Manufacturer Part Number
LM76202QPWPRQ1
Manufacturer
Texas Instruments
Introduction
The LM76202QPWPRQ1 is a state-of-the-art N+1 ORing Controller designed for power management tasks with a specialization in ideal diodes applications.
Product Features and Performance
Integrated N-Channel ORing Controller for efficient power routing
Includes internal switches to facilitate ease of design and compactness
Fast ON and OFF delay times (80 µs ON, 9 µs OFF) for responsive performance
Supports a wide voltage supply range from 4.2V to 60V, catering to diverse applications
Capable of delivering up to 2.2A of output current
Operational across a broad temperature range (-40°C to 125°C), ensuring reliability in varied environments
Product Advantages
Automotive grade (AEC-Q100 qualified) for high reliability in automotive applications
Low current consumption (300 µA) for energy-efficient operations
Surface mountable with a 16-PowerTSSOP package for easy integration into designs
Key Technical Parameters
FET Type: N-Channel
Current Output (Max): 2.2A
Voltage Supply: 4.2V ~ 60V
Operating Temperature: -40°C ~ 125°C (TJ)
Quality and Safety Features
Complies with automotive industry standards for quality and reliability
AEC-Q100 qualification indicates rigorous testing for automotive applications
Compatibility
Universal compatibility across a range of voltage supply applications (4.2V to 60V)
Application Areas
General Purpose Power Management
Automotive systems requiring reliable power routing and management
Ideal Diode Controllers in various electronic systems
Product Lifecycle
Currently active and not nearing discontinuation
Continuous support and availability from Texas Instruments
Several Key Reasons to Choose This Product
High reliability and performance guaranteed by Texas Instruments' quality and automotive-grade certification
Flexible voltage range and substantial output current capacity suited for a broad spectrum of applications
Low energy consumption and integrated switches for compact and efficient designs
Immediate operational capability in extreme temperature environments
