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LT3022/LT3022-1.2

LT3022-1.5/LT3022-1.8

1A, 0.9V to 10V,

Very Low Dropout

Linear Regulator

FEATURES

DESCRIPTION

The LT

3022 is a very low dropout voltage (VLDO™) linear

regulator that operates from single input supplies down to

0.9V. The device supplies 1A output current with 145mV

typical dropout voltage. The LT3022 is ideal for low input

voltage to low output voltage applications, providing

comparable electrical efficiency to a switching regulator.

The regulator optimizes stability and transient response

with low ESR ceramic output capacitors as small as 10µF

Other LT3022 features include 0.05% typical line regulation

and 0.05% typical load regulation. In shutdown, quiescent

current typically drops to 7.5µA. Internal protection circuitry

includes reverse-battery protection, current limiting, ther-

mal limiting with hysteresis and reverse-current protection.

The LT3022 is available as an adjustable device with

an output voltage range down to the 200mV reference.

Three fixed output voltages, 1.2V, 1.5V and 1.8V are also

offered. The LT3022 regulator is available in the thermally

enhanced low profile (0.75mm) 16-lead (5mm

3mm)

DFN and MSOP packages.

LT, LTC, LTM, Linear Technology and the Linear logo are registered trademarks of Linear

Technology Corporation. VLDO is a trademark of Linear Technology Corporation.

All other trademarks are the property of their respective owners.

Range: 0.9V to 10V

Dropout Voltage: 145mV Typical

Output Current: 1A

Adjustable Output (V

REF

= V

OUT(MIN)

= 200mV)

Fixed Output Voltages: 1.2V, 1.5V, 1.8V

Stable with Low ESR, Ceramic Output Capacitors

(10µF Minimum)

0.05% Typical Load Regulation from 1mA to 1A

Quiescent Current: 400µA Typical

7.5µA Typical Quiescent Current in Shutdown

Current Limit Protection

Reverse-Battery Protection with No Reverse Current

Thermal Limiting with Hysteresis

16-Lead (5mm

3mm) DFN and MSOP Packages

APPLICATIONS

High Efficiency Linear Regulators

Battery-Powered Systems

Logic Supplies

Post Regulator for Switching Supplies

Wireless Modems

FPGA Core Supplies

TYPICAL APPLICATION

Minimum Input Voltage

1.1

1.2V to 0.9V, 1A VLDO Regulator

MINIMUM INPUT VOLTAGE (V)

1.2V

10µF

SHDN

GND

OUT

LT3022

ADJ

OUT

0.9V

10µF 1A

1.0

0.9

0.8

0.7

0.6

0.5

0.4

0.3

0.2

0.1

–50

–25

TEMPERATURE (°C)

= 1A

698

200

3022 TA01a

100

125

3022 TA01b

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LT3022/LT3022-1.2

LT3022-1.5/LT3022-1.8

ABSOLUTE MAXIMUM RATINGS

(Note 1)

IN Pin Voltage ........................................................ ±10V

OUT Pin Voltage ..................................................... ±10V

Input-to-Output Differential Voltage ....................... ±10V

ADJ/SENSE Pin Voltage ......................................... ±10V

SHDN

Pin Voltage .................................................. ±10V

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

Operating Junction Temperature Range

E-, I-Grades (Notes 2, 3) ................... –40°C to 125°C

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

Lead Temperature (Soldering, 10 sec)

