LTC3731 Datasheet, PDF(25/32 Page) Linear Technology – 3-Phase, 600kHz, Synchronous Buck Switching Regulator Controller

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LTC3731 Datasheet, PDF (25/32 Pages) Linear Technology – 3-Phase, 600kHz, Synchronous Buck Switching Regulator Controller

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LTC3731

APPLICATIO S I FOR ATIO

regulator. External OPTI-LOOP compensation allows over-

compensation for PC layouts which are not optimized but

this is not the recommended design procedure.

Simplified Visual Explanation of How a 3-Phase

Controller Reduces Both Input and Output RMS

Ripple Current

The effect of multiphase power supply design significantly

reduces the amount of ripple current in both the input and

output capacitors. The RMS input ripple current is divided

by, and the effective ripple frequency is multiplied up by

the number of phases used (assuming that the input

voltage is greater than the number of phases used times

the output voltage). The output ripple amplitude is also

reduced by, and the effective ripple frequency is increased

by the number of phases used. Figure 13 graphically

illustrates the principle.

The worst-case input RMS ripple current for a single stage

design peaks at twice the value of the output voltage. The

worst-case input RMS ripple current for a two stage

design results in peaks at 1/4 and 3/4 of the input voltage,

and the worst-case input RMS ripple current for a three

stage design results in peaks at 1/6, 1/2, and 5/6 of the

input voltage. The peaks, however, are at ever decreasing

levels with the addition of more phases. A higher effective

duty factor results because the duty factors âaddâ as long

as the currents in each stage are balanced. Refer to AN19

for a detailed description of how to calculate RMS current

for the single stage switching regulator.

Figure 6 illustrates the RMS input current drawn from the

input capacitance versus the duty cycle as determined by

the ration of input and output voltage. The peak input RMS

current level of the single phase system is reduced by 2/3

in a 3-phase solution due to the current splitting between

the three stages.

The output ripple current is reduced significantly when

compared to the single phase solution using the same

inductance value because the VOUT/L discharge currents

term from the stages that has their bottom MOSFETs on

subtract current from the (VCC â VOUT)/L charging current

resulting from the stage which has its top MOSFET on. The

SINGLE PHASE

VSW

ICIN

ICOUT

VSW1

VSW2

VSW3

IL1

IL2

IL3

TRIPLE PHASE

ICIN

ICOUT

3731 F13

Figure 13. Single and Polyphase Current Waveforms

3731fa

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