MAX8743.pdf

19-3318; Rev 0; 6/04

Dual, High-Efficiency, Step-Down

Controller with High Impedance in Shutdown

General Description

The MAX8743 is a dual pulse-width modulation (PWM)

controller configured for step-down (buck) topologies

that provides the high efficiency, excellent transient

response, and high DC output accuracy necessary for

stepping down high-voltage batteries to generate low-

voltage chipset and RAM power supplies in notebook

computers. The CS_ inputs can be used with low-side

sense resistors to provide accurate current limits or can

be connected to LX_, using low-side MOSFETs as cur-

rent-sense elements. High output impedance in shut-

down eliminates negative output voltages, saving the

cost of a Schottky diode at the output.

The on-demand PWM controllers are free running, con-

stant on-time with input feed-forward. This configuration

provides ultra-fast transient response, wide input-output

differential range, low supply current, and tight load-reg-

ulation characteristics. The MAX8743 is simple and easy

to compensate.

Single-stage buck conversion allows the MAX8743 to

directly step down high-voltage batteries for the highest

possible efficiency. Alternatively, two-stage conversion

(stepping down the 5V system supply instead of the bat-

tery at a higher switching frequency) allows the minimum

possible physical size.

The MAX8743 is intended for generating chipset, DRAM,

CPU I/O, or other low-voltage supplies down to 1V. The

MAX8743 is available in 28-pin QSOP and 36-pin thin

QFN packages.

Features

♦

Ultra-High Efficiency

♦

Accurate Current-Limit Option

♦

Quick-PWM™ with 100ns Load-Step Response

♦

1% V OUT Accuracy over Line and Load

♦

High Output Impedance in Shutdown

♦

Dual Mode™ Fixed 1.8V/1.5V/Adj or 2.5V/Adj Outputs

♦

Adjustable 1V to 5.5V Output Range

♦

2V to 28V Battery Input Range

♦

200kHz/300kHz/420kHz/540kHz Nominal Switching

Frequency

♦

Adjustable Overvoltage Protection

♦

1.7ms Digital Soft-Start

♦

Drives Large Synchronous-Rectifier FETs

♦

Power-Good Window Comparator

♦

2V ±1% Reference Output

Ordering Information

PART

TEMP RANGE

PIN-PACKAGE

MAX8743EEI

-40°C to +85°C

28 QSOP

MAX8743ETX

-40°C to +85°C

36 Thin QFN

6mm x 6mm

Minimal Operating Circuit

Applications

Notebook Computers

CPU Core Supplies

Chipset/RAM Supplies as Low as 1V

1.8V and 2.5V I/O Supplies

5V INPUT

BATTERY

4.5V TO 28V

V DD

V+

V CC

UVP

OVP

MAX8743EEI

ILIM1

ILIM2

ON1

ON2

BST1

BST2

OUTPUT1

1.8V

DH1

DH2

OUTPUT2

2.5V

LX1

LX2

DL1

TON

DL2

CS2

CS1

OUT1

PGOOD

OUT2

REF

SKIP

Pin Configurations appear at end of data sheet.

Quick-PWM and Dual Mode are trademarks of Maxim Integrated

Products, Inc.

FB1

FB2

GND

________________________________________________________________ Maxim Integrated Products 1

For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at

1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com.

Dual, High-Efficiency, Step-Down

Controller with High Impedance in Shutdown

ABSOLUTE MAXIMUM RATINGS (Note 1)

V+ to AGND..............................................................-0.3 to +30V

V CC to AGND............................................................-0.3V to +6V

V DD to PGND............................................................-0.3V to +6V

AGND to PGND .....................................................-0.3V to +0.3V

PGOOD, OUT_ to AGND..........................................-0.3V to +6V

OVP, UVP, ILIM_, FB_, REF,

SKIP, TON, ON_ to AGND......................-0.3V to (V CC + 0.3V)

DL_ to PGND ..............................................-0.3V to (V DD + 0.3V)

BST_ to AGND........................................................-0.3V to +36V

CS_ to AGND.............................................................-6V to +30V

