ltc3853euj Linear Technology Corporation, ltc3853euj Datasheet - Page 18

ltc3853euj

Manufacturer Part Number

ltc3853euj

Description

Triple Output, Multiphase Synchronous Step-down Controller

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC3853EUJ.pdf (36 pages)

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APPLICATIONS INFORMATION

LTC3853

The optional Schottky diodes conduct during the dead time

between the conduction of the two power MOSFETs. These

prevent the body diodes of the bottom MOSFETs from turn-

ing on, storing charge during the dead time and requiring

a reverse recovery period that could cost as much as 3%

in efﬁ ciency at high V

a good compromise for both regions of operation due to

the relatively small average current. Larger diodes result

in additional transition losses due to their larger junction

capacitance.

Soft-Start and Tracking

The LTC3853 has the ability to either soft-start by itself

with a capacitor or track the output of another channel or

external supply. When one particular channel is conﬁ gured

to soft-start by itself, a capacitor should be connected to

its TK/SS pin. This channel is in the shutdown state if its

RUN pin voltage is below 1.2V. Its TK/SS pin is actively

pulled to ground in this shutdown state.

Once the RUN pin voltage is above 1.2V, the channel pow-

ers up. A soft-start current of 1.3μA then starts to charge

its soft-start capacitor. Note that soft-start or tracking is

achieved not by limiting the maximum output current of

the controller but by controlling the output ramp voltage

according to the ramp rate on the TK/SS pin. Current

foldback is disabled during this phase to ensure smooth

soft-start or tracking. The soft-start or tracking range is

deﬁ ned to be the voltage range from 0V to 0.8V on the

TK/SS pin. The total soft-start time can be calculated as:

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 0.74V, it

will operate in forced continuous mode and revert to the

selected mode once TK/SS > 0.74V. The output ripple is

minimized during the 100mV forced continuous mode

window ensuring a clean PGOOD signal.

When the channel is conﬁ gured 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,

SOFTSTART

= 0 8

. •

. A 1A to 3A Schottky is generally

1 3

. μ

the voltage ramp rate on this pin is determined by the

ramp rate of the other supply’s voltage. Note that the

small soft-start capacitor charging current is always

ﬂ owing, producing a small offset error. To minimize this

error, select the tracking resistive divider value to be small

enough to make this error negligible.

In order to track down another channel or supply after

the soft-start phase expires, the LTC3853 is forced into

continuous mode of operation as soon as V

undervoltage threshold of 0.74V regardless of the setting

of the MODE/PLLIN pin. However, the LTC3853 should

always be set in force continuous mode tracking down

when there is no load. After TK/SS drops below 0.1V, its

channel will operate in discontinuous mode.

Output Voltage Tracking

The LTC3853 allows the user to program how its out-

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

Through these pins, the output can be set up to ei-

ther coincidentally or ratiometrically track another

supply’s output, as shown in Figure 5. In the following

discussions, V

master channel and V

as a slave channel. In practice though, any phase can be

used as the master. To implement the coincident tracking

in Figure 5a, connect an additional resistive divider to

slave channel. The ratio of this divider should be the same

as that of the slave channel’s feedback divider shown in

Figure 6a. In this tracking mode, V

than V

of the slave’s divider should be exactly the same as the

master channel’s feedback divider. By selecting different

resistors, the LTC3853 can achieve different modes of

tracking including the two in Figure 5.

So which mode should be programmed? While either

mode in Figure 6 satisﬁ es most practical applications, there

are some tradeoffs. The ratiometric mode saves a pair of

resistors, but the coincident mode offers better output

regulation. This can be better understood with the help

of Figure 7. At the input stage of the slave channel’s error

ampliﬁ er, two common anode diodes are used to clamp

the equivalent reference voltage and an additional diode

OUT1

OUT2

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

. To implement the ratiometric tracking, the ratio

OUT1

refers to the LTC3853’s output 1 as a

OUT2

refers to the LTC3853’s output 2

OUT1

must be set higher

is below the

3853f

ltc3853euj Linear Technology Corporation, ltc3853euj Datasheet - Page 18

ltc3853euj

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