ISL6322_07 INTERSIL [Intersil Corporation], ISL6322_07 Datasheet - Page 38

ISL6322_07

Manufacturer Part Number

ISL6322_07

Description

Four-Phase Buck PWM Controller with Integrated MOSFET Drivers and I2C Interface for Intel VR10, VR11, and AMD Applications

Manufacturer

INTERSIL [Intersil Corporation]

Datasheet

1.ISL6322_07.pdf (41 pages)

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Low capacitance, high-frequency ceramic capacitors are

needed in addition to the input bulk capacitors to suppress

leading and falling edge voltage spikes. The spikes result from

the high current slew rate produced by the upper MOSFET

turn on and off. Select low ESL ceramic capacitors and place

one as close as possible to each upper MOSFET drain to

minimize board parasitics and maximize suppression.

Layout Considerations

MOSFETs switch very fast and efficiently. The speed with

which the current transitions from one device to another

causes voltage spikes across the interconnecting

impedances and parasitic circuit elements. These voltage

spikes can degrade efficiency, radiate noise into the circuit

and lead to device overvoltage stress. Careful component

selection, layout, and placement minimizes these voltage

FIGURE 27. NORMALIZED INPUT-CAPACITOR RMS

FIGURE 28. NORMALIZED INPUT-CAPACITOR RMS

0.3

0.2

0.1

0.3

0.2

0.1

L,PP

CURRENT FOR 3-PHASE CONVERTER

CURRENT FOR 2-PHASE CONVERTER

= 0

= 0.5 I

= 0.75 I

= 0

= 0.25 I

0.2

DUTY CYCLE (V

0.4

L,PP

0.6

= 0.5 I

= 0.75 I

IN/

)

0.8

1.0

ISL6322

spikes. Consider, as an example, the turnoff transition of the

upper PWM MOSFET. Prior to turnoff, the upper MOSFET

was carrying channel current. During the turnoff, current

stops flowing in the upper MOSFET and is picked up by the

lower MOSFET. Any inductance in the switched current path

generates a large voltage spike during the switching interval.

Careful component selection, tight layout of the critical

components, and short, wide circuit traces minimize the

magnitude of voltage spikes.

There are two sets of critical components in a DC/DC

converter using an ISL6322 controller. The power

components are the most critical because they switch large

amounts of energy. Next are small signal components that

connect to sensitive nodes or supply critical bypassing

current and signal coupling.

The power components should be placed first, which include

the MOSFETs, input and output capacitors, and the inductors. It

is important to have a symmetrical layout for each power train,

preferably with the controller located equidistant from each.

Symmetrical layout allows heat to be dissipated equally

across all power trains. Equidistant placement of the controller

to the first three power trains it controls through the integrated

drivers helps keep the gate drive traces equally short,

resulting in equal trace impedances and similar drive

capability of all sets of MOSFETs.

When placing the MOSFETs, try to keep the source of the

upper FETs and the drain of the lower FETs as close as

thermally possible. Input Bulk capacitors should be placed

close to the drain of the upper FETs and the source of the lower

FETs. Locate the output inductors and output capacitors

between the MOSFETs and the load. The high-frequency input

and output decoupling capacitors (ceramic) should be placed

as close as practicable to the decoupling target, making use of

the shortest connection paths to any internal planes, such as

vias to GND next or on the capacitor solder pad.

The critical small components include the bypass capacitors

for VCC and PVCC, and many of the components

surrounding the controller including the feedback network

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 C

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

xxIN

and C

xxOUT

February 15, 2007

could each

FN6328.1

ISL6322_07 INTERSIL [Intersil Corporation], ISL6322_07 Datasheet - Page 38

ISL6322_07

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