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LTC3101

3101fb

PIN FUNCTIONS

PWM (Pin 1): Pulse Width Modulation/Burst Mode Se-

lection Input. Forcing this pin high causes all switching

converters to operate in low noise ﬁ xed frequency PWM

mode. Forcing this pin low enables Burst Mode operation

for all converters. With PWM held low, the buck-boost

converter will operate solely in Burst Mode operation and

can only support a minimal load current (typically 50mA).

With PWM low, the buck converters will automatically

transition from Burst Mode operation at light load currents

to PWM mode at heavy load currents.

SW1 (Pin 2): Buck Converter 1 Switch Pin. This pin should

be connected to one side of the buck inductor.

BAT1 (Pin 3): Battery Power Input for Both Buck Converters.

A 4.7F or larger bypass capacitor should be connected

between this pin and ground. The bypass capacitor should

be located as close to the IC as possible and should via

directly down to the ground plane. Pins BAT1 and BAT2

must be connected together in the application.

USB1 (Pin 4): USB or Wall Adapter Power Input for Both

Buck Converters. A 4.7F or larger bypass capacitor should

be connected from this pin to ground. The bypass capacitor

should be located as close to the IC as possible and should

via directly down to the ground plane. Pins USB1 and USB2

must be connected together in the application.

SW2 (Pin 5): Buck Converter 2 Switch Pin. This pin should

be connected to one side of the buck inductor.

PWRON (Pin 6): Power-On Input. Forcing this input high

enables the IC. Typically, the PWRKEY input is used to

initially enable the LTC3101 while the microprocessor is

powering up. Once the microprocessor is initialized, it

forces PWRON high to keep the LTC3101 enabled when the

momentary pushbutton connected to PWRKEY is released.

In applications that do not require pushbutton control, the

IC can be enabled directly by forcing PWRON high.

FB3 (Pin 7): Feedback Voltage Input for the Buck-Boost

Converter. The resistor divider connected to this pin sets

the output voltage for buck-boost converter.

PWRKEY (Pin 8): Pushbutton Power ON/OFF Key. Forcing

this pin to ground will turn on the LTC3101 DC/DC con-

verters in the internally controlled sequence and initiate a

microprocessor reset. This pin is usually connected to an

external momentary switch that is used to turn on the IC.

This pin has an internal pull-up resistor that is automati-

cally connected to the higher of the two input supplies,

battery or USB.

PBSTAT (Pin 9): Power ON/OFF Key Status Pin. This is a

debounced, open-drain output that indicates the state of

the PWRKEY pin to the microprocessor. In the typical ap-

plication, the microprocessor monitors this pin to detect

a second pushbutton activation indicating a power-down

request.

LDO (Pin 10): Always-Alive LDO Output. This output is

internally regulated to 1.8V (typical) and is guaranteed to

supply an external load of up to 50mA. The LDO output

is always active whenever either supply, battery or USB

power, is present (independent of the states of all enables

and the pushbutton interface). This output can be utilized

to power an external real time clock or charge a superca-

pacitor for temporary memory backup when both power

sources are removed.

MAX (Pin 11): Power Output That Tracks the Higher Voltage

Input Supply. This output is driven to the higher of the two

power inputs, USB2 or BAT2