AAT2512 Datasheet, PDF(9/20 Page) Advanced Analogic Technologies – Dual 400mA High Frequency Buck Converter

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AAT2512 Datasheet, PDF (9/20 Pages) Advanced Analogic Technologies – Dual 400mA High Frequency Buck Converter

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AAT2512

Dual 400mA High Frequency Buck Converter

Functional Block Diagram

FB1

VIN1

EN1

Err.

Comp.

Amp.

Voltage

Reference

Control

Logic

LX1

GND1

SGND1

FB2

EN2

See

Note

Comp.

Err.

Amp.

See

Note

Voltage

Reference

Control

Logic

VIN2

LX2

GND2

SGND2

Note: Internal resistor divider included for â¥1.2V versions. For low voltage versions, the feedback pin is tied directly to the error amplifier input.

Functional Description

The AAT2512 is a high performance power man-

agement IC comprised of two buck converters.

Each channel has independent input voltages and

enable/disable pins. Designed to operate at 1.4MHz

of switching frequency, the converters require only

three external components (CIN, COUT, and LX), min-

imizing cost and size of external components.

Both converters are designed to operate with an input

voltage range of 2.7V to 5.5V. Typical values of the

output filter are 4.7ÂµH and 4.7ÂµF ceramic capacitor.

The output voltage operates to as low as 0.6V and is

offered as both fixed and adjustable. Power devices

are sized for 400mA current capability while main-

taining over 90% efficiency at full load. Light load effi-

ciency is maintained at greater than 80% down to

500ÂµA of load current. Both channels have excellent

transient response, load, and line regulation.

Transient response time is typically less than 20Âµs.

2512.2006.06.1.4

The AAT2512 also features soft-start control to limit

inrush current. Soft start increases the inductor

current limit point in discrete steps when power is

applied to the input or when the enable pins are

pulled high. It limits the current surge seen at the

input and eliminates output voltage overshoot. The

enable input, when pulled low, forces the converter

into a low power, non-switching state consuming

less than 1ÂµA of current.

For overload conditions, the peak input current is

limited. As load impedance decreases and the out-

put voltage falls closer to zero, more power is dis-

sipated internally, raising the device temperature.

Thermal protection completely disables switching

when internal dissipation becomes excessive, pro-

tecting the device from damage. The junction over-

temperature threshold is 140Â°C with 15Â°C of hys-

teresis. The under-voltage lockout guarantees suf-

ficient VIN bias and proper operation of all internal

circuits prior to activation.

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