AAT1230_07 Datasheet, PDF(8/21 Page) Advanced Analogic Technologies

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AAT1230_07 Datasheet, PDF (8/21 Pages) Advanced Analogic Technologies – 18V 100mA Step-Up Converter

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Functional Block Diagram

AAT1230/1230-1

18V 100mA Step-Up Converter

VIN

LIN

EN/SET

FB1

FB2

SEL

Soft-Start

Timer

VREF1

VREF2

Control

Output

Select

GND

PGND

Functional Description

The AAT1230/1230-1 consists of a DC/DC boost

controller, an integrated slew rate controlled input

disconnect MOSFET switch, and a MOSFET power

switch. A high voltage rectifier, power inductor, out-

put capacitor, and resistor divider network are

required to implement a DC/DC boost converter.

Control Loop

The AAT1230/1230-1 provides the benefits of cur-

rent mode control with a simple hysteretic feedback

loop. The device maintains exceptional DC regula-

tion, transient response, and cycle-by-cycle current

limit without additional compensation components.

The AAT1230/1230-1 modulates the power MOS-

FET switching current in response to changes in

output voltage. This allows the voltage loop to

directly program the required inductor current in

response to changes in the output load.

The switching cycle initiates when the N-channel

MOSFET is turned ON and current ramps up in the

inductor. The ON interval is terminated when the

inductor current reaches the programmed peak

current level. During the OFF interval, the input

current decays until the lower threshold, or zero

inductor current, is reached. The lower current is

equal to the peak current minus a preset hystere-

sis threshold - which determines the inductor ripple

current. The peak current is adjusted by the con-

troller until the output current requirement is met.

The magnitude of the feedback error signal deter-

mines the average input current. Therefore, the

AAT1230/1230-1 controller implements a pro-

grammed current source connected to the output

capacitor and load resistor. There is no right-half

plane zero, and loop stability is achieved with no

additional compensation components.

Increased load current results in a drop in the out-

put feedback voltage (FB1 or FB2) sensed through

the feedback resistors (R1, R2, R3). The controller

1230.2007.06.1.6

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