Name: TJA1050
SKU: TJA1050
Price: 1.21600 USD
Availability: OutOfStock

1999 Sep 27 4

Philips Semiconductors Preliminary speciﬁcation

High speed CAN transceiver 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 V

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)

TXD S CANH CANL BUS STATE RXD

4.75 to 5.25 V 0 0 (or ﬂoating) HIGH LOW dominant 0

4.75 to 5.25 V X 1 0.5 × V

0.5 × V

recessive 1

4.75 to 5.25 V 1 (or ﬂoating) X 0.5 × V

0.5 × V

recessive 1

<2 V (not powered) X X 0 V <CANH< V

0 V <CANL< V

recessive X

2V<V

< 4.75 V >2 V X 0 V <CANH< V

0 V <CANL< V

recessive X

1999 Sep 27 5

Philips Semiconductors Preliminary speciﬁcation

High speed CAN transceiver TJA1050

LIMITING VALUES

In accordance with the Absolute Maximum Rating System (IEC 134). All voltages are referenced to GND (pin 2).

Positive currents ﬂow into the IC.

Notes

1. The waveforms of the applied transients shall be in accordance with

“ISO 7637 part 1”

, test pulses 1, 2, 3a and 3b,

(see Fig.6).

2. In accordance with

“IEC 747-1”

. An alternative definition of T

is: T

amb

+P×R

th(j-a)

, where R

th(j-a)

is a fixed value

to be used for the calculation of T

. The rating for T

limits the allowable combinations of power dissipation (P) and

ambient temperature (T

amb

3. Human body model; C = 100 pF R = 1.5 kΩ.

4. Machine model; C = 200 pF R = 25 Ω.

THERMAL CHARACTERISTICS

According to IEC 747-1.

QUALITY SPECIFICATION

Quality specification

“SNW-FQ-611 part D”

is applicable.

SYMBOL PARAMETER CONDITIONS MIN. MAX. UNIT

supply voltage −0.3 +5.25 V

CANL

, V

CANH

DC voltage at CANL and CANH 0 < V

< 5.25 V;

no time limit

−27 +40 V

TXD

, V

RXD

ref

and V

DC voltage at TXD, RXD, V

ref

and S −0.3 V

+ 0.3 V

trt(CANH)

trt(CANL)

transient voltage at CANH and CANL time limit is 1 µs −55 +55 V

note 1 −200 +200 V

esd

electrostatic discharge at CANH; CANL note 3 −4+4kV

electrostatic discharge at TXD; V

;

RXD; V

ref

and S

note 3 −2+2kV

electrostatic discharge at all pins note 4 −200 +200 V

stg

storage temperature −55 +150 °C

amb

operating ambient temperature −40 +125 °C

junction temperature note 2 −40 +150 °C

SYMBOL PARAMETER CONDITIONS VALUE UNIT

th(j-a)

thermal resistance from junction to

ambient; TJA1050T(SO8)

in free air 160 K/W

1999 Sep 27 6

Philips Semiconductors Preliminary speciﬁcation

High speed CAN transceiver TJA1050

CHARACTERISTICS

= 4.75 to 5.25 V; T

amb

= −40 to +125 °C; R

=60Ωunless speciﬁed otherwise; all voltages are referenced to GND

(pin 2); positive currents ﬂow into the IC; all parameters are guaranteed over the ambient temperature range by design,

but only 100% tested at T

amb

=25°C unless speciﬁed otherwise.

SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT

Supply (V

)

supply current dominant; V

TXD

=0V tbf − 75 mA

recessive; V

TXD

tbf − 13 mA

Transmitter data input (TXD)

HIGH-level input voltage output recessive 2.0 − V

+ 0.3 V

LOW-level input voltage output dominant −0.3 − +0.8 V

HIGH-level input current V

TXD

−30 0 +30 µA

LOW-level input current V

TXD

=0V −100 −200 −300 µA

i(TXD)

TXD input capacitance not tested −−tbf pF

Mode select input (S)

HIGH-level input voltage silent mode 2.0 − V

+ 0.3 V

LOW-level input voltage high speed mode −0.3 − +0.8 V

HIGH-level input current V

30 60 100 µA

LOW-level input current V

=0V −30 0 +30 µA

Receiver data output (RXD)

HIGH-level output current V

RXD

= 0.7 V

tbf tbf tbf mA

LOW-level output current V

RXD

= 0.45 V 2 8.5 20 mA

ref

reference output voltage −50 µA<I

Vref

<50µA 0.45V

0.5V

0.55V

Bus lines (CANH; CANL)

CANH(reces)

;

CANL(reces)

recessive bus voltage V

TXD

; no load 2.0 − 3.0 V

o(CANH)(reces)

;

o(CANL)(reces)

recessive output current −27V<V

CANH

CANL

<32V;

0V<V

< 5.25 V

−2.5 − +2.5 mA

o(CANH)

CANH dominant output

voltage

TXD

= 0 V 2.8 − 4.5 V

o(CANL)

CANL dominant output

voltage

0.5 − 2.0 V

i(dif)(bus)

differential bus input voltage

CANH

− V

CANL

)

TXD

=0V;

42.5 < R

<60Ω

(dominant)

1.5 − 3.0 V

TXD

; no load

(recessive)

−500 − +50 mV

o(sc)(CANH)

CANH short-circuit output

current

CANH

=0V;

TXD

=0V

−35 −−95 mA

o(sc)(CANL)

CANL short-circuit output

current

CANL

=36V;

TXD

=0V

35 − 150 mA

Part #	TJA1050
Description	Series 5.25 V 1 MBd SurfaceCAN Transceiver - SOIC-8
Category	IC
Availability	Out of Stock
Qty	0

TJA1050

Related Items

Technical Document