ISL6334DIRZ-T Intersil, ISL6334DIRZ-T Datasheet - Page 13

ISL6334DIRZ-T

Manufacturer Part Number

ISL6334DIRZ-T

Description

IC CTRLR PWM 4PHASE VR11.1 40QFN

Manufacturer

Intersil

Datasheet

1.ISL6334DCRZ-T.pdf (28 pages)

Specifications of ISL6334DIRZ-T

Applications

Controller, Intel VR11.1

Voltage - Input

3 ~ 12 V

Number Of Outputs

Voltage - Output

0.5 ~ 1.6 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

40-VFQFN, 40-VFQFPN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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A simple R-C network across the inductor extracts the DCR

voltage, as shown in Figure 4.

The voltage on the capacitor V

proportional to the channel current I

If the R-C network components are selected such that the

RC time constant (= R*C) matches the inductor time

constant (= L/DCR), the voltage across the capacitor V

equal to the voltage drop across the DCR, i.e., proportional

to the channel current.

With the internal low-offset current amplifier, the capacitor

voltage V

Therefore, the current out of ISEN+ pin, I

to the inductor current.

Because of the internal filter at ISEN- pin, one capacitor, C

is needed to match the time delay between the ISEN- and

ISEN+ signals. Select the proper C

constant of R

Equation 6 shows that the ratio of the channel current to the

sensed current, I

resistor and the DCR of the inductor.

RESISTIVE SENSING

For accurate current sense, a dedicated current-sense resistor

ISL6334D INTERNAL CIRCUIT

SEN

SENSE

s ( )

CURRENT

SENSE

in series with each output inductor can serve as the

FIGURE 4. DCR SENSING CONFIGURATION

⎛

⎝

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

⋅

SEN

⋅

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

is replicated across the sense resistor R

DCR

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

DCR

ISL6596

ISEN

(

s RC

SEN

PWM(n)

⋅

and C

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

⎞

⎠

DCR

, is driven by the value of the sense

ISEN

⋅

(

DCR I

)

⋅

ISEN

)

, can be shown to be

ISEN-(n)

ISEN+(n)

x C

INDUCTOR

. See Equation 5.

to keep the time

) close to 27ns.

s ( )

SEN

DCR

(s)

, is proportional

ISEN(n)

ISEN

OUT

(EQ. 5)

OUT

(EQ. 6)

ISL6334D

current sense element (see Figure 5). This technique is more

accurate, but reduces overall converter efficiency due to the

additional power loss on the current sense element R

The same capacitor C

between ISEN- and ISEN+ signals. Select the proper C

keep the time constant of R

27ns.

Equation 7 shows the ratio of the channel current to the

sensed current I

The inductor DCR value will increase as the temperature

increases. Therefore, the sensed current will increase as the

temperature of the current sense element increases. In order

to compensate the temperature effect on the sensed current

signal, a Positive Temperature Coefficient (PTC) resistor can

be selected for the sense resistor R

temperature compensation function of ISL6334D should be

utilized. The integrated temperature compensation function is

described in “External Temperature Compensation” on

page 22.

Channel-Current Balance

The sensed current I

together and divided by the number of active channels. The

resulting average current I

total load current. Channel current balance is achieved by

comparing the sensed current of each channel to the

average current to make an appropriate adjustment to the

PWM duty cycle of each channel with Intersil’s patented

current-balance method.

Channel current balance is essential in achieving the

thermal advantage of multiphase operation. With good

current balance, the power loss is equally dissipated over

multiple devices and a greater area.

Voltage Regulation

The compensation network shown in Figure 6 assures that

the steady-state error in the output voltage is limited only to

SEN

FIGURE 5. SENSE RESISTOR IN SERIES WITH INDUCTORS

ISL6334D INTERNAL CIRCUIT

CURRENT

⋅

SENSE

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

SEN

SENSE

ISEN

SEN

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

SENSE

from each active channel is summed

ISEN

is needed to match the time delay

AVG

ISEN

provides a measure of the

ISEN-(n)

ISEN+(n)

and C

ISEN

I L

, or the integrated

SENSE

ISEN

ISEN(n)

x C

OUT

August 31, 2010

SENSE

) close to

(EQ. 7)

FN6802.2

ISL6334DIRZ-T Intersil, ISL6334DIRZ-T Datasheet - Page 13

ISL6334DIRZ-T

Specifications of ISL6334DIRZ-T

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