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AAT1150

1MHz 1A Step-Down DC/DC Converter

Advanced Analogic Technologies 

AAT1150

1MHz 1A Step-Down DC/DC Converter

3.5

3

VCC = VP = 5.0V

2.5

VO = 3.3V

Figure 2 Schematic

2

1.5

1

VCC = VP = 3.6V

VO = 1.5V

0.5

Figure 1 Schematic

0

0

0.5

1

1.5

2

2.5

IOUT (A)

Figure 3: Current Limit Characteristic.

Inductor

The output inductor is selected to limit the ripple

current to some predetermined value, typically

20% to 40% of the full load current at the maximum

input voltage. Manufacturer's specifications list

both the inductor DC current rating, which is a ther-

mal limitation, and the peak current rating, which is

determined by the saturation characteristics. The

inductor should not show any appreciable satura-

tion under normal load conditions. During overload

and short-circuit conditions, the average current in

the inductor can meet or exceed the ILIMIT point of

the AAT1150 without affecting converter perform-

ance. Some inductors may have sufficient peak

and average current ratings yet result in excessive

losses 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 1.0A load and the ripple set to 30% at the

maximum input voltage, the maximum peak-to-

peak ripple current is 300mA. The inductance

value required is 3.9µH.

L

=

VOUT

IO ⋅ k ⋅

F

⋅ ⎛⎝1

-

VOUT⎞

VIN ⎠

L

=

1.0A

⋅

1.5V

0.3 ⋅

830kHz

⋅

⎛⎝1

-

1.5V ⎞

4.2V ⎠

L = 3.9µH

The factor "k" is the fraction of full load selected for

the ripple current at the maximum input voltage.

The corresponding inductor RMS current is:

IRMS =

⎝⎛Io2

+

∆I2⎞

12⎠

≈ Io = 1.0A

∆I is the peak-to-peak ripple current which is fixed by

the inductor selection above. For a peak-to-peak

current of 30% of the full load current, the peak cur-

rent at full load will be 115% of the full load. The

4.1µH inductor selected from the Sumida

CDRH5D18 series has a 57mΩ DCR and a 1.95A

DC current rating. At full load, the inductor DC loss

is 57mW which amounts to a 3.8% loss in efficiency.

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 AAT1150. 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

AAT1150. 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. A typi-

cal value is around 10µF. The input capacitor RMS

1150.2005.03.1.2

11

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