TPS40090-Q1_15 Datasheet, PDF(1/27 Page) Texas Instruments – HIGH-FREQUENCY MULTIPHASE CONTROLLER

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TPS40090-Q1_15 Datasheet, PDF (1/27 Pages) Texas Instruments – HIGH-FREQUENCY MULTIPHASE CONTROLLER

TPS40090-Q1

www.ti.com

SLUS845C â JUNE 2008 â REVISED MAY 2011

HIGH-FREQUENCY MULTIPHASE CONTROLLER

Check for Samples: TPS40090-Q1

FEATURES

â¢2 Qualified for Automotive Applications

â¢ Two-, Three-, or Four-Phase Operation

â¢ 5-V to 15-V Operating Range

â¢ Programmable Switching Frequency Up to

1-MHz/Phase

â¢ Current Mode Control With Forced Current

Sharing (1)

â¢ 1% Internal 0.7-V Reference

â¢ Resistive Divider Set Output Voltage

â¢ True Remote Sensing Differential Amplifier

â¢ Resistive or DCR Current Sensing

â¢ Current Sense Fault Protection

â¢ Programmable Load Line

â¢ Compatible with UCC37222 Predictive Gate

Driveâ¢ Technology Drivers

â¢ 24-Pin Space-Saving TSSOP Package

â¢ Binary Outputs

(1) Patent pending

APPLICATIONS

â¢ Internet Servers

â¢ Network Equipment

â¢ Telecommunications Equipment

â¢ DC Power Distributed Systems

PW PACKAGE

(TOP VIEW)

CS1

CS2

CS3

CS4

CSCN

ILIM

DROOP

REF

COMP

DIFFO

VOUT

EN/SYNC

VIN

BP5

PWM1

PWM2

PWM3

PWM4

GND

PGOOD

GNDS

DESCRIPTION

The TPS40090 is a two-, three-, or four-phase programmable synchronous buck controller that is optimized for

low-voltage, high-current applications powered by a 5-V to 15-V distributed supply. A multi-phase converter offers

several advantages over a single power stage including lower current ripple on the input and output capacitors,

faster transient response to load steps, improved power handling capabilities, and higher system efficiency.

Each phase can be operated at a switching frequency up to 1-MHz, resulting in an effective ripple frequency of

up to 4-MHz at the input and the output in a four-phase application. A two-phase design operates 180Â° out of

phase, a three-phase design operates 120Â° out of phase, and a four-phase design operates 90Â° out of phase, as

shown in Figure 1.

The number of phases is programmed by connecting the deactivated phase PWM output to the output of the

internal 5-V LDO. In two-phase operation the even phase outputs should be deactivated.

The TPS40090 uses fixed frequency, peak current mode control with forced phase current balancing. When

compared to voltage mode control, current mode results in a simplified feedback network and reduced input line

sensitivity. Phase current is sensed by using either current sense resistors installed in series with output

inductors or, for improved efficiency, by using the DCR (direct current resistance) of the filter inductors. The latter

method involves generation of a current proportional signal with an R-C circuit (shown in Figure 11).

The R-C values are selected by matching the time constants of the R-C circuit and the inductor; R-C = L/DCR.

With either current sense method, the current signal is amplified and superimposed on the amplified voltage error

signal to provide current mode PWM control.

Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of Texas

Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.

Predictive Gate Drive is a trademark of Texas Instruments.

PRODUCTION DATA information is current as of publication date.

Products conform to specifications per the terms of the Texas

Instruments standard warranty. Production processing does not

necessarily include testing of all parameters.

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