ISL6266AHRZ Intersil, ISL6266AHRZ Datasheet - Page 22

ISL6266AHRZ

Manufacturer Part Number

ISL6266AHRZ

Description

IC CORE CTRLR 2PHASE 48-QFN

Manufacturer

Intersil

Datasheet

1.ISL6266HRZ.pdf (30 pages)

Specifications of ISL6266AHRZ

Applications

Converter, Intel IMVP-6

Voltage - Input

5 ~ 25 V

Number Of Outputs

Voltage - Output

0.3 ~ 1.5 V

Operating Temperature

-10°C ~ 100°C

Mounting Type

Surface Mount

Package / Case

48-VQFN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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volt-second balance. The ISL6266 continues to turn on the

lower MOSFET for the inactive channel to deplete the induced

field with minimum power loss.

Component Selection and Application

Soft-Start and Mode Change Slew Rates

The ISL6266A uses two slew rates for various modes of

operation. The first is a slow slew rate used to reduce in-rush

current during start-up. It is also used to reduce audible noise

when entering or exiting Deeper Sleep Mode. A faster slew rate

is used to exit out of Deeper Sleep and to enhance system

performance by achieving active mode regulation more quickly.

Note that the SOFT capacitor current is bidirectional. The

current is flowing into the SOFT capacitor when the output

voltage is commanded to rise and out of the SOFT capacitor

when the output voltage is commanded to fall.

Figure 36 illustrates how the two slew rates are determined

by commanding one of two current sources into or out of the

SOFT pin. The capacitor from the SOFT pin to ground holds

the voltage commanded by the two current sources. The

voltage is fed into the non-inverting input of the error

amplifier and sets the regulated system voltage. Depending

on the state of the system (Start-Up or Active mode) and the

state of the DPRSLPVR pin, one of the two currents shown

in Figure 36 will be used to charge or discharge this

capacitor, thereby controlling the slew rate of the newly

commanded voltage. These currents can be found under

“SOFT-START CURRENT” on page 4 of the “Electrical

Specifications” table.

The first current, labeled I

Specifications” table on page 4 as 42µA. This current is used

during soft-start. The second current (I

get the larger of the two currents, labeled I

“Electrical Specifications” table on page 4. This total current

is typically 205µA with a minimum of 180µA.

FIGURE 36. SOFT PIN CURRENT SOURCES FOR FAST AND

SOFT

SLOW SLEW RATES

SOFT

REF

, is given in the “Electrical

ISL6266, ISL6266A

AMPLIFIER

ERROR

) sums with I

in the

ISL6266, ISL6266A

The IMVP-6+ specification dictates the critical timing

associated with regulating the output voltage. The symbol,

SLEWRATE, as given in the IMVP-6+ specification will

determine the choice of the SOFT capacitor (C

Equation 4.

Using a SLEWRATE of 10mV/µs and the typical I

given in the “Electrical Specifications” table on page 4 of

205µA, C

A choice of 0.015µF would guarantee a SLEWRATE of

10mV/µs is met for the minimum I

“Electrical Specifications” table on page 4. This choice of

should expect the output voltage to slew to the boot value of

1.2V at a rate given by Equation 6.

Selecting RBIAS

To properly bias the ISL6266A, a reference current is

established by placing a 147kΩ, 1% tolerance resistor from

the RBIAS pin to ground. This will provide a highly accurate

10µA current source from which the OCSET reference

current can be derived.

Care should be taken in layout that the resistor is placed

very close to the RBIAS pin and that a good quality signal

ground is connected to the opposite side of the RBIAS

resistor. Do not connect any other components to this pin as

this would negatively impact performance. Capacitance on

this pin would create instabilities and should be avoided.

Start-Up Operation - CLK_EN# and PGOOD

The ISL6266A provides a 3.3V logic output pin for

CLK_EN#. The 3V3 pin allows for a system 3.3V source to

be connected to separated circuitry inside the ISL6266A,

solely devoted to the CLK_EN# function. The output is a

3.3V CMOS signal with 4mA sourcing and sinking capability.

This implementation removes the need for an external

pull-up resistor on this pin, thereby removing a leakage path

from the 3.3V supply to ground when the logic state is low.

The lack of superfluous current leakage paths serves to

prolong battery life. For noise immunity, the 3.3V supply

should be decoupled to digital ground rather than to analog

ground.

As mentioned in “Theory of Operation” on page 18,

CLK_EN# is logic level high at start-up until approximately

43µs after the V

Afterwards, CLK_EN# transitions low, triggering an internal

timer for the IMVP6_PWRGD signal. When the timer

reaches 6.8ms, IMVP-6_PWRGD will toggle high.

-------

SOFT

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

will then control the start-up slewrate as well. One

SOFT

205μA

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

SLEWRATE

is as shown in Equation 5.

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

0.015μF

CC_CORE

⁄

41μA

(

10mV 1μs

⁄

is in regulation at the Boot level.

2.8mV μs

)

⁄

value given in the

SOFT

June 14, 2010

) by

value

(EQ. 4)

(EQ. 5)

(EQ. 6)

FN6398.3

ISL6266AHRZ Intersil, ISL6266AHRZ Datasheet - Page 22

ISL6266AHRZ

Specifications of ISL6266AHRZ

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