aat1155iks-2.5-t1 Advanced Analogic Technologies, Inc., aat1155iks-2.5-t1 Datasheet - Page 12

aat1155iks-2.5-t1

Manufacturer Part Number

aat1155iks-2.5-t1

Description

Aat1155 | 1mhz 2.5a Step-down Dc/dc Converter

Manufacturer

Advanced Analogic Technologies, Inc.

Datasheet

1.AAT1155IKS-2.5-T1.pdf (17 pages)

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A high ESR tantalum capacitor with a value about 10

times the input ceramic capacitor may also be

required when using a 10µF or smaller ceramic input

bypass capacitor. This dampens any input oscilla-

tions that may occur due to the source inductance

resonating with the converter input impedance.

Output Capacitor

With no external compensation components, the out-

put capacitor has a strong effect on the loop stability.

Larger output capacitance will reduce the crossover

frequency with greater phase margin. A 200µF

ceramic capacitor provides sufficient bulk capacitance

to stabilize the output during large load transitions and

has ESR and ESL characteristics necessary for very

low output ripple. The RMS ripple current is given by:

For a ceramic output capacitor, the dissipation due

to the RMS current and associated output ripple

are negligible.

Tantalum capacitors with sufficiently low ESR to

meet output ripple requirements generally have an

RMS current rating much greater than that actually

seen in this application. The maximum tantalum

output capacitor ESR is:

where ΔI is the peak-to-peak inductor ripple current.

Figure 3: Evaluation Board Top Side.

RMS

ESR ≤

OUT

RIPPLE

= V

ΔI

L · F

) · (V

· V

- V

OUT

)

1MHz 2.5A Step-Down DC/DC Converter

Due to the ESR zero associated with the tantalum

capacitor, smaller values than those required with

ceramic capacitors provide more phase margin

with a greater loop crossover frequency.

Layout

Figures 3 and 4 display the suggested PCB layout

for the AAT1155. The following guidelines should

be used to help ensure a proper layout.

1. The connection from the input capacitor to the

2. The input capacitor should connect as closely

3. C1, L1, and CR1 should be connected as

4. The feedback trace (Pin 1) should be separate

5. The resistance of the trace from the load return

6. R1 and C3 are required in order to provide

Schottky anode should be as short as possible.

as possible to VP (Pins 5 and 8) and GND

(Pin 2).

closely as possible. The connection from the

cathode of the Schottky to the LX node should

be as short as possible.

from any power trace and connect as closely as

possible to the load point. Sensing along a

high-current load trace can degrade DC load

regulation.

to GND (Pin 2) should be kept to a minimum.

This will help to minimize any error in DC reg-

ulation due to differences in the potential of the

internal reference ground and the load return.

a cleaner power source for the AAT1155 con-

trol circuitry.

Figure 4: Evaluation Board Bottom Side.

AAT1155

1155.2006.09.1.7

aat1155iks-2.5-t1 Advanced Analogic Technologies, Inc., aat1155iks-2.5-t1 Datasheet - Page 12

aat1155iks-2.5-t1

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