LT1529CQ-3.3#TRPBF Datasheet LT1529CQ#TRPBF, LT1529CQ-5#TRPBF, LT1529CQ-3.3#TRPBF | P1-P3

LT1529

LT1529-3.3/LT1529-5

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3A Low Dropout Regulators

with Micropower

Quiescent Current

and Shutdown

The LT

1529/LT1529-3.3/LT1529-5 are 3A low dropout

regulators with micropower quiescent current and shut-

down. The devices are capable of supplying 3A of output

current with a dropout voltage of 0.6V. Designed for use

in battery-powered systems, the low quiescent current,

50µA operating and 16µA in shutdown, make them an

ideal choice. The quiescent current is well controlled; it

does not rise in dropout as it does with many other low

dropout PNP regulators.

Other features of the LT1529 /LT1529-3.3/LT1529-5 in-

clude the ability to operate with small output capacitors.

They are stable with 22µF on the output while most older

devices require up to 100µF for stability. Small ceramic

capacitors can be used, enhancing manufacturabiltiy.

Also the input may be connected to voltages lower than the

output voltage, including negative voltages, without re-

verse current flow from output to input. This makes the

LT1529/LT1529-3.3/LT1529-5 ideal for backup power

situations where the output is held high and the input is at

ground or reversed. Under these conditions, only 16µA

will flow from the OUTPUT pin to ground. The devices are

available in 5-lead TO-220 and 5-lead DD packages.

■

Dropout Voltage: 0.6V at I

OUT

= 3A

■

Output Current: 3A

■

Quiescent Current: 50µA

■

No Protection Diodes Needed

■

Adjustable Output from 3.8V to 14V

■

3.3V and 5V Fixed Output Voltages

■

Controlled Quiescent Current in Dropout

■

Shutdown I

= 16µA

■

Stable with 22µF Output Capacitor

■

Reverse Battery Protection

■

No Reverse Current

■

Thermal Limiting

OUTPUT CURRENT (A)

DROPOUT VOLTAGE (V)

0.1

0.2

0.3

0.4

0.6

0.5

1.0 1.5 2.0

LT1529 • TA02

2.5 3.0

0.5

Dropout Voltage

5V Supply with Shutdown

■

High Efficiency Regulator

■

Regulator for Battery-Powered Systems

■

Post Regulator for Switching Supplies

■

5V to 3.3V Logic Regulator

> 5.5V

22µF

LT1529 • TA01

OUTPUT

SENSE

LT1529-5

SHDN

GND

SHDN

(PIN 4)

<0.25

>2.8

OUTPUT

OFF

DESCRIPTIO

FEATURES

APPLICATIO S

TYPICAL APPLICATIO

, LTC and LT are registered trademarks of Linear Technology Corporation.

All other trademarks are the property of their respective owners.

LT1529

LT1529-3.3/LT1529-5

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Output Short-Circuit Duration ......................... Indefinite

Storage Temperature Range ................ – 65°C to 150°C

Operating Junction Temperature Range

Commercial .......................................... 0°C to 125°C

Industrial ......................................... – 45°C to 125°C

Lead Temperature (Soldering, 10 sec).................. 300°C

*For applications requiring input voltage ratings greater than 15V, contact

the factory.

