AAT1110 AAT, AAT1110 Datasheet - Page 11

AAT1110

Manufacturer Part Number

AAT1110

Description

Fast Transient 800mA Step-Down Converter

Manufacturer

AAT

Datasheet

1.AAT1110.pdf (19 pages)

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Applications Information

Inductor Selection

The step-down converter uses peak current mode

control with slope compensation to maintain stability

for duty cycles greater than 50%. The output induc-

tor value must be selected so the inductor current

down slope meets the internal slope compensation

requirements. The internal slope compensation for

the adjustable and low-voltage fixed versions of the

AAT1110 is 0.24A/µsec. This equates to a slope

compensation that is 75% of the inductor current

down slope for a 1.5V output and 4.7µH inductor.

This is the internal slope compensation for the

adjustable (0.6V) version or low-voltage fixed ver-

sions. When externally programming the 0.6V ver-

sion to 2.5V, the calculated inductance is 7.5µH.

In this case, a standard 6.8µH value is selected.

For high-voltage fixed versions (≥2.5V), m = 0.48A/

µsec. Table 1 displays inductor values for the

AAT1110 fixed and adjustable options.

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

1110.2006.04.1.0

L =

0.6V Adjustable With

m =

External Feedback

= 3

Configuration

Fixed Output

0.75 ⋅ V

μsec

⋅ 2.5V = 7.5μH

0.24A

0.75 ⋅ 1.5V

0.75 ⋅ V

4.7μH

μsec

≈

= 0.24

μsec

Table 1: Inductor Values.

Output Voltage

⋅ V

Fast Transient 800mA Step-Down Converter

0.6V to 3.3V

1.5V, 1.8V

2.5V, 3.3V

1V, 1.2V

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.

The 4.7µH CDRH3D16 series inductor selected

from Sumida has a 105mΩ maximum DCR and a

900mA DC current rating. At full load, the inductor

DC loss is 67mW which gives a 4.0% loss in effi-

ciency for a 800mA, 2.5V output.

Input Capacitor

Select a 4.7µF to 22µF X7R or X5R ceramic capac-

itor for the input. To estimate the required input

capacitor size, determine the acceptable input rip-

ple level (V

value varies with input voltage and is a maximum

when V

Always examine the ceramic capacitor DC voltage

coefficient characteristics when selecting the prop-

er value. For example, the capacitance of a 10µF,

6.3V, X5R ceramic capacitor with 5.0V DC applied

is actually about 6µF.

is double the output voltage.

IN(MIN)

· 1 -

) and solve for C. The calculated

⎛

⎝

⎛

⎝

⎛

⎝

· 1 -

⎞

⎠

- ESR · F

⎛

⎝

- ESR · 4 · F

Inductor

2.2µH

4.7µH

6.8µH

4.7µH

⎞

⎠

for V

⎞

⎠

⎞

⎠

AAT1110

= 2 × V

AAT1110 AAT, AAT1110 Datasheet - Page 11

AAT1110

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