ISL6334AIRZR5368 Intersil, ISL6334AIRZR5368 Datasheet - Page 11

ISL6334AIRZR5368

Manufacturer Part Number

ISL6334AIRZR5368

Description

IC CTRLR PWM 4PHASE BUCK 40QFN

Manufacturer

Intersil

Datasheet

1.ISL6334ACRZ-TR5368.pdf (31 pages)

Specifications of ISL6334AIRZR5368

Applications

Controller, Intel VR11.1

Voltage - Input

3 V ~ 12 V

Number Of Outputs

Voltage - Output

0.5 V ~ 1.6 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Package / Case

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Functional Pin Description

VCC - Supplies the power necessary to operate the chip.

The controller starts to operate when the voltage on this pin

exceeds the rising POR threshold and shuts down when the

voltage on this pin drops below the falling POR threshold.

Connect this pin directly to a +5V supply.

GND - Bias and reference ground for the IC. The bottom

metal base of ISL6334AR5368 is the GND.

EN_PWR - This pin is a threshold-sensitive enable input for

the controller. Connecting the 12V supply to EN_PWR

through an appropriate resistor divider provides a means to

synchronize power-up of the controller and the MOSFET

driver ICs. When EN_PWR is driven above 0.875V, the

ISL6334AR5368 is active depending on status of the

EN_VTT, the internal POR, and pending fault states. Driving

EN_PWR below 0.745V will clear all fault states and prime

the ISL6334AR5368 to soft-start when re-enabled.

EN_VTT - This pin is another threshold-sensitive enable

input for the controller. It’s typically connected to VTT output

of VTT voltage regulator in the computer mother board.

When EN_VTT is driven above 0.875V, the ISL6334AR5368

is active depending on status of the EN_PWR, the internal

POR, and pending fault states. Driving EN_VTT below

0.745V will clear all fault states and prime the

ISL6334AR5368 to soft-start when re-enabled.

VDIFF, VSEN and RGND - VSEN and RGND form the

precision differential remote-sense amplifier. This amplifier

converts the differential voltage of the remote output to a

single-ended voltage referenced to local ground. VDIFF is

the amplifier’s output and the input to the regulation and

protection circuitry. Connect VSEN and RGND to the sense

pins of the remote load.

FB and COMP - Inverting input and output of the error

amplifier respectively. FB can be connected to VDIFF

through a resistor. A properly chosen resistor between

VDIFF and FB can set the load line (droop), because the

sensed current will flow out of FB pin. The droop scale factor

is set by the ratio of the ISEN resistors and the inductor DCR

or the dedicated current sense resistor. COMP is tied back to

FB through an external R-C network to compensate the

regulator.

DAC and REF - The DAC pin is the output of the precision

internal DAC reference. The REF pin is the positive input of

the Error Amplifier. In typical applications, a 1kΩ, 1% resistor

is used between DAC and REF to generate a precision

offset voltage. This voltage is proportional to the offset

current determined by the offset resistor from OFS to ground

or VCC. A capacitor is used between REF and ground to

smooth the voltage transition during Dynamic VID™

operations.

VR_RDY - VR_RDY indicates that soft-start has completed

and the output voltage is within the regulated range around

ISL6334AR5368

VID setting. It is an open-drain logic output. When OCP or

OVP occurs, VR_RDY will be pulled to low. It will also be

pulled low if the output voltage is below the undervoltage

threshold.

OFS - The OFS pin can be used to program a DC offset

current, which will generate a DC offset voltage between the

REF and DAC pins. The offset current is generated via an

external resistor and precision internal voltage references.

The polarity of the offset is selected by connecting the

resistor to GND or VCC. For no offset, the OFS pin should

be left unterminated.

TCOMP - Temperature compensation scaling input. The

voltage sensed on the TM pin is utilized as the temperature

input to adjust I

effectively compensate for the temperature coefficient of the

current sense element. To implement the integrated

temperature compensation, a resistor divider circuit is needed

with one resistor being connected from TCOMP to VCC of the

controller and another resistor being connected from TCOMP

to GND. Changing the ratio of the resistor values will set the

gain of the integrated thermal compensation. When integrated

temperature compensation function is not used, connect

TCOMP to GND.

TM - TM is an input pin for the VR temperature measurement.

Connect this pin through an NTC thermistor to GND and a

resistor to VCC of the controller. The voltage at this pin is

reverse proportional to the VR temperature. The

ISL6334AR5368 monitors the VR temperature based on the

voltage at the TM pin and outputs VR_HOT and VR_FAN

signals.

VR_HOT - VR_HOT is used as an indication of high VR

temperature. It is an open-drain logic output. It will be pulled

low if the measured VR temperature is less than a certain

level, and open when the measured VR temperature

reaches a certain level. A external pull-up resistor is needed.

VR_FAN - VR_FAN is an output pin with open-drain logic

output. It will be pulled low if the measured VR temperature

is less than a certain level, and open when the measured VR

temperature reaches a certain level. A external pull-up

resistor is needed.

PWM1, PWM2, PWM3, PWM4 - Pulse width modulation

outputs. Connect these pins to the PWM input pins of the

Intersil driver IC. The number of active channels is

determined by the state of PWM2, PWM3 and PWM4. Tie

PWM2 to VCC to configure for 1-phase operation. Tie

PWM3 to VCC to configure for 2-phase operation. Tie

PWM4 to VCC to configure for 3-phase operation. In

addition, tie PSI# to GND to configure for single phase

operation with diode emulation.

DROOP

and the overcurrent protection limit to

September 7, 2010

FN6839.2

ISL6334AIRZR5368 Intersil, ISL6334AIRZR5368 Datasheet - Page 11

ISL6334AIRZR5368

Specifications of ISL6334AIRZR5368

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