TLE4299GV33XUMA1 Datasheet TLE4299GV33XUMA1, TLE4299GMV33XUMA1, TLE4299GV33NT | P13-P15

TLE 4299

Datasheet 13 Rev. 1.1, 2007-10-17

Figure 7 Application Diagram with Inhibit Function TLE4299 GMV33

The TLE 4299 supplies a regulated 3.3 V output voltage with an accuracy of 2% for an

input voltage between 4.4 V and 45 V in the temperature range of

= – 40 to 150 °C, in

an output current range of 1 mA to 100 mA.

The device is capable to supply 150 mA with an accuracy of 3%. For protection at high

input voltage above 25 V, the output current is reduced (SOA protection).

An input capacitor is necessary for compensating line influences and to limit steep input

edges. A resistor of approx. 1 Ω in series with

, can damp the LC of the input inductivity

and the input capacitor.

The voltage regulator requires for stability an output capacitor

of at least 22 µF with

an 0.4Ω < ESR < 3.7Ω for the whole load- and temperature range. For more detailed

information, refer to the characteristical curves.

AES03106

Current

and

Saturation

Control

Band-

Gap-

Reference

TLE 4299

Reset

Control

BAT

GND

ADJ1

SI1

SI2

Reference

ADJ2

RADJ

Inhibit

Logic

INH

From

KI. 15

22 F

Datasheet 14 Rev. 1.1, 2007-10-17

TLE 4299

Reset

The power on reset feature is necessary for a defined start of the microprocessor when

switching on the application. For the reset delay time after the output voltage of the

regulator is above the reset threshold, the reset signal is set High again. The reset delay

time is defined by the reset delay capacitor

at pin D.

The under-voltage reset circuitry supervises the output voltage. In case

decreases

below the reset threshold the reset output is set LOW after the reset reaction time. The

reset LOW signal is generated down to an output voltage

to 1 V. Both the reset

reaction time and the reset delay time is defined by the capacitor value.

The power on reset delay time is defined by the charging time of an external delay

capacitor

= (t

× I

) / ∆V [1]

= C

x ∆V / I

[2]

With

reset delay capacitor

reset delay time

∆

V = V

, typical 1.8 V for power up reset

charge current typical 3.5 µA

For a delay capacitor

=100 nF the typical power on reset delay time is 51 ms.

The reset reaction time

is the time it takes the voltage regulator to set reset output

LOW after the output voltage has dropped below the reset threshold. It is typically 1.2 µs

for delay capacitor of 100 nF. For other values for

the reaction time can be estimated

using the following equation:

∼ 10 ns / nF × C

[3]

TLE 4299

Datasheet 15 Rev. 1.1, 2007-10-17

Figure 8 Reset Timing Diagram

The reset output is an open collector output. An external pull-up can be added with a

resistor value of at least 5.6 kΩ.

In addition the reset switching threshold can be adjusted by an external voltage divider.

The feature is useful for microprocessors which guarantee safe operation down to volt-

ages below the internally set reset threshold of 3.10V typical. If the internal used reset

threshold of typical 3.10V is used, the pin RADJ has to beconnected to GND.

If a lower reset threshold is required by the system, a voltage divider defines the reset

threshold VRth between 2.5V and 3.10V as long as the Input Voltage V

>4.4V

Rth

= V

RADJ TH

* (R

ADJ1

+ R

ADJ2

) / R

ADJ2

(3)

RADJ TH

is typical 1.36 V.

AED03107

Thermal

Power-on-Reset Voltage Dip Secondary Overload

at OutputSpike

RO, SAT

at Input

Undervoltage

Shutdown

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P21 P22-P24 P25-P25

TLE4299GV33XUMA1

Mfr. #:

Buy TLE4299GV33XUMA1

Manufacturer:

Infineon Technologies

Description:

LDO Voltage Regulators LINEAR VOLTAGE REGULATOR

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TLE4299GV33XUMA1

TLE4299GV33XUMA1

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