ISL6443AIRZ Intersil, ISL6443AIRZ Datasheet - Page 11

ISL6443AIRZ

Manufacturer Part Number

ISL6443AIRZ

Description

IC CTRLR SGL/STEP DOWN PWM 28QFN

Manufacturer

Intersil

Datasheet

1.ISL6443AIRZ.pdf (19 pages)

Specifications of ISL6443AIRZ

Applications

Power Supplies

Current - Supply

2mA

Voltage - Supply

5.6 V ~ 24 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

28-QFN

Rohs Compliant

YES

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Functional Description

General Description

The ISL6443A integrates control circuits for two synchronous

buck converters and one linear controller. The two synchronous

bucks operate out-of-phase to substantially reduce the input

ripple and thus reduce the input filter requirements. The chip

has four control lines (SS1, SD1, SS2, and SD2), which provide

independent control for each of the synchronous buck outputs.

The buck PWM controllers employ a free-running frequency

of 300kHz. The current mode control scheme with an input

voltage feed-forward ramp input to the modulator provides

excellent rejection of input voltage variations and provides

simplified loop compensations.

The linear controller can drive either a PNP or PFET to provide

ultra low-dropout regulation with programmable voltages.

Internal 5V Linear Regulator (VCC_5V)

All ISL6443A functions are internally powered from an

on-chip, low dropout 5V regulator. The maximum regulator

input voltage is 24V. Bypass the regulator’s output

(VCC_5V) with a 4.7µF capacitor to ground. The dropout

voltage for this LDO is typically 600mV, so when VIN is

greater than 5.6V, VCC_5V is typically 5V. The ISL6443A

also employs an undervoltage lockout circuit that disables

both regulators when VCC_5V falls below 4.4V.

The internal LDO can source over 60mA to supply the IC,

power the low side gate drivers and charge the external boot

capacitor. When driving large FETs (especially at 300kHz

frequency), little or no regulator current may be available for

external loads.

For example, a single large FET with 15nC total gate charge

requires 15nC x 300kHz = 4.5mA. Also, at higher input

voltages with larger FETs, the power dissipation across the

internal 5V will increase. Excessive dissipation across this

regulator must be avoided to prevent the junction temperature

from rising. Larger FETs can be used with 5V ±10% input

applications. The thermal overload protection circuit will be

triggered if the VCC_5V output is short circuited. Connect

VCC_5V to V

Soft-Start Operation

When soft-start is initiated, the voltage on the SS pin of the

enabled PWM channels starts to ramp gradually, due to the

5μA current sourced into the external capacitor. The output

voltage follows the soft-start voltage.

When the SS pin voltage reaches 0.8V, the output voltage of

the enabled PWM channel reaches the regulation point, and

the soft-start pin voltage continues to rise. At this point the

PGOOD and fault circuitry is enabled. This completes the

soft-start sequence. Any further rise of SS pin voltage does

not affect the output voltage. By varying the values of the

soft-start capacitors, it is possible to provide sequencing of the

for 5V ±10% input applications.

ISL6443A

main outputs at start-up. The soft-start time can be obtained

from Equation 1:

The soft-start capacitors can be chosen to provide start-up

tracking for the two PWM outputs. This can be achieved by

choosing the soft-start capacitors such that the soft-start

capacitor ratio equals the respective PWM output voltage

ratio. For example, if one uses PWM1 = 1.2V and PWM2 =

3.3V, then the soft-start capacitor ratio should be,

waveform with C

Output Voltage Programming

A resistive divider from the output to ground sets the output

voltage of either PWM channel. The center point of the

divider shall be connected to FBx pin. The output voltage

value is determined by Equation 2.

where R

and R

SOFT

SS1

FIGURE 14. PWM1 AND PWM2 OUTPUT TRACKING DURING

OUTx

SS2

is the resistor connected from FBx to ground.

0.8V

is the top resistor of the feedback divider network

FIGURE 13. SOFT-START OPERATION

= 1.2/3.3 = 0.364. Figure 14 shows that soft-start

START-UP

⎛

⎝

⎛

⎜

⎝

-----------

5μA

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

SS1

SS1 1V/DIV

VCC_5V 1V/DIV

⎞

⎠

OUT1

= 0.01µF and C

⎞

⎟

⎠

1V/DIV

SS2

= 0.027µF.

OUT2

OUT1

1V/DIV

June 2, 2008

FN6600.2

(EQ. 1)

(EQ. 2)

ISL6443AIRZ Intersil, ISL6443AIRZ Datasheet - Page 11

ISL6443AIRZ

Specifications of ISL6443AIRZ

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