ISL6558EVAL2 Intersil, ISL6558EVAL2 Datasheet - Page 9

ISL6558EVAL2

Manufacturer Part Number

ISL6558EVAL2

Description

EVAL BOARD W/6605 DRVRS ISL6558

Manufacturer

Intersil

Series

Endura™r

Datasheets

1.ISL6558IRZ.pdf (16 pages)

2.ISL6558EVAL2.pdf (16 pages)

Specifications of ISL6558EVAL2

Main Purpose

DC/DC, Step Down

Outputs And Type

1, Non-Isolated

Voltage - Output

1.35V

Current - Output

30A

Voltage - Input

4.5 ~ 5.5V

Regulator Topology

Buck

Frequency - Switching

500kHz

Board Type

Fully Populated

Utilized Ic / Part

HIP6609, ISL6558

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Power - Output

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voltage feedback seen at the FB pin, effectively creating the

output voltage droop desired as a function of load current.

SELECTING R

If output droop compensation is not required the DROOP pin

must be left open. Simply select a value for R

calculate R

In applications where droop compensation is desired, tie the

DROOP and FB pins together. Select R

following equation, where V

output voltage droop at full load. This equation is contingent

upon the correct selection of the ISEN resistors discussed in

the Fault Protection section.

Calculate R

Where V

conditions.

Initialization

Many functions are initiated by a rising supply voltage

applied to the VCC pin of the ISL6558. Until the supply

voltage reaches the Power-On Reset (POR) VCC rising

threshold, the PWM drive signals are held in three-state.

This results in no gate drive generation by the HIP660x gate

drivers to the output MOSFETs. Once the supply voltage

exceeds the POR rising threshold, the soft-start interval is

initiated. If the supply voltage drops below the POR falling

threshold, POR shutdown is triggered and the PWM outputs

are again driven to three-state.

The FS/EN pin can also be used to initialize the converter.

Holding this pin to ground overrides the onset of soft-start.

Once this pin is released, soft-start is initialized and the

converter output will begin to ramp. If FS/EN is grounded

during operation, a POR shutdown is triggered and the PWM

outputs are three-stated. Toggling this pin after an overvoltage

event will not reset the controller; V

Sequencing of the input supplies is recommended. An

overcurrent spike due to supply voltage sequencing could

occur if the controller becomes active before the drivers. If

the POR rising threshold of the controller is met before that

of the drivers, then a soft-start interval is started and could

be completed before the drivers are active. Once the drivers

become active the controller will be demanding maximum

duty cycle due to the lack of output voltage and could cause

an overcurrent trip. A soft-start interval would be initiated

shortly after this event and normal PWM operation would

result. The supply voltages should be sequenced such that

the controller and gate drivers are initialized simultaneously

or the drivers become active just before the controller. Most

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

OUT,NL

DROOP

50µA

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

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

OUT

OUT NL

based on the following equation:

based on R

0.8V

is the desired output voltage under no-load

0.8V

AND R

–

0.8V

×10 xV

–

0.8V

DROOP

using the following equation.

is the desired amount of

must be cycled.

first given the

and

(EQ. 1)

(EQ. 2)

(EQ. 3)

ISL6558

ATX supplies control the rise times of the individual voltage

outputs and insure proper sequencing.

Soft-Start Interval

Before a soft-start cycle is initiated, the controller holds the

active channel PWM drive signals in three-state as long as

the FS/EN pin is held at ground or the voltage applied to

VCC remains below the POR rising threshold.

Once VCC rises above the POR rising threshold and the

FS/EN pin is released from ground, a soft-start interval is

initiated. PWM operation begins and the resulting slow

ramp-up of output voltage avoids hitting an overcurrent trip

by slowly charging the discharged output capacitors. The

soft-start interval ends when the PGOOD signal transitions

to indicate the output voltage is within specification.

The soft-start interval is digitally controlled by the selection

of switching frequency. The maximum soft-start interval,

where F

The converter used to create the waveforms in Figure 3 has

a switching frequency of 125kHz. The soft-start interval

calculated for this converter is just over 16ms. From the

waveforms, the actual soft-start interval is just under 16ms.

PWM Drive Signals

The ISL6558 provides PWM channel drive signals for control

of 2-, 3-, or 4-phase converters. The PWM signals drive the

associated HIP660x gate drivers for each power channel.

The number of active channels is determined by the status

of PWM3 and PWM4. If PWM3 is tied to VCC, then the

controller will interpret this as two channel operation and

only PWM1 and PWM2 will be active. Since PWM4 is not

active under these conditions, simply tie it to VCC or leave it

open. If only PWM4 is tied to VCC, then the remaining three

channels are all considered active by the controller.

Interval

, can be estimated for a given application:

FIGURE 3. SOFT-START WAVEFORMS

is the channel switching frequency.

2048

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

POR RISING THRESHOLD

VCC, 2V/DIV

2ms/DIV

FB, 0.5V/DIV

PGOOD, 2V/DIV

OUT

, 0.5V/DIV

June 21, 2005

FN9027.12

(EQ. 4)

ISL6558EVAL2 Intersil, ISL6558EVAL2 Datasheet - Page 9

ISL6558EVAL2

Specifications of ISL6558EVAL2

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