Manufacturer Part Number
TJA1462AT/0Z
Manufacturer
NXP Semiconductors
Introduction
The TJA1462AT/0Z is an automotive-grade, high-speed CAN transceiver that facilitates communication over CAN networks with enhanced safety and speed, designed by NXP Semiconductors.
Product Features and Performance
High-speed CAN transceiver
Supports CAN FD for faster data transfer
Low electromagnetic emission (EME) and high electromagnetic immunity (EMI)
Implements a differential transmit capability for improved signal integrity
Features standby and silent modes to reduce power consumption
Product Advantages
Enhanced network reliability and speed due to CAN FD support
Reduced system power consumption with low-power modes
High resilience against interference and network disruptions
AEC-Q100 qualification for automotive reliability standards
Key Technical Parameters
Protocol: CANbus
Number of Drivers/Receivers: 1/1
Data Rate: 8Mbps
Voltage Supply: 4.5V ~ 5.5V
Operating Temperature Range: -40°C ~ 150°C (TJ)
Receiver Hysteresis: 100 mV
Duplex: Half
Quality and Safety Features
AEC-Q100 qualified for automotive use
Extensive temperature range support ensuring reliable operation under extreme conditions
Built-in features for error detection and protection
Compatibility
Compliant with CAN FD, backward compatible with classical CAN networks
Suitable for use in systems requiring high-speed data communication with minimal error rates
Application Areas
Automotive industry for vehicle network communications
Industrial control systems where robust communication is critical
Intelligent transportation systems
CAN-based automation applications
Product Lifecycle
Current Status: Active
Not nearing discontinuation, ensuring long-term availability
Future-proof with CAN FD support for upcoming system upgrades
Several Key Reasons to Choose This Product
High-speed communication capability with CAN FD support enhances system performance
Automotive-grade reliability with AEC-Q100 qualification ensuring durability and safety
Low power consumption modes to optimize system energy efficiency
High immunity to electromagnetic interference for consistent performance in harsh environments
Extensive operating temperature range suitable for demanding applications