MAX8881EUT33-T Datasheet MAX8881EUT25+T, MAX8881EUT18+T, MAX8881EUT50+T | P4-P6

-0.20

-0.15

-0.10

-0.05

0.05

0.10

0.15

0.20

-40 -15 10 35 60 85

CHANGE FROM NOMINAL OUTPUT

VOLTAGE vs. TEMPERATURE

MAX8880/1-10

TEMPERATURE (

CHANGE FROM NOMINALOUTPUT

VOLTAGE (%)

100

0.1

100 200

REGION OF STABLE C

OUT

ESR

vs. OUTPUT CURRENT

MAX8880/1-11

OUTPUT CURRENT (mA)

OUT

ESR (Ω)

150

STABLE REGION

OUT

= 10µF

OUT

= 4.7µF

200µs/div

LINE-TRANSIENT RESPONSE

MAX8880/1-12

9.75V

= V

, 500mV/div, AC COUPLED

= V

OUT

, 20mV/div, AC COUPLED

OUT

= 5V, I

OUT

= 5mA

400µs/div

LOAD-TRANSIENT RESPONSE

MAX8880/1-13

32.5mA

1.25mA

= I

OUT

, 12.5mA/div

= V

OUT

, 100mV/div, AC COUPLED

OUT(NOMINAL)

= 5V, V

= 9V

400µs/div

LOAD-TRANSIENT RESPONSE

NEAR DROPOUT

MAX8880/1-14

32.5mA

1.25mA

= I

OUT

, 12.5mA/div

= V

OUT

, 100mV/div, AC COUPLED

= 5.2V, V

OUT(NOMINAL)

= 5V

100µs/div

TURN-ON RESPONSE

MAX8880/1-15

1.8V

= SHDN, 2V/div

= V

OUT

, 1V/div

= 4.0V

MAX8880/MAX8881

12V, Ultra-Low-I

, Low-Dropout

Linear Regulators with POK

4 _______________________________________________________________________________________

Typical Operating Characteristics (continued)

= 5V, V

OUT

= 3.3V, I

OUT

= 30mA, C

OUT

= 4.7µF, T

= +25°C, unless otherwise noted. See Figure 1.)

-0.6

-0.5

-0.4

-0.3

-0.2

-0.1

0.1

0.2

0 50 100 150 200

OUTPUT VOLTAGE ERROR

vs. LOAD CURRENT

MAX8880/1-07

LOAD CURRENT (mA)

OUTPUT VOLTAGE ERROR (%)

3.3

3.4

3.6

3.5

3.7

3.8

SUPPLY CURRENT

vs. LOAD CURRENT

MAX8880/1-08

LOAD CURRENT (mA)

SUPPLY CURRENT (μA)

0 10050 150 200

1.00

0.50

2.00

1.50

3.00

2.50

3.50

0462 8 10 12 14

OUTPUT VOLTAGE

vs. INPUT VOLTAGE

MAX8880/1-09

INPUT VOLTAGE (V)

OUTPUT VOTLAGE (V)

MAX8880/MAX8881

12V, Ultra-Low-I

, Low-Dropout

Linear Regulators with POK

_______________________________________________________________________________________ 5

Detailed Description

The MAX8880/MAX8881 are low-dropout, low-quies-

cent current linear regulators designed primarily for

battery-powered applications (Figure 1). The MAX8880

provides an adjustable output voltage from 1.25V to 5V

using an external resistor-divider. The MAX8881 is

available in factory preset output voltages of 1.8V, 2.5V,

3.3V, and 5V. Both devices have a +1.25V reference,

error amplifier, MOSFET driver, and P-channel pass

transistor (Figure 2).

Low-Dropout Regulator

The 1.25V reference is connected to the error amplifi-

er’s inverting input. The error amplifier compares this

reference with the selected feedback voltage and

amplifies the difference. The MOSFET driver reads the

error signal and applies the appropriate drive to the P-

channel pass transistor. If the feedback voltage is lower

than the reference voltage, the pass-transistor gate is

pulled lower, allowing more current to pass, increasing

the output voltage. If the feedback voltage is higher

than the reference voltage, the pass-transistor gate is

driven higher, allowing less current to pass to the out-

put. The output voltage is fed back through either an

internal resistor voltage divider by externally connect-

ing FB to OUT (MAX8881), or an external resistor net-

work connected to FB (MAX8880). Additional blocks

include an output current limiter, reverse battery pro-

tection, a thermal sensor, shutdown logic, and a POK

comparator to indicate when the output is out of regula-

tion (Figure 2).

