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APPLICATION INFORMATION

OUTPUT VOLTAGE SETTING

Converter1 Adjustable Default Output Voltage Setting

OUT

+ V

REF

1 )

with an internal reference voltage V

REF

typical 0.6V

(4)

Converter 2

OUT

+ V

REF

1 )

with an internal reference voltage V

REF

typical 0.6V

(5)

SW1

FB1

SW2

ADJ2

DEF_1

VIN3.3V – 6V

VIN

EN_1

EN_2

MODE/

DATA

TPS62410

GND

10 F

2.2 Hm

R11

270kW

R12

180kW

V =1.5V

upto800mA

OUT1

C =22 F

OUT1

V =2.85V

upto800mA

OUT2

ff2

33pF

3.3 Hm

R21

825kW

R22

220kW

C =22 F

OUT2

TPS62410

SLVS737 – FEBRUARY 2007

The output voltage can be calculated to:

To keep the operating current to a minimum, it is recommended to select R

within a range of 180k Ω to 360k Ω .

The sum of R

and R

should not exceed ~1M Ω . For higher output voltages than 3.3V, it is recommended to

choose lower values than 180k Ω for R12. Route the DEF_1 line away from noise sources, such as the inductor

or the SW1 line. The FB1 line needs to be directly connected to the output capacitor. An internal feed forward

capacitor is connected to this pin, therefore there is no need for an external feed forward capacitor for converter

The default output voltage of converter 2 can be set by an external resistor network. For converter 2 the same

recommendations apply as for converter 1. In addition to that, a 33pF external feed forward capacitor C

ff2

for

good load transient response must be used.

The output voltage can be calculated to:

Route the ADJ2 line away from noise sources, such as the inductor or the SW2 line. In case the interface is

used for converter 2, connect ADJ2 pin directly to V

OUT2

Figure 33. Typical Application Circuit 1.5V/2.85V Adjustable Outputs, low PFM Voltage ripple Optimized

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