LTC3442 Datasheet, PDF(8/20 Page) Linear Integrated Systems – Micropower Synchronous Buck-Boost DC/DC Converter with Automatic Burst Mode Operation

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LTC3442 Datasheet, PDF (8/20 Pages) Linear Integrated Systems – Micropower Synchronous Buck-Boost DC/DC Converter with Automatic Burst Mode Operation

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LTC3442

OPERATIO

The LTC3442 provides high efficiency, low noise power

for applications such as portable instrumentation. The

LTC proprietary topology allows input voltages above,

below or equal to the output voltage by properly phasing

the output switches. The error amp output voltage on VC

determines the output duty cycle of the switches. Since VC

is a filtered signal, it provides rejection of frequencies

from well below the switching frequency. The low RDS(ON),

low gate charge synchronous switches provide high

frequency pulse width modulation control at high effi-

ciency. Schottky diodes across the synchronous switch D

and synchronous switch B are not required, but provide a

lower voltage drop during the break-before-make time

(typically 15ns). Schottky diodes will improve peak effi-

ciency by typically 1% to 2%. High efficiency is achieved

at light loads when Burst Mode operation is entered and

the ICâs quiescent current drops to a low 35ÂµA.

LOW NOISE FIXED FREQUENCY OPERATION

Oscillator

The frequency of operation is programmed by an external

resistor from RT to ground, according to the following

equation:

f (kHz)

43, 300

RT(kâ¦)

Error Amp

The error amplifier is a voltage mode amplifier. The loop

compensation components are configured around the

amplifier (from FB to VC) to obtain stability of the con-

verter. For improved bandwidth, an additional RC feed-

forward network can be placed across the upper feedback

divider resistor. The voltage on SHDN/SS clamps the

error amp output, VC, to provide a soft-start function.

Internal Current Limit

There are three different current limit circuits in the

LTC3442. Two have internally fixed thresholds which vary

inversely with VIN, the third is externally programmable,

and does not vary with input voltage.

The first circuit is a high speed peak current limit amplifier

that will shut off switch A if the current exceeds 5A typical.

The delay to output of this amplifier is typically 50ns.

A second amplifier will begin to source current into the FB

pin to drop the output voltage once the peak input current

exceeds 3A typical. This method provides a closed loop

means of clamping the input current. During conditions

where VOUT is near ground, such as during a short-circuit

or during startup, this threshold is cut in half, providing a

foldback feature. For this current limit feature to be most

effective, the Thevenin resistance from FB to ground

should be greater than 100kâ¦.

Externally Programmable Current Limit

The third current limit circuit is programmed by an exter-

nal resistor on RLIM. This circuit works by mirroring the

input current in switch A, averaging it by means of the

external RC network on RLIM, and comparing the resulting

voltage with an internal reference. If the voltage on RLIM

starts to exceed 0.95V, a Gm amplifier will clamp VC,

lowering VOUT to maintain control of the input current.

This allows the user to program a maximum average input

current, for applications such as USB, where the current

draw from the bus must be limited to 500mA. The resistor

and capacitor values are determined by the following

equations:

( ) RLIM(kâ¦) =

70 â¢ âââ0.86 +

2 â¢ VIN â VOUT

IIN(AMPS)

â ââ

CLIM(ÂµF)

â¥

0.1

RLIM(kâ¦)

3442f

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