AAT1151 Datasheet, PDF(8/16 Page) Advanced Analogic Technologies – 850kHz 700mA Synchronous Buck DC/DC Converter

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AAT1151 Datasheet, PDF (8/16 Pages) Advanced Analogic Technologies – 850kHz 700mA Synchronous Buck DC/DC Converter

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AAT1151

850kHz 700mA Synchronous Buck DC/DC Converter

Functional Block Diagram

VCC

VP = 2.7V- 5.5V

1.0V REF

OP. AMP

CMP

LOGIC

1Mâ¦

Temp.

Sensing

OSC

SGND

Operation

Control Loop

The AAT1151 is a peak current mode buck con-

verter. The inner, wide bandwidth loop controls the

peak current of the output inductor. The output

inductor current is sensed through the P-channel

MOSFET (high side) and is also used for short-cir-

cuit and overload protection. A fixed slope com-

pensation signal is added to the sensed current to

maintain stability. The loop appears as a voltage

programmed current source in parallel with the out-

put capacitor.

The voltage error amplifier output programs the cur-

rent loop for the necessary inductor current to force

a constant output voltage for all load and line condi-

tions. The voltage feedback resistive divider is inter-

nal, dividing the output voltage to the error amplifier

reference voltage of 1.0V. The voltage error amplifi-

er does not have the large DC gain typical of most

error amplifiers. This eliminates the need for exter-

nal compensation components, while still providing

sufficient DC loop gain for load regulation. The volt-

age loop crossover frequency and phase margin are

set by the output capacitor value only.

PGND

PFM/PWM Operation

Light load efficiency is maintained by way of Pulse

Frequency Modulation (PFM) control. The AAT1151

PFM control forces the peak inductor current to a

minimum level regardless of load demand. At medi-

um to high load demand, this has no effect on circuit

operation and normal PWM controls take over. PFM

reduces the switching frequency at light loads, thus

reducing the associated switching losses.

Soft Start/Enable

Soft start increases the inductor current limit point in

discrete steps when the input voltage or enable

input is applied. It limits the current surge seen at

the input and eliminates output voltage overshoot.

When pulled low, the enable input forces the

AAT1151 into a low-power, non-switching state. The

total input current during shutdown is less than 1ÂµA.

Power and Signal Source

Separate small signal ground and power supply pins

isolate the internal control circuitry from the noise

associated with the output MOSFET switching. The

low pass filter R1 and C2 in schematic Figure 1 fil-

ters the noise associated with the power switching.

1151.2005.11.1.4

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