DH1 to LX1 ..............................................-0.3V to (V BST1 + 0.3V)

LX_ to BST_ ..............................................................-6V to +0.3V

DH2 to LX2 ..............................................-0.3V to (V BST2 + 0.3V)

REF Short Circuit to GND ...........................................Continuous

Continuous Power Dissipation (T A = +70°C)

28-Pin QSOP (derate 10.8mW/°C above +70°C)........860mW

36-Pin 6mm ✕ 6mm Thin QFN

(derate 26.3mW/°C above +70°C) .............................2105mW

Operating Temperature Range ...........................-40°C to +85°C

Junction Temperature ......................................................+150°C

Storage Temperature Range .............................-65°C to +150°C

Lead Temperature (soldering, 10s) .................................+300°C

Note 1: For the MAX8743EEI, AGND and PGND refer to a single pin designated GND.

Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional

operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to

absolute maximum rating conditions for extended periods may affect device reliability.

ELECTRICAL CHARACTERISTICS

(Circuit of Figure 1, V DD = V CC = 5V, SKIP = AGND, V+ = 15V, T A = 0°C to +85°C , typical values are at +25°C, unless otherwise

noted.)

PARAMETER

SYMBOL

CONDITIONS

MIN

TYP

MAX UNITS

PWM CONTROLLERS

Input Voltage Range

V+

Battery voltage, V+

V CC /V DD V CC , V DD

4.5

5.5

V+ = 2V to 28V, I LOAD

= 0 to 8A, SKIP = V CC ,

+25°C to +85°C

FB1 to AGND

1.782

1.8

1.818

FB1 to V CC

1.485

1.5

1.515

DC Output Voltage OUT1

(Note 2)

V OUT1

FB1 to OUT1

0.99

1.01

V+ = 2V to 28V, I LOAD

= 0 to 8A, SKIP = V CC ,

0°C to +85°C

FB1 to AGND

1.773

1.8

1.827

FB1 to V CC

1.477

1.5

1.523

FB1 to OUT1

0.985

1.015

V+ = 4.5V to 28V,

I LOAD = 0 to 4A,

SKIP = V CC ,

+25°C to +85°C

FB2 to AGND

2.475

2.5

2.525

DC Output Voltage OUT2

(Note 2)

FB2 to OUT2

0.99

1.01

V OUT2

V+ = 4.5V to 28V,

I LOAD = 0 to 4A,

SKIP = V CC ,

0°C to +85°C

FB2 to AGND

2.463

2.5

2.537

FB2 to OUT2

0.985

1.015

Output Voltage Adjust Range

OUT1, OUT2

5.5

Dual-Mode Threshold, Low

OVP, FB_

0.05

0.1

0.15

Dual-Mode Threshold, High

OVP, ILIM_

V CC -

1.5

V CC -

0.4

FB1

1.9

2.0

2.1

OUT_ Input Resistance

R OUT1 V OUT1 = 1.5V

k Ω

R OUT2 V OUT2 = 2.5V

100

FB_ Input-Bias Current

I FB

-0.1

+0.1

µA

Soft-Start Ramp Time

Zero to full ILIM

1700

µs

2 _______________________________________________________________________________________

Dual, High-Efficiency, Step-Down

Controller with High Impedance in Shutdown

ELECTRICAL CHARACTERISTICS (continued)

(Circuit of Figure 1, V DD = V CC = 5V, SKIP = AGND, V+ = 15V, T A = 0°C to +85°C , typical values are at +25°C, unless otherwise

noted.)

