constrained applications
High compatibility with a wide range of supply and load voltages
Key Technical Parameters
Output Configuration: High Side
Interface: On/Off
Voltage Load: 0.5V ~ 13.5V
Voltage Supply (Vcc/Vdd): 3V ~ 5.5V
Current Output (Max): 6A
Rds On (Typ): 18mOhm
Quality and Safety Features
Slew rate control for improved operational safety
Operating temperature range of -40°C to 85°C ensures reliability under various environmental conditions
Compatibility
Suitable for use with a wide range of electronic systems requiring power distribution
Application Areas
Power management within automotive, industrial, and consumer electronic products
Product Lifecycle
Classified as Last Time Buy, signaling nearing discontinuation
End-users are advised to seek information on replacements or upgrades
Several Key Reasons to Choose This Product
High efficiency and low power dissipation thanks to low Rds On
Slew rate control feature enhances safety and reliability
Wide voltage compatibility offers flexibility in application
Compact package suitable for modern, space-constrained designs
onsemi's reputation for quality and reliability in power management solutions