TLE62512GXT Infineon Technologies, TLE62512GXT Datasheet - Page 19

TLE62512GXT

Manufacturer Part Number

TLE62512GXT

Description

Manufacturer

Infineon Technologies

Datasheet

1.TLE62512GXT.pdf (35 pages)

Specifications of TLE62512GXT

Number Of Transceivers

Power Down Mode

Sleep/Standby

Operating Supply Voltage (max)

5.25V

Operating Supply Voltage (typ)

Operating Supply Voltage (min)

4.75V

Package Type

DSO

Operating Temperature (max)

150C

Operating Temperature (min)

-40C

Operating Temperature Classification

Automotive

Mounting

Surface Mount

Pin Count

Lead Free Status / RoHS Status

Compliant

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7.2.2

A short between the pins TxD and RxD causes permanent blocking of the CAN bus. In the case, that the low side

driver capability of the RxD output pin is stronger as the high side driver capability of the external microcontroller

output, which is connected to the TxD pin of the TLE6251-2G, the RxD output signal overrides the TxD signal

provided by the microcontroller. In this case a continuous “Dominant” signal blocks the CAN bus. The TLE6251-

2G detects the short between the TxD and the RxD pin, disables the output driver stage and sets the internal local

failure flag. In Receive - Only Mode the TLE6251-2G indicates the TxD to RxD short by a logical “Low” signal on

the NERR pin. The TLE6251-2G releases the failure flag and the output driver stage by an operation mode change

from Receive - Only Mode to Normal Operation Mode.

7.2.3

A logical “High” signal on the RxD pin indicates the external microcontroller, that there is no CAN message on the

CAN bus. The microcontroller can transmit a message to the CAN bus only if the bus is recessive. In case the

logical “High” signal on the RxD pin is caused by a failure, like a short from RxD to

mirror the signal on the CAN bus. This allows the microcontroller to place a message to the CAN bus at any time

and corrupts CAN bus messages on the bus. The TLE6251-2G detects a permanent logical “High” signal on the

RxD pin and set the local error flag. In order to avoid any data collisions on the CAN bus the output driver stage

gets disabled. In Receive - Only Mode the TLE6251-2G indicates the RxD Clamping by a logical “Low” signal on

the NERR pin. The TLE6251-2G releases the failure flag and the output driver stage by a operation mode change

or if the RxD clamping failure disappears.

7.2.4

Due to a fail function on one of the CAN bus participants, the CAN bus could be permanent in “Dominant” state. The

external microcontroller doesn’t transmit any data to the CAN bus as long as the CAN bus remains “Dominant”. Even

if the permanent “Dominate” state on the CAN bus is caused by a short from CANH to

can not detect the failure, because the CAN bus failure detection works only when the transceiver is active sending

data to the bus. Therefore the TLE6251-2G has a bus dominant clamping detection unit installed. In case the bus

signal is “Dominant” for the time t >

The output driver stage remains active. In Receive - Only Mode the TLE6251-2G indicates the bus dominant

clamping by a logical “Low” signal on the NERR pin.

Data Sheet

TxD to RxD Short Circuit Feature

RxD Permanent Recessive Clamping

Bus Dominant Clamping

Bus,t

the TLE6251-2G detects the bus clamping and sets the local failure flag.

, or similar, the transceiver

, the RxD signal doesn’t

Rev. 1.0, 2009-05-07

Fail Safe Features

TLE6251-2G

TLE62512GXT Infineon Technologies, TLE62512GXT Datasheet - Page 19

TLE62512GXT

Specifications of TLE62512GXT

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