TJA1050 データシートの表示（PDF） - Philips Electronics

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TJA1050

High speed CAN transceiver

Philips Electronics 

Philips Semiconductors

High speed CAN transceiver

Preliminary specification

TJA1050

FUNCTIONAL DESCRIPTION

The TJA1050 is the interface between the CAN protocol

controller and the physical bus. It is primarily intended for

high speed automotive applications using baud rates from

40 kbaud up to 1 Mbaud. It provides differential transmit

capability to the bus and differential receiver capability to

the CAN protocol controller. It is fully compatible to the

“ISO 11898” standard.

A current-limiting circuit protects the transmitter output

stage from damage caused by accidental short-circuit to

either positive or negative battery voltage, although power

dissipation increases during this fault condition.

A thermal protection circuit protects the IC from damage by

switching off the transmitter if the junction temperature

exceeds a value of approximately 165 °C. Because the

transmitter dissipates most of the power, the power

dissipation and temperature of the IC is reduced. All other

IC functions continue to operate. The transmitter off-state

resets when TXD goes HIGH. The thermal protection

circuit is particularly needed when a bus line short-circuits.

The CANH and CANL lines are protected from automotive

electrical transients (according to “ISO 7637”; see Fig.6)

and are also protected from Electro-Static-Discharge

(ESD) of up to 4 kV from the human body.

Control line S (pin 8) allows two operating modes to be

selected; high speed mode or silent mode.

High speed mode is the normal operating mode and is

selected by connecting pin S to ground. It is the default

mode if pin S is unconnected.

In the silent mode, the transmitter is disabled. All other IC

functions continue to operate. The silent mode is selected

by connecting pin S to VCC.

A ‘TXD Dominant Time-out’ timer circuit prevents the bus

lines being driven to a permanent dominant state (blocking

all network communication) if TXD is forced permanently

LOW by a hardware and/or software application failure.

The timer is triggered by a negative edge on TXD. If the

duration of the LOW-level on TXD exceeds the internal

timer value, the transmitter is disabled, driving the bus into

a recessive state. The timer is reset by a positive edge on

TXD.

Table 1 Function table of the CAN transceiver

(X = don’t care)

VCC

4.75 to 5.25 V

4.75 to 5.25 V

4.75 to 5.25 V

<2 V (not powered)

2 V < VCC < 4.75 V

TXD

0

X

1 (or floating)

X

>2 V

S

0 (or floating)

1

X

X

X

CANH

HIGH

0.5 × VCC

0.5 × VCC

0 V <CANH< VCC

0 V <CANH< VCC

CANL

BUS STATE RXD

LOW

dominant 0

0.5 × VCC

recessive 1

0.5 × VCC

recessive 1

0 V <CANL< VCC recessive X

0 V <CANL< VCC recessive X

1999 Sep 27

4

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