Manufacturer Part Number
NCP81295MNTXG
Manufacturer
onsemi
Introduction
The NCP81295MNTXG is a high-side current sense electronic fuse designed for power management applications.
Product Features and Performance
High accuracy current sensing (±6%)
High-side sensing method
Supports voltage input range from 4.5V to 18V
Capable of outputting currents up to 50A
Operating temperature range from -40°C to 125°C
Surface mount technology for compact PCB design
Designed with SENSEFET® technology for enhanced performance
32-LFQFN Exposed Pad package for efficient thermal dissipation
Product Advantages
Accurate overcurrent protection
Suitable for a wide range of input voltages
High current handling capability
Temperature resilience for reliable operation in various environments
Integration reduces component count and saves PCB space
Improved power efficiency and management
Key Technical Parameters
Voltage - Input: 4.5V ~ 18V
Current - Output: 50A
Accuracy: ±6%
Operating Temperature: -40°C ~ 125°C (TJ)
Package: 32-LFQFN Exposed Pad
Quality and Safety Features
Built-in overcurrent protection enhances system safety
Thermal protection with specified operating temperature range
Compliance with industry safety standards
Compatibility
Compatible with surface mount technology and standard soldering processes
Suitable for use with 32-LQFN (5x5) footprint designs
Application Areas
Power supply units
Battery management systems
Computing and server systems
Telecommunication equipment
Industrial automation and control systems
Product Lifecycle
Product status is currently active
Check manufacturer updates for lifecycle status
Several Key Reasons to Choose This Product
Robust current handling for high-power applications
Precise current sensing for accurate power management
Wide input voltage range provides flexibility across different systems
High integration and compactness help in space-constrained applications
Designed by a reputable manufacturer with a legacy in power management solutions
Best suited for applications requiring reliable performance under varying temperature conditions