The NCV7351D1ER2G is a high-performance CAN (Controller Area Network) transceiver produced by ON Semiconductor, designed to serve as an interface between a CAN protocol controller and the physical two-wire CAN bus. This robust transceiver is suitable for automotive and industrial applications, where reliable data communication is essential for the proper functioning of complex systems.

Key Features

• High-Speed CAN Interface: Compatible with ISO 11898-2, the NCV7351D1ER2G supports high-speed data transmission rates up to 1 Mbps, ensuring efficient communication between devices.
• Low Power Mode: With a sleep function that minimizes the current consumption, this transceiver is ideal for power-sensitive applications, contributing to energy efficiency.
• Bus Fault Protection: The device provides protection against transients in the automotive environment, with the ability to withstand voltage up to ±58V on the CAN bus lines, thereby ensuring robust performance.
• Thermal Protection: It includes an over-temperature protection feature that safeguards the device from damage due to excessive heat.
• Differential Receiver with High Common-Mode Range: The transceiver ensures reliable data reception even in environments with high electrical noise.

Applications

The NCV7351D1ER2G is designed to be versatile and can be utilized in a wide range of applications, including but not limited to:

• Automotive networks
• Industrial control systems
• Building automation
• Medical equipment

Package and Quality

This device is supplied in a small footprint package, the SOIC-8 (D1ER2G), which is suitable for space-constrained applications. ON Semiconductor's commitment to quality ensures that the NCV7351D1ER2G meets stringent standards, making it a reliable choice for critical systems where failure is not an option.

Conclusion

With its combination of high-speed communication, low power consumption, robust protection features, and compact design, the NCV7351D1ER2G from ON Semiconductor is an excellent choice for developers looking to integrate CAN communication capabilities into their automotive or industrial applications. Its performance and reliability make it a key component in the development of systems requiring efficient and secure data exchange.