AAT1106_07 Datasheet, PDF(10/18 Page) Advanced Analogic Technologies

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AAT1106_07 Datasheet, PDF (10/18 Pages) Advanced Analogic Technologies – 600mA Step-Down Converter

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Control Loop

The AAT1106 is a peak current mode step-down

converter. The current through the P-channel

MOSFET (high side) is sensed for current loop

control, as well as short circuit and overload pro-

tection. An adaptive slope compensation signal is

added to the sensed current to maintain stability for

duty cycles greater than 50%. The peak current

mode loop appears as a voltage-programmed cur-

rent source in parallel with the output capacitor.

The output of the voltage error amplifier programs

the current mode loop for the necessary peak

switch current to force a constant output voltage for

all load and line conditions. Internal loop compen-

sation terminates the transconductance voltage

error amplifier output. For fixed voltage versions,

the error amplifier reference voltage is internally set

to program the converter output voltage. For the

adjustable output, the error amplifier reference is

fixed at 0.6V.

Enable

The enable pin is active high. When pulled low, the

enable input forces the AAT1106 into a low-power,

non-switching state. The total input current during

shutdown is less than 1ÂµA.

Current Limit and Over-Temperature

Protection.

For overload conditions, the peak input current is

limited. To minimize power dissipation and stresses

under current limit and short-circuit conditions,

switching is terminated after entering current limit

for a series of pulses. Switching is terminated for

seven consecutive clock cycles after a current limit

has been sensed for a series of four consecutive

clock cycles. Thermal protection completely dis-

ables switching when internal dissipation becomes

excessive. The junction over-temperature threshold

AAT1106

600mA Step-Down Converter

is 150Â°C with 15Â°C of hysteresis. Once an over-

temperature or over-current fault conditions is

removed, the output voltage automatically recovers.

Dropout Operation

When the input voltage decreases toward the value

of the output voltage, the AAT1106 allows the main

switch to remain on for more than one switching

cycle and increases the duty cycle until it reaches

100%.

The duty cycle D of a step-down converter is

defined as:

D = TON Â· FOSC Â· 100% â

VOUT

VIN

Â· 100%

Where TON is the main switch on time and FOSC is

the oscillator frequency (1.5MHz).

The output voltage then is the input voltage minus

the voltage drop across the main switch and the

inductor. At low input supply voltage, the RDS(ON) of

the P-channel MOSFET increases and the efficien-

cy of the converter decreases. Caution must be

exercised to ensure the heat dissipated does not

exceed the maximum junction temperature of the IC.

Maximum Load Current

The AAT1106 will operate with an input supply volt-

age as low as 2.5V; however, the maximum load

current decreases at lower input due to the large IR

drop on the main switch and synchronous rectifier.

The slope compensation signal reduces the peak

inductor current as a function of the duty cycle to

prevent sub-harmonic oscillations at duty cycles

greater than 50%. Conversely, the current limit

increases as the duty cycle decreases.

1106.2007.07.1.0

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