MAX15029 Datasheet, PDF(8/10 Page) Maxim Integrated Products – 1.425V to 3.6V Input, 500mA Low-Dropout Regulators with BIAS Input

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MAX15029 Datasheet, PDF (8/10 Pages) Maxim Integrated Products – 1.425V to 3.6V Input, 500mA Low-Dropout Regulators with BIAS Input

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1.425V to 3.6V Input, 500mA Low-Dropout

Regulators with BIAS Input

Internal p-Channel Pass Transistor

The MAX15029/MAX15030 feature a 75mâ¦ (typ)

p-channel MOSFET pass transistor. Unlike similar

designs using pnp pass transistors, p-channel

MOSFETs require no base drive, reducing quiescent

current. pnp-based regulators also waste considerable

current in dropout when the pass transistor saturates

and uses high base-drive currents under large loads.

The MAX15029/MAX15030 do not suffer from these

problems and consume only 315ÂµA (typ) of quiescent

current under heavy loads, as well as in dropout.

Short-Circuit/

Thermal Fault Protection

The MAX15029/MAX15030 are fully protected from a

short circuit at the output through current-limiting and

thermal-overload circuitry. In the fault condition when

the output is shorted to ground, the output current is

limited to a maximum of 1A. Under these conditions,

the device quickly heats up. When the junction temper-

ature reaches +165Â°C (typ), the thermal-overload cir-

cuitry turns off the output, allowing the part to cool

down. When the junction temperature cools to +150Â°C

(typ), the output turns back on and reestablishes regu-

lation. Current limiting and thermal protection continue

until the fault is removed. For continuous operation, do

not exceed the absolute maximum junction-tempera-

ture rating of TJ = +150Â°C.

Soft-Start

The MAX15029/MAX15030 feature a soft-start function

that slowly ramps up the output voltage of the regulator

based on the value of the capacitor (CSS) connected

from SS to GND. Upon power-up, CSS is charged with

a 5ÂµA (typ) current source through SS. The voltage at

SS is compared to the internal 0.5V reference (VREF).

The feedback voltage for regulation (VREG) is the lower

of VSS or VREF. As VSS rises, the regulation voltage

(VREG) rises at the same rate. Once VSS reaches and

rises above VREF, the regulation voltage then tracks the

reference voltage since it is the lower of VSS and VREF.

The value of CSS determines the length of the soft-start

time, tSS. Use the following formula to determine CSS.

CSS = 10-5 x tSS

where CSS is in farads and tSS is in seconds.

Shutdown Mode

The MAX15029/MAX15030 include an enable input. To

shut down the IC, drive EN low. In shutdown mode, the

current drawn by BIAS is less than 2ÂµA. This feature is

extremely useful in an automotive application where the

BIAS input is derived from an always-on LDO expecting

to provide minimal dark current. For normal operation,

drive EN high or connect EN to IN for continuous on

operation. During shutdown, an internal 10kâ¦ resistor is

connected between OUT and GND.

Applications Information

Programming the Output Voltage

The MAX15029/MAX15030 feature an adjustable output

voltage from 0.5V to VIN using two external resistors

connected as a voltage-divider to FB as shown in

Figure 1. The output voltage is set by the following

equation:

VOUT

VFB âââ1 +

R1â

R2 â â

where typically VFB = 0.5V. Choose R2 to be 10kâ¦. Or,

to optimize load-transient response for no load to full

load transients, use the resistor-divider as a minimum

load and choose R2 to be 500â¦. To simplify resistor

selection:

R1 =

R2ââ

VOUT

VFB

â 1â â

ALWAYS-ON

INPUT

3V TO 5.5V

INPUT

1.425V TO 3.6V

1ÂµF

ENABLE

SHUTDOWN

BIAS

OUT

MAX15030 FB

I.C.

GND

0.1uF

OUTPUT

2.2ÂµF

Figure 1. MAX15030 Typical Application Circuit

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