ISL6322 Datasheet, PDF(21/41 Page) Intersil Corporation – Four-Phase Buck PWM Controller with Integrated MOSFET Drivers and I2C Interface for Intel VR10, VR11, and AMD Applications

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ISL6322 Datasheet, PDF (21/41 Pages) Intersil Corporation – Four-Phase Buck PWM Controller with Integrated MOSFET Drivers and I2C Interface for Intel VR10, VR11, and AMD Applications

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ISL6322

resistor, N is the active channel number, and DCR is the

Inductor DCR value.

Therefore the equivalent load-line impedance, i.e. droop

impedance, is equal to:

RLL

--R----F----B--

---D----C-----R-----

RISEN

(EQ. 11)

Output-Voltage Offset Programming

The ISL6322 allows the designer to accurately adjust the

offset voltage by connecting a resistor, ROFS, from the OFS

pin to VCC or GND. When ROFS is connected between OFS

and VCC, the voltage across it is regulated to 1.6V. This

causes a proportional current (IOFS) to flow into the FB pin

and out of the OFS pin. If ROFS is connected to ground, the

voltage across it is regulated to 0.4V, and IOFS flows into the

OFS pin and out of the FB pin. The offset current flowing

through the resistor between VDIFF and FB will generate the

desired offset voltage which is equal to the product

(IOFS x RFB). These functions are shown in Figures 7 and 8.

Once the desired output offset voltage has been determined,

use the following formulas to set ROFS:

For Negative Offset (connect ROFS to GND):

ROFS

--0---.--4-----â---R----F----B---

VOFFSET

(EQ. 12)

For Positive Offset (connect ROFS to VCC):

ROFS

--1---.--6-----â---R----F----B---

VOFFSET

(EQ. 13)

VOFS

RFB

VDIFF

IOFS

1:1

CURRENT

MIRROR

E/A

REF

IOFS

VCC

ROFS

1.6V

OFS

ISL6322

VCC

FIGURE 7. POSITIVE OFFSET OUTPUT VOLTAGE

PROGRAMMING

VOFS

RFB

VDIFF

IOFS

VCC

E/A

REF

1:1

CURRENT

MIRROR

IOFS

ROFS

OFS

ISL6322

0.4V

GND

FIGURE 8. NEGATIVE OFFSET OUTPUT VOLTAGE

PROGRAMMING

Dynamic VID

Modern microprocessors need to make changes to their core

voltage as part of normal operation. They direct the ISL6322

to do this by making changes to the VID inputs. The ISL6322

is required to monitor the DAC inputs and respond to

on-the-fly VID changes in a controlled manner, supervising a

safe output voltage transition without discontinuity or

disruption. The DAC mode the ISL6322 is operating in

determines how the controller responds to a dynamic VID

change.

Intel Dynamic VID Transitions

When in Intel VR10 or VR11 mode, the ISL6322 checks the

VID inputs on the positive edge of an internal 3MHz clock. If

a new code is established and it remains stable for 3

consecutive readings (1Î¼s to 1.33Î¼s), the ISL6322

recognizes the new code and changes the internal DAC

reference directly to the new level. The Intel processor

controls the VID transitions and is responsible for

incrementing or decrementing one VID step at a time. In

VR10 and VR11 settings, the ISL6322 will immediately

change the internal DAC reference to the new requested

value as soon as the request is validated, which means the

fastest recommended rate at which a bit change can occur is

once every 2Î¼s. In cases where the reference step is too

large, the sudden change can trigger overcurrent or

overvoltage events.

In order to ensure the smooth transition of output voltage

during a VR10 or VR11 VID change, a VID step change

smoothing network is required. This network is composed of

and the external capacitor CREF, between the REF pin and

FN6328.0

August 21, 2006

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