ARB

EXI T

Input Voltage ...................................................... ±15V*

OUTPUT Pin Reverse Current .............................. 10mA

SENSE Pin Current .............................................. 10mA

ADJ Pin Current ................................................... 10mA

SHDN Pin Input Voltage (Note 2) .............. 6.5V, – 0.6V

SHDN Pin Input Current (Note 2) .......................... 5mA

PACKAGE

RDER I FOR ATIO

ORDER PART

NUMBER

LT1529CQ

LT1529CQ-3.3

LT1529CQ-5

LT1529IQ

LT1529IQ-3.3

LT1529IQ-5

*PIN 2 = SENSE FOR LT1529-3.3/LT1529-5

= ADJ FOR LT1529

ORDER PART

NUMBER

LT1529CT

LT1529CT-3.3

LT1529CT-5

LT1529IT

LT1529IT-3.3

LT1529IT-5

*PIN 2 = SENSE FOR LT1529-3.3/LT1529-5

= ADJ FOR LT1529

JMAX

= 125°C, θ

≈ 30°C/W

PARAMETER CONDITIONS MIN TYP MAX UNITS

Regulated Output Voltage LT1529-3.3 V

= 3.8V, I

OUT

= 1mA, T

= 25°C 3.250 3.300 3.350 V

(Note 4) 4.3V < V

< 15V, 1mA < I

OUT

< 3A ● 3.200 3.300 3.400 V

LT1529-5 V

= 5.5V, I

OUT

= 1mA, T

= 25°C 4.925 5.000 5.075 V

6V < V

< 15V, 1mA < I

OUT

< 3A ● 4.850 5.000 5.150 V

LT1529 (Note 5) V

= 4.3V, I

OUT

= 1mA, T

= 25°C 3.695 3.750 3.805 V

4.8V < V

< 15V, 1mA < I

OUT

< 3A ● 3.640 3.750 3.860 V

Line Regulation LT1529-3.3 ∆V

= 3.8V to 15V, I

OUT

= 1mA ● 1.5 10 mV

LT1529-5 ∆V

= 5.5V to 15V, I

OUT

= 1mA ● 1.5 10 mV

LT1529 (Note 5) ∆V

= 4.3V to 15V, I

OUT

= 1mA ● 1.5 10 mV

Load Regulation LT1529-3.3 ∆I

LOAD

= 1mA to 3A, V

= 4.3V, T

= 25°C520mV

∆I

LOAD

= 1mA to 3A, V

= 4.3V ● 12 30 mV

LT1529-5 ∆I

LOAD

= 1mA to 3A, V

= 6V, T

= 25°C520mV

∆I

LOAD

= 1mA to 3A, V

= 6V ● 12 30 mV

LT1529 (Note 5) ∆I

LOAD

= 1mA to 3A, V

= 4.8V, T

= 25°C520mV

∆I

LOAD

= 1mA to 3A, V

= 4.8V ● 12 30 mV

Dropout Voltage I

LOAD

= 10mA, T

= 25°C 110 180 mV

(Note 6) I

LOAD

= 10mA ● 250 mV

LOAD

= 100mA, T

= 25°C 200 300 mV

LOAD

= 100mA ● 400 mV

LECTR

AL C CHARA TERIST

ICS

SHDN

GND

SENSE/ADJ*

OUTPUT

Q PACKAGE

5-LEAD PLASTIC DD PAK

TAB IS

GND

FRONT VIEW

T PACKAGE

5-LEAD PLASTIC TO-220

FRONT VIEW

TAB IS

GND

SHDN

GND

SENSE/ADJ*

OUTPUT

(Note 1)

JMAX

= 125°C, θ

≈ 50°C/W

The ● denotes specifications which apply over the operating temperature range, otherwise specificatons are at T

= 25°C. (Note 3)

Consult LTC Marketing for parts specified with wider operating temperature ranges.

LT1529

LT1529-3.3/LT1529-5

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LECTR

AL C CHARA TERIST

ICS

PARAMETER CONDITIONS MIN TYP MAX UNITS

Dropout Voltage I

LOAD

= 700mA, T

= 25°C 320 430 mV

(Note 6) I

LOAD

= 700mA ● 550 mV

LOAD

= 1.5A, T

= 25°C 430 550 mV

LOAD

= 1.5A ● 700 mV

LOAD

= 3A, T

= 25°C 600 750 mV

LOAD

= 3A ● 950 mV

GND Pin Current I

LOAD

= 0mA, T

= 25°C 50 100 µA

(Note 7) I

LOAD

= 0mA, T

= 125°C (Note 8) 400 µA

LOAD

= 100mA, T

= 25°C 0.6 1.0 mA

LOAD

= 100mA, T

= 125°C (Note 8) 1.0 mA

LOAD

= 700mA ● 5.5 12 mA

LOAD

= 1.5A ● 20 40 mA

LOAD

= 3A ● 80 160 mA

ADJ Pin Bias Current (Notes 5, 9) T

= 25°C 150 300 nA

Shutdown Threshold V

OUT

= Off to On ● 1.20 2.8 V

OUT

= On to Off ● 0.25 0.75 V

SHDN Pin Current (Note 10) V

SHDN

= 0V ● 4.5 10 µA

Quiescent Current in Shutdown V

= V

OUT

(Nominal) + 1V, V

SHDN

= 0V ● 15 30 µA

(Note 11)

