ISL6307A Datasheet, PDF(31/33 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 (31/33 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

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

0.3

as close as possible to each upper MOSFET drain to

minimize board parasitic impedances and maximize

suppression.

0.3

0.2

IL,PP = 0

IL,PP = 0.5 IO

IL,PP = 0.25 IO

IL,PP = 0.75 IO

0.1

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 25. NORMALIZED INPUT-CAPACITOR RMS CURRENT

vs DUTY CYCLE FOR 2-PHASE CONVERTER

0.3 IL,PP = 0

IL,PP = 0.25 IO

IL,PP = 0.5 IO

IL,PP = 0.75 IO

0.2

0.1

0.2

0.4

0.6

0.8

1.0

DUTY CYCLE (VO/VIN)

FIGURE 26. NORMALIZED INPUT-CAPACITOR RMS CURRENT

vs DUTY CYCLE FOR 3-PHASE CONVERTER

For a two phase design, use Figure 25 to determine the

input-capacitor RMS current requirement given the duty

cycle, maximum sustained output current (IO), and the ratio

of the per-phase peak-to-peak inductor current (IL,PP) to IO.

Select a bulk capacitor with a ripple current rating which will

minimize the total number of input capacitors required to

support the RMS current calculated. The voltage rating of

the capacitors should also be at least 1.25 times greater

than the maximum input voltage.

Figures 26 and 27 provide the same input RMS current

information for three and four phase designs respectively.

Use the same approach to selecting the bulk capacitor type

and number as described above.

Low capacitance, high-frequency ceramic capacitors are

needed in addition to the bulk capacitors to suppress leading

and falling edge voltage spikes. This is a result from the high

current slew rates produced by the upper MOSFETs turning

0.2

0.1

0.2

0.4

0.6

0.8

1.0

DUTY CYCLE (VO/VIN)

FIGURE 27. NORMALIZED INPUT-CAPACITOR RMS CURRENT

vs DUTY CYCLE FOR 4-PHASE CONVERTER

MULTIPHASE RMS IMPROVEMENT

Figure 28 is provided as a reference to demonstrate the

dramatic reductions in input-capacitor RMS current upon the

implementation of the multiphase topology. For example,

compare the input RMS current requirements of a two-phase

converter versus that of a single phase. Assume both

converters have a duty cycle of 0.25, maximum sustained

output current of 40A, and a ratio of IL,PP to IO of 0.5. The

single phase converter would require 17.3Arms current

capacity while the two-phase converter would only require

10.9Arms. The advantages become even more pronounced

when output current is increased and additional phases are

added to keep the component cost down relative to the

single phase approach.

FN9236.0

February 6, 2006

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