The UJA1162 is a ‘self-supplied’ high-speed CAN transceiver integrating an ISO 11898-2/5 compliant HS-CAN transceiver and an internal 5 V CAN supply. The only supply input is a battery connection. The UJA1162 can be operated in a very low-current Sleep mode with local and bus wake-up capability.
The UJA1162 implements the standard CAN physical layer as defined in the current ISO11898 standard (-2 and -5). Pending the release of the updated version of ISO11898 including CAN FD, additional timing parameters defining loop delay symmetry are included. This implementation enables reliable communication in the CAN FD fast phase at data rates up to 2 Mbit/s.
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## Features
### General
* Self-supplied high-speed CAN transceiver
* Loop delay symmetry timing enables reliable communication at data rates up to 2 Mbit/s in the CAN FD fast phase
* ISO 11898-2 and ISO 11898-5 compliant
* Autonomous bus biasing according to ISO 11898-6
* Fully integrated 5 V supply (VBUF) for the CAN transmitter/receiver
* VIO input allows for direct interfacing with 3.3 V to 5 V microcontrollers
* Bus connections are truly floating when power to pin BAT is off
### Designed for automotive applications
* ±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 the CAN bus pins and on pins BAT and WAKE
* CAN bus pins short-circuit proof to ±58 V
* Battery and CAN bus pins are protected against automotive transients according to ISO 7637-3
* Very low quiescent current in Sleep mode
* Leadless HVSON14 package (3 mm x 4.5 mm) with improved Automated Optical Inspection (AOI) capability
* Dark green product (halogen free and Restriction of Hazardous Substances (RoHS) compliant)
### Integrated supply voltage for the CAN transceiver (VBUF)
* 5 V nominal output; ±2 % accuracy
* Undervoltage detection at 90 % of nominal value
* Excellent response with a 4.7 μF ceramic output load capacitor
* Turned off in Sleep mode
### Power Management
* Sleep mode featuring very low supply current
* Remote wake-up capability via standard CAN wake-up pattern
* Local wake-up capability via the WAKE pin
* Entire node can be powered down via the inhibit output, INH
