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LT3757/LT3757A

Boost, Flyback, SEPIC and

Inverting Controller

FeaTures

DescripTion

The LT

3757/LT3757A are wide input range, current

mode, DC/DC controllers which are capable of generating

either positive or negative output voltages. They can be

configured as either a boost, flyback, SEPIC or inverting

converter. The LT3757/LT3757A drive a low side external

N-channel power MOSFET from an internal regulated 7.2V

supply. The fixed frequency, current-mode architecture

results in stable operation over a wide range of supply

and output voltages.

The operating frequency of LT3757/LT3757A can be set

with an external resistor over a 100kHz to 1MHz range,

and can be synchronized to an external clock using the

SYNC pin. A low minimum operating supply voltage of

2.9V, and a low shutdown quiescent current of less than

1µA, make the LT3757/LT3757A ideally suited for battery-

operated systems.

The LT3757/LT3757A feature soft-start and frequency

foldback functions to limit inductor current during start-up

and output short-circuit. The LT3757A has improved load

transient performance compared to the LT3757.

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

and No R

SENSE

and ThinSOT are trademarks of Linear Technology Corporation. All other

trademarks are the property of their respective owners.

Wide Input Voltage Range: 2.9V to 40V

Positive or Negative Output Voltage Programming

with a Single Feedback Pin

Current Mode Control Provides Excellent Transient

Response

Programmable Operating Frequency (100kHz to

1MHz) with One External Resistor

Synchronizable to an External Clock

Low Shutdown Current < 1µA

Internal 7.2V Low Dropout Voltage Regulator

Programmable Input Undervoltage Lockout with

Hysteresis

Programmable Soft-Start

Small 10-Lead DFN (3mm

3mm) and Thermally

Enhanced 10-Pin MSOP Packages

applicaTions

Automotive and Industrial Boost, Flyback, SEPIC and

Inverting Converters

Telecom Power Supplies

Portable Electronic Equipment

Typical applicaTion

High Efficiency Boost Converter

8V TO 16V

10µF

25V

X5R

100

200k

SHDN/UVLO

43.2k

SYNC

41.2k

300kHz

0.1µF

22k

6.8nF

10µH

OUT

24V

226k

EFFICIENCY (%)

10µF

25V

X5R

0.001

0.1

0.01

OUTPUT CURRENT (A)

3757 TA01b

Efficiency

= 8V

= 16V

LT3757

GATE

SENSE

FBX

GND INTV

4.7µF

10V

X5R

16.2k

0.01

47µF

35V

×2

3757 TA01a

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LT3757/LT3757A

absoluTe MaxiMuM raTings

(Note 1)

SHDN/UVLO

(Note 6).........................................40V

INTV

....................................................V

+ 0.3V, 20V

GATE ........................................................ INTV

+ 0.3V

SYNC ..........................................................................8V

, SS .........................................................................3V

RT ............................................................................1.5V

SENSE ....................................................................±0.3V

FBX ................................................................. –6V to 6V

Operating Temperature Range (Notes 2, 8)

LT3757E/LT3757AE............................ –40°C to 125°C

LT3757I/LT3757AI ............................. –40°C to 125°C

LT3757H/LT3757AH ........................... –40°C to 150°C

LT3757MP/LT3757AMP ..................... –55°C to 150°C

Storage Temperature Range

DFN.................................................... –65°C to 125°C

MSOP ................................................ –65°C to 150°C

Lead Temperature (Soldering, 10 sec)

