Manufacturer Part Number
MC10XS3535JHFKR2
Manufacturer
NXP Semiconductors
Introduction
The MC10XS3535JHFKR2 is a high-performance, six-channel power distribution switch from NXP Semiconductors. Designed for a wide range of applications, this versatile device offers advanced features and robust protection mechanisms to ensure reliable and efficient power management.
Product Features and Performance
6 independent high-side N-channel power distribution switches
Input voltage range: 3V to 5.5V
Output voltage range: 7V to 20V
Output current capability up to the maximum rating
Low on-resistance (RDS(on)) of 10mΩ (typical) and 35mΩ (maximum)
Integrated watchdog timer for enhanced system reliability
Comprehensive fault protection features, including current limiting, open load detection, overtemperature, and UVLO
Product Advantages
Efficient power distribution and control
Versatile and adaptable to various applications
Robust fault protection for reliable operation
Compact and space-saving design
Key Reasons to Choose This Product
Optimized performance and energy efficiency
Advanced safety and fault tolerance features
Seamless integration into a wide range of systems
Trusted NXP Semiconductors quality and reliability
Quality and Safety Features
Meets stringent quality and safety standards
Robust design for reliable long-term operation
Rigorous testing and validation processes
Compatibility
Compatible with a variety of microcontrollers and control systems
Suitable for a wide range of power distribution applications
Application Areas
Automotive systems
Industrial automation and control
Consumer electronics
Building and home automation
Robotics and mechatronics
Product Lifecycle
The MC10XS3535JHFKR2 is an obsolete product, meaning it is no longer in active production. However, there may be equivalent or alternative models available from NXP Semiconductors or other manufacturers. Customers are advised to contact our website's sales team for more information on available options and recommendations for their specific application requirements.