node transceiver. TJA1081G Datasheet

TJA1081G transceiver. Datasheet pdf. Equivalent

Part TJA1081G
Description FlexRay node transceiver
Feature TJA1081G FlexRay node transceiver Rev. 1 — 28 October 2016 Product data sheet 1. General descripti.
Manufacture NXP
Download TJA1081G Datasheet

FlexRay node transceiver
Rev. 1 — 28 October 2016
Product data sheet
1. General description
The TJA1081G is a FlexRay transceiver that is fully compliant with FlexRay electrical
physical layer specification ISO 17458-4:2013 (see Ref. 1 and Ref. 2). It is intended for
communication systems from 2.5 Mbit/s to 10 Mbit/s and provides an advanced interface
between the protocol controller and the physical bus in a FlexRay network.
The TJA1081G features enhanced low-power modes, optimized for ECUs that are
permanently connected to the battery.
The TJA1081G provides differential transmit capability to the network and differential
receive capability to the FlexRay controller. It offers excellent EMC performance as well as
effective ESD protection.
The TJA1081G actively monitors system performance using dedicated error and status
information (that any microcontroller can read), along with internal voltage and
temperature monitoring.
The TJA1081G supports mode control as used in the TJA1080A (see Ref. 3) and is fully
functionally and pin compatible with the TJA1081B (see Ref. 4).
2. Features and benefits
2.1 Optimized for time triggered communication systems
Compliant with ISO 17458-4:2013 (see Ref. 2)
Automotive product qualification in accordance with AEC-Q100
Data transfer rates from 2.5 Mbit/s to 10 Mbit/s
Very low ElectroMagnetic Emissions (EME) to support unshielded cable, meeting
latest industry standards
Differential receiver with wide common-mode range for high ElectroMagnetic Immunity
(EMI), meeting latest industry standards
Enhanced EMC performance compared with TJA1081B
Auto I/O level adaptation to host controller supply voltage VIO
Can be used in 14 V, 24 V and 48 V powered systems
Instant transmitter shut-down interface (via BGE pin)
Independent power supply ramp-up for VBAT, VCC and VIO
2.2 Low-power management
Low-power management including inhibit switch
Very low current in Sleep and Standby modes

NXP Semiconductors
FlexRay node transceiver
VBAT operating range: 4.75 V to 60 V
Gap-free specification
Local and remote wake-up
Supports remote wake-up via dedicated data frames
Wake-up source recognition
2.3 Diagnosis (detection and signaling)
Enhanced supply monitoring of VBAT, VCC and VIO
Overtemperature detection
Short-circuit detection on bus lines
VBAT power-on flag (first battery connection and cold start)
Clamping diagnosis on pin TXEN
BGE status feedback
2.4 Protection
Bus pins protected against 6 kV ESD pulses according to IEC 61000-4-2 and HBM
Pins VBAT and WAKE protected against 6 kV ESD pulses according to
IEC 61000-4-2
Bus pins protected against transients in automotive environment (according to
ISO 7637 class C)
Bus pins short-circuit proof to battery voltage (14 V, 24 V and 48 V) and ground
Fail-silent behavior in the event of an undervoltage on pins VBAT, VCC or VIO
Passive behavior of bus lines while the transceiver is not powered
No reverse currents from the digital input pins to VIO or VCC when the transceiver is not
2.5 Functional classes according to FlexRay electrical physical layer
specification (see Ref. 2)
Bus driver voltage regulator control
Bus driver - bus guardian interface
Bus driver logic level adaptation
Bus driver remote wake-up
Product data sheet
All information provided in this document is subject to legal disclaimers.
Rev. 1 — 28 October 2016
© NXP Semiconductors N.V. 2016. All rights reserved.
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