ISL6563 Intersil Corporation, ISL6563 Datasheet - Page 6

ISL6563

Manufacturer Part Number

ISL6563

Description

Two-Phase Multi-Phase Buck PWM Controller with Integrated MOSFET Drivers

Manufacturer

Intersil Corporation

Datasheet

1.ISL6563.pdf (19 pages)

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VID0-4 (Pins 2, 1, 24-22)

Voltage identification inputs from microprocessor. These pins

respond to TTL logic thresholds. The ISL6563 decodes the

VID inputs to establish the output voltage; see VID Tables for

correspondence between DAC codes and output voltage

settings. These pins are internally pulled high, to

approximately 1.2V, by 40µA (typically) internal current

sources; the internal pull-up current decrease 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 IC’s bias voltage.

DACSEL/VID5 (Pin 3)

If VRM10 pin is grounded, DACSEL/VID5 represents the 6th

voltage identification input from the VRM10-compliant

microprocessor, otherwise known as VID5. If VRM10 pin is

open or pulled high, DACSEL/VID5 selects the compliance

standard for the internal DAC: pulled to ground it encodes the

DAC with AMD Hammer VID codes, while left open or pulled

high, it encodes the DAC with Intel VRM9.0 codes.

VRM10 (Pin 4)

This pin selects VRM10.0 DAC compliance when grounded.

Left open, it allows selection of either VRM9.0 or Hammer

DAC compliance via DACSEL pin.

ENLL (Pin 21)

This pin is a precision-threshold (approximately 0.6V) enable

pin. Held low, this pin disables controller operation. Pulled

high, the pin enables the controller for operation.

FB and COMP (Pins 6, 5)

The internal error amplifier’s inverting input and output

respectively. These pins are connected to the external

network used to compensate the regulator’s feedback loop.

An internal current source injects the average current

sampled through R

ground through an impedance lower than 15Ω disables the

controller (same effect as ENLL pulled low).

ISEN (Pin 7)

This pin is used to close the current-feedback loop and set

the over-current protection threshold. A resistor connected

between this pin and VCC has a voltage drop forced across

it equal to that sampled across the lower MOSFET’s r

during approximately the middle of its conduction interval.

The resulting current through this resistor is used for channel

current balancing, over-current protection and is sourced to

the FB pin for load-line regulation. The voltage across the

channels.

Use the following equation to select the proper R

resistor:

ISEN

resistor is time multiplexed between the two

------------------------------------------

DS ON

(

50µA

)

ISEN

OUT

into the FB pin. Pulling COMP to

ISEN

DS(ON)

ISL6563

where:

Read ‘Current Feedback’ paragraph for more information.

UGATE1, 2 (Pins 19, 12)

Connect these pins to the upper MOSFETs’ gates. These

pins are used to control the upper MOSFETs and are

monitored for shoot-through prevention purposes. Maximum

individual channel duty cycle is limited to 66%.

BOOT1, 2 (Pins 20, 11)

These pins provide the bias voltage for the upper MOSFETs’

drives. Connect these pins to appropriately-chosen external

bootstrap capacitors. Internal bootstrap diodes connected to

the PVCC pins provide the necessary bootstrap charge.

PHASE1, 2 (Pins 18, 13)

Connect these pins to the sources of the upper MOSFETs.

These pins are the return path for the upper MOSFETs’

drives.

LGATE1, 2 (Pins 17, 15)

These pins are used to control the lower MOSFETs and are

monitored for shoot-through prevention purposes. Connect

these pins to the lower MOSFETs’ gates.

OFS (Pin 9)

This pin is used to create an adjustable output voltage offset.

For no offset, leave this pin open. For negative offset, connect

a R’

the following equation:

where:

For positive output voltage offset, connect a R

from this pin to GND, sizing it according to the following

equation:

For more information, refer to the ‘Output Voltage Offset

Programming’ paragraph.

SSEND (Pin 10)

This pin is an end of Soft-Start (SS) indicator; open drain

output device stays ON during soft-start, and goes open when

soft-start ends.

R′

OUT

DS(ON)

OFFSET

OFS

= channel maximum output current (A)

= lower MOSFET drain-source ON resistance (Ω)

resistor from this pin to VCC and size it according to

= desired output voltage offset magnitude (mV)

--------------------------

OFFSET

500

1500

OFS

resistor

ISL6563 Intersil Corporation, ISL6563 Datasheet - Page 6

ISL6563

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