TPS54283_17 Datasheet, PDF(16/55 Page) Texas Instruments – 2-A DUAL NON-SYNCHRONOUS CONVERTER WITH INTEGRATED HIGH-SIDE MOSFET

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TPS54283_17 Datasheet, PDF (16/55 Pages) Texas Instruments – 2-A DUAL NON-SYNCHRONOUS CONVERTER WITH INTEGRATED HIGH-SIDE MOSFET

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TPS54283, TPS54286

SLUS749C â JULY 2007 â REVISED OCTOBER 2007

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to support the desired regulation voltage by the time Soft Start has completed, then

the output UV circuit may trip and cause a hiccup in the output voltage. In this case,

use a timed delay startup from the ENx pin to delay the startup of the output until the

PVDDx voltage has the capability of supporting the desired regulation voltage. See

Operating Near Maximum Duty Cycleand Maximum Output Capacitance for related

information.

Output Voltage Regulation

Each output has a dedicated feedback loop comprised of a voltage setting divider, an error amplifier, a pulse

width modulator, and a switching MOSFET. The regulation output voltage is determined by a resistor divider

connecting the output node, the FBx pin, and GND (see Figure 20). Assuming the value of the upper voltage

setting divider is known, the value of the lower divider resistor for a desired output voltage is calculated by

Equation 2.

VREF

R2 = R1Â´

VOUT - VREF

(2)

where

â¢ VREF is the internal 0.8-V reference voltage

OUTPUT1

TPS5428x

1 PVDD1 PVDD2 14

2 BOOT1 BOOT2 13

3 SW1

SW2 12

4 GND

BP 11

5 EN1

SEQ 10

6 EN2

ILIM2 9

7 FB1

FB2 8

UDG-07011

Figure 20. Feedback Network for Channel 1

DESIGN HINT

There is a leakage current of up to 12 ÂµA out of the SW pin when a single output of

the TPS5428x is disabled. Keeping the series impedance of R1 + R2 less than 50 kâ¦

prevents the output from floating above the referece voltage while the controller output

is in the OFF state.

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