AAT1275 Analogic Corporation, AAT1275 Datasheet - Page 11

AAT1275

Manufacturer Part Number

AAT1275

Description

Manufacturer

Analogic Corporation

Datasheet

1.AAT1275.pdf (19 pages)

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Selecting the Boost Inductor

The AAT1275 boost controller utilizes hysteretic

control and the switching frequency varies with out-

put load and input voltage. The value of the induc-

tor determines the maximum switching frequency

of the boost converter. Increasing output induc-

tance decreases the switching frequency, resulting

in higher peak currents and increased output volt-

age ripple. To maintain the 2MHz switching fre-

quency and stable operation, an output inductor

sized from 1.5µH to 2.7µH is recommended.

Manufacturer's specifications list both the inductor

DC current rating, which is a thermal limitation, and

peak inductor current rating, which is a function of

the saturation characteristics.

Measure the inductor current at full load and high

ambient temperature to ensure that the inductor

does not saturate or exhibit excessive temperature

rise. Select the output inductor (L) to avoid satura-

tion at the minimum input voltage and maximum

load. The RMS current flowing through the boost

inductor is equal to the DC plus AC ripple compo-

nents. The maximum inductor RMS current occurs

at the minimum input voltage and the maximum

load. Use the following equations to calculate the

maximum peak and RMS current:

1275.2006.12.1.2

MAX

= I

IN(MIN)

1 - D

L · F

- I

- V

· D

IN(MIN)

Boost Converter with USB Power Switch

At light load and low output voltage, the controller

reduces the operating frequency to maintain maxi-

mum efficiency. As a result, further reduction in out-

put load does not reduce the peak current. The

minimum peak current ranges from 0.5A to 0.75A.

Compare the RMS current values with the manu-

facturer's temperature rise, or thermal derating

guidelines. For a given inductor type, smaller

inductor size leads to an increase in DCR winding

resistance and, in most cases, increased thermal

impedance. Winding resistance degrades boost

converter efficiency and increases the inductor's

operating temperature.

Shielded inductors provide decreased EMI and

may be required in noise sensitive applications.

Unshielded chip inductors provide significant space

savings at a reduced cost compared to shielded

inductors. In general, chip-type inductors have

increased winding resistance (DCR) when com-

pared to shielded, wound varieties.

Selecting the Step-Up Converter

Capacitors

The high output ripple inherent in the boost con-

verter necessitates low impedance output filtering.

Multi-layer ceramic (MLC) capacitors provide small

size, adequate capacitance, with low parasitic

equivalent series resistance (ESR) and equivalent

series inductance (ESL). This makes them well

suited for use with the AAT1275. MLC capacitors of

type X7R or X5R ensure good capacitance stabili-

ty over the full operating range. MLC capacitors

exhibit significant capacitance reduction with an

applied DC voltage. Output ripple measurements

can confirm that the capacitance used meets the

specific ripple requirements. Voltage derating mini-

RMS

LOSS(INDUCTOR)

+ I

= I

RMS

· I

· DCR

AAT1275

+ I

AAT1275 Analogic Corporation, AAT1275 Datasheet - Page 11

AAT1275

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