PARAMETER

SYMBOL

CONDITIONS

MIN

TYP

MAX UNITS

TON = AGND

120

137

153

V+ = 24V,

V OUT1 = 2V

(Note 3)

On-Time, Side 1

t ON1

TON = REF

153

174

195

TON = float

222

247

272

TON = V CC

316

353

390

TON = AGND

160

182

204

V+ = 24V,

V OUT2 = 2V

(Note 3)

On-Time, Side 2

t ON2

TON = REF

205

234

263

TON = float

301

336

371

TON = V CC

432

483

534

On-time 2 with

respect to on-

time 1

(Note 3)

TON = AGND

125

135

145

On-Time Tracking

TON = REF

125

135

145

TON = float

125

135

145

TON = V CC

125

135

145

Minimum Off-Time

t OFF

(Note 3)

400

500

Quiescent Supply Current (V CC )

I CC

FB_ forced above the regulation point

1100

1500

µA

Quiescent Supply Current (V DD )

I DD

FB_ forced above the regulation point

µA

Quiescent Supply Current (V+)

I+

Measured at V+

µA

Shutdown Supply Current (V CC )

ON1 = ON2 = AGND, OVP = V CC

µA

Shutdown Supply Current (V DD )

ON1 = ON2 = AGND

µA

Shutdown Supply Current (V+)

ON1 = ON2 = AGND, measured at V+,

V CC = AGND or 5V

µA

Reference Voltage

V REF

V CC = 4.5V to 5.5V, no external REF load

1.98

2.02

Reference Load Regulation

I REF = 0 to 50µA

0.01

REF Sink Current

REF in regulation

µA

REF Fault Lockout Voltage

Falling edge, hysteresis = 40mV

1.6

Overvoltage Trip Threshold

(Fixed-Threshold Mode)

OVP = AGND, with respect to error-

comparator trip threshold

112

114

117

1V < V OVP < 1.8V, external feedback,

measured at FB_ with respect to V OVP

-28

+28

Overvoltage Comparator Offset

(Adjustable-Threshold Mode)

1V < V OVP < 1.8V, internal feedback,

measured at OUT_ with respect to OUT_

regulation point

-3.5

+3.5

OVP Input Leakage Current

1V < V OVP < 1.8V

-100

+100

Overvoltage Fault Propagation

Delay

FB_ forced 2% above trip threshold

1.5

µs

Output Undervoltage Threshold

UVP = V CC , with respect to error-comparator

trip threshold

Output Undervoltage Protection

Blanking Time

From ON_ signal going high

_______________________________________________________________________________________ 3

Dual, High-Efficiency, Step-Down

Controller with High Impedance in Shutdown

ELECTRICAL CHARACTERISTICS (continued)

(Circuit of Figure 1, V DD = V CC = 5V, SKIP = AGND, V+ = 15V, T A = 0°C to +85°C , typical values are at +25°C, unless otherwise

noted.)

PARAMETER

SYMBOL

CONDITIONS

MIN

TYP

MAX UNITS

Current-Limit Threshold (Fixed)

AGND - V CS _, ILIM_ = V CC

Current-Limit Threshold

(Adjustable)

AGND - V CS _, ILIM_ = 0.5V

AGND - V CS _, ILIM_ = 1V

100

115

ILIM_ Adjustment Range

V ILIM _

0.3

2.5

Negative Current-Limit Threshold

(Fixed)

V CS _ - AGND, ILIM_ = V CC , T A = +25 o C

-75

-60

-45

Thermal-Shutdown Threshold

Hysteresis = 15 o C

+160

V CC Undervoltage-Lockout

Threshold

Rising edge, hysteresis = 20mV, PWMs

disabled below this level

4.05

4.40

DH Gate-Driver On-Resistance

BST - LX forced to 5V

(Note 4)

MAX8743EEI

1.5

Ω

MAX8743ETX

1.5

Ω

DL Gate-Driver On-Resistance

DL, high state

(Note 4)

MAX8743EEI

1.5

Ω

MAX8743ETX

1.5

Ω

DL Gate-Driver On-Resistance

DL, low state

(Note 4)

MAX8743EEI

0.5

1.7

Ω

MAX8743ETX

0.5

2.7

Ω

DH_ Gate-Driver Source/Sink

Current

V DH _ = 2.5V, V BST _ = V LX _ = 5V

DL_ Gate-Driver Sink Current

V DL _ = 2.5V

DL_ Gate-Driver Source Current

V DL _ = 2.5V

ON_, SKIP

2.4

Logic Input High Voltage

V IH

UVP

V CC -

0.4

Logic Input Low Voltage

V IL

ON_, SKIP

0.8

UVP

0.05

V CC level

V CC -

0.4

TON Input Logic Level

Float level

3.15

3.85

REF level

1.65

2.35

AGND level

0.5

Logic Input Current

TON (AGND or V CC )

-3

µA

Logic Input Current

ON_, SKIP, UVP

-1

µA

PGOOD Trip Threshold (Lower)

With respect to error-comparator trip

threshold, falling edge

-12.5

-10

-7.5

PGOOD Trip Threshold (Upper)

With respect to error-comparator trip

threshold, rising edge

+7.5

+10

+12.5

PGOOD Propagation Delay

Falling edge, FB_ forced 2% below PGOOD

trip threshold

1.5

µs

PGOOD Output Low Voltage

I SINK = 1mA

0.4

PGOOD Leakage Current

High state, forced to 5.5V

µA

4 _______________________________________________________________________________________

Dual, High-Efficiency, Step-Down

Controller with High Impedance in Shutdown

ELECTRICAL CHARACTERISTICS

(Circuit of Figure 1, V DD = V CC = 5V, SKIP = AGND, V+ = 15V, T A = -40°C to +85°C , unless otherwise noted.) (Note 5)

PARAMETER

SYMBOL

CONDITIONS

MIN

TYP

MAX

UNITS

PWM CONTROLLERS

Input Voltage Range

V+

Battery voltage, V+

V CC /V DD V CC , V DD

4.5

5.5

V+ = 2V to 28V, SKIP = V CC ,

I LOAD = 0 to 8A

(Note 2)

FB1 to AGND

1.773

1.827

DC Output Voltage, OUT1

V OUT1

FB1 to V CC

1.477

1.523

FB1 to OUT1

0.985

1.015

DC Output Voltage, OUT2

V OUT2

V+ = 2V to 28V, SKIP = V CC ,

I LOAD = 0 to 4A (Note 2)

FB2 to AGND

2.463

2.537

FB2 to OUT2

0.985

1.015

Output Voltage Adjust Range

OUT1, OUT2

1.0

5.5

Dual-Mode Threshold, Low

OVP, FB_

0.05

0.15

Dual-Mode Threshold, High

OVP, ILIM_

V CC -

1.5

V CC -

0.4

FB_

1.9

2.1

OUT_ Input Resistance

R OUT1 V OUT1 = 1.5V

Ω

R OUT2 V OUT2 = 2.5V

100

FB_ Input Bias Current

I FB

-0.1

+0.1

µA

TON = AGND

120

153

On-Time, Side 1

t ON1

V+ = 24V, V OUT1 = 2V

(Note 3)

TON = REF

153

195

TON = float

217

272

TON = V CC

308

390

TON = AGND

160

204

On-Time, Side 2

t ON2

V+ = 24V, V OUT2 = 2V

(Note 3)

TON = REF

205

263

TON = float

295

371

TON = V CC

422

534

TON = AGND

125

145

On-time 2, with

respect to on-time 1

(Note 3)

On-Time Tracking

TON = REF

125

145

TON = float

125

145

TON = V CC

125

145

Minimum Off-Time

t OFF

(Note 3)

500

Quiescent Supply Current (V CC )

I CC

FB forced above the regulation point

1500

µA

Quiescent Supply Current (V DD )

I DD

FB forced above the regulation point

µA

Quiescent Supply Current (V+)

I+

Measured at V+

µA

Reference Voltage

V REF

V CC = 4.5V to 5.5V, no external REF load

1.98

2.02

Reference Load Regulation

I REF = 0 to 50µA

0.01

Overvoltage Trip Threshold

(Fixed-Threshold Mode)

OVP = GND, with respect to FB_ regulation

point, no load

112

117

Output Undervoltage Threshold

UVP = V CC , with respect to FB_ regulation

point, no load

Current-Limit Threshold (Fixed)

AGND - V CS _, ILIM_ = V CC

_______________________________________________________________________________________ 5

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