ISL6322 Datasheet, PDF(39/41 Page) Intersil Corporation – Four-Phase Buck PWM Controller with Integrated MOSFET Drivers and I2C Interface for Intel VR10, VR11, and AMD Applications

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ISL6322 Datasheet, PDF (39/41 Pages) Intersil Corporation – Four-Phase Buck PWM Controller with Integrated MOSFET Drivers and I2C Interface for Intel VR10, VR11, and AMD Applications

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ISL6322

and current sense components. Locate the VCC/PVCC

bypass capacitors as close to the ISL6322 as possible. It is

especially important to locate the components associated

with the feedback circuit close to their respective controller

pins, since they belong to a high-impedance circuit loop,

sensitive to EMI pick-up.

A multi-layer printed circuit board is recommended. Figure 29

shows the connections of the critical components for the

converter. Note that capacitors CxxIN and CxxOUT could each

represent numerous physical capacitors. Dedicate one solid

layer, usually the one underneath the component side of the

board, for a ground plane and make all critical component

ground connections with vias to this layer. Dedicate another

solid layer as a power plane and break this plane into smaller

islands of common voltage levels. Keep the metal runs from the

PHASE terminal to output inductors short. The power plane

should support the input power and output power nodes. Use

copper filled polygons on the top and bottom circuit layers for

the phase nodes. Use the remaining printed circuit layers for

small signal wiring.

Routing UGATE, LGATE, and PHASE Traces

Great attention should be paid to routing the UGATE, LGATE,

and PHASE traces since they drive the power train MOSFETs

using short, high current pulses. It is important to size them as

large and as short as possible to reduce their overall

impedance and inductance. They should be sized to carry at

least one ampere of current (0.02â to 0.05â). Going between

layers with vias should also be avoided, but if so, use two vias

for interconnection when possible.

Extra care should be given to the LGATE traces in particular

since keeping their impedance and inductance low helps to

significantly reduce the possibility of shoot-through. It is also

important to route each channels UGATE and PHASE traces

in as close proximity as possible to reduce their inductances.

Current Sense Component Placement and Trace

Routing

One of the most critical aspects of the ISL6322 regulator

layout is the placement of the inductor DCR current sense

components and traces. The R-C current sense components

must be placed as close to their respective ISEN+ and

ISEN- pins on the ISL6322 as possible.

The sense traces that connect the R-C sense components to

each side of the output inductors should be routed on the

bottom of the board, away from the noisy switching

components located on the top of the board. These traces

should be routed side by side, and they should be very thin

traces. Itâs important to route these traces as far away from

any other noisy traces or planes as possible. These traces

should pick up as little noise as possible.

Thermal Management

For maximum thermal performance in high current, high

switching frequency applications, connecting the thermal

GND pad of the ISL6322 to the ground plane with multiple

vias is recommended. This heat spreading allows the part to

achieve its full thermal potential. It is also recommended

that the controller be placed in a direct path of airflow if

possible to help thermally manage the part.

FN6328.0

August 21, 2006

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