AAT3215 Datasheet, PDF(10/18 Page) Advanced Analogic Technologies

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AAT3215 Datasheet, PDF (10/18 Pages) Advanced Analogic Technologies – 150mA CMOS High Performance LDO

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AAT3215

150mA CMOS High Performance LDO

footprint, and is non-polarized. Line and load tran-

sient response of the LDO regulator is improved by

using low ESR ceramic capacitors. Since ceramic

capacitors are non-polarized, they are not prone to

incorrect connection damage.

Equivalent Series Resistance: ESR is a very

important characteristic to consider when selecting a

capacitor. ESR is the internal series resistance asso-

ciated with a capacitor that includes lead resistance,

internal connections, size and area, material compo-

sition, and ambient temperature. Typically, capacitor

ESR is measured in milliohms for ceramic capacitors

and can range to more than several ohms for tanta-

lum or aluminum electrolytic capacitors.

Ceramic Capacitor Materials: Ceramic capaci-

tors less than 0.1ÂµF are typically made from NPO

or C0G materials. NPO and C0G materials gener-

ally have tight tolerance and are very stable over

temperature. Larger capacitor values are usually

composed of X7R, X5R, Z5U, or Y5V dielectric

materials. Large ceramic capacitors (i.e., greater

than 2.2ÂµF) are often available in low-cost Y5V and

Z5U dielectrics. These two material types are not

recommended for use with LDO regulators since

the capacitor tolerance can vary more than Â±50%

over the operating temperature range of the device.

A 2.2ÂµF Y5V capacitor could be reduced to 1ÂµF

over temperature; this could cause problems for cir-

cuit operation. X7R and X5R dielectrics are much

more desirable. The temperature tolerance of X7R

dielectric is better than Â±15%.

Capacitor area is another contributor to ESR.

Capacitors that are physically large in size will have

a lower ESR when compared to a smaller sized

capacitor of an equivalent material and capacitance

value. These larger devices can improve circuit tran-

sient response when compared to an equal value

capacitor in a smaller package size.

Consult capacitor vendor datasheets carefully

when selecting capacitors for LDO regulators.

Enable Function

The AAT3215 features an LDO regulator enable/

disable function. This pin (EN) is active high and is

compatible with CMOS logic. To assure the LDO

regulator will switch on, the EN turn-on control level

must be greater than 2.0V. The LDO regulator will

go into the disable shutdown mode when the volt-

age on the EN pin falls below 0.6 volts. If the

enable function is not needed in a specific applica-

tion, it may be tied to VIN to keep the LDO regula-

tor in a continuously on state.

When the LDO regulator is in shutdown mode, an

internal 1.5kÎ© resistor is connected between VOUT

and GND. This is intended to discharge COUT when

the LDO regulator is disabled. The internal 1.5kÎ©

has no adverse effect on device turn-on time.

Short-Circuit Protection

The AAT3215 contains an internal short-circuit pro-

tection circuit that will trigger when the output load

current exceeds the internal threshold limit. Under

short-circuit conditions, the output of the LDO reg-

ulator will be current limited until the short-circuit

condition is removed from the output or LDO regu-

lator package power dissipation exceeds the

device thermal limit.

Thermal Protection

The AAT3215 has an internal thermal protection cir-

cuit which will turn on when the device die temper-

ature exceeds 150Â°C. The internal thermal protec-

tion circuit will actively turn off the LDO regulator

output pass device to prevent the possibility of over-

temperature damage. The LDO regulator output

will remain in a shutdown state until the internal die

temperature falls back below the 150Â°C trip point.

The combination and interaction between the short-

circuit and thermal protection systems allows the

LDO regulator to withstand indefinite short-circuit

conditions without sustaining permanent damage.

No-Load Stability

The AAT3215 is designed to maintain output volt-

age regulation and stability under operational no-

load conditions. This is an important characteristic

for applications where the output current may drop

to zero.

Reverse Output-to-Input Voltage

Conditions and Protection

Under normal operating conditions, a parasitic

diode exists between the output and input of the

LDO regulator. The input voltage should always

remain greater than the output load voltage, main-

3215.2006.05.1.6

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