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

pin conFiguraTion

TOP VIEW

FBX

SYNC

10 V

SHDN/UVLO

8 INTV

7 GATE

6 SENSE

TOP VIEW

FBX

SYNC

SHDN/UVLO

INTV

GATE

SENSE

DD PACKAGE

10-LEAD (3mm

3mm) PLASTIC DFN

JMAX

= 125°C,

= 43°C/W

EXPOSED PAD (PIN 11) IS GND, MUST BE SOLDERED TO PCB

MSE PACKAGE

10-LEAD PLASTIC MSOP

JMAX

= 150°C,

= 40°C/W

EXPOSED PAD (PIN 11) IS GND, MUST BE SOLDERED TO PCB

orDer inForMaTion

LEAD FREE FINISH

LT3757EDD#PBF

LT3757IDD#PBF

LT3757EMSE#PBF

LT3757IMSE#PBF

LT3757HMSE#PBF

LT3757MPMSE#PBF

LT3757AEDD#PBF

LT3757AIDD#PBF

LT3757AEMSE#PBF

LT3757AIMSE#PBF

LT3757AHMSE#PBF

LT3757AMPMSE#PBF

TAPE AND REEL

LT3757EDD#TRPBF

LT3757IDD#TRPBF

LT3757EMSE#TRPBF

LT3757IMSE#TRPBF

LT3757HMSE#TRPBF

LT3757MPMSE#TRPBF

LT3757AEDD#TRPBF

LT3757AIDD#TRPBF

LT3757AEMSE#TRPBF

LT3757AIMSE#TRPBF

LT3757AHMSE#TRPBF

LT3757AMPMSE#TRPBF

PART MARKING*

LDYW

LTDYX

LGGR

LTGGM

PACKAGE DESCRIPTION

10-Lead (3mm

3mm) Plastic DFN

10-Lead (3mm

3mm) Plastic DFN

10-Lead (3mm

3mm) Plastic MSOP

10-Lead (3mm

3mm) Plastic MSOP

10-Lead (3mm

3mm) Plastic MSOP

10-Lead (3mm

3mm) Plastic MSOP

10-Lead (3mm

3mm) Plastic DFN

10-Lead (3mm

3mm) Plastic DFN

10-Lead (3mm

3mm) Plastic MSOP

10-Lead (3mm

3mm) Plastic MSOP

10-Lead (3mm

3mm) Plastic MSOP

10-Lead (3mm

3mm) Plastic MSOP

TEMPERATURE RANGE

–40°C to 125°C

–40°C to 150°C

–55°C to 150°C

–40°C to 125°C

–40°C to 150°C

–55°C to 150°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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LT3757/LT3757A

elecTrical characTerisTics

PARAMETER

Operating Range

Shutdown I

Operating I

with Internal LDO Disabled

SENSE Current Limit Threshold

SENSE Input Bias Current

Error Amplifier

FBX Regulation Voltage (V

FBX(REG)

)

FBX Overvoltage Lockout

FBX Pin Input Current

Transconductance g

(∆I

/∆V

FBX

)

Output Impedance

FBX

Line Regulation [∆V

FBX

/(∆V

• V

FBX(REG)

)]

Current Mode Gain (∆V

/∆V

SENSE

)

Source Current

Sink Current

Oscillator

Switching Frequency

= 41.2k to GND, V

FBX

= 1.6V

= 140k to GND, V

FBX

= 1.6V

= 10.5k to GND, V

FBX

= 1.6V

FBX

= 1.6V

270

300

100

1000

1.2

220

0.4

1.5

SS = 0V, Current Out of Pin

The

denotes the specifications which apply over the full operating temp-

erature range, otherwise specifications are at T

= 25°C. V

= 24V,

SHDN/UVLO

= 24V, SENSE = 0V, unless otherwise noted.

CONDITIONS

SHDN/UVLO

= 0V

SHDN/UVLO

= 1.15V

= 0.3V, R

= 41.2k

= 0.3V, R

= 41.2k, INTV

= 7.5V

MIN

2.9

TYP

0.1

1.6

280

MAX

2.2

400

120

UNITS

µA

100

110

–65

Current Out of Pin

FBX

> 0V (Note 3)

FBX

< 0V (Note 3)

FBX

> 0V (Note 4)

FBX

< 0V (Note 4)

FBX

= 1.6V (Note 3)

FBX

= –0.8V (Note 3)

(Note 3)

FBX

> 0V, 2.9V < V

< 40V (Notes 3, 7)

FBX

< 0V, 2.9V < V

< 40V (Notes 3, 7)

FBX

= 0V, V

= 1.5V

FBX

= 1.7V

FBX

= –0.85V

1.569

–0.816

–10

1.6

–0.80

230

0.002

0.0025

5.5

–15

1.631

–0.784

100

µS

MΩ

0.056

0.05

%/V

V/V

µA

330

kHz

µA

RT Voltage

Minimum Off-Time

Minimum On-Time

SYNC Input Low

SYNC Input High

SS Pull-Up Current

Low Dropout Regulator

INTV

Regulation Voltage

INTV

Undervoltage Lockout Threshold

INTV

Overvoltage Lockout Threshold

INTV

Current Limit

INTV

Load Regulation (∆V

INTVCC

/ V

INTVCC

)

INTV

Line Regulation ∆V

INTVCC

/(V

INTVCC

• ∆V

)

Dropout Voltage (V

– V

INTVCC

)

INTV

Current in Shutdown

–10

2.6

7.2

2.7

0.1

17.5

–0.5

0.008

400

0.03

7.4

2.8

%/V

µA

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Falling INTV

UVLO Hysteresis

= 40V

= 15V

0 < I

INTVCC

< 20mA, V

= 8V

8V < V

< 40V

= 6V, I

INTVCC

= 20mA

SHDN/UVLO

= 0V, INTV

= 8V

–0.9

LT3757/LT3757A

elecTrical characTerisTics

PARAMETER

INTV

Voltage to Bypass Internal LDO

Logic Inputs

SHDN/UVLO

Threshold Voltage Falling

SHDN/UVLO

Input Low Voltage

SHDN/UVLO

Pin Bias Current Low

SHDN/UVLO

Pin Bias Current High

Gate Driver

Gate Driver Output Rise Time

Gate Driver Output Fall Time

Gate V

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 LT3757E/LT3757AE are guaranteed to meet performance

specifications from the 0°C to 125°C junction temperature. Specifications

over the –40°C to 125°C operating junction temperature range are

assured by design, characterization and correlation with statistical process

controls. The LT3757I/LT3757AI are guaranteed over the full –40°C to

125°C operating junction temperature range. The LT3757H/LT3757AH are

guaranteed over the full –40°C to 150°C operating junction temperature

range. High junction temperatures degrade operating lifetimes. Operating

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

LT3757MP/LT3757AMP are 100% tested and guaranteed over the full

–55°C to 150°C operating junction temperature range.

