LTC3851-1_15 Datasheet, PDF(10/28 Page) Linear Technology – Synchronous Step-Down Switching Regulator Controller

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LTC3851-1_15 Datasheet, PDF (10/28 Pages) Linear Technology – Synchronous Step-Down Switching Regulator Controller

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LTC3851-1

OPERATION

Main Control Loop

The LTC3851-1 is a constant frequency, current mode

step-down controller. During normal operation, the top

MOSFET is turned on when the clock sets the RS latch,

and is turned off when the main current comparator, ICMP,

resets the RS latch. The peak inductor current at which

ICMP resets the RS latch is controlled by the voltage on

the ITH pin, which is the output of the error ampliï¬er EA.

The VFB pin receives the voltage feedback signal, which is

compared to the internal reference voltage by the EA. When

the load current increases, it causes a slight decrease in

VFB relative to the 0.8V reference, which in turn causes the

ITH voltage to increase until the average inductor current

matches the new load current. After the top MOSFET has

turned off, the bottom MOSFET is turned on until either

the inductor current starts to reverse, as indicated by the

reverse current comparator, IREV, or the beginning of the

next cycle.

INTVCC Power

Power for the top and bottom MOSFET drivers and most

other internal circuitry is derived from the INTVCC pin. An

internal 5V low dropout linear regulator supplies INTVCC

power from VIN.

The top MOSFET driver is biased from the ï¬oating boot-

strap capacitor, CB, which normally recharges during each

off cycle through an external diode when the top MOSFET

turns off. If the input voltage, VIN, decreases to a voltage

close to VOUT, the loop may enter dropout and attempt

to turn on the top MOSFET continuously. The dropout

detector detects this and forces the top MOSFET off for

about 1/10 of the clock period every tenth cycle to allow

CB to recharge. However, it is recommended that there is

always a load present during the drop-out transition to

ensure CB is recharged.

Shutdown and Start-Up (RUN and TK/SS)

The LTC3851-1 can be shut down using the RUN pin. Pulling

this pin below 1.1V disables the controller and most of the

internal circuitry, including the INTVCC regulator. Releasing

the RUN pin allows an internal 2Î¼A current to pull up the

pin and enable that controller. Alternatively, the RUN pin

may be externally pulled up or driven directly by logic.

Be careful not to exceed the absolute maximum rating of

6V on this pin.

The start-up of the controllerâs output voltage, VOUT, is

controlled by the voltage on the TK/SS pin. When the

voltage on the TK/SS pin is less than the 0.8V internal

reference, the LTC3851-1 regulates the VFB voltage to

the TK/SS pin voltage instead of the 0.8V reference. This

allows the TK/SS pin to be used to program a soft-start

by connecting an external capacitor from the TK/SS pin to

GND. An internal 1Î¼A pull-up current charges this capacitor

creating a voltage ramp on the TK/SS pin. As the TK/SS

voltage rises linearly from 0V to 0.8V (and beyond), the

output voltage VOUT rises smoothly from zero to its ï¬nal

value. Alternatively, the TK/SS pin can be used to cause

the start-up of VOUT to âtrackâ another supply. Typically,

this requires connecting to the TK/SS pin an external

resistor divider from the other supply to ground (see the

Applications Information section). When the RUN pin

is pulled low to disable the controller, or when INTVCC

drops below its undervoltage lockout threshold of 3.2V,

the TK/SS pin is pulled low by an internal MOSFET. When

in undervoltage lockout, the controller is disabled and the

external MOSFETs are held off.

Light Load Current Operation (Burst Mode Operation,

Pulse skipping or Continuous Conduction)

The LTC3851-1 can be enabled to enter high efï¬ciency

Burst Mode operation, constant frequency pulse skipping

mode or forced continuous conduction mode. To select

forced continuous operation, tie the MODE/PLLIN pin to

INTVCC. To select pulse skipping mode of operation, ï¬oat

the MODE/PLLIN pin or tie it to GND. To select Burst Mode

operation, tie MODE/PLLIN to INTVCC through a resistor

no less than 50k, but no greater than 250k.

When the controller is enabled for Burst Mode operation,

the peak current in the inductor is set to approximately

one-forth of the maximum sense voltage even though

the voltage on the ITH pin indicates a lower value. If the

average inductor current is higher than the load current,

the error ampliï¬er, EA, will decrease the voltage on the ITH

pin. When the ITH voltage drops below 0.4V, the internal

sleep signal goes high (enabling âsleepâ mode) and both

external MOSFETs are turned off.

38511fa

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