ISL6322G Datasheet, PDF(9/39 Page) Intersil Corporation – Two-Phase Buck PWM Controller with Integrated MOSFET Drivers, I2C Interface and Phase Dropping

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ISL6322G Datasheet, PDF (9/39 Pages) Intersil Corporation – Two-Phase Buck PWM Controller with Integrated MOSFET Drivers, I2C Interface and Phase Dropping

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ISL6322G

Functional Pin Description

VCC

VCC is the bias supply for the ICs small-signal circuitry.

Connect this pin to a +5V supply and decouple using a

quality 0.1ÂµF ceramic capacitor.

PVCC

This pin is the power supply pin for Channel 1 and 2âs

MOSFET drive, and can be connected to any voltage from

+5V to +12V depending on the desired MOSFET gate-drive

level. Decouple this pin with a quality 1.0ÂµF ceramic

capacitor.

GND

GND is the bias and reference ground for the IC.

This pin is a threshold-sensitive (approximately 0.85V) enable

input for the controller. Held low, this pin disables controller

operation. Pulled high, the pin enables the controller for

operation.

A resistor, placed from FS to ground, sets the switching

frequency of the controller.

VID0, VID1, VID2, VID3, VID4, VID5, VID6, and VID7

These are the inputs for the internal DAC that provides the

reference voltage for output regulation. These pins respond to

TTL logic thresholds. These pins are internally pulled high, to

approximately 1.2V, by 40ÂµA internal current sources for Intel

modes of operation, and pulled low by 20ÂµA internal current

sources for AMD modes of operation. The internal pull-up

current decreases to 0 as the VID voltage approaches the

internal pull-up voltage. All VID pins are compatible with

external pull-up voltages not exceeding the ICâs bias voltage

(VCC).

VRSEL

The state of this pin selects which of the available DAC tables

will be used to decode the VID inputs and puts the controller

into the corresponding mode of operation. For VR10 mode of

operation VRSEL should be less then 0.6V. The VR11 mode of

operation can be selected by setting VRSEL between 0.6V and

3.0V, and AMD compliance is selected if this pin is between

3.0V and VCC.

VSEN and RGND

VSEN and RGND are inputs to the precision differential

remote-sense amplifier and should be connected to the sense

pins of the remote load.

VDIFF

VDIFF is the output of the differential remote-sense amplifier.

The voltage on this pin is equal to the difference between

VSEN and RGND.

FB and COMP

These pins are the internal error amplifier inverting input and

output respectively. FB, VDIFF, and COMP are tied together

through external R-C networks to compensate the regulator.

IOUT

The IOUT pin is the total channel-sense current output.

Connecting this pin through a resistor to ground allows the

controller to set the overcurrent protection trip level. This pin

pin can also be used as a load current indicator to monitor

what the output load current is.

Since the current coming out of the IOUT pin is equal to the

addition of Channel 1 and 2âs sense currents, the current will

be twice as large in 2-phase mode then when in single

phase mode.

REF

The REF input pin is the positive input of the error amplifier. It

is internally connected to the DAC output through a 1kÎ©

resistor. A capacitor is used between the REF pin and ground

to smooth the voltage transition during Dynamic VID

operations.

OFS

The OFS pin provides a means to program a DC current for

generating an offset voltage across the resistor between FB

and VDIFF. 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 unconnected.

ISEN1-, ISEN1+, ISEN2-, and ISEN2+

These pins are used for differentially sensing the

corresponding channel output currents. The sensed currents

are used for channel-current balancing and protection.

Connect ISEN1- and ISEN2-to the node between the RC

sense elements surrounding the inductor of their respective

channel. Tie the ISEN+ pins to the VCORE side of their

corresponding channelâs sense capacitor.

UGATE1 and UGATE2

Connect these pins to the corresponding upper MOSFET

gates. These pins are used to control the upper MOSFETs

and are monitored for shoot-through prevention purposes.

BOOT1 and BOOT2

These pins provide the bias voltage for the corresponding

upper MOSFET drives. Connect these pins to

appropriately-chosen external bootstrap capacitors. Internal

bootstrap diodes connected to the PVCC pins provide the

necessary bootstrap charge.

PHASE1 and PHASE2

Connect these pins to the sources of the corresponding

upper MOSFETs. These pins are the return path for the

upper MOSFET drives.

FN6715.0

May 22, 2008

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