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FEATURES

LTC3835

Low I

Synchronous

Step-Down Controller

DESCRIPTION

The LTC

3835 is a high performance step-down switching

regulator controller that drives an all N-channel synchro-

nous power MOSFET stage. A constant-frequency current

mode architecture allows a phase-lockable frequency of

up to 650kHz.

The 80μA no-load quiescent current extends operating

life in battery powered systems. OPTI-LOOP compensa-

tion allows the transient response to be optimized over

a wide range of output capacitance and ESR values. The

LTC3835 features a precision 0.8V reference and a power

good output indicator. The 4V to 36V input supply range

encompasses a wide range of battery chemistries.

The TRACK/SS pin ramps the output voltage during start-

up. Current foldback limits MOSFET heat dissipation during

short-circuit conditions.

Comparison of LTC3835 and LTC3835-1

PART #

CLKOUT/

PHASMD

YES

EXTV

YES

PGOOD

YES

PACKAGES

FE20/4

5 QFN

GN16/3

5 DFN

Wide Output Voltage Range: 0.8V ≤ V

≤ 10V

Low Operating Quiescent Current: 80μA

OPTI-LOOP

Compensation Minimizes C

OUT

±1% Output Voltage Accuracy

Wide V

Range: 4V to 36V Operation

Phase-Lockable Fixed Frequency 140kHz to 650kHz

Dual N-Channel MOSFET Synchronous Drive

Very Low Dropout Operation: 99% Duty Cycle

Adjustable Output Voltage Soft-Start or Tracking

Output Current Foldback Limiting

Power Good Output Voltage Monitor

Clock Output for PolyPhase

Applications

Output Overvoltage Protection

Low Shutdown I

: 10μA

Internal LDO Powers Gate Drive from V

or V

OUT

Selectable Continuous, Pulse-Skipping or

Burst Mode

Operation at Light Loads

Small 20-Lead TSSOP or 4mm

5mm QFN Package

APPLICATIONS

LTC3835

LTC3835-1

Automotive Systems

Telecom Systems

Battery-Operated Digital Devices

Distributed DC Power Systems

LT, LTC, LTM, Burst Mode, PolyPhase and OPTI-LOOP are registered trademarks of

Linear Technology Corporation. All other trademarks are the property of their respective

owners. Protected by U.S. Patents including 5408150, 5481178, 5705919, 5929620,

6304066, 6498466, 6580258, 6611131.

TYPICAL APPLICATION

High Efﬁciency Synchronous Step-Down Converter

CLKOUT

PLLLPF

0.01μF

RUN

PGOOD

TRACK/SS

330pF

33k

100pF

SGND

20k

PLLIN/MODE

62.5k

SENSE

–

Efﬁciency and Power Loss

vs Load Current

4V TO

36V

0.22μF

BOOST

10μF

100

EFFICIENCY (%)

EFFICIENCY

= 12V; V

OUT

= 3.3V

100000

10000

POWER LOSS (mW)

1000

100

POWER LOSS

0.1

10 100 1000 10000

LOAD CURRENT (mA)

3835 TA01b

3.3μH

0.012Ω

LTC3835

OUT

3.3V

150μF

INTV

EXTV

4.7μF

SENSE

PGND

0.001 0.01

3835 TA01

3835fc

LTC3835

ABSOLUTE MAXIMUM RATINGS

(Note 1)

