ISL6443AIRZ Intersil, ISL6443AIRZ Datasheet - Page 12

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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Part Number:

ISL6443AIRZ

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Intersil

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Out-of-Phase Operation

The two PWM controllers in the ISL6443A operate 180

out-of-phase to reduce input ripple current. This reduces the

input capacitor ripple current requirements, reduces power

supply-induced noise and improves EMI. This effectively helps

to lower component cost, save board space and reduce EMI.

Dual PWMs typically operate in-phase and turn on both upper

FETs at the same time. The input capacitor must then support

the instantaneous current requirements of both controllers

simultaneously, resulting in increased ripple voltage and

current. The higher RMS ripple current lowers the efficiency

due to the power loss associated with the ESR of the input

capacitor. This typically requires more low-ESR capacitors in

parallel to minimize the input voltage ripple and ESR-related

losses, or to meet the required ripple current rating.

With dual synchronized out-of-phase operation, the high-side

MOSFETs of the ISL6443A turn on 180

instantaneous input current peaks of both regulators no longer

overlap, resulting in reduced RMS ripple current and input

voltage ripple. This reduces the required input capacitor ripple

current rating, allowing fewer or less expensive capacitors, and

reducing the shielding requirements for EMI. The “Typical

Performance Curves Oscilloscope Plots are Taken Using the

ISL6443A EVAL Evaluation Board, VIN = 12V Unless

Otherwise Noted.” on page 8 show the synchronized 180° out-

of-phase operation.

Input Voltage Range

The ISL6443A is designed to operate from input supplies

ranging from 4.5V to 24V. However, the input voltage range

can be effectively limited by the available maximum duty

cycle (D

where,

discharge path, including the lower FET, inductor and PC

board.

including the upper FET, inductor and PC board resistances.

The maximum input voltage and minimum output voltage is

limited by the minimum on-time (t

where, t

Gate Control Logic

The gate control logic translates generated PWM signals into

gate drive signals, which provides amplification, level shifting

and shoot-through protection. The gate drivers have some

circuitry that helps optimize the ICs performance over a wide

range of operational conditions. As MOSFET switching times

can vary dramatically from type to type and with input voltage,

IN min

IN max

(

= Sum of the parasitic voltage drops in the inductor

= Sum of the voltage drops in the charging path,

(

)

ON(min)

MAX

)

≤

⎛

⎝

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

ON min

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

= 93%).

OUT

(

0.93

= 30ns

OUT

)

300kHz

⎞

⎠

–

ON(min)

out-of-phase. The

(EQ. 3)

(EQ. 4)

ISL6443A

the gate control logic provides adaptive dead time by

monitoring real gate waveforms of both the upper and the lower

MOSFETs. Shoot-through control logic provides a 20ns

deadtime to ensure that both the upper and lower MOSFETs

will not turn on simultaneously and cause a shoot-through

condition.

Gate Drivers

The low-side gate driver is supplied from VCC_5V and

provides a peak sink/source current of 400mA. The high-side

gate driver is also capable of 400mA current. Gate-drive

voltages for the upper N-Channel MOSFET are generated by

the flying capacitor boot circuit. A boot capacitor connected

from the BOOT pin to the PHASE node provides power to the

high side MOSFET driver. To limit the peak current in the IC,

an external resistor may be placed between the UGATE pin

and the gate of the external MOSFET. This small series

resistor also damps any oscillations caused by the resonant

tank of the parasitic inductances in the traces of the board and

the FET’s input capacitance.

At start-up, the low-side MOSFET turns on and forces PHASE

to ground in order to charge the BOOT capacitor to 5V. After the

low-side MOSFET turns off, the high-side MOSFET is turned

on by closing an internal switch between BOOT and UGATE.

This provides the necessary gate-to-source voltage to turn on

the upper MOSFET, an action that boosts the 5V gate drive

signal above V

MOSFET is drawn from the internal 5V regulator.

Protection Circuits

The converter output is monitored and protected against

overload, short circuit and undervoltage conditions. A

sustained overload on the output sets the PGOOD low and

initiates hiccup mode.

Overcurrent Protection

Both PWM controllers use the lower MOSFET’s ON-resistance,

voltage drop is compared with a threshold set by a resistor

connected from the OCSETx pin to ground.

DS(ON)

, to monitor the current in the converter. The sensed

ISL6443A

VCC_5V

UGATE

PHASE

BOOT

. The current required to drive the upper

FIGURE 15. GATE DRIVER

VIN

June 2, 2008

FN6600.2

ISL6443AIRZ Intersil, ISL6443AIRZ Datasheet - Page 12

ISL6443AIRZ

Specifications of ISL6443AIRZ

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