ISL6537CR Intersil, ISL6537CR Datasheet - Page 9

ISL6537CR

Manufacturer Part Number

ISL6537CR

Description

IC REG/CTRLR ACPI DUAL DDR 28QFN

Manufacturer

Intersil

Datasheet

1.ISL6537CRZ.pdf (15 pages)

Specifications of ISL6537CR

Applications

Memory, DDR/DDR2 Regulator

Current - Supply

7mA

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

28-QFN

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Voltage - Supply

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Current page: 9 of 15
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The digital soft-start for the PWM regulator 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 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

rails are in regulation and the lower V

started. At time t

the V

internal regulator is soft-started.

The V

regulators. When the V

reference is internally shorted to the V

allows the termination voltage to float during the S3 sleep

state. When the ISL6537 enables the V

enters S0 state from a sleep state, this short is released and

the internal divide down resistors which set the V

voltage to 50% of V

voltage rise on the capacitor that is tied to the VREF_IN pin.

The voltage on this capacitor is the reference for the

50% of the V

resistors and the V

time of the V

Description section for proper sizing of the VREF_IN

capacitor).

At time t

the V

VIDPGD comparator is enabled. Once enabled if the

will be forced to a high impedance state.

Active to Sleep (S0 to S3 Transition)

When SLP_S3 goes LOW with SLP_S5 still HIGH, the

ISL6537 will disable all the regulators except for the V

regulator, which is continually supplied by the 5VDUAL rail.

VIDPGD will also transition LOW. When V

internal reference for the V

to the V

floating, the voltage on the V

leakage characteristics of the memory and MCH I/O pins. It

is important to note that the V

0V. Figure 1 shows how the individual regulators are

affected by the S3 state at time t

TT_DDR

TT_GMCH/CPU

TT_DDR

TT_GMCH/CPU

TT_DDR

, a full soft-start cycle has passed from the time that

, the V

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

regulator and the output will track it as it settles to

rail. This allows the V

TT_DDR

DDQ

regulator was enabled. At this time the

LDO soft-starts in a manner unlike the other

DDQ_DDR

linear regulator is soft-started. At time t

output is within regulation, the VIDPGD pin

, the V

voltage. The combination of the internal

REF_IN

DDQ_DDR

rail is in regulation and the V

regulator (see the Functional Pin

TT_DDR

GMCH

and upper V

capacitor will determine the rise

regulator is internally shorted

will provide a controlled

rail is in regulation and the

rail will depend on the

regulator is disabled, the

rail may not bleed down to

rail to float. When

GMCH

TT_DDR

GMCH

TT_DDR

LDO is soft-

is disabled, the

LDO output

output. This

regulator or

TT_DDR

DDQ

ISL6537

Sleep to Active (S3 to S0 Transition)

When SLP_S3 transitions from LOW to HIGH with SLP_S5

held HIGH and after the 12V rail exceeds POR, the ISL6537

will initiate the soft-start sequence. This sequence is very

similar to the mechanical start soft-start sequencing. The

transition from S3 to S0 is represented in Figure 1 between

times t

At time t

the ATX, which brings up the 12V rail. At time t

has exceeded the POR threshold and the ISL6537 enters a

reset mode that lasts for 3 soft-start cycles. At time t

soft-start cycle reset is ended and the individual regulators

are enabled and soft-started in the same sequence as the

mechanical cold start sequence, with the exception that the

Active to Shutdown (S0 to S5 Transition)

When the system transitions from active, S0, state to

shutdown, S4/S5, state, the ISL6537 IC disables all

regulators and forces the VIDPGD pin LOW. This transition

is represented on Figure 1 at time t

Fault Protection

The ISL6537 monitors the V

overvoltage events. The V

protection. The internal V

for under and overvoltage events. All other regulators are

monitored for undervoltage events.

An overvoltage event on either the V

regulator will cause an immediate shutdown of all regulators.

This can only be cleared by toggling the SLP_S5 signal such

that the system enters the S5 sleep state and then

transitions back to the active, S0, state.

If a regulator experiences any other fault condition (an

undervoltage or an overcurrent on V

regulator, and only that regulator, will be disabled and an

internal fault counter will be incremented by 1. If the disabled

regulator is used as the input for another regulator, then that

cascoded regulator will also experience a fault condition due

to a loss of input. The cascoded regulator will be disabled

and the fault counter incremented by 1.

At every fault occurrence, the internal fault counter is

incremented by 1 and an internal Fault Reset Counter is

cleared to zero. The Fault Reset Counter will increment once

for every clock cycle (1 clock cycle is typically 1/250kHz, or

4μs). If the Fault Reset Counter reaches a count of 16384

before another fault occurs, then the Fault Counter is

cleared to 0. If a fault occurs prior to the Fault Reset Counter

reaching a count of 16384, then the Fault Reset Counter is

set back to zero.

The ISL6537 will immediately shut down when the Fault

Counter reaches a count of 4 when the system is restarting

from an S5 state into the active, or S0, state. The ISL6537

DDQ

regulator is already enabled and in regulation.

and t

, the SLP_S3 signal transitions HIGH. This enables

TT_DDR

DDQ

regulator also has overcurrent

regulator for under and

LDO regulator is monitored

DDQ

), then that

or V

TT_DDR

, the 12V rail

July 18, 2007

FN9142.6

, the 3

ISL6537CR Intersil, ISL6537CR Datasheet - Page 9

ISL6537CR

Specifications of ISL6537CR

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