INTV

–0.05

= 3300pF (Note 5), INTV

= 7.5V

= 3300pF (Note 5), INTV

= 7.5V

0.05

= INTV

= 8V

I(V

) Drops Below 1µA

SHDN/UVLO

= 1.15V

SHDN/UVLO

= 1.30V

1.7

The

denotes the specifications which apply over the full operating temp-

erature range, otherwise specifications are at T

= 25°C. V

= 24V,

SHDN/UVLO

= 24V, SENSE = 0V, unless otherwise noted.

CONDITIONS

MIN

TYP

MAX

7.5

1.17

1.22

1.27

0.4

2.5

100

UNITS

µA

Note 3:

The LT3757/LT3757A are tested in a feedback loop which servos

FBX

to the reference voltages (1.6V and –0.8V) with the V

pin forced

to 1.3V.

Note 4:

FBX overvoltage lockout is measured at V

FBX(OVERVOLTAGE)

relative

to regulated V

FBX(REG)

Note 5:

Rise and fall times are measured at 10% and 90% levels.

Note 6:

For V

below 6V, the

SHDN/UVLO

pin must not exceed V

Note 7:

SHDN/UVLO

= 1.33V when V

= 2.9V.

Note 8:

The LT3757/LT3757A include overtemperature protection that

is intended to protect the device during momentary overload conditions.

Junction temperature will exceed the maximum operating junction

temperature when overtemperature protection is active. Continuous

operation above the specified maximum operating junction temperature

may impair device reliability.

Typical perForMance characTerisTics

Positive Feedback Voltage

vs Temperature, V

1605

REGULATED FEEDBACK VOLTAGE (mV)

= 40V

1600

= 24V

REGULATED FEEDBACK VOLTAGE (mV)

–788

–790

–792

–794

–796

–798

–800

–802

–804

–75 –50 –25

= 24V

= 8V

= INTV

= 2.9V

SHDN/UVLO

= 1.33V

= 25°C, unless otherwise noted.

Quiescent Current

vs Temperature, V

1.8

Negative Feedback Voltage

vs Temperature, V

QUIESCENT CURRENT (mA)

1.7

= 40V

1595

= 8V

1590

= INTV

= 2.9V

SHDN/UVLO

= 1.33V

= 24V

1.6

= 40V

1585

1.5

= INTV

= 2.9V

1580

–75 –50 –25

0 25 50 75 100 125 150

TEMPERATURE (°C)

3757 G01

0 25 50 75 100 125 150

TEMPERATURE (°C)

3757 G02

1.4

–75 –50 –25

0 25 50 75 100 125 150

TEMPERATURE (°C)

3757 G03

3757afd

LT3757/LT3757A

Typical perForMance characTerisTics

Dynamic Quiescent Current

vs Switching Frequency

(k )

(mA)

0 100 200 300 400 500 600 700 800 900 1000

SWITCHING FREQUENCY (KHz)

3757 G04

= 25°C, unless otherwise noted.

Normalized Switching Frequency

vs FBX

120

NORMALIZED FREQUENCY (%)

100

–0.8

vs Switching Frequency

1000

= 3300pF

100

0 100 200 300 400 500 600 700 800 900 1000

SWITCHING FREQUENCY (KHz)

3757 G05

–0.4

0.4

0.8

FBX VOLTAGE (V)

1.2

1.6

3757 G06

Switching Frequency

vs Temperature

330

320

SENSE THRESHOLD (mV)

310

300

290

280

270

–75 –50 –25

= 41.2K

120

SENSE Current Limit Threshold

vs Temperature

115

SENSE Current Limit Threshold

vs Duty Cycle

SWITCHING FREQUENCY (kHz)

110

SENSE THRESHOLD (mV)

115

110

105

100

0 25 50 75 100 125 150

TEMPERATURE (°C)

3757 G07

100

–75 –50 –25

0 25 50 75 100 125 150

TEMPERATURE (°C)

3757 G08

DUTY CYCLE (%)

100

3757 G09

SHDN/UVLO

Threshold

vs Temperature

1.28

SHDN/UVLO

Current vs Voltage

2.4

SHDN/UVLO

Hysteresis Current

vs Temperature

SHDN/UVLO

CURRENT (µA)

SHDN/UVLO

VOLTAGE (V)

1.26

SHDN/UVLO

RISING

SHDN/UVLO

(µA)

SHDN/UVLO

VOLTAGE (V)

3757 G11

2.2

1.24

2.0

1.22

SHDN/UVLO

FALLING

1.20

1.8

1.18

–75 –50 –25

0 25 50 75 100 125 150

TEMPERATURE (°C)

3757 G10

1.6

–75 –50 –25

0 25 50 75 100 125 150

TEMPERATURE (°C)

3757 G12

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