UJA1069TW24/3V3:51 NXP Semiconductors, UJA1069TW24/3V3:51 Datasheet - Page 17

UJA1069TW24/3V3:51

Manufacturer Part Number

UJA1069TW24/3V3:51

Description

IC LIN FAIL-SAFE 24-HTSSOP

Manufacturer

NXP Semiconductors

Datasheet

1.UJA1069TW243V051.pdf (64 pages)

Specifications of UJA1069TW24/3V3:51

Applications

Automotive

Interface

LIN (Local Interconnect Network)

Voltage - Supply

3.3V

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

935280014518
UJA1069TW24/3V3-T
UJA1069TW24/3V3-T

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UJA1069_3

Product data sheet

6.6.1.1 SYSINH output

6.5.2 EN output

6.6.1 BAT14, BAT42 and SYSINH

6.6.2 SENSE input

6.6.3 Voltage regulator V1

6.6 Power supplies

The SBC also detects if pin RSTN is clamped HIGH. If the HIGH-level remains on the pin

for longer than t

the SBC falls back immediately to Fail-safe mode since the microcontroller cannot be

reset any more. By entering Fail-safe mode, the V1 voltage regulator shuts down and the

microcontroller stops.

Additionally, chattering reset signals are handled by the SBC in such a way that the

system safely falls back to Fail-safe mode with the lowest possible power consumption.

Pin EN can be used to control external hardware such as power components or as a

general purpose output if the system is running properly. During all reset events, when pin

RSTN is pulled LOW, the EN control bit will be cleared, pin EN will be pulled LOW and will

stay LOW after pin RSTN is released. In Normal mode and Flash mode of the SBC, the

microcontroller can set the EN control bit via the SPI. This results in releasing pin EN

which then returns to a HIGH-level.

The SBC has two supply pins, pin BAT42 and pin BAT14. Pin BAT42 supplies most of the

SBC where pin BAT14 only supplies the linear voltage regulators and the INH/LIMP output

pin. This supply architecture allows different supply strategies including the use of

external DC-to-DC converters controlled by the pin SYSINH.

The SYSINH output is a high-side switch from BAT42. It is activated whenever the SBC

requires supply voltage to pin BAT14, e.g. when V1 is on (see

Otherwise pin SYSINH is ﬂoating. Pin SYSINH can be used to control e.g. an external

step-down voltage regulator to BAT14, to reduce power consumption in low-power modes.

The SBC has a dedicated SENSE pin for dynamic monitoring of the battery contact of an

electronic control unit. Connecting this pin in front of the polarity protection diode of the

ECU provides an early warning if the battery becomes disconnected.

The UJA1069 has an independent voltage regulator supplied out of the BAT14 pin.

Regulator V1 is intended to supply the microcontroller.

The V1 voltage is continuously monitored to provide the system reset signal when

undervoltage situations occur. Whenever the V1 voltage falls below one of the three

programmable thresholds, a hardware reset is forced.

A dedicated V1 supply comparator (V1 Monitor) observes V1 for undervoltage events

lower than V

case one of the lower V1 undervoltage reset thresholds is selected.

The V1 regulator is overload protected. The maximum output current available from pin V1

depends on the voltage applied to pin BAT14 according to

the total power dissipation should be taken into account.

UV(VFI)

RSTN(CHT)

. This allows the application to receive a supply warning interrupt in

Rev. 03 — 10 September 2007

while pin RSTN is driven internally to a LOW-level by the SBC,

LIN fail-safe system basis chip

Table

Figure 4

25. For thermal reasons,

UJA1069

and

Figure

8).

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UJA1069TW24/3V3:51 NXP Semiconductors, UJA1069TW24/3V3:51 Datasheet - Page 17

UJA1069TW24/3V3:51

Specifications of UJA1069TW24/3V3:51

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