AAT1157 AAT, AAT1157 Datasheet - Page 8

AAT1157

Manufacturer Part Number

AAT1157

Description

DC/DC Converter

Manufacturer

AAT

Datasheet

1.AAT1157.pdf (14 pages)

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Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AAT1157IVN-T1

Manufacturer:

ANALOGIC

Quantity:

840

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Inductor

The output inductor should limit the ripple current to

330mA at the maximum input voltage. This match-

es the inductor current downslope with the fixed

internal slope compensation. For a 2.5V output and

the ripple set to a maximum input voltage of 4.2V,

the inductance value required to limit the ripple cur-

rent to 330mA is 3.0µH. From this calculated value,

a standard value can be selected.

Manufacturer's specifications list both the inductor

DC current rating, which is a thermal limitation, and

the peak current rating, which is determined by the

saturation characteristics. The inductor should not

show any appreciable saturation under normal load

conditions. Some inductors may meet the peak and

average current ratings yet result in excessive loss-

es due to a high DCR. Always consider the losses

associated with the DCR and its effect on the total

converter efficiency when selecting an inductor.

For a maximum ripple current of 330mA, the peak

switch and inductor current at 1.2A is 1.365A. A stan-

dard value of 3.0µH can be used in this example. The

3.0µH Sumida series CDRH5D28 inductor has a

24mΩ maximum DCR and a 2.4A DC current rating.

L =

= 3.07µH

∆I

0.33A ⋅ 1MHz

OUT

GND

⋅ F

2.5 V

10µF

⋅ 1 -

⎛

⎝

100

IN(MAX)

0.1µF

100K

⋅ 1 -

Figure 1: AAT1157 Evaluation Board Schematic

OUT

⎛

⎝

Enable

⎞

⎠

C1 Murata 10µF 6.3V X5R GRM42-6X5R106K6.3

C3,C4 MuRata 22µF 6.3V GRM21BR60J226ME39L X5R 0805

L1 Sumida CDRH5D28-3R0NC

4.2V

2.5V

Lithium-Ion to 2.5V Converter.

⎞

⎠

VCC

N/C

SGND

AAT1157

PGND

N/C

3.0µH

1MHz 1.2A Buck DC/DC Converter

59.0k

Input Capacitor

The primary function of the input capacitor is to pro-

vide a low impedance loop for the edges of pulsed

current drawn by the AAT1157. A low ESR/ESL

ceramic capacitor is ideal for this function. To mini-

mize stray inductance, the capacitor should be

placed as closely as possible to the IC. This keeps

the high frequency content of the input current

localized, minimizing radiated and conducted EMI

while facilitating optimum performance of the

AAT1157. Ceramic X5R or X7R capacitors are

ideal for this function. The size required will vary

depending on the load, output voltage, and input

voltage source impedance characteristics. Values

range from 1µF to 10µF. The input capacitor RMS

current varies with the input voltage and the output

voltage. The equation for the RMS current in the

input capacitor is:

The input capacitor RMS ripple current reaches a

maximum when V

age where it is approximately one half of the load

current. Losses associated with the input ceramic

capacitor are typically minimal and are not an

issue. The proper placement of the input capaci-

tor can be seen in the evaluation board layout (C1

in Figure 2).

GND

OUT

RMS

2x 22µF

C3-C4

= I

⋅

is two times the output volt-

OUT

0.8

0.9

1.0

1.1

1.2

1.3

1.4

1.5

1.8

2.0

2.5

3.3

(V)

R3 (kΩ)

⋅ 1 -

19.6

29.4

39.2

49.9

59.0

68.1

78.7

88.7

118

137

187

267

⎛

⎝

AAT1157

⎞

⎠

1157.2005.11.1.4

AAT1157 AAT, AAT1157 Datasheet - Page 8

AAT1157

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