MSOP Package ................................................ 300°C

PIN CONFIGURATION

TOP VIEW

OUT

ADJ

AGND

GND

16 NC

15 NC

14 IN

13 IN

12 IN

11 PGND

10 PGND

SHDN

OUT

ADJ/SENSE*

AGND

TOP VIEW

PGND

SHDN

GND

MSE PACKAGE

16-LEAD PLASTIC MSOP

JMAX

= 125°C,

= 38°C/W**,

= 5°C/W TO 10°C/W

EXPOSED PAD (PIN 17) IS GND, MUST BE SOLDERED TO PCB

*PIN 5: ADJ FOR LT3022

SENSE FOR LT3022-1.2/LT3022-1.5/LT3022-1.8

**SEE THE APPLICATIONS INFORMATION SECTION

DHC PACKAGE

16-LEAD (5mm

3mm) PLASTIC DFN

JMAX

= 125°C,

= 38°C/W*,

= 4°C/W

EXPOSED PAD (PIN 17) IS GND, MUST BE SOLDERED TO PCB

*SEE THE APPLICATIONS INFORMATION SECTION

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LT3022/LT3022-1.2

LT3022-1.5/LT3022-1.8

ORDER INFORMATION

LEAD FREE FINISH

LT3022EDHC#PBF

LT3022IDHC#PBF

LT3022EMSE#PBF

LT3022IMSE#PBF

LT3022EMSE-1.2#PBF

LT3022IMSE-1.2#PBF

LT3022EMSE-1.5#PBF

LT3022IMSE-1.5#PBF

LT3022EMSE-1.8#PBF

LT3022IMSE-1.8#PBF

LEAD BASED FINISH

LT3022EDHC

LT3022IDHC

LT3022EMSE

LT3022IMSE

LT3022EMSE-1.2

LT3022IMSE-1.2

LT3022EMSE-1.5

LT3022IMSE-1.5

LT3022EMSE-1.8

LT3022IMSE-1.8

TAPE AND REEL

LT3022EDHC#TRPBF

LT3022IDHC#TRPBF

LT3022EMSE#TRPBF

LT3022IMSE#TRPBF

LT3022EMSE-1.2#TRPBF

LT3022IMSE-1.2#TRPBF

LT3022EMSE-1.5#TRPBF

LT3022IMSE-1.5#TRPBF

LT3022EMSE-1.8#TRPBF

LT3022IMSE-1.8#TRPBF

TAPE AND REEL

LT3022EDHC#TR

LT3022IDHC#TR

LT3022EMSE#TR

LT3022IMSE#TR

LT3022EMSE-1.2#TR

LT3022IMSE-1.2#TR

LT3022EMSE-1.5#TR

LT3022IMSE-1.5#TR

LT3022EMSE-1.8#TR

LT3022IMSE-1.8#TR

PART MARKING*

3022

302212

302215

302218

PART MARKING*

3022

302212

302215

302218

PACKAGE DESCRIPTION

16-Lead (5mm

3mm) Plastic DFN

16-Lead (5mm

3mm) Plastic DFN

16-Lead Plastic MSOP

PACKAGE DESCRIPTION

16-Lead (5mm

3mm) Plastic DFN

16-Lead (5mm

3mm) Plastic DFN

16-Lead Plastic MSOP

TEMPERATURE RANGE

–40°C to 125°C

TEMPERATURE RANGE

–40°C to 125°C

Consult LTC Marketing for parts specified with wider operating temperature ranges. *The temperature grade is identified by a label on the shipping container.

For more information on lead free part marking, go to:

http://www.linear.com/leadfree/

For more information on tape and reel specifications, go to:

http://www.linear.com/tapeandreel/

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LT3022/LT3022-1.2

LT3022-1.5/LT3022-1.8

ELECTRICAL CHARACTERISTICS

PARAMETER

Minimum Input Voltage (Notes 4, 6)

ADJ Pin Voltage (Notes 5, 6)

Regulated Output Voltage (Note 5)

The

denotes the specifications which apply over the full operating

temperature range, otherwise specifications are at T

= 25°C.

