34704_09 Datasheet, PDF(16/49 Page) Freescale Semiconductor, Inc – Multiple Channel DC-DC Power Management IC

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34704_09 Datasheet, PDF (16/49 Pages) Freescale Semiconductor, Inc – Multiple Channel DC-DC Power Management IC

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FUNCTIONAL DESCRIPTION

INTRODUCTION

FUNCTIONAL DESCRIPTION

INTRODUCTION

The 34704 is an multi-channel power management IC

(PMIC) meant to address power management needs for

various multimedia applications microprocessors in various

configurations with a target overall efficiency of > 80% at

typical loads.

The 34704 accepts an input voltage from various sources:

â¢1 cell Li-Ion/Polymer (2.7V to 4.2V)

â¢5.0V USB supply or AC wall adapter

The different channels are:

REGULATOR

REGULATOR TYPE

VOUT TYP (V)

IOUT TYP

(MA)

IOUT MAX

(MA)

TARGET APPLICATION

REG1(18)

Synchronous Boost

5.0

100

500

+5V REF

REG2

Synchronous Buck-Boost

2.8 / 3.3

200

500

ÂµP I/O

REG3

Synchronous Buck

1.2 / 1.5 / 1.8

150

550

ÂµP Core

REG4

Synchronous Buck-Boost

1.8 / 2.5

100

300

DDR

REG5

Synchronous Buck-Boost

3.3

150

500

REG6(18)

Synchronous Boost

15.0

REG7(18)

Inverter Controller

-7.0

ÂµP I/O

REF+

REF -

REG8

Synchronous Boost

15.0

Backlight Display

Notes

17. Synchronous Buck-Boost: These regulators can work as pure BUCK regulator when the output voltage is lower than the input

voltage; and work as pure BOOST regulator when the input voltage is lower than the output voltage. Compensation should be done

for the worst case scenario, which is in most of the cases when the device is working as a boost converter, after compensating for

this scenario it is recommended to verify the buck operation to assure stability in the whole operating range.

18. Available only on the 34704A

REG1, REG3, REG6, and REG8 use internal

compensation, while REG2, REG4, REG5, and REG7 use

external compensation.

The switching frequency of all regulators except REG6, 7,

& 8 can be selected through the FREQ pin between 750kHz

and 2.0MHz in 250kHz steps, when operating from a Li-Ion

battery. The high frequency operation is meant to minimize

the size of external components while lower operating

frequencies will allow for higher efficiency. REG7 is limited to

operate at a lower frequency to minimize switching noise

induced by driving the external switching MOSFET, but also

can operate at the 1.0MHz value with proper board layout.

REG 6, 7, and 8 switching frequency can be selected

between 250kHz and 1.0MHz in 250kHz steps through I2C.

For all regulators and at lower loads, a pulse skipping

mode is implemented to maintain high efficiency. The 34704

uses 4 different phases of switching for all regulators except

REG6, 7, and 8, to spread out the current draw by the

individual converters from the input supply over time, to

reduce the peak input current demand. This allows for better

EMI performance and reduction in the input filter

requirements.

Each regulator except REG1 uses an external feedback

resistor divider to set the output voltage. All output voltages

can be adjusted dynamically (Dynamic Voltage Scaling) on

the fly through an IÂ²C serial interface. All converters, except

REG1, utilize automatic soft-start by ramping the reference

voltage to the error amplifier to prevent sudden change in

duty cycle and output current/voltage at power up. REG1

(VG) will limit the inrush current by implementing a peak

current detect and a constant off time.

The 34704 is equipped with a dual function Power On/Off

pin (ONOFF). This pin can be controlled by a mechanical

switch to turn the device on or off. Pressing and releasing the

mechanical switch turns the 34704 on while pressing and

holding the switch for a time period (programmable through

I2C) turns the 34704 off. Enable/disable control is also

granted through I2C for groups of regulators and the whole

IC.

34704

Analog Integrated Circuit Device Data

Freescale Semiconductor

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