TLE7269G Infineon Technologies, TLE7269G Datasheet - Page 12

TLE7269G

Manufacturer Part Number

TLE7269G

Description

IC TRANSCEIVER LIN DSO-14

Manufacturer

Infineon Technologies

Type

Transceiverr

Datasheet

1.TLE7269G.pdf (34 pages)

Specifications of TLE7269G

Number Of Drivers/receivers

2/2

Protocol

LIN

Voltage - Supply

7 V ~ 27 V

Mounting Type

Surface Mount

Package / Case

DSO-14

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

SP000104277
TLE7269G
TLE7269GTR

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4.3

The Stand-By mode is entered automatically after:

•

In Stand-By mode no communication on the LIN Bus is possible. The output stages are disabled and the LIN Bus

termination remains activated on both integrated transceivers. Only the RxD1, RxD2 and the TxD1 pin are used

to indicate the Wake-Up source. The TxD2 pin remains inactive. The RxD1 pin remains “Low” after a local Wake-

Up event on the pin WK and a bus Wake-Up event on either the bus 1 or the bus 2. The RxD2 pin remains “Low”

only after a bus Wake-Up event on the bus 2. A Power-Up event is indicated by a logical “High” on the RxD1 pin.

The signal on the TxD1 pin indicates the Wake-Up source, a weak pull-down signals a bus Wake-Up event on the

bus 1 and bus 2 and a strong pull-down signals a local Wake-Up event caused by the WK pin (see

Table

a logical “High” signal. The Wake-Up flags indicating the Wake-Up source on the pins TxD1, RxD1 and RxD2 are

reset by changing the operation mode to Normal Operation mode.

The signal on the EN pin remains “Low” due to an internal pull-down resistor. Setting the EN pin to “High”, by the

microcontroller returns the TLE7269G to Normal Operation mode. In Stand-By mode the INH1 and INH2 outputs

are switching to

Table 3

power up

Yes

1) To indicate the Wake-Up or Power-Up event on the RxD pin, the supply

2) The TxD1 input needs an external termination to indicate a “High” or a “Low” signal. The external termination could be a

3) A local Wake-Up event is considered after a low signal on the pin WK (see

4) A bus Wake-Up event is considered after the low to high transition on the bus (see

Note: In the case of a sequence of Wake-Up events only the first Wake-Up event will be monitored on TxD1, RxD1

Data Sheet

A Power-Up event on the supply

A bus Wake-Up event on pin BUS1 or pin BUS2.

A local Wake-Up event on the pin WK.

A power on reset caused by power supply

In Stand-By mode the Wake-Up sources are monitored by the TxD1, RxD1 and RxD2 pins.

pull-up resistor or an active microcontroller output.

and RxD2. Subsequent Wake-Up events are ignored.

3). In order to detect a Wake-Up event via the TxD1 pin, the external microcontroller output needs to provide

Stand-By Mode

Logic table for wake up monitoring

Wake-

Inputs

. The INH outputs can be used to control external device like a voltage regulator.

BUS1

Wake-

BUS2

Wake-

RxD1

or by the power supply

RxD2

TxD1

Chapter

has to be present

Outputs

Remarks

No Wake-Up, Power-Up event

Wake via wake pin

Wake via BUS1

Wake via BUS2

Chapter

4.8).

4.7).

Functional Description

Rev. 1.2, 2007-11-13

TLE7269G

Table 2

and

TLE7269G Infineon Technologies, TLE7269G Datasheet - Page 12

TLE7269G

Specifications of TLE7269G

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