CONDITIONS

LOAD

= 1A, T

> 0°C

LOAD

= 1A, T

≤ 0°C

= 1.5V, I

LOAD

= 1mA

1.15V < V

< 10V, 1mA < I

LOAD

< 1A

LT3022-1.2

LT3022-1.5

LT3022-1.8

= 1.5V, I

LOAD

= 1mA

1.5V < V

< 10V, 1mA < I

LOAD

<1A

= 1.8V, I

LOAD

= 1mA

1.8V < V

< 10V, 1mA < I

LOAD

<1A

= 2.1V, I

LOAD

= 1mA

2.1V < V

< 10V, 1mA < I

LOAD

<1A

∆V

= 1.15V to 10V, I

LOAD

= 1mA

∆V

= 1.5V to 10V, I

LOAD

= 1mA

∆V

= 1.8V to 10V, I

LOAD

= 1mA

∆V

= 2.1V to 10V, I

LOAD

= 1mA

= 1.15V, ∆I

LOAD

= 1mA to 1A

MIN

TYP

0.9

MAX

1.05

1.10

204

206

1.224

1.236

1.530

1.545

1.836

1.854

0.5

3.5

0.5

1.0

3.8

7.5

4.5

135

175

150

235

185

285

3.5

8.5

UNITS

µA

µV

RMS

196

194

1.176

1.164

1.470

1.455

1.764

1.746

–1.5

–9

–11

–13.5

–0.5

–1.0

–3

–6

–3.8

–7.5

–4.5

–9

200

1.200

1.500

1.800

–0.1

0.6

0.8

0.1

0.6

1.2

Line Regulation (Note 7)

LT3022

LT3022-1.2

LT3022-1.5

LT3022-1.8

LT3022

LT3022-1.2

LT3022-1.5

LT3022-1.8

Load Regulation (Note 7)

= 1.5V, ∆I

LOAD

= 1mA to 1A

= 1.8V, ∆I

LOAD

= 1mA to 1A

= 2.1V, ∆I

LOAD

= 1mA to 1A

Dropout Voltage (Notes 8, 9)

LOAD

= 10mA

LOAD

= 100mA

110

LOAD

= 500mA

LOAD

= 1A

145

400

1.2

3.4

8.3

165

GND Pin Current, V

= V

OUT(NOMINAL)

+ 0.4V

(Notes 9, 10)

LOAD

= 0mA

LOAD

= 1mA

LOAD

= 100mA

LOAD

= 500mA

LOAD

= 1A

OUT

= 10µF I

LOAD

= 1A, BW = 10Hz to 100kHz,

OUT

= 1.2V

ADJ

= 0.2V, V

= 1.5V

OUT

= Off to On

OUT

= On to Off

SHDN

= 0V, V

= 10V

SHDN

= 10V, V

= 10V

= 6V, V

SHDN

= 0V

Output Voltage Noise

ADJ Pin Bias Current (Notes 7, 11)

Shutdown Threshold

SHDN

Pin Current (Note 12)

Quiescent Current in Shutdown

100

0.9

±1

9.5

µA

0.25

0.64

7.5

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LT3022/LT3022-1.2

LT3022-1.5/LT3022-1.8

The

denotes the specifications which apply over the full operating

temperature range, otherwise specifications are at T

= 25°C.

PARAMETER

Ripple Rejection (Note 13)

CONDITIONS

LT3022

LT3022-1.2

LT3022-1.5

LT3022-1.8

Current Limit (Note 9)

Input Reverse Leakage Current (Note 14)

Reverse Output Current (Notes 15, 16)

– V

OUT

= 1V, V

RIPPLE

= 0.5V

P-P

RIPPLE

= 120Hz, I

LOAD

= 1A

– V

OUT

= 1V, V

RIPPLE

= 0.5V

P-P

RIPPLE

= 120Hz, I

LOAD

= 1A

– V

OUT

= 1V, V

RIPPLE

= 0.5V

P-P

RIPPLE

= 120Hz, I

LOAD

= 1A

– V

OUT

= 1V, V

RIPPLE

= 0.5V

P-P

RIPPLE

= 120Hz, I

LOAD

= 1A

ELECTRICAL CHARACTERISTICS

MIN

TYP

2.6

1.7

0.1

MAX

UNITS

= 10V, V

OUT

= 0V

= V

OUT(NOMINAL)

