LTC3851A-1_15 Datasheet, PDF(16/30 Page) Linear Technology – Synchronous Step-Down Switching Regulator Controller

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LTC3851A-1_15 Datasheet, PDF (16/30 Pages) Linear Technology – Synchronous Step-Down Switching Regulator Controller

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LTC3851A-1

Applications Information

0V to 0.8V on the TK/SS pin. The total soft-start time can

be calculated as:

tSOFT-START

0.8 â¢

CSS

1.0ÂµA

Regardless of the mode selected by the MODE/PLLIN pin,

the regulator will always start in pulse-skipping mode up

to TK/SS = 0.64V. Between TK/SS = 0.64V and 0.72V, it

will operate in forced continuous mode and revert to the

selected mode once TK/SS > 0.72V. The output ripple

is minimized during the 80mV forced continuous mode

window.

When the regulator is configured to track another supply,

the feedback voltage of the other supply is duplicated by a

resistor divider and applied to the TK/SS pin. Therefore, the

voltage ramp rate on this pin is determined by the ramp rate

of the other supplyâs voltage. Note that the small soft-start

capacitor charging current is always flowing, producing a

small offset error. To minimize this error, one can select

the tracking resistive divider value to be small enough to

make this error negligible.

In order to track down another supply after the soft-start

phase expires, the LTC3851A-1 must be configured for

forced continuous operation by connecting MODE/PLLIN

to INTVCC.

Output Voltage Tracking

The LTC3851A-1 allows the user to program how its

output ramps up and down by means of the TK/SS pins.

Through this pin, the output can be set up to either co-

incidentally or ratiometrically track with another supplyâs

output, as shown in Figure 3. In the following discussions,

VMASTER refers to a master supply and VOUT refers to the

LTC3851A-1âs output as a slave supply. To implement the

coincident tracking in Figure 3a, connect a resistor divider

to VMASTER and connect its midpoint to the TK/SS pin of

the LTC3851A-1. The ratio of this divider should be selected

the same as that of the LTC3851A-1âs feedback divider as

shown in Figure 4a. In this tracking mode, VMASTER must

be higher than VOUT. To implement ratiometric tracking,

the ratio of the resistor divider connected to VMASTER is

determined by:

VOUT

VMASTER

âââRR31++RR24

â â

So which mode should be programmed? While either

mode in Figure 4 satisfies most practical applications,

the coincident mode offers better output regulation.

This concept can be better understood with the help of

Figureâ¯5. At the input stage of the LTC3851A-1âs error

amplifier, two common anode diodes are used to clamp

VMASTER

VOUT

3851A1

TIME

(3a) Coincident Tracking

TIME

3851A1 F03

(3b) Ratiometric Tracking

Figure 3. Two Different Modes of Output Voltage Tracking

3851a1fa

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