Internal P-Channel Pass Transistor

The MAX8880/MAX8881 feature a 2Ω P-channel MOS-

FET pass transistor. This provides advantages over

similar designs using PNP pass transistors, including

longer battery life. The P-channel MOSFET requires no

base drive, which reduces quiescent current consider-

ably. PNP-based regulators waste considerable current

in dropout when the pass transistor saturates. They

also use high base-drive currents under large loads.

The MAX8880/MAX8881 do not suffer from these prob-

lems and consume only 3.5µA of supply current (see

Typical Operating Characteristics).

Dropout Voltage

A regulator’s minimum input-output differential (or

dropout voltage) determines the lowest usable supply

voltage. In battery-powered systems, this determines

the useful end-of-life battery voltage. Because the

MAX8880/MAX8881 use a P-channel MOSFET pass

transistor, their dropout voltage is R

DS(ON)

(2Ω) multi-

plied by the load current (see Electrical Characteristics).

R2*

100k

OUT

GND

4.7μF

1μF

SHDN

2.5V TO 12V

REGULATION OK

POK

MAX8881

VOUT

*OPTIONAL

Figure 1. Standard Application Circuit

MAX888_ (SOT)

MAX888_ (TDFN)

NAME FUNCTION

IN Input Voltage. Bypass with a 1µF capacitor to GND.

GND Ground

3 3 OUT

Output Voltage. Bypass with a 4.7µF capacitor (<0.5Ω ESR) to GND for load

currents up to 200mA. For load currents up to 40mA, 1µF is acceptable.

41FB

Feedback Set Point, 1.25V (MAX8880 only). Output sense, connect to OUT

externally (MAX8881 only).

5 5 SHDN

ON/OFF Control. Regulator is ON when V

SHDN

> 2V. If unused, connect to

IN. If reverse battery protection of the SHDN input is desired, connect a

100kΩ resistor in series with SHDN.

6 6 POK

POK Output, Open Drain. Low when OUT is out of regulation or in shutdown.

Connect POK to OUT through a high-value resistor for a simple error

—

EP Exposed paddle (TDFN only). Connect to the circuit ground plane.

Pin Description

MAX8880/MAX8881

12V, Ultra-Low-I

, Low-Dropout

Linear Regulators with POK

6 _______________________________________________________________________________________

Reverse Battery Protection

The MAX8880/MAX8881 have a unique protection

scheme that limits the reverse supply current to less

than 1mA when V

is forced below ground. The circuit

monitors the polarity of IN, disconnecting the internal

circuitry and parasitic diodes when the battery is

reversed. This feature prevents the device from electri-

cal stress and damage when the battery is connected

backwards. If reverse battery protection is needed,

drive SHDN through a 100kΩ resistor.

Current Limiting

The MAX8880/MAX8881 include a current limiter. When

the output is shorted to ground, drive to the output

PMOS is limited. The output can be shorted to ground

without damage to the part.

Thermal Overload Protection

Thermal overload protection limits total power dissipa-

tion in the MAX8880/MAX8881. When the internal junc-

tion temperature exceeds T

= +160°C, the thermal

sensor signals the shutdown logic, turning off the pass

transistor and allowing the IC to cool. The thermal sen-

sor turns the pass transistor on again after the IC’s

junction temperature cools by 15°C, resulting in a

pulsed output during continuous thermal-overload con-

ditions.

Thermal-overload protection is designed to protect the

MAX8880/MAX8881 in the event of fault conditions. For

continuous operation, do not exceed the absolute maxi-

mum junction temperature rating of T

J(MAX)

= +150°C.

Operating Region and Power Dissipation

The MAX8880/MAX8881’s maximum power dissipation

depends on the thermal resistance of the case and cir-

cuit board, the temperature difference between the die

junction and ambient air, and the rate of airflow. The

power dissipation in the device is P = I

OUT

). The maximum power dissipation allowed is:

OUT

GND

4.7μF

1μF

SHDN

2.5V TO 12V

UP TO 200mA

REGULATION OK

POK

MAX8880

OUT

1.25V TO 5.5V

Figure 3. Adjustable Output Using External Feedback Resistors

SHUTDOWN

LOGIC

ERROR

AMP

1.25V

REF

91%

REF

OUT

POK

GND

SHDN

MAX8881

THERMAL

SENSOR

REVERSE

BATTERY

PROTECTION

MOS DRIVER

WITH I

LIMIT

POK

Figure 2. Functional Diagram

P1-P3 P4-P6 P7-P9 P10-P12

MAX8881EUT33-T

Mfr. #:

Buy MAX8881EUT33-T

Manufacturer:

Maxim Integrated

Description:

LDO Voltage Regulators 12V Linear Regulato

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MAX8881EUT33-T

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