+ 0.5V, ∆V

OUT

≤ –5%

= –10V, V

OUT

= 0V

LT3022

LT3022-1.2

LT3022-1.5

LT3022-1.8

OUT

= 1.2V, V

= 0V

OUT

= 1.2V, V

= 0V

OUT

= 1.5V, V

= 0V

OUT

= 1.8V, V

= 0V

1.1

µA

Minimum Required Output Current

= 1.6V, V

OUT

= 1.2V

Note 1:

Stresses beyond those listed under Absolute Maximum Ratings

may cause permanent damage to the device. Exposure to any Absolute

Maximum Rating condition for extended periods may affect device

reliability and lifetime.

Note 2:

The LT3022 regulator is tested and specified under pulse load

conditions such that T

≈ T

. The LT3022 is 100% tested at T

= 25°C.

Performance of the LT3022E over the full –40°C and 125°C operating

junction temperature range is assured by design, characterization and

correlation with statistical process controls. The LT3022I regulators are

guaranteed over the full –40°C to 125°C operating junction temperature

range. High junction temperatures degrade operating lifetime. Operating

lifetime is derated at junction temperatures greater than 125°C.

Note 3:

This IC includes overtemperature protection that is intended

to protect the device during momentary overload conditions. Junction

temperature will exceed 125°C when overtemperature protection is active.

Continuous operation above the specified maximum operating junction

temperature may impair device reliability.

Note 4:

Minimum input voltage is the voltage required by the LT3022 to

regulate the output voltage and supply the rated 1A output current. This

specification is tested at V

OUT

= 0.2V. For higher output voltages, the

minimum input voltage required for regulation equals the regulated output

voltage V

OUT

plus the dropout voltage or 1.1V, whichever is greater.

Note 5:

Maximum junction temperature limits operating conditions. The

regulated output voltage specification does not apply for all possible

combinations of input voltage and output current. Limit the output current

range if operating at maximum input voltage. Limit the input-to-output

voltage differential range if operating at maximum output current.

Note 6:

The LT3022 typically supplies 1A output current with a 0.9V input

supply. The guaranteed minimum input voltage for 1A output current is

1.10V, especially if cold temperature operation is required.

Note 7:

The LT3022 is tested and specified for these conditions with ADJ

tied to OUT. Specifications for fixed output voltage devices are referred to

the output voltage.

Note 8:

Dropout voltage is the minimum input to output voltage differential

needed to maintain regulation at a specified output current. In dropout the

output voltage equals: (V

– V

DROPOUT

Note 9:

The LT3022 is tested and specified for these conditions with

an external resistor divider (3.92k and 19.6k) setting V

OUT

to 1.2V. The

external resistor divider adds 50µA of load current.

Note 10:

GND pin current is tested with V

= V

OUT(NOMINAL)

+ 0.4V and a

current source load. GND pin current increases in dropout. See GND pin

current curves in the Typical Performance Characteristics section.

Note 11:

Adjust pin bias current flows out of the ADJ pin.

Note 12:

Shutdown pin current flows into the

SHDN

pin.

Note 13:

The LT3022 is tested and specified for this condition with an

external resistor divider (3.92k and 5.9k) setting V

OUT

to 0.5V. The external

resistor divider adds 50µA of load current. The specification refers to

the change in the 0.2V reference voltage, not the 0.5V output voltage.

Specifications for fixed output voltage devices are referred to the output

voltage.

Note 14:

Input reverse leakage current flows out of the IN pin.

Note 15:

Reverse output current is tested with IN grounded and OUT

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

out of the GND pin.

Note 16:

Reverse current is higher for the case of (rated_output)

< V

OUT

< V

, because the no-load recovery circuitry is active in this region

and is trying to restore the output voltage to its nominal value.

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