LP3892ES-1.5 NSC [National Semiconductor], LP3892ES-1.5 Datasheet - Page 8

LP3892ES-1.5

Manufacturer Part Number

LP3892ES-1.5

Description

1.5A Fast-Response Ultra Low Dropout Linear Regulators

Manufacturer

NSC [National Semiconductor]

Datasheet

1.LP3892ES-1.5.pdf (12 pages)

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Application Hints

To prevent misoperation, ensure that V

before start-up is initiated. This scenario can occur in sys-

tems with a backup battery using reverse-biased "blocking"

diodes which may allow enough leakage current to flow into

the V

when the main power is removed. Using low leakage diodes

or a resistive pull down can prevent the voltage at V

rising above 50mV. Large bulk capacitors connected to

discharge fully before re-start is initiated (but only if V

allowed to fall below 1V). A resistor connected across the

capacitor will allow it to discharge more quickly. It should be

noted that the probability of a "false start" caused by incor-

rect logic states is extremely low.

EXTERNAL CAPACITORS

To assure regulator stability, input and output capacitors are

required as shown in the Typical Application Circuit.

OUTPUT CAPACITOR

At least 10µF of output capacitance is required for stability

(the amount of capacitance can be increased without limit).

The output capacitor must be located less than 1 cm from

the output pin of the IC and returned to a clean analog

ground. The ESR (equivalent series resistance) of the output

capacitor must be within the "stable" range as shown in the

graph below over the full operating temperature range for

stable operation.

Tantalum capacitors are recommended for the output as

their ESR is ideally suited to the part’s requirements and the

ESR is very stable over temperature. Aluminum electrolytics

are not recommended because their ESR increases very

rapidly at temperatures below 10˚C. Aluminum caps can only

be used in applications where lower temperature operation

is not required.

A second problem with Al caps is that many have ESR’s

which are only specified at low frequencies. The typical loop

bandwidth of a linear regulator is a few hundred kHz to

several MHz. If an Al cap is used for the output cap, it must

be one whose ESR is specified at a frequency of 100 kHz or

more.

Because the ESR of ceramic capacitors is only a few milli

Ohms, they are not suitable for use as output capacitors on

BIAS

RESTRICTIONS FOR PROPER START-UP

may also cause a start-up problem if they do not

Minimum ESR vs Output Load Current

node to raise it’s voltage slightly above ground

BIAS

is below 50mV

20069631

BIAS

from

LP389X devices. The regulator output can tolerate ceramic

capacitance totaling up to 15% of the amount of Tantalum

capacitance connected from the output to ground.

INPUT CAPACITOR

The input capacitor must be at least 10 µF, but can be

increased without limit. It’s purpose is to provide a low

source impedance for the regulator input. Ceramic capaci-

tors work best for this, but Tantalums are also very good.

There is no ESR limitation on the input capacitor (the lower,

the better). Aluminum electrolytics can be used, but their

ESR increase very quickly at cold temperatures. They are

not recommended for any application where temperatures

go below about 10˚C.

BIAS CAPACITOR

The 0.1µF capacitor on the bias line can be any good quality

capacitor (ceramic is recommended).

BIAS VOLTAGE

The bias voltage is an external voltage rail required to get

gate drive for the N-FET pass transistor. Bias voltage must

be in the range of 4.5 - 6V to assure proper operation of the

part.

UNDER VOLTAGE LOCKOUT

The bias voltage is monitored by a circuit which prevents the

regulator output from turning on if the bias voltage is below

approximately 4V.

SHUTDOWN OPERATION

Pulling down the shutdown (S/D) pin will turn-off the regula-

tor. Pin S/D must be actively terminated through a pull-up

resistor (10 kΩ to 100 kΩ) for a proper operation. If this pin

is driven from a source that actively pulls high and low (such

as a CMOS rail to rail comparator), the pull-up resistor is not

required. This pin must be tied to Vin if not used.

POWER DISSIPATION/HEATSINKING

A heatsink may be required depending on the maximum

power dissipation and maximum ambient temperature of the

application. Under all possible conditions, the junction tem-

perature must be within the range specified under operating

conditions. The total power dissipation of the device is given

by:

where I

The maximum allowable temperature rise (T

on the maximum ambient temperature (T

cation, and the maximum allowable junction temperature

The maximum allowable value for junction to ambient Ther-

mal Resistance, θ

These parts are available in TO-220 and TO-263 packages.

The thermal resistance depends on amount of copper area

or heat sink, and on air flow. If the maximum allowable value

of θ

and ≥ 60 ˚C/W for TO-263 package no heatsink is needed

since the package can dissipate enough heat to satisfy these

requirements. If the value for allowable θ

limits, a heat sink is required.

Rmax

Jmax

= (V

= T

calculated above is ≥ 60 ˚C/W for TO-220 package

Rmax

GND

−V

Jmax

is the operating ground current of the device.

OUT

/ P

− T

OUT

Amax

, can be calculated using the formula:

+ (V

GND

Amax

falls below these

Rmax

) of the appli-

) depends

LP3892ES-1.5 NSC [National Semiconductor], LP3892ES-1.5 Datasheet - Page 8

LP3892ES-1.5

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