TLE 8264-2E Infineon Technologies, TLE 8264-2E Datasheet - Page 33

TLE 8264-2E

Manufacturer Part Number

TLE 8264-2E

Description

Manufacturer

Infineon Technologies

Datasheet

1.TLE_8264-2E.pdf (94 pages)

Specifications of TLE 8264-2E

Packages

PG-DSO-36

Transceiver

High Speed CAN ISO 11898 - 5 / 3 x LIN2.0 / J2602

Voltage Regulator Output

2 x 200 mA + 400 mA

Watchdog

Standard and Window Watchdog

Quiescent Current (max.)

28 ?A (typ) Sleep Mode (5V on)

Standby Current

58 ?A (typ) Stop Mode (5V on)

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8.4

All failures are reported in the SPI diagnostic encoder, the TxD time-out is reported as TxD shorted to GND. In

case of local failure and Bus Dominat Clamped failure, the transceiver is automatically switched to the CAN

Receive only Mode.

8.4.1

If the TxD signal is dominant for a time t >

at the bus. This is implemented to prevent the bus from being blocked permanently due to an error. The

transmission is released after switching the CAN to Active Mode via SPI. Refer to

Figure 12

8.4.2

If the HS CAN bus signal in dominant for a time

transceiver is switched to Receive Only Mode. The failure is signaled via SPI. If the bits are not masked the INT

pin is set to low. For operation the transceiver needs to be switched back to Normal Mode via SPI.

8.4.3

Similar to the TxD time-out, a TxD to RxD short circuit would also block the bus communication. To avoid this, the

CAN transceiver provides TxD to RxD short circuit detection. In this case, it is recommended to switch OFF the

SBC HS CAN supply (e.g.

into the diagnostic frame of the SPI. The INT pin is set LOW if not disabled via SPI. The transmitter is automatically

inhibited and goes back to normal operation after a SPI command.

8.4.4

The driver stages are protected against overtemperature. Exceeding the shutdown temperature results in

deactivation of the CAN transceiver. The CAN transceiver is activated gain after cooling down, the device stays in

CAN Active Mode. To avoid a bit failure after cooling down, the signals can be transmitted again only after a

dominant to recessive edge at TxD.

Figure 13

condition causes the CAN transceiver to be deactivated. After the overtemperature condition is no longer present,

the transmission is released automatically after the TxD bus signal has changed to recessive level.

Data Sheet

GND

C C1µC

shows how the transmission stage is deactivated and activated again. First, an overtemperature

TxD

Failure Detection

TxD Time-out Feature

TxD Time-out diagram

Bus Dominant Clamping

TxD to RxD Short Circuit Feature

Overtemperature

diff

CAN

cc2

) via SPI command to prevent disturbances on the CAN bus. This failure is reported

TxD_TO

TxD

, the TxD time-out function deactivates the transmission of the signal

TxD Time -out

BUS_TO

Interrupt

, a bus dominant clamping is detected. The CAN

High Speed CAN Transceiver

Figure

SPI setting : CAN

Normal Mode

12.

Rev. 1.0, 2009-03-31

Txd timeout .vsd

TLE8264-2E

TLE 8264-2E Infineon Technologies, TLE 8264-2E Datasheet - Page 33

TLE 8264-2E

Specifications of TLE 8264-2E

Related parts for TLE 8264-2E