AAT1232IRN-T1 Advanced Analog Technology, Inc., AAT1232IRN-T1 Datasheet - Page 11

AAT1232IRN-T1

Manufacturer Part Number

AAT1232IRN-T1

Description

24V 100mA Step-Up Converter

Manufacturer

Advanced Analog Technology, Inc.

Datasheet

1.AAT1232IRN-T1.pdf (17 pages)

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diodes are recommended for outputs less than 15V,

while 30V rated Schottky diodes are recommended

for outputs greater than 15V.

The average diode current is equal to the output

current.

The average output current multiplied by the for-

ward diode voltage determines the loss of the out-

put diode.

Diode junction temperature can be estimated.

The junction temperature should be maintained

below 110ºC, but may vary depending on applica-

tion and/or system guidelines. The diode θ

be minimized with additional PCB area on the

cathode. PCB heatsinking the anode may degrade

EMI performance.

The reverse leakage current of the rectifier must be

considered to maintain low quiescent (input) cur-

rent and high efficiency under light load. The recti-

fier reverse current increases dramatically at high

temperatures.

Selecting the Boost Inductor

The AAT1232 controller utilizes hysteretic control

and the switching frequency varies with output load

and input voltage. The value of the inductor deter-

mines the maximum switching frequency of the

AAT1232 boost converter. Increased output induc-

tance decreases the switching frequency, resulting

in higher peak currents and increased output volt-

age ripple. To maintain 2MHz maximum switching

frequency, an output inductor sized from 1.5µH to

2.7µH is recommended.

The switching period is divided between ON and

OFF time intervals.

1232.2006.12.1.3

= T

LOSS_DIODE

AMB

AVG

+ Θ

= I

OUT

· P

AVG

OUT

LOSS_DIODE

· V

can

The ON time is the period which the N-channel

power MOSFET is conducting and storing energy

in the boost inductor. Duty cycle is defined as the

ON time divided by the total switching interval.

The maximum duty cycle can be estimated from

the relationship for a continuous mode boost con-

verter.

cycle at minimum input voltage (V

Where V

and can be estimated at 0.5V.

specifications list both the inductor DC current rat-

ing, which is a thermal limitation, and peak inductor

current rating, which is determined by the satura-

tion characteristics. Measurements at full load and

high ambient temperature should be completed to

ensure that the inductor does not saturate or exhib-

it excessive temperature rise.

The output inductor (L) is selected to avoid satura-

tion at minimum input voltage, maximum output load

conditions. Peak current may be calculated from the

following equation, again assuming continuous con-

duction mode. Worst-case peak current occurs at

minimum input voltage (maximum duty cycle) and

maximum load. Switching frequency can be estimat-

ed at 500kHz with a 2.2µH inductor.

The RMS current flowing through the boost induc-

tor is equal to the DC plus AC ripple components.

Under worst-case RMS conditions, the current

waveform is critically continuous. The resulting

24V 100mA Step-Up Converter

Maximum duty cycle (D

PEAK

is the Schottky diode forward voltage

MAX

(1 - D

D =

OUT

= T

OUT

MAX

= T

)

+ V

OUT

⋅ F

+ T

+ V

+ T

OFF

- V

(2 · F

MAX

IN(MIN)

OFF

)

AAT1232

MAX

IN(MIN)

· V

Manufacturer’s

IN(MIN)

· L)

) is the duty

)

AAT1232IRN-T1 Advanced Analog Technology, Inc., AAT1232IRN-T1 Datasheet - Page 11

AAT1232IRN-T1

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