onsemi NCV7351FD13R2G

The NCV7351FD13R2G is a high-speed CAN (Controller Area Network) transceiver produced by onsemi. This component is designed to serve as the interface between a CAN protocol controller and the physical bus, supporting both 12 V and 24 V systems. It is part of the NCV7351 family, which includes versions compliant with CAN flexible data rate (CAN FD) specifications. The NCV7351FD13R2G is particularly notable for its compatibility with the ISO 11898-2 standard and its ability to operate at high speeds, making it suitable for various automotive and industrial applications.

• Compatible with the ISO 11898-2 Standard
• High Speed (up to 1 Mbps), with CAN FD version supporting up to 5 Mbps for information purposes
• VIO Pin on NCV7351D13 Version allowing direct interfacing with 3 V to 5 V microcontrollers
• EN Pin on NCV7351D1E Version allowing switching the transceiver to a very low current OFF mode
• Excellent Electromagnetic Susceptibility (EMS) Level Over Full Frequency Range and very low Electromagnetic Emissions (EME)
• Bus Pins Protected Against >15 kV System ESD Pulses
• Transmit Data (TxD) Dominant Time-out Function
• Bus Pins Short Circuit Proof to Supply Voltage and Ground
• Bus Pins Protected Against Transients in an Automotive Environment
• Thermal Protection
• AEC-Q100 Qualified and PPAP Capable

• Automotive Systems: The NCV7351FD13R2G is designed to meet the stringent requirements of automotive environments, including protection against electrical transients and high ESD tolerance.
• Industrial Networks: It is also suitable for industrial applications where high-speed data communication and robustness against electromagnetic interference are necessary.

1. What is the primary function of the NCV7351FD13R2G?

   The NCV7351FD13R2G serves as the interface between a CAN protocol controller and the physical bus, enabling high-speed data communication in both 12 V and 24 V systems.

2. What standards does the NCV7351FD13R2G comply with?

   The NCV7351FD13R2G is compatible with the ISO 11898-2 standard and supports CAN flexible data rate (CAN FD) specifications.

3. What is the significance of the VIO pin in the NCV7351FD13R2G?

   The VIO pin allows direct interfacing with 3 V to 5 V microcontrollers, ensuring proper I/O level adjustment between the microcontroller and the transceiver.

4. How does the EN pin function in the NCV7351D1E version?

   The EN pin in the NCV7351D1E version allows the transceiver to be switched to a very low current OFF mode.

5. What level of electromagnetic susceptibility does the NCV7351FD13R2G offer?

   The NCV7351FD13R2G provides excellent electromagnetic susceptibility (EMS) levels over the full frequency range and very low electromagnetic emissions (EME).

6. What kind of protection does the NCV7351FD13R2G offer against electrical transients?

   The device is protected against >15 kV system ESD pulses and transients in an automotive environment.

7. Is the NCV7351FD13R2G suitable for high-temperature environments?

   Yes, the device operates within a junction temperature range of -40°C to 150°C.

8. What is the propagation delay from TxD to RxD in the NCV7351FD13R2G?

   The propagation delay from TxD to RxD is between 45 ns and 245 ns.

9. Is the NCV7351FD13R2G AEC-Q100 qualified?

   Yes, the NCV7351FD13R2G is AEC-Q100 qualified and PPAP capable.

10. What are the typical applications of the NCV7351FD13R2G?

    The NCV7351FD13R2G is typically used in automotive systems and industrial networks.

11. What package type is the NCV7351FD13R2G available in?

    The NCV7351FD13R2G is available in an SOIC-8 package.