ISL6261AIRZ-T Intersil, ISL6261AIRZ-T Datasheet - Page 16

ISL6261AIRZ-T

Manufacturer Part Number

ISL6261AIRZ-T

Description

IC CORE CTRLR 1PHASE 40-QFN

Manufacturer

Intersil

Datasheet

1.ISL6261ACRZ.pdf (33 pages)

Specifications of ISL6261AIRZ-T

Applications

Converter, Intel IMVP-6

Voltage - Input

5 ~ 21 V

Number Of Outputs

Voltage - Output

0.3 ~ 1.5 V

Operating Temperature

-40°C ~ 100°C

Mounting Type

Surface Mount

Package / Case

40-VFQFN, 40-VFQFPN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 16 of 33
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The IMVP-6

associated with regulating the output voltage. SLEWRATE,

given in the IMVP-6

the SOFT capacitor, C

If SLEWRATE is 10mV/μs, and I

is calculated as:

Choosing 0.015μF will guarantee 10mV/μs SLEWRATE at

minimum I

up slew rate as well. One should expect the output voltage to

slew to the Boot value of 1.2V at a rate given by Equation 4:

Selecting Rbias

To properly bias the ISL6261A, a reference current needs to be

derived by connecting a 147k, 1% tolerance resistor from the

RBIAS pin to ground. This provides a very accurate 10μA

current source from which OCSET reference current is derived.

Caution should be used during layout. This resistor should

be placed in close proximity to the RBIAS pin and be

connected to good quality signal ground. Do not connect any

other components to this pin, as they will negatively impact

the performance. Capacitance on this pin may create

instabilities and should be avoided.

SOFT

FIGURE 6. SIMPLIFIED VOLTAGE DROOP CIRCUIT WITH CPU-DIE VOLTAGE SENSING AND INDUCTOR DCR CURRENT SENSING

soft

VDIFF

INTERNAL TO ISL6261A

200

SLEWRATE

SOFT

value. This choice of C

μA

specification reveals the critical timing

(

015

specification, determines the choice of

μA

SOFT

μF

μs

, through Equation 2:

)

10µA

is typically 200μA, C

DROOP

SOFT

μs

controls the start-

DROOP

OCSET

VSUM

VSEN

DFB

RTN

1000pF

(EQ. 2)

(EQ. 3)

(EQ. 4)

330pF

SOFT

R ocset

ISL6261A

0~10

Start-up Operation - CLK_EN# and PGOOD

The ISL6261A provides a 3.3V logic output pin for

CLK_EN#. The system 3.3V voltage source connects to the

3V3 pin, which powers internal circuitry that is solely devoted

to the CLK_EN# function. The output is a CMOS signal with

4mA sourcing and sinking capability. CMOS logic eliminates

the need for an external pull-up resistor on this pin,

eliminating the loss on the pull-up resistor caused by

CLK_EN# being low in normal operation. This prolongs

battery run time. The 3.3V supply should be decoupled to

digital ground, not to analog ground, for noise immunity.

At start-up, CLK_EN# remains high until 13 clock cycles

after the core voltage is within 20mV of the boot voltage. The

ISL6261A triggers an internal timer for the IMVP6_PWRGD

signal (PGOOD pin). This timer allows PGOOD to go high

approximately 7ms after CLK_EN# goes low.

Static Mode of Operation - Processor Die Sensing

Remote sensing enables the ISL6261A to regulate the core

voltage at a remote sensing point, which compensates for

various resistive voltage drops in the power delivery path.

The VSEN and RTN pins of the ISL6261A are connected to

Kelvin sense leads at the die of the processor through the

processor socket. (The signal names are Vcc_sense and

Vss_sense respectively). Processor die sensing allows the

voltage regulator to tightly control the processor voltage at

the die, free of the inconsistencies and the voltage drops due

to layouts. The Kelvin sense technique provides for

extremely tight load line regulation at the processor die side.

I phase

VCC-SENSE

VSS-SENSE

R s

SOCKET KELVIN

TO PROCESSOR

CONECTIONS

DCR

V o

December 21, 2007

ESR

FN6354.2

ISL6261AIRZ-T Intersil, ISL6261AIRZ-T Datasheet - Page 16

ISL6261AIRZ-T

Specifications of ISL6261AIRZ-T

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