Ripple Rejection V

– V

OUT

= 1V (Avg), V

RIPPLE

= 0.5V

P-P

,5062dB

RIPPLE

= 120Hz, I

LOAD

= 1.5A

Current Limit V

– V

OUT

= 7V, T

= 25°C5A

= V

OUT

(Nominal) + 1.5V, ∆V

OUT

= – 0.1V ● 3.2 4.7 A

Input Reverse Leakage Current V

= –15V, V

OUT

= 0V ● 1.0 mA

Reverse Output Current (Note 12) LT1529-3.3 V

OUT

= 3.3V, V

= 0V 16 µA

LT1529-5 V

OUT

= 5V, V

= 0V 16 µA

LT1529 (Note 6) V

OUT

= 3.8V, V

= 0V 16 µA

Note 1: Absolute Maximum Ratings are those values beyond which the life

of a device may be impaired.

Note 2: The SHDN pin input voltage rating is required for a low impedance

source. Internal protection devices connected to the SHDN pin will turn on

and clamp the pin to approximately 7V or – 0.6V. This range allows the use

of 5V logic devices to drive the pin directly. For high impedance sources or

logic running on supply voltages greater than 5.5V, the maximum current

driven into the SHDN pin must be limited to less than 5mA.

Note 3: The device is tested under pulse load conditions such that T

= T

Note 4: Operating conditions are limited by maximum junction

temperature. The regulated output voltage specification will not apply for

all possible combinations of input voltage and output current. When

operating at maximum input voltage, the output current range must be

limited. When operating at maximum output current the input voltage

range must be limited.

Note 5: The LT1529 is tested and specified with the ADJ pin connected to

the OUTPUT pin.

Note 6: Dropout voltage is the minimum input/output voltage required to

maintain regulation at the specified output current. In dropout the output

voltage will be equal to (V

– V

DROPOUT

Note 7: GND pin current is tested with V

= V

OUT

(nominal) and a current

source load. This means that the device is tested while operating in its

dropout region. This is the worst-case GND pin current. The GND pin

current will decrease slightly at higher input voltages.

Note 8: GND pin current will rise at T

> 75°C. This is due to internal

circuitry designed to compensate for leakage currents in the output

transistor at high temperatures. This allows quiescent current to be

minimized at lower temperatures, yet maintain output regulation at high

temperatures with light loads. See quiescent current curve in typical

performance characteristics.

Note 9: ADJ pin bias current flows into the ADJ pin.

Note 10: SHDN pin current at V

SHDN

= 0V flows out of the SHDN pin.

Note 11: Quiescent current in shutdown is equal to the sum total of the

SHDN pin current (5µA) and the GND pin current (10µA).

Note 12: Reverse output current is tested with the V

pin grounded and

the OUTPUT pin forced to the rated output voltage. This current flows into

the OUTPUT pin and out of the GND pin.

The ● denotes specifications which apply over the operating temperature range, otherwise specificatons are at T

= 25°C. (Note 3)

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

LT1529CQ-3.3#TRPBF

Mfr. #:

Buy LT1529CQ-3.3#TRPBF

Manufacturer:

Analog Devices / Linear Technology

Description:

LDO Voltage Regulators Fixed 3.3Vout - 3A Low Dropout Regulators with Micropower Quiescent Current and Shutdown

Lifecycle:

New from this manufacturer.

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LT1529CQ-3.3#TRPBF

LT1529CQ-3.3#TRPBF

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