Input Supply Voltage (V

) ......................... 36V to –0.3V

Top Side Driver Voltage (BOOST) ............... 42V to –0.3V

Switch Voltage (SW) ..................................... 36V to –5V

INTV

, (BOOST-SW), CLKOUT, PGOOD ... 8.5V to –0.3V

RUN, TRACK/SS ......................................... 7V to –0.3V

SENSE

, SENSE

–

Voltages ........................ 11V to –0.3V

PLLIN/MODE, PHASMD, PLLLPF ......... INTV

to –0.3V

EXTV

...................................................... 10V to –0.3V

, V

Voltages ...................................... 2.7V to –0.3V

Peak Output Current <10μs (TG,BG) ...........................3A

INTV

Peak Output Current ................................. 50mA

Operating Temperature Range (Note 2).... –40°C to 85°C

Junction Temperature (Note 3) ............................. 125°C

Storage Temperature Range

FE Package ........................................ –65°C to 150°C

Storage Temperature Range

UFD Package ..................................... –65°C to 125°C

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

PIN CONFIGURATION

TOP VIEW

PHASMD

CLKOUT

TOP VIEW

CLKOUT

PLLLPF

TRACKS/SS

SGND

PGND

INTV

20 PHASMD

19 PLLIN/MODE

18 PGOOD

17 SENSE

SENSE

–

TRACK/SS 2

SGND 4

PGND 5

BG 6

INTV

EXTV

9 10

PLLLPF

PLLIN/MODE

16 PGOOD

15 SENSE

14 SENSE

–

13 RUN

12 BOOST

11 TG

20 19 18 17

15 RUN

14 BOOST

13 TG

12 SW

11 V

EXTV

FE PACKAGE

20-LEAD PLASTIC TSSOP

JMAX

= 125°C,

= 35°C/W

EXPOSED PAD (PIN 21) IS SGND MUST BE SOLDERED TO PCB

UFD PACKAGE

20-PIN (4mm 5mm) PLASTIC QFN

JMAX

= 125°C,

= 37°C/W

EXPOSED PAD (PIN 21) IS SGND MUST BE SOLDERED TO PCB

3835fc

LTC3835

ORDER INFORMATION

LEAD FREE FINISH

LTC3835EFE#PBF

LTC3835IFE#PBF

LTC3835EUFD#PBF

LTC3835IUFD#PBF

LEAD BASED FINISH

LTC3835EFE

LTC3835IFE

LTC3835EUFD

LTC3835IUFD

TAPE AND REEL

LTC3835EFE#TRPBF

LTC3835IFE#TRPBF

LTC3835EUFD#TRPBF

LTC3835IUFD#TRPBF

TAPE AND REEL

LTC3835EFE#TR

LTC3835IFE#TR

LTC3835EUFD#TR

LTC3835IUFD#TR

(Note 2)

PART MARKING*

LTC3835EFE

LTC3835IFE

3835

PART MARKING*

LTC3835EFE

LTC3835IFE

3835

PACKAGE DESCRIPTION

20-Lead Plastic TSSOP

20-Pin (4mm

5mm) Plastic DFN

20-Pin (4mm

5mm) Plastic DFN

PACKAGE DESCRIPTION

20-Lead Plastic TSSOP

20-Pin (4mm

5mm) Plastic DFN

20-Pin (4mm

5mm) Plastic DFN

TEMPERATURE RANGE

–40°C to 85°C

TEMPERATURE RANGE

–40°C to 85°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/

ELECTRICAL CHARACTERISTICS

SYMBOL

VFB

REFLNREG

LOADREG

PARAMETER

Regulated Feedback Voltage

Feedback Current

Reference Voltage Line Regulation

Output Voltage Load Regulation

Main Control Loops

The

denotes the speciﬁcations which apply over the full operating

temperature range, otherwise speciﬁcations are at T

= 25°C. V

= 12V, V

RUN

= 5V unless otherwise noted.

CONDITIONS

(Note 4); I

Voltage = 1.2V

(Note 4)

= 4V to 30V (Note 4)

(Note 4)

Measured in Servo Loop;

ΔI

Voltage = 1.2V to 0.7V

Measured in Servo Loop;

ΔI

Voltage = 1.2V to 2V

= 1.2V; Sink/Source 5μA (Note 4)

(Note 5)

RUN = 5V, V

= 0.83V (No Load)

RUN

= 0V

Ramping Down

Measured at V

Relative to Regulated V

SENSE

– = V

SENSE

+ = 0V

In Dropout

TRACK

= 0V

RUN

Rising

= 0.7V, V

SENSE

– = 3.3V

= 0.7V, V

SENSE

– = 3.3V

(Note 6)

LOAD

= 3300pF

LOAD

= 3300pF

(Note 6)

LOAD

= 3300pF

LOAD

= 3300pF

MIN

0.792

TYP

0.800

–5

0.002

0.1

–0.1

1.55

3.5

MAX

0.808

–50

0.02

0.5

–0.5

UNITS

%/V

mmho

Transconductance Ampliﬁer g

Input DC Supply Current

Sleep Mode

Shutdown

Undervoltage Lockout

Feedback Overvoltage Lockout

Sense Pins Total Source Current

Maximum Duty Factor

Soft-Start Charge Current

RUN Pin ON Threshold

Maximum Current Sense Threshold

TG Transition Time:

Rise Time

Fall Time

BG Transition Time:

Rise Time

Fall Time

125

μA

UVLO

OVL

SENSE

MAX

TRACK/SS

RUN

SENSE(MAX)

0.75

0.5

–660

99.4

1.0

0.7

100

1.35

0.9

110

115

μA

TG t

BG t

3835fc

LTC3835

ELECTRICAL CHARACTERISTICS

SYMBOL

TG/BG t

BG/TG t

ON(MIN)

INTVCCVIN

LDOVIN

INTVCCEXT

LDOEXT

EXTVCC

LDOHYS

NOM

LOW

HIGH

SYNCMIN

SYNCMAX

PLLLPF

PARAMETER

The

denotes the speciﬁcations which apply over the full operating

temperature range, otherwise speciﬁcations are at T

= 25°C. V

= 12V, V

RUN

= 5V unless otherwise noted.

CONDITIONS

MIN

TYP

180

7.2

4.5

5.25

0.2

7.5

0.2

4.7

0.2

PLLLPF

= No Connect

PLLLPF

= 0V

PLLLPF

= INTV

PLLIN/MODE = External Clock; V

PLLLPF

= 0V

PLLIN/MODE = External Clock; V

PLLLPF

= 2V

PLLIN/MODE

< f

OSC

PLLIN/MODE

> f

OSC

PGOOD

= 2mA

PGOOD

= 5V

with Respect to Set Regulated Voltage

Ramping Negative

Ramping Positive

-12

–10

650

360

220

475

400

250

530

115

800

–5

0.1

0.3

±1

–8

440

280

580

140

5.5

1.0

7.8

1.0

MAX

UNITS

kHz

μA

Top Gate Off to Bottom Gate On Delay C

LOAD

= 3300pF

Synchronous Switch-On Delay Time

Bottom Gate Off to Top Gate On Delay C

LOAD

= 3300pF

Top Switch-On Delay Time

Minimum On-Time

Internal V

Voltage

INTV

Load Regulation

Internal V

Voltage

INTV

Load Regulation

EXTV

Switchover Voltage

EXTV

Hysteresis

Nominal Frequency

Lowest Frequency

Highest Frequency

Minimum Synchronizable Frequency

Maximum Synchronizable Frequency

Phase Detector Output Current

Sinking Capability

Sourcing Capability

PGOOD Voltage Low

PGOOD Leakage Current

PGOOD Trip Level

(Note 7)

8.5V < V

< 30V, V

EXTVCC

= 0V

= 0mA to 20mA, V

EXTVCC

= 0V

EXTVCC

= 8.5V

= 0mA to 20mA, V

EXTVCC

= 8.5V

EXTV

Ramping Positive

INTV

Linear Regulator

Oscillator and Phase-Locked Loop

PGOOD Output

PGL

PGOOD

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 LTC3835E is guaranteed to meet performance speciﬁcations

from 0°C to 85°C. Speciﬁcations over the –40°C to 85°C operating

temperature range are assured by design, characterization and correlation

with statistical process controls. The LTC3835I is guaranteed to meet

performance speciﬁcations over the full –40°C to 85°C operating

temperature range.

Note 3:

is calculated from the ambient temperature T

and power

dissipation P

according to the following formulas:

LTC3835FE: T

= T

+ (P

• 35°C/W)

LTC3835UFD: T

= T

+ (P

• 37°C/W)

Note 4:

The LTC3835 is tested in a feedback loop that servos V

ITH

to a

speciﬁed voltage and measures the resultant V

Note 5:

Dynamic supply current is higher due to the gate charge being

delivered at the switching frequency. See Applications Information.

Note 6:

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

Delay times are measured using 50% levels.

Note 7:

The minimum on-time condition is speciﬁed for an inductor

peak-to-peak ripple current ≥40% of I

MAX

(see Minimum On-Time

Considerations in the Applications Information section).

3835fc

LTC3835

TYPICAL PERFORMANCE CHARACTERISTICS

Efﬁciency and Power Loss

vs Output Current

100

EFFICIENCY (%)

30 V

= 12V

OUT

= 3.3V

0.001 0.01

0.1

10 100 1000 10000

LOAD CURRENT (mA)

3835 G01

= 25ºC, unless otherwise noted.

Efﬁciency vs Load Current

10000

100

0.001 0.01

= 12V

= 5V

OUT

= 3.3V

EFFICIENCY (%)

POWER LOSS (mW)

EFFICIENCY (%)

100

0.1

10 100 1000 10000

LOAD CURRENT (mA)

3835 G02

Efﬁciency vs Input Voltage

Burst Mode OPERATION

FORCED CONTINUOUS MODE

PULSE SKIPPING MODE

1000

OUT

= 3.3V

15 20 25 30

INPUT VOLTAGE (V)

3835 G03

FIGURE 11 CIRCUIT

Load Step

(Burst Mode Operation)

Load Step

(Forced Continuous Mode)

Load Step

(Pulse-Skipping Mode)

OUT

100mV/

DIV AC

COUPLED

OUT

100mV/DIV

COUPLED

OUT

100mV/DIV

COUPLED

2A/DIV

3835 G04

2A/DIV

3835 G05

2A/DIV

3835 G06

20μs/DIV

FIGURE 11 CIRCUIT

OUT

= 3.3V

20μs/DIV

FIGURE 11 CIRCUIT

OUT

= 3.3V

20μs/DIV

FIGURE 11 CIRCUIT

OUT

= 3.3V

Inductor Current at Light Load

FORCED

CONTIN-

UOUS

MODE

2A/DIV

BURST

MODE

PULSE-

SKIPPING

MODE

3835 G07

Soft Start-Up

OUT

1V/DIV

Tracking Start-Up

OUT2

2V/DIV (MASTER)

OUT1

2V/DIV

(SLAVE)

4μs/DIV

FIGURE 11 CIRCUIT

OUT

= 3.3V

LOAD

= 300μA

3835 G08

3835 G09

20ms/DIV

FIGURE 11 CIRCUIT

20ms/DIV

FIGURE 11 CIRCUIT

3835fc

型号	LTC3835EGN-1-TRPBF	LTC3835EDHC-1	LTC3835EGN-1-TR	LTC3835IGN-1-PBF	LTC3835IGN-1-TR
描述	Low IQ Synchronous Step-Down Controller	Low IQ Synchronous Step-Down Controller	Low IQ Synchronous Step-Down Controller	Low IQ Synchronous Step-Down Controller	Low IQ Synchronous Step-Down Controller

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