tja1010 NXP Semiconductors, tja1010 Datasheet - Page 5

tja1010

Manufacturer Part Number

tja1010

Description

Octal Low Side Driver Olsd

Manufacturer

NXP Semiconductors

Datasheet

1.TJA1010.pdf (16 pages)

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Philips Semiconductors

FUNCTIONAL DESCRIPTION (see Figs 1, 3 and 4)

This octal low side driver is intended to drive relays in

automotive applications. It is optimized to withstand the

wide temperature and supply voltage range that is typical

for this application area. It consists of 8 protected outputs,

including diagnostic functions, controlled by a serial

interface. These outputs can be used in parallel without the

need for additional components.

Serial control interface

Serial control of the drivers is provided by an 8-bit shift

controls the DMOS output stages. Using this configuration

the number of pins needed for control of the eight drivers

is reduced to three; Serial Input (SI), Serial CLock (SCL)

and Serial Input Enable (SIE). When pin SIE is LOW, serial

data at pin SI is shifted into the shift register at each

HIGH-to-LOW transition at the SCL pin and serial data is

shifted out at the Serial Output (SO) pin at a LOW-to-HIGH

transition on the SCL pin. The last bit read in before a

LOW-to-HIGH transition at the SIE pin is bit D8. A HIGH

level at the SI pin causes a driver to switch-on. With a

LOW-to-HIGH transition at the SIE pin, parallel output data

in the shift register is written to the 8-bit latch, which

controls the DMOS outputs. When SIE is HIGH, signals at

pins SI, SCL and SO are disabled. For pin SO this results

in a HIGH level because pin SO is an open-collector

output.

Diagnostic interface

The OLSD detects open loads and short-circuited loads at

each driver stage by comparing its output voltages (V

a reference voltage (V

short-circuit and open load conditions, a short-circuit is

detected for V

In both cases the corresponding status pin is set to a LOW

level and the respective bit in the shift register is inverted

on a HIGH-to-LOW transition of SIE.

By writing a following byte into the shift register, its actual

contents (the control byte eventually modified by errors)

can be read out via pin SO. Comparing this byte with the

original control byte previously written, faults can be

localized and identified (e.g. open load at driver stage

number 5).

Protection of DMOS outputs

Each driver contains a DMOS power FET. The drivers are

protected against overvoltage, short-circuit and

overtemperature conditions.

1998 Feb 09

Octal Low Side Driver (OLSD)

> V

< V

ref

in the on-state, while an open load is

in the off-state of a driver stage.

ref

). To allow distinction between

) to

An overvoltage clamp circuit at each driver causes the

respective DMOS power FET to turn partially on, if its

drain-to-source voltage level exceeds the clamp level

voltage peaks caused by turning off inductive loads, such

as relays coils without freewheel diodes. It should be noted

that if outputs are used in parallel the amount of inductive

energy which can be handled will not increase but will

remain equal to that of a single output.

Each driver is protected against a short-circuited load by

current limiting. In the event of a short-circuited load at a

driver stage, the current will be limited and the HIGH level

of its drain-to-source voltage will force the comparator

output to go HIGH. This in turn will set the STATSC pin to

a LOW level.

A two-stage temperature protection circuit is included to

protect the device against overheating caused by high

dissipation in the output transistors.

When the temperature exceeds the overtemperature

threshold level, it will switch-off those outputs with a

short-circuit condition for the duration of the

overtemperature condition. The status and diagnostic

function will not be influenced.

If the chip temperature still rises and exceeds the

emergency threshold level, the emergency shutdown will

become active and shut down all of the outputs until the

temperature drops below the overtemperature threshold.

The outputs are fully protected against short-circuit to

battery conditions for the whole supply voltage range.

To protect the outputs against device threatening

dissipation peaks, the overtemperature control is extended

with local power dissipation sensors. If one or more

outputs dissipate too much power all outputs with a

short-circuit condition will be switched off for the duration

of the local overtemperature condition.

To protect the outputs against high dissipation during load

dump, an overvoltage protection is included. This will

switch-off those outputs with a short-circuit condition if the

supply voltage exceeds the overvoltage threshold V

for the duration of the overvoltage condition.

The diagnostic and status information will not change due

to the interference of the overvoltage and overtemperature

protections.

To avoid a false LOW signal at the SC pin due to switching

transients at the DMOS outputs, the SC pin is disabled for

a sufficient delay time whenever a new input control byte

has been written into the 8-bit latch with a LOW-to-HIGH

transition of SIE.

o(clamp)

]. Consequently each driver can withstand

Preliminary speciﬁcation

TJA1010

DD(0 V)

tja1010 NXP Semiconductors, tja1010 Datasheet - Page 5

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