The TJA1145T/FDJ is a high-speed CAN transceiver that provides an interface between aController Area Network (CAN) protocol controller and the physical two-wire CAN bus.The transceiver is designed for high-speed CAN applications in the automotive industry,providing differential transmit and receive capability to (a microcontroller with) a CANprotocol controller.
The TJA1145T/FDJ features very low power consumption in Standby and Sleep modes and supports ISO11898-6:2013 compliant CAN Partial Networking by means of a selective wake-upfunction.
A dedicated implementation of the partial networking function has been embedded intothe TJA1145/FD variants TJA1145T/FD and TJA1145TK/FD. This function is called ‘FD-passive’ and is the ability to ignore CANFD frames while waiting for a valid wake-up frame in Sleep/Standby mode. This additionalfeature of partial networking is the a good fit fit for networks that support both CAN FD andstandard CAN 2.0 communications. It allows normal CAN controllers that do not need tocommunicate CAN FD messages to remain in partial networking Sleep/Standby modeduring CAN FD communication without generating bus errors.
Advanced power management regulates the supply throughout the node and supportslocal and remote wake-up functionality. I/O levels are automatically adjusted to the I/Olevels of the controller, allowing the TJA1145T/FDJ to interface directly with 3.3 V to 5 Vmicrocontrollers. An SPI interface is provided for transceiver control and for retrievingstatus information. Bus connections are truly floating when power is off.
The TJA1145T/FDJ implements the CAN physical layer as defined in the current ISO11898 standards(ISO11898-2:2003, ISO11898-5:2007 and ISO11898-6:2013) and the pending updated versionof ISO 11898-2:2016). Pending the release ISO11898-2:2016 including CAN FD andSAE-J2284-4, additional timing parameters defining loop delay symmetry are included.This implementation enables reliable communication in the CAN FD fast phase at datarates up to 2 Mbit/s.
These features make the TJA1145T/FDJ a good choice for high-speed CAN networkscontaining nodes that are always connected to the battery supply line but, in order tominimize current consumption, are only active when required by the application.
Feature
- Fully compliant with the ISO 11898-2:2003, ISO 11898-5:2007 and ISO 11898-6:2013 standards
- Timing guaranteed for data rates up to 2 Mbit/s
- Autonomous bus biasing according to ISO 11898-6:2013
- Optimized for in-vehicle high-speed CAN communication
- No ‘false’ wake-ups due to CAN FD frame detection in TJA1145/FD variants
- ±8 kV ElectroStatic Discharge (ESD) protection, according to the Human Body Model (HBM) on the CAN bus pins
- ±6 kV ESD protection, according to IEC 61000-4-2 on pins BAT and WAKE and on the CAN bus pins
- CAN bus pins short-circuit proof to ±58 V
- Battery and CAN bus pins protected against transients according to ISO 7637-3, test pulses 1, 2a, 3a and 3b
- Suitable for use in 12 V and 24 V systems
- Available in SO14 and leadless HVSON14 package (3 mm x 4.5 mm) with improved Automated Optical Inspection (AOI) capability
- AEC-Q100 qualified
- Dark green product (halogen free and Restriction of Hazardous Substances (RoHS) compliant)
- Very low-current Standby and Sleep modes, with full wake-up capability
- Entire node can be powered down via the inhibit output
- Remote wake-up capability via standard CAN wake-up pattern or via ISO 11898-6:2013 and ISO 11898-2:2003 compliant selective wake-up frame detection
- Local wake-up via the WAKE pin
- Wake-up source recognition
- Bit rates of 50 kbit/s, 100 kbit/s, 125 kbit/s, 250 kbit/s, 500 kbit/s and 1 Mbit/s supported during selective wake-up
- Local and/or remote wake-up can be disabled to reduce current consumption
- Transceiver disengages from the bus when the battery supply is removed
- VIO input allows for direct interfacing with 3.3 V to 5 V microcontrollers
- 16-, 24- or 32-bit SPI for configuration, control and diagnosis
- Transmit Data (TXD) dominant time-out function with diagnosis
- Overtemperature warning and shut-down
- Undervoltage detection and recovery on pins VCC, VIO and BAT
- Cold start diagnosis (via bits PO and NMS)
- Advanced system and transceiver interrupt handling
