ISL62881CHRTZ Intersil, ISL62881CHRTZ Datasheet - Page 13

ISL62881CHRTZ

Manufacturer Part Number

ISL62881CHRTZ

Description

IC REG PWM SGL PHASE 28TQFN

Manufacturer

Intersil

Datasheet

1.ISL62881CHRTZ.pdf (37 pages)

Specifications of ISL62881CHRTZ

Applications

Controller, Intel IMVP-6.5™

Voltage - Input

4.5 ~ 25 V

Number Of Outputs

Voltage - Output

0.0125 ~ 1.5 V

Operating Temperature

-10°C ~ 100°C

Mounting Type

Surface Mount

Package / Case

28-VQFN

For Use With

ISL62881CCPUEVAL2Z - EVAL BOARD ISL62881CCPU 28QFN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

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Part Number:

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Manufacturer:

INTERSIL

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Part Number:

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Quantity:

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Current page: 13 of 37
Download datasheet (2Mb)

Diode Emulation and Period Stretching

ISL62881C can operate in diode emulation (DE) mode to

improve light load efficiency. In DE mode, the low-side

MOSFET conducts when the current is flowing from

source to drain and doesn’t not allow reverse current,

emulating a diode. As shown in Figure 8, when LGATE is

on, the low-side MOSFET carries current, creating

negative voltage on the phase node due to the voltage

drop across the ON-resistance. The ISL62881C monitors

the current through monitoring the phase node voltage.

It turns off LGATE when the phase node voltage reaches

zero to prevent the inductor current from reversing the

direction and creating unnecessary power loss.

If the load current is light enough, as Figure 9 shows, the

inductor current will reach and stay at zero before the

next phase node pulse, and the regulator is in

discontinuous conduction mode (DCM). If the load

current is heavy enough, the inductor current will never

reach 0A, and the regulator is in CCM although the

controller is in DE mode.

VCRS

U G A T E

P H A S E

L G A T E

I L

FIGURE 9. PERIOD STRETCHING

FIGURE 8. DIODE EMULATION

CCM/DCM BOUNDARY

LIGHT DCM

DEEP DCM

ISL62881C, ISL62881D

FIGURE 10. SOFT-START WAVEFORMS FOR CPU VR

FIGURE 11. SOFT-START WAVEFORMS FOR GPU VR

Figure 9 shows the operation principle in diode emulation

mode at light load. The load gets incrementally lighter in

the three cases from top to bottom. The PWM on-time is

determined by the VW window size, therefore is the

same, making the inductor current triangle the same in

the three cases. The ISL62881C clamps the ripple

capacitor voltage V

inductor current. It takes the COMP voltage longer to hit

inductor current triangles move further apart from each

other such that the inductor current average value is

equal to the load current. The reduced switching

frequency helps increase light load efficiency.

Start-up Timing

With the controller's V

threshold, the start-up sequence begins when VR_ON

exceeds the 3.3V logic high threshold.

Figure 10 shows the typical start-up timing when the

ISL62881C is configured for CPU VR application. The

ISL62881C uses digital soft-start to ramp up DAC to the

boot voltage of 1.1V at about 2.5mV/µs. Once the output

voltage is within 10% of the boot voltage for 13 PWM

cycles (43µs for frequency = 300kHz), CLK_EN# is

pulled low and DAC slews at 5mV/µs to the voltage set

by the VID pins. PGOOD is asserted high in

approximately 7ms. Similar results occur if VR_ON is tied

CLK_EN#

crs

PGOOD

VR_ON

, naturally stretching the switching period. The

VDD

DAC

13 SWITCHING CYCLES

APPLICATION

800µs

120µs

13 SWITCHING CYCLES

crs

5mV/µs

2.5mV/µs

in DE mode to make it mimic the

90%

voltage above the POR

90%

VID COMMAND VOLTAGE

5mV/µs

VBOOT

~7ms

VID

COMMAND

VOLTAGE

March 8, 2010

FN7596.0

ISL62881CHRTZ Intersil, ISL62881CHRTZ Datasheet - Page 13

ISL62881CHRTZ

Specifications of ISL62881CHRTZ

Available stocks

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