SLVA340A Datasheet, PDF(1/9 Page) Texas Instruments – High-Integration, High-Efficiency Power Solution Using DC/DC Converters With DVFS

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SLVA340A Datasheet, PDF (1/9 Pages) Texas Instruments – High-Integration, High-Efficiency Power Solution Using DC/DC Converters With DVFS

Application Report

SLVA340A â June 2009 â Revised May 2010

High-Integration, High-Efficiency Power Solution Using

DC/DC Converters With DVFS

Ambreesh Tripathi .......................................................................... PMP - DC/DC Low-Power Converters

ABSTRACT

This reference design helps those desiring to design-in the TMS320C6742, TMS320C6746,

TMS320C6748 and OMAP-L138. This design, employing sequenced power supplies, describes a system

with an input voltage of 5V, and uses a high-efficiency DC/DC Converter with integrated FETs and DVFS

for a small, simple system.

Sequenced power supply architectures are becoming commonplace in high-performance microprocessor

and digital signal processor (DSP) systems. To save power and increase processing speeds, processor

cores have small-geometry cells that require lower supply voltages than the system-bus voltages. Power

management in these systems requires special attention. This application note addresses these topics

and suggests solutions for output-voltage sequencing.

Contents

1 Introduction .................................................................................................................. 1

2 Power Requirements ....................................................................................................... 2

3 Features ...................................................................................................................... 3

4 List of Material ............................................................................................................... 5

List of Figures

1 PMP4977 Reference Design Schematic................................................................................. 4

2 Optional circuit for DVDD_A, DVDD_B and DVDD_C ................................................................. 5

3 Shows Sequencing in Start-Up Waveform .............................................................................. 7

4 DCDC1: Efficiency vs Output Current.................................................................................... 7

5 DCDC2: Efficiency vs Output Current.................................................................................... 7

6 DCDC3: Efficiency vs Output Current.................................................................................... 7

List of Tables

1 PMP4977 List of Material .................................................................................................. 5

1 Introduction

In dual-voltage architectures, coordinated management of power supplies is necessary to avoid potential

problems and ensure reliable performance. Power supply designers must consider the timing and voltage

differences between core and I/O voltage supplies during power-up and power-down operations.

Sequencing refers to the order, timing and differential in which the two voltage rails are powered up and

down. A system designed without proper sequencing may be at risk for two types of failures. The first of

these represents a threat to the long term reliability of the dual-voltage device, while the second is more

immediate, with the possibility of damaging interface circuits in the processor or system devices such as

memory, logic or data-converter ICs.

I2C is a trademark of Philips Electronics N.V. Corporation.

SLVA340A â June 2009 â Revised May 2010

High-Integration, High-Efficiency Power Solution Using DC/DC Converters With

DVFS

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