ISL6269B Datasheet, PDF(12/14 Page) Intersil Corporation – High-Performance Notebook PWM Controller with Audio-Frequency Clamp

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ISL6269B Datasheet, PDF (12/14 Pages) Intersil Corporation – High-Performance Notebook PWM Controller with Audio-Frequency Clamp

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ISL6269B

MOSFET Selection and Considerations

Typically, a MOSFET cannot tolerate even brief excursions

beyond their maximum drain to source voltage rating. The

MOSFETs used in the power stage of the converter should

have a maximum VDS rating that exceeds the sum of the

upper voltage tolerance of the input power source and the

voltage spike that occurs when the MOSFET switches off.

There are several power MOSFETs readily available that are

optimized for DC/DC converter applications. The preferred

high-side MOSFET emphasizes low switch charge so that

the device spends the least amount of time dissipating

power in the linear region. Unlike the low-side MOSFET

which has the drain-source voltage clamped by its body

diode during turn off, the high-side MOSFET turns off with

VIN - VOUT - VLacross it. The preferred low-side MOSFET

emphasizes low rDS(ON) when fully saturated to minimize

conduction loss.

For the low-side MOSFET, (LS), the power loss can be

assumed to be conductive only and is written as:

PCON_LS â ILOAD2 â rDS(ON)_LS â¢ (1 â D)

(EQ. 16)

For the high-side MOSFET, (HS), its conduction loss is

written as:

PCON_HS = ILOAD2 â¢ rDS(ON)_HS â¢ D

(EQ. 17)

For the high-side MOSFET, its switching loss is written as:

PSW_HS

-V----I--N----â¢---I--V----A----L---L---E----Y-----â¢--t--O-----N----â¢---f--S----W---

-V----I--N----â¢---I--P----E----A----K----â¢---t--O----F----F----â¢---f-S----W----

(EQ. 18)

Where:

- IVALLEY is the difference of the DC component of the

inductor current minus 1/2 of the inductor ripple current

- IPEAK is the sum of the DC component of the inductor

current plus 1/2 of the inductor ripple current

- tON is the time required to drive the device into

saturation

- tOFF is the time required to drive the device into cut-off

Selecting The Bootstrap Capacitor

The selection of the bootstrap capacitor is written as:

CBOOT

---------Q-----g---------

ÎVBOOT

(EQ. 19)

Where:

- Qg is the total gate charge required to turn on the

high-side MOSFET

- ÎVBOOT, is the maximum allowed voltage decay across

the boot capacitor each time the high-side MOSFET is

switched on

As an example, suppose the high-side MOSFET has a total

gate charge Qg, of 25nC at VGS = 5V, and a ÎVBOOT of

200mV. The calculated bootstrap capacitance is 0.125ÂµF; for

a comfortable margin select a capacitor that is double the

calculated capacitance, in this example 0.22ÂµF will suffice.

Use an X7R or X5R ceramic capacitor.

Layout Considerations

As a general rule, power should be on the bottom layer of

the PCB and weak analog or logic signals are on the top

layer of the PCB. The ground-plane layer should be adjacent

to the top layer to provide shielding. The ground plane layer

should have an island located under the IC, the

compensation components, and the FSET components. The

island should be connected to the rest of the ground plane

layer at one point.

VIAS TO

GROUND

PLANE

INDUCTOR

HIGH-SIDE

MOSFETS

GND

VOUT

OUTPUT

CAPACITORS

SCHOTTKY

DIODE

PHASE

NODE

LOW-SIDE

MOSFETS

INPUT

VIN

CAPACITORS

FIGURE 8. TYPICAL POWER COMPONENT PLACEMENT

Signal Ground and Power Ground

The bottom of the ISL6269B QFN package is the signal

ground (GND) terminal for analog and logic signals of the IC.

Connect the GND pad of the ISL6269B to the island of

ground plane under the top layer using several vias, for a

robust thermal and electrical conduction path. Connect the

input capacitors, the output capacitors, and the source of the

lower MOSFETs to the power ground plane.

PGND (Pin 10)

This is the return path for the pull-down of the LG low-side

MOSFET gate driver. Ideally, PGND should be connected to

the source of the low-side MOSFET with a low-resistance,

low-inductance path .

VIN (Pin 1)

The VIN pin should be connected close to the drain of the

high-side MOSFET, using a low resistance and low

inductance path.

VCC (Pin 2)

For best performance, place the decoupling capacitor very

close to the VCC and GND pins.

PVCC (Pin 12)

For best performance, place the decoupling capacitor very

close to the PVCC and PGND pins, preferably on the same

side of the PCB as the ISL6269B IC.

FN6280.2

May 30, 2007

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