LTC1474 Datasheet, PDF(6/20 Page) Linear Technology – Low Quiescent Current High Efficiency Step-Down Converters

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LTC1474 Datasheet, PDF (6/20 Pages) Linear Technology – Low Quiescent Current High Efficiency Step-Down Converters

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LTC1474/LTC1475

OPERATIO (Refer to Functional Diagram)

The LTC1474/LTC1475 are step-down converters with

internal power switches that use Burst Mode operation to

keep the output capacitor charged to the proper output

voltage while minimizing the quiescent current. Burst

Mode operation functions by using short âburstâ cycles to

ramp the inductor current through the internal power

switch and external Schottky diode, followed by a sleep

cycle where the power switch is off and the load current is

supplied by the output capacitor. During sleep mode, the

LTC1474/LTC1475 draw only 9ÂµA typical supply current.

At light loads, the burst cycles are a small percentage of

the total cycle time; thus the average supply current is very

low, greatly enhancing efficiency.

Burst Mode Operation

At the beginning of the burst cycle, the switch is turned on

and the inductor current ramps up. At this time, the internal

current comparator is also turned on to monitor the switch

current by measuring the voltage across the internal and

optional external current sense resistors. When this volt-

age reaches 100mV, the current comparator trips and

pulses the 1-shot timer to start a 4.75Âµs off-time during

which the switch is turned off and the inductor current

ramps down. At the end of the off-time, if the output

voltage is less than the voltage comparator threshold, the

switch is turned back on and another cycle commences. To

minimize supply current, the current comparator is turned

on only during the switch-on period when it is needed to

monitor switch current. Likewise, the 1-shot timer will only

be on during the 4.75Âµs off-time period.

The average inductor current during a burst cycle will

normally be greater than the load current, and thus the

output voltage will slowly increase until the internal volt-

age comparator trips. At this time, the LTC1474/LTC1475

go into sleep mode, during which the power switch is off

and only the minimum required circuitry is left on: the

voltage comparator, reference and low battery compara-

tor. During sleep mode, with the output capacitor supply-

ing the load current, the VFB voltage will slowly decrease

until it reaches the lower threshold of the voltage com-

parator (about 5mV below the upper threshold). The

voltage comparator then trips again, signaling the LTC1474/

LTC1475 to turn on the circuitry necessary to begin a new

burst cycle.

Peak Inductor Current Programming

The current comparator provides a means for program-

ming the maximum inductor/switch current for each switch

cycle. The 1X sense MOSFET, a portion of the main power

MOSFET, is used to divert a sample (about 5%) of the

switch current through the internal 5â¦ sense resistor. The

current comparator monitors the voltage drop across the

series combination of the internal and external sense

resistors and trips when the voltage exceeds 100mV. If the

external sense resistor is not used (Pins 6 and 7 shorted),

the current threshold defaults to the 400mA maximum due

to the internal sense resistor.

Off-Time

The off-time duration is 4.75Âµs when the feedback voltage

is close to the reference; however, as the feedback voltage

drops, the off-time lengthens and reaches a maximum

value of about 65Âµs when this voltage is zero. This ensures

that the inductor current has enough time to decay when

the reverse voltage across the inductor is low such as

during short circuit.

Shutdown Mode

Both LTC1474 and LTC1475 provide a shutdown mode

that turns off the power switch and all circuitry except for

the low battery comparator and 1.23V reference, further

reducing DC supply current to 6ÂµA typical. The LTC1474âs

run/shutdown mode is controlled by a voltage level at the

RUN pin (ground = shutdown, open/high = run). The

LTC1475âs run/shutdown mode, on the other hand, is

controlled by an internal S/R flip-flop to provide pushbutton

on/off control. The flip-flop is set (run mode) by a momen-

tary ground at the ON pin and reset (shutdown mode) by

a momentary ground at the LBI/OFF pin.

Low Battery Comparator

The low battery comparator compares the voltage on the

LBI pin to the internal reference and has an open drain

N-channel MOSFET at its output. If LBI is above the

reference, the output FET is off and the LBO output is high

impedance. If LBI is below the reference, the output FET is

on and sinks current. The comparator is still active in

shutdown.

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