LTC3569_15 Datasheet, PDF(10/26 Page) Linear Technology – Triple Buck Regulator with 1.2A and Two 600mA Outputs and Individual Programmable References

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LTC3569_15 Datasheet, PDF (10/26 Pages) Linear Technology – Triple Buck Regulator with 1.2A and Two 600mA Outputs and Individual Programmable References

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LTC3569

Operation

Introduction

The LTC3569 contains three constant-frequency, current

mode buck DC/DC regulators. Both the P-channel and

synchronous rectifier (N-channel) switches are internal

to each buck. The operating frequency is determined by

the value of the RT resistor, or is fixed to 2.25MHz by pull-

ing the RT pin to SVIN, or is synchronized to an external

oscillator tied to the MODE pin. Users may select pulse-

skipping or Burst Mode operation to trade off output ripple

for efficiency. Independent programmable reference levels

allow the LTC3569 to suit a variety of applications.

The LTC3569 offers different power levels, a single 1.2A

buck as well as two 600mA bucks. These three bucks

may be configured in different parallel configurations,

for versatile high current operation. The power stage of

buckâ¯2 can be configured as a slave to buck 1, by pulling

FB2 to SVIN. The power stage of buck 3, can be configured

to be a slave to buck 2, by pulling the FB3 pin to SVIN. To

enable the slave power stage, pull the respective EN pin

high. However if the master is disabled, the slave power

stage is Hi-Z.

Each of the buck regulators supports 100% duty cycle

operation (low dropout mode) when their input voltage

drops very close to their output voltage. The switching

regulators also include soft-start to limit inrush current

when powering on, and short-circuit current protection.

Main Control Loop

During normal operation, the top power switch (P-chan-

nel MOSFET) is turned on at the beginning of a clock

cycle. The P-channel current ramps up as the inductor

charges. The peak inductor current is controlled by the

internally compensated error amplifier output, ITH. The

current comparator (PCOMP) turns off the P-channel and

turns on the N-channel synchronous rectifier when the

inductor current reaches the ITH level minus the offset of

the slope compensation ramp. The energy stored in the

inductor continues to flow through the bottom switch

(N-channel) and into the load until either the inductor

current approaches zero, or the next clock cycle begins.

If the inductor current approaches zero the N comparator

MODE BURST

CLAMP

SLOPE

VREF

P COMP

SOFT

START

SLAVE

VFB

SVIN

EEAA

ITH

SLAVE

VREF

PGOOD

SLEEP

CLK

NOR

NAND

GATE

P-LATCH

SLAVE

FROM MASTER

PON

NOFF

ILIM

SWITCHING

LOGIC,

BLANKING,

ANTI SHOOT-THRU

NCOMP

â+

Figure 2. Buck Block Diagram

For more information www.linear.com/LTC3569

PVIN

P-CHANNEL

N-CHANNEL

PGND

NOR

SLAVE

3569 F02

3569fe

▷