AAT1275 Analogic Corporation, AAT1275 Datasheet - Page 12

AAT1275

Manufacturer Part Number

AAT1275

Description

Manufacturer

Analogic Corporation

Datasheet

1.AAT1275.pdf (19 pages)

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mizes this factor, but results may vary with package

size and among specific manufacturers.

Use a 4.7µF 10V ceramic output capacitor to mini-

mize output ripple for the 5V output. Small 0805

sized ceramic capacitors are available which meet

these requirements.

Estimate the output capacitor required at the min-

imum switching frequency (F

case).

The boost converter input current flows during both

ON and OFF switching intervals. The input ripple

current is less than the output ripple and, as a

result, less input capacitance is required. A ceram-

ic output capacitor from 1µF to 4.7µF is recom-

mended. Minimum 6.3V rated capacitors are

required at the input. Ceramic capacitors sized as

small as 0603 are available which meet these

requirements.

Setting the Output Voltage

Program the output voltage through a resistive

divider located from the output to the FB pin to

ground. The internal error amplifier reference volt-

age is 0.6V. A 59.0kΩ programming resistor value

from VFB to GND with a 432kΩ resistor from FB to

the output will set the output voltage to 5V.

OUT

= V

= 0.6V · 1 +

= 5.0V

OUT

REF

· 1 +

⎛

⎝

⎛

⎝

OUT

· ΔV

· D

59.0kΩ

432kΩ

) of 800kHz (worst-

⎞

⎠

MAX

OUT

⎞

⎠

Boost Converter with USB Power Switch

USB Load Switch Application

Information

Setting the Load Switch Current Limit

In most applications, the variation in I

taken into account when determining R

variation is due to processing variations from part

to part, as well as variations in the voltages at

OUT1 and OUT2, plus the operating temperature.

The typical R

range of 20 to 22kΩ.

Operation in Current Limit

When a heavy load is applied to OUT2 of the

AAT1275, the load current is limited to the value of

output voltage. This increases the AAT1275 power

dissipation and die temperature. When the die tem-

perature exceeds the over-temperature limit, the

AAT1275 shuts down until it has cooled sufficiently,

at which point it will start up again. The AAT1275

will continue to cycle on and off until the load is

removed, power is removed, or until a logic low

level is applied to the EN pin.

A fault flag indicates when the OUT2 pin load cur-

rent has exceeded the current limit level set by

that requires 10kΩ pull-up to V

has a 4ms blanking time to prevent false over cur-

rent indicator during the charging of the USB bus

capacitor.

Steady-State Maximum Power

Dissipation

The maximum power dissipation for the AAT1275

occurs at the minimum input voltage, where it oper-

ates in continuous conduction mode (CCM). The

total power dissipation at full load is dominated by

the R

sipation includes the losses in the input and output

switch, as well as both synchronous switches.

LIM

SET

(determined by R

. The fault flag is an active low, open-drain pin

DS(ON)

losses of the power MOSFET. The dis-

SET

value for a 300mA load is in the

SET

) causing a drop in the

. The fault signal

AAT1275

1275.2006.12.1.2

SET

LIM

. The I

must be

LIM

AAT1275 Analogic Corporation, AAT1275 Datasheet - Page 12

AAT1275

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