ISL6313B Intersil Corporation, ISL6313B Datasheet - Page 10

ISL6313B

Manufacturer Part Number

ISL6313B

Description

Two-Phase Buck PWM Controller

Manufacturer

Intersil Corporation

Datasheet

1.ISL6313B.pdf (33 pages)

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Current page: 10 of 33
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channel. Tie the ISEN+ pins to the V

corresponding channel’s sense capacitor.

Tieing ISEN2- to VCC programs the part for single phase

operation.

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 pin provides 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.

LGATE1 and LGATE2

These pins are used to control the lower MOSFETs. Connect

these pins to the corresponding lower MOSFETs’ gates.

A resistor, R

the soft-start ramp slope. Refer to Equations 20 and 21 for

proper resistor calculation.

The state of the SS pin also 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 Intel

VR11 mode of operation the R

ground. AMD compliance is selected if the R

to VCC.

PGOOD

For Intel mode of operation, PGOOD indicates whether VSEN

is within specified overvoltage and undervoltage limits after a

fixed delay from the end of soft-start. If VSEN exceeds these

limits, an overcurrent event occurs, or if the part is disabled,

PGOOD is pulled low. PGOOD is always low prior to the end

of soft-start.

For AMD modes of operation, PGOOD will always be high as

long as VSEN is within the specified undervoltage/overvoltage

window and soft-start has ended. PGOOD only goes low if

VSEN is outside this window.

Operation

Multiphase Power Conversion

Microprocessor load current profiles have changed to the

point that using single-phase regulators is no longer a viable

solution. Designing a regulator that is cost-effective,

thermally sound, and efficient has become a challenge that

www.DataSheet4U.com

, placed from SS to ground or VCC, will set

resistor should be tied to

CORE

side of their

resistor is tied

ISL6313B

only multi-phase converters can accomplish. The ISL6313B

controller helps simplify implementation by integrating vital

functions and requiring minimal external components. The

block diagram on page 3 provides a top level view of multi-

phase power conversion using the ISL6313B controller.

Interleaving

The switching of each channel in a multi-phase converter is

timed to be symmetrically out of phase with each of the other

channels. In a 3-phase converter, each channel switches 1/3

cycle after the previous channel and 1/3 cycle before the

following channel. As a result, the three-phase converter has

a combined ripple frequency three times greater than the

ripple frequency of any one phase. In addition, the peak-to-

peak amplitude of the combined inductor currents is reduced

in proportion to the number of phases (Equations 1 and 2).

Increased ripple frequency and lower ripple amplitude mean

that the designer can use less per-channel inductance and

lower total output capacitance for any performance

specification.

Figure 1 illustrates the multiplicative effect on output ripple

frequency. The three channel currents (I

combine to form the AC ripple current and the DC load

current. The ripple component has three times the ripple

frequency of each individual channel current. Each PWM

pulse is terminated 1/3 of a cycle after the PWM pulse of the

previous phase. The peak-to-peak current for each phase is

about 7A, and the DC components of the inductor currents

combine to feed the load.

To understand the reduction of ripple current amplitude in the

multi-phase circuit, examine Equation 1 representing an

individual channel peak-to-peak inductor current.

In Equation 1, V

voltages respectively, L is the single-channel inductor value,

and f

FIGURE 1. PWM AND INDUCTOR-CURRENT WAVEFORMS

(

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

is the switching frequency.

PWM1, 5V/DIV

–

L f

⋅

FOR 3-PHASE CONVERTER

OUT

+ I

⋅

) V

, 7A/DIV

and V

⋅

+ I

OUT

PWM3, 5V/DIV

, 7A/DIV

OUT

1µs/DIV

are the input and output

, 7A/DIV

PWM2, 5V/DIV

, I

, 7A/DIV

, and I

November 6, 2008

FN6809.0

(EQ. 1)

)

ISL6313B Intersil Corporation, ISL6313B Datasheet - Page 10

ISL6313B

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