ISL6548ACRZA Intersil, ISL6548ACRZA Datasheet - Page 8

ISL6548ACRZA

Manufacturer Part Number

ISL6548ACRZA

Description

IC REG/CTLR ACPI DUAL DDR 28QFN

Manufacturer

Intersil

Datasheet

1.ISL6548ACRZA-T.pdf (16 pages)

Specifications of ISL6548ACRZA

Applications

Memory, DDR/DDR2 Regulator

Current - Supply

7mA

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

28-QFN

Rohs Compliant

YES

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Supply

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DRIVE2_U (Pin 10)

This pin provides the gate voltage for the V

linear regulator upper pass transistor. Connect this pin to the

gate terminal of an external N-Channel MOSFET transistor.

DRIVE2_L (Pin 13)

This pin provides the gate voltage for the V

linear regulator lower pass transistor. Connect this pin to the

gate terminal of an external N-Channel MOSFET transistor.

FB3 (Pin 20)

Connect the output of the ICH7 linear regulator to this pin

through a properly sized resistor divider. The voltage at this

pin is regulated to 0.8V.

DRIVE3 (Pin 21)

This pin provides the gate voltage for the ICH7 linear

regulator pass transistor. Connect this pin to the gate

terminal of an external N-Channel MOSFET transistor.

VIDPGD (Pin 12)

The VIDPGD pin is an open-drain logic output that changes

to a logic low if the V

regulation in S0/S1/S2 state. VIDPGD will always be low in

any state other than S0/S1/S2.

SLP_S5# (Pin 23)

This pin accepts the SLP_S5# sleep state signal.

SLP_S3# (Pin 2)

This pin accepts the SLP_S3# sleep state signal.

Functional Description

Overview

The ISL6548A provides complete control, drive, protection

and ACPI compliance for a regulator powering DDR memory

systems and the GMCH core and GMCH/CPU termination

rails. It is primarily designed for computer applications

powered from an ATX power supply.

A 250kHz Synchronous Buck Regulator with a precision

0.8V reference provides the proper Core voltage to the

system memory of the computer. An internal LDO regulator,

with the ability to both sink and source current, tracks the

voltage.

A second 250kHz PWM Buck regulator, which requires an

external MOSFET driver, provides the GMCH core voltage.

This PWM regulator is 180° out of phase with the PWM

regulator used for the Memory core. Two additional LDO

controllers are included, one for the regulation of the

GMCH/CPU termination rail and the second for the ICH7

LDO.

ACPI compliance is realized through the SLP_S3 and

SLP_S5 sleep signals and through monitoring of the 12V

ATX bus.

DDQ

output by 50% and provides the V

TT_GMCH/CPU

linear regulator is out of

TT_GMCH/CPU

termination

ISL6548A

Initialization

The ISL6548A automatically initializes upon receipt of input

power. Special sequencing of the input supplies is not

necessary. The Power-On Reset (POR) function continually

monitors the input bias supply voltages. The POR monitors

the bias voltage at the 5VSBY and P12V pins. The POR

function initiates soft-start operation after the bias supply

voltages exceed their POR thresholds.

ACPI State Transitions

Figure 1 shows how the individual regulators are controlled

during all state transitions. All references to timing in this

section are in reference to Figure 1.

Cold Start (S4/S5 to S0 Transition)

At the onset of a mechanical start, time t

ISL6548A receives its bias voltage from the 5V Standby bus

(5VSBY). Once the 5VSBY rail has exceeded the POR

threshold, the ISL6548A will remain in an internal S5 state

until both the SLP_S3 and SLP_S5 signal have transitioned

high and the 12V POR threshold has been exceeded by the

+12V rail from the ATX, which occurs at time t

Once all of these conditions are met, the PWM error

amplifiers will first be reset by internally shorting the COMP

pins to the respective FB pins. This reset lasts for three soft-

start cycles, which is typically 24ms (one soft-start cycle is

typically 8.2ms). The digital soft-start sequence will then

begin. Each regulator is enabled and soft-started according

to a preset sequence.

At time t

The digital soft-start for both PWM regulators is accomplished

by clamping the error amplifier reference input to a level

proportional to the internal digital soft-start voltage. As the soft-

start voltage slews up, the PWM comparator generates PHASE

pulses of increasing width that charge the output capacitor(s).

This method provides a rapid and controlled output voltage rise.

The linear regulators, with the exception of the internal

error amplifier is reference is clamped to the internal digital

soft-start voltage. As the soft-start voltage ramps up, the

respective DRIVE pin voltages increase, thus enhancing the

N-MOSFETs and charging the output capacitors in a

controlled manner.

At time t

regulation and the V

regulators are soft-started. At time t

rail and ICH7 rails are in regulation and the V

internal regulator is soft-started.

The V

regulators. When the V

reference is internally shorted to the V

DDQ_DDR

TT_DDR

GMCH

TT_DDR

rail is soft-started. At time t

, the 3 soft-start cycle reset has ended and the

, the V

LDO, are soft-started in a similar manner. The

rail is digitally soft-started.

LDO soft-starts in a manner unlike the other

DDQ_DDR

TT_GMCH/CPU

TT_DDR

rail is in regulation and the

regulator is disabled, the

and the ICH7 linear

, the V

TT_DDR

in Figure 1, the

GMCH

TT_GMCH/CPU

TT_DDR

output. This

January 3, 2006

rail is in

FN9189.2

ISL6548ACRZA Intersil, ISL6548ACRZA Datasheet - Page 8

ISL6548ACRZA

Specifications of ISL6548ACRZA

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