LTC3737_15 Datasheet, PDF(16/24 Page) Linear Technology – Dual 2-Phase, No RSENSE, DC/DC Controller with Output Tracking

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LTC3737_15 Datasheet, PDF (16/24 Pages) Linear Technology – Dual 2-Phase, No RSENSE, DC/DC Controller with Output Tracking

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LTC3737

APPLICATIO S I FOR ATIO

Setting Output Voltage

The LTC3737 output voltages are each set by an external

feedback resistor divider carefully placed across the out-

put, as shown in Figure 6. The regulated output voltage is

determined by:

VOUT

0.6V

â¢

âââ1+

â â

VOUT

1/2 LTC3737

VFB

3737 F06

Figure 6. Setting Output Voltage

Run/Soft Start Function

The RUN/SS pin is a dual purpose pin that provides the

optional external soft-start function and a means to shut

down the LTC3737.

Pulling the RUN/SS pin below 0.65V puts the LTC3737

into a low quiescent current shutdown mode (IQ = 9ÂµA). If

RUN/SS has been pulled all the way to ground, there will

be a delay before the LTC3737 comes out of shutdown and

is given by:

tDELAY

0.65V

â¢

CSS

0.7ÂµA

0.93s/ÂµF

â¢ CSS

This pin can be driven directly from logic as shown in

Figure 7. Diode D1 in Figure 7 reduces the start delay but

allows CSS to ramp up slowly providing the soft-start

function. This diode (and capacitor) can be deleted if the

external soft-start is not needed.

3.3V OR 5V

RUN/SS

CSS

3737 F07

Figure 7. RUN/SS Pin Interfacing

During soft-start, the start-up of VOUT1 is controlled by

slowly ramping the positive reference to the error amplifier

from 0V to 0.6V, allowing VOUT1 to rise smoothly from 0V

to its final value. The default internal soft-start time is 1ms.

This can be increased by placing a capacitor between the

RUN/SS pin and SGND. In this case, the soft start time will

be approximately:

tSS1

CSS

â¢

600mV

0.7ÂµA

Tracking

The start-up of VOUT2 is controlled by the voltage on the

TRACK pin. Normally this pin is used to allow the start-up

of VOUT2 to track that of VOUT1 as shown qualitatively in

Figures 8a and 8b. When the voltage on the TRACK pin is

less than the internal 0.6V reference, the LTC3737 regu-

lates the VFB2 voltage to the TRACK pin voltage instead of

0.6V. The start-up of VOUT2 may ratiometrically track that

of VOUT1, according to a ratio set by a resistor divider

(Figure 8c):

VOUT1

VOUT2

R2A

RTRACKA

â¢

RTRACKA + RTRACKB

R2B + R2A

For coincident tracking (VOUT1 = VOUT2 during start-up),

R2A = RTRACKA

R2B = RTRACKB

The ramp time for VOUT2 to rise from 0V to its final value

is:

tSS2

tSS1 â¢

RTRACKA

R1A

â¢

R1A + R1B

RTRACKA + RTRACKB

VOUT1

VOUT2

RTRACKB

RTRACKA

R1B LTC3737

R2B

VFB1 VFB2

R1A

R2A

TRACK

3737 F08a

Figure 8a. Using the TRACK Pin

3737fa

▷