TJA1041T/N1,112 NXP Semiconductors, TJA1041T/N1,112 Datasheet - Page 9

TJA1041T/N1,112

Manufacturer Part Number

TJA1041T/N1,112

Description

Manufacturer

NXP Semiconductors

Datasheet

1.TJA1041TN1112.pdf (26 pages)

Specifications of TJA1041T/N1,112

Data Rate

1000Kbps

Number Of Transceivers

Power Down Mode

Sleep/Standby

Standard Supported

ISO 11898

Operating Supply Voltage (max)

5.25V

Operating Supply Voltage (typ)

Operating Supply Voltage (min)

4.75V

Package Type

Supply Current

80mA

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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NXP Semiconductors

TJA1041_6

Product data sheet

7.2.5 Wake-up source ﬂag

7.2.6 Bus failure ﬂag

7.2.7 Local failure ﬂag

7.3.1 TXD dominant clamping detection

7.3.2 RXD recessive clamping detection

7.3 Local failures

cleared. The wake-up ﬂag is immediately available on pins ERR and RXD (provided that

or the transceiver enters normal mode.

Wake-up source recognition is provided via the wake-up source ﬂag, which is set when

the wake-up ﬂag is set by a local wake-up request via pin WAKE. The wake-up source ﬂag

can only be set after the pwon ﬂag is cleared. In normal mode the wake-up source ﬂag

can be made available on pin ERR. The ﬂag is cleared at power-on or when the

transceiver leaves normal mode.

The bus failure ﬂag is set if the transceiver detects a bus line short-circuit condition to

trying to drive the bus lines dominant. In normal mode the bus failure ﬂag can be made

available on pin ERR. The ﬂag is cleared when the transceiver re-enters normal mode.

In normal mode or pwon/listen-only mode the transceiver can recognize ﬁve different local

failures, and will combine them into one local failure ﬂag. The ﬁve local failures are: TXD

dominant clamping, RXD recessive clamping, a TXD-to-RXD short circuit, bus dominant

clamping, and overtemperature. The nature and detection of these local failures is

described in

be made available on pin ERR. The ﬂag is cleared when entering normal mode or when

RXD is dominant while TXD is recessive, provided that all local failures are resolved.

The TJA1041 can detect ﬁve different local failure conditions. Any of these failures will set

the local failure ﬂag, and in most cases the transmitter of the transceiver will be disabled.

The following sections give the details.

A permanent LOW level on pin TXD (due to a hardware or software application failure)

would drive the CAN bus into a permanent dominant state, blocking all network

communication. The TXD dominant time-out function prevents such a network lock-up by

disabling the transmitter of the transceiver if pin TXD remains at a LOW level for longer

than the TXD dominant time-out t

possible bit rate of 40 kbit/s. The transmitter remains disabled until the local failure ﬂag is

cleared.

An RXD pin clamped to HIGH level will prevent the controller connected to this pin from

recognizing a bus dominant state. So the controller can start messages at any time, which

is likely to disturb all bus communication. RXD recessive clamping detection prevents this

effect by disabling the transmitter when the bus is in dominant state without RXD reﬂecting

this. The transmitter remains disabled until the local failure ﬂag is cleared.

I/O

BAT

and V

, V

or GND during four consecutive dominant-recessive cycles on pin TXD, when

Section 7.3 “Local

are present). The ﬂag is cleared at power-on, or when the UV

Rev. 06 — 5 December 2007

failures”. In pwon/listen-only mode the local failure ﬂag can

dom(TXD)

. The t

dom(TXD)

timer deﬁnes the minimum

High speed CAN transceiver

TJA1041

NOM

ﬂag is set

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TJA1041T/N1,112 NXP Semiconductors, TJA1041T/N1,112 Datasheet - Page 9

TJA1041T/N1,112

Specifications of TJA1041T/N1,112

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