aat1155iks-2.5-t1 Advanced Analogic Technologies, Inc., aat1155iks-2.5-t1 Datasheet - Page 14

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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AAT1155 Junction Temperature

Diode

Given an ambient thermal resistance of 120°C/W

from the manufacturer's datasheet, T

diode is:

Output Capacitor

The output capacitor value required for sufficient

loop phase margin depends on the type of capaci-

tor selected. For a low ESR ceramic capacitor, a

minimum value of 200µF is required. For a low

ESR tantalum capacitor, lower values are accept-

able. While the relatively higher ESR associated

with the tantalum capacitor will give more phase

margin and a more dampened transient response,

the output voltage ripple will be higher.

J(MAX)

2.5

0.42

= T

= 70°C + 150°C/W · 0.42W = 133°C

· R

AMB

· 70mΩ · 3.3V

Watts

DS(ON)

J(MAX)

+ θ

DIODE

· V

· P

= V

= 0.35

109

0.35

2.5A 1

AMB

⎝

⎛

° +

⎛

⎝

+ Θ

⎛

⎝

· I

20ns · 1MHz · 2.5A

· F

⎛

⎝

120

DIODE

0.93

· I

5.25V

3.3

⎞

⎠

C W

+ I

⎞

⎠

⎞

⎠

0.33A

0.33W

= 0.93A

J(MAX)

690

of the

⎞

⎠

1MHz 2.5A Step-Down DC/DC Converter

The 120µF Vishay 594D tantalum capacitor has an

ESR of 85mΩ and a ripple current rating of 1.48Arms

in a C case size. Although smaller case sizes are suf-

ficiently rated for this ripple current, their ESR level

would result in excessive output ripple.

The ESR requirement for a tantalum capacitor can

be estimated by :

Two or three 1812 X5R 100µF 6.3V ceramic

capacitors in parallel also provide sufficient phase

margin. The low ESR and ESL associated with

ceramic capacitors also reduces output ripple sig-

nificantly over that seen with tantalum capacitors.

Temperature rise due to ESR ripple current dissi-

pation is also reduced.

Input Capacitor

The input capacitor ripple is:

In the examples shown, C1 is a ceramic capacitor

located as closely to the IC as possible. C1 pro-

vides the low impedance path for the sharp edges

associated with the input current. C4 may or may

not be required, depending upon the impedance

characteristics looking back into the source. It

serves to dampen any input oscillations that may

arise from a source that is highly inductive. For

most applications, where the source has sufficient

bulk capacitance and is fed directly to the AAT1155

through large PCB traces or planes, it is not

required. When operating the AAT1155 evaluation

board on the bench, C4 is required due to the

inductance of the wires running from the laborato-

ry power supply to the evaluation board.

ESR

RMS

≤

RIPPLE

1.5μ · 1

100

OUT

3.65 1.7

0.9A

H MHz V

+ V

⎛

⎝

L · F

) · (V

111

· V

⎞

⎠

mΩ

AAT1155

1.82Arms

+ V

240

OUT

1155.2006.09.1.7

mArms

)

aat1155iks-2.5-t1 Advanced Analogic Technologies, Inc., aat1155iks-2.5-t1 Datasheet - Page 14

aat1155iks-2.5-t1

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