ISL6307A Datasheet, PDF(32/33 Page) Intersil Corporation – Ultra-high bandwidth 6-Phase PWM Controller with 8 Bit VID Code Capable of Precision RDS(ON) or DCR Differential Current Sensing

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ISL6307A Datasheet, PDF (32/33 Pages) Intersil Corporation – Ultra-high bandwidth 6-Phase PWM Controller with 8 Bit VID Code Capable of Precision RDS(ON) or DCR Differential Current Sensing

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ISL6307A

0.6

0.4

0.2

IL,PP = 0

IL,PP = 0.5 IO

IL,PP = 0.75 IO

0.2

0.4

0.6

0.8

1.0

DUTY CYCLE (VO/VIN)

FIGURE 28. NORMALIZED INPUT-CAPACITOR RMS

CURRENT vs DUTY CYCLE FOR SINGLE-PHASE

CONVERTER

Layout Considerations

The following layout strategies are intended to minimize the

impact of board parasitic impedances on converter

performance and to optimize the heat-dissipating capabilities

of the printed-circuit board. These sections highlight some

important practices which should not be overlooked during the

layout process.

Component Placement

Within the allotted implementation area, orient the switching

components first. The switching components are the most

critical because they carry large amounts of energy and tend

to generate high levels of noise. Switching component

placement should take into account power dissipation. Align

the output inductors and MOSFETs such that spaces

between the components are minimized while creating the

PHASE plane. Place the Intersil MOSFET driver IC close to

the MOSFETs they control, to reduce the parasitic

impedances due to trace length between critical driver input

and output signals. If possible, duplicate the same

placement of these components for each phase.

Next, place the input and output capacitors. Position one

high-frequency ceramic input capacitor next to each upper

MOSFET drain. Place the bulk input capacitors as close to

the upper MOSFET drains as dictated by the component

size and dimensions. Long distances between input

capacitors and MOSFET drains result in too much trace

inductance and a reduction in capacitor performance. Locate

the output capacitors between the inductors and the load,

while keeping them in close proximity to the microprocessor

socket.

The ISL6307A can be placed off to one side or centered

relative to the individual phase switching components.

Routing of sense lines and PWM signals will guide final

placement. Critical small signal components to place close

to the controller include the ISEN resistors, RT resistor,

feedback resistor, and compensation components.

Bypass capacitors for the ISL6307A and ISL66XX driver

bias supplies must be placed next to their respective pins.

Trace parasitic impedances will reduce their effectiveness.

Plane Allocation and Routing

Dedicate one solid layer, usually a middle layer, for a ground

plane. Make all critical component ground connections with

vias to this plane. Dedicate one additional layer for power

planes; breaking the plane up into smaller islands of

common voltage. Use the remaining layers for signal wiring.

Route phase planes of copper filled polygons on the top and

bottom once the switching component placement is set. Size

the trace width between the driver gate pins and the

MOSFET gates to carry 4A of current. When routing

components in the switching path, use short wide traces to

reduce the associated parasitic impedances.

FN9236.0

February 6, 2006

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