UJA1069TW24/3V0:51 NXP Semiconductors, UJA1069TW24/3V0:51 Datasheet - Page 9

UJA1069TW24/3V0:51

Manufacturer Part Number

UJA1069TW24/3V0:51

Description

IC LIN FAIL-SAFE 24-HTSSOP

Manufacturer

NXP Semiconductors

Datasheet

1.UJA1069TW243V051.pdf (64 pages)

Specifications of UJA1069TW24/3V0:51

Applications

Automotive

Interface

LIN (Local Interconnect Network)

Voltage - Supply

Package / Case

24-TSSOP Exposed Pad, 24-eTSSOP, 24-HTSSOP

Mounting Type

Surface Mount

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

935280016512
UJA1069TW24/3V0
UJA1069TW24/3V0

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NXP Semiconductors

UJA1069_3

Product data sheet

6.2.1 Start-up mode

6.2.2 Restart mode

6.2.3 Fail-safe mode

6.2.4 Normal mode

Start-up mode is the ‘home page’ of the SBC. This mode is entered when battery and

ground are connected for the ﬁrst time. Start-up mode is also entered after any event that

results in a system reset. The reset source information is provided by the SBC to support

different software initialization cycles that depend on the reset event.

It is also possible to enter Start-up mode via a wake-up from Standby mode, Sleep mode

or Fail-safe mode. Such a wake-up can originate either from the LIN-bus or from the local

WAKE pin.

On entering Start-up mode a lengthened reset time t

either user-deﬁned (via the RLC bit in the System Conﬁguration register) or defaults to the

value as given in

LOW by the SBC.

When the reset time is completed (pin RSTN is released and goes HIGH) the watchdog

timer will wait for initialization. If the watchdog initialization is successful, the selected

operating mode (Normal mode or Flash mode) will be entered. Otherwise the Restart

mode will be entered.

The purpose of the Restart mode is to give the application a second chance to start up,

should the ﬁrst attempt from Start-up mode fail. Entering Restart mode will always set the

reset lengthening time t

regardless of previous events.

If start-up from Restart mode is successful (the previous problems do not reoccur and

watchdog initialization is successful), then the selected operating mode will be entered.

From Restart mode this must be Normal mode. If problems persist or if V1 fails to start up,

then Fail-safe mode will be entered.

Severe fault situations will cause the SBC to enter Fail-safe mode. Fail-safe mode is also

entered if start-up from Restart mode fails. Fail-safe mode offers the lowest possible

system power consumption from the SBC and from the external components controlled by

the SBC.

A wake-up (via the LIN-bus or the WAKE pin) is needed to leave Fail-safe mode. This is

only possible if the on-chip oscillator is running correctly. The SBC restarts from Fail-safe

mode with a deﬁned delay t

mode. Regulator V1 will restart and the reset lengthening time t

value; see

Normal mode gives access to all SBC system resources, including LIN, INH/LIMP and

EN. Therefore in Normal mode the SBC watchdog runs in (programmable) Window mode,

for strictest software supervision. Whenever the watchdog is not properly served a system

reset is performed.

Section

6.5.1.

Rev. 03 — 10 September 2007

RSTNL

6.12.12. During the reset lengthening time pin RSTN is held

ret

, to guarantee a discharged V1 before entering Start-up

to the higher value to guarantee the maximum reset length,

RSTNL

LIN fail-safe system basis chip

is observed. This reset time is

RSTNL

is set to the higher

UJA1069

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UJA1069TW24/3V0:51 NXP Semiconductors, UJA1069TW24/3V0:51 Datasheet - Page 9

UJA1069TW24/3V0:51

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