TJA1053T NXP Semiconductors, TJA1053T Datasheet - Page 5

TJA1053T

Manufacturer Part Number

TJA1053T

Description

Manufacturer

NXP Semiconductors

Datasheet

1.TJA1053T.pdf (20 pages)

Specifications of TJA1053T

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

Operating Temperature (max)

125C

Operating Temperature (min)

-40C

Operating Temperature Classification

Automotive

Mounting

Surface Mount

Pin Count

Lead Free Status / RoHS Status

Compliant

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Philips Semiconductors

FUNCTIONAL DESCRIPTION

The TJA1053 is the interface between the CAN protocol

controller and the physical bus. It is primarily intended for

low speed applications, up to 125 kbaud, in passenger

cars. The device provides differential transmit capability to

the bus and differential receive capability to the CAN

controller.

To reduce RF interference the rise and fall slope are

limited. This allows the use of an unshielded twisted pair or

a parallel pair of wires for the bus. Moreover, it supports

transmission capability on either bus wire if one of the bus

wires is corrupted. The failure detection logic automatically

selects a suitable transmission mode.

In normal operation (no wiring failures) the differential

receiver is output to RXD. The differential receiver inputs

are connected to CANH and CANL through integrated

filters. The filtered input signals are also used for the single

wire receivers. The CANH and CANL receivers have

threshold voltages that ensure a maximum noise margin in

single-wire modes.

A timer has been integrated at the TXD input. This timer

prevents the TJA1053 driving the bus lines to permanent

dominant state.

Failure detector

The failure detector is active in the normal operation mode

and detects the following single bus failures and switches

to an appropriate mode:

1. CANH wire interrupted

2. CANL wire interrupted

3. CANH short-circuited to battery

4. CANL short-circuited to ground

5. CANH short-circuited to ground

6. CANL short-circuited to battery

7. CANL mutually shorted to CANH.

The differential receiver threshold is set at 2.9 V.

This ensures correct reception in the normal operating

modes and, in the event of failures 1, 2 and 5 with a noise

margin as high as possible. These failures, or recovery

from them, do not destroy ongoing transmissions.

Failures 3 and 6 are detected by comparators connected

to CANH and CANL, respectively. If the comparator

threshold is exceeded for a certain period of time, the

reception is switched to the single-wire mode.

2000 Dec 18

Fault-tolerant CAN transceiver

This time is needed to avoid false triggering by external RF

fields. Recovery from these failures is detected

automatically after a certain time-out (filtering) and no

transmission is lost. The CANH driver and the RTH pin are

switched off in the event of failure 3.

Failures 4 and 7 initially result in a permanent dominant

level at RXD. After a time-out, the CANL driver and the

RTL pin are switched off. Only a weak pull-up at RTL

remains. Reception continues by switching to the

single-wire mode via CANH. When failures 4 or 7 are

removed, the recessive bus levels are restored. If the

differential voltage remains below the recessive threshold

level for a certain period of time, reception and

transmission switch back to the differential mode.

If any of the seven wiring failures occur, the output NERR

will be made LOW. On error recovery, NERR will be made

HIGH again.

During all single-wire transmissions, the EMC

performance (both immunity and emission) is worse than

in the differential mode. Integrated receiver filters

suppress any HF noise induced into the bus wires.

The cut-off frequency of these filters is a compromise

between propagation delay and HF suppression. In the

single-wire mode, low frequency noise cannot be

distinguished from the required signal.

Low power modes

The transceiver provides 3 low power modes which can be

entered and exited via pins STB and EN (see Table 1).

The sleep mode is the mode with the lowest power

consumption. The INH pin is switched to high-impedance

for deactivation of external voltage regulators. CANL is

biased to the battery voltage via the RTL output. If the

supply voltage is provided the RXD and NERR will signal

the wake-up interrupt

The V

mode with an active INH output.

The V

switched to the V

signals the V

show the wake-up interrupt.

BAT

standby mode is the V

standby mode will react the same as the sleep

BAT

power-on flag and the RXD output will

voltage. In this mode the NERR output

BAT

standby with RTL

Product speciﬁcation

TJA1053

TJA1053T NXP Semiconductors, TJA1053T Datasheet - Page 5

TJA1053T

Specifications of TJA1053T

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