AAT1106_07 Datasheet, PDF(12/18 Page) Advanced Analogic Technologies

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AAT1106_07 Datasheet, PDF (12/18 Pages) Advanced Analogic Technologies – 600mA Step-Down Converter

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AAT1106

600mA Step-Down Converter

Part

Sumida CR43

Sumida CDRH4D18

Toko D312C

L (ÂµH)

1.4

2.2

3.3

4.7

1.0

2.2

3.3

4.7

1.5

2.2

3.3

4.7

Max DCR (mâ¦)

56.2

71.2

86.2

108.7

4.5

110

162

120

140

180

240

Rated DC Current (A)

2.52

1.75

1.44

1.15

1,72

1.32

1.04

0.84

1.29

1.14

0.98

0.79

Table 2: Typical Surface Mount Inductors.

Size WxLxH (mm)

4.5x4.0x3.5

4.7x4.7x2.0

3.6x3.6x1.2

For output voltages above 2.0V, when light-load

efficiency is important, the minimum recommended

inductor size is 2.2ÂµH. For optimum voltage-posi-

tioning load transients, choose an inductor with DC

series resistance in the 50mâ¦ to 150mâ¦ range.

For higher efficiency at heavy loads (above

200mA), or minimal load regulation (with some

transient overshoot), the resistance should be kept

below 100mâ¦. The DC current rating of the induc-

tor should be at least equal to the maximum load

current plus half the ripple current to prevent core

saturation (600mA + 105mA). Table 2 lists some

typical surface mount inductors that meet target

applications for the AAT1106.

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 losses due to a high DCR. Always con-

sider the losses associated with the DCR and its

effect on the total converter efficiency when select-

ing an inductor. For example, the 2.2ÂµH CR43

series inductor selected from Sumida has a

71.2mâ¦ DCR and a 1.75ADC current rating. At full

load, the inductor DC loss is 25mW which gives a

2.8% loss in efficiency for a 600mA, 1.5V output.

Slope Compensation

The AAT1106 step-down converter uses peak cur-

rent mode control with a unique adaptive slope

compensation scheme to maintain stability with

lower value inductors for duty cycles greater than

50%. Using lower value inductors provides better

overall efficiency and also makes it easier to stan-

dardize on one inductor for different required out-

put voltage levels. In order to do this and keep the

step-down converter stable when the duty cycle is

greater than 50%, the AAT1106 separates the

slope compensation into 2 phases. The required

slope compensation is automatically detected by

an internal circuit using the feedback voltage VFB

before the error amp comparison to VREF.

VREF

VFB

Error Amp

When below 50% duty cycle, the slope compensa-

tion is 0.284A/Âµs; but when above 50% duty cycle,

the slope compensation is set to 1.136A/Âµs. The

output inductor value must be selected so the

inductor current down slope meets the internal

slope compensation requirements.

1106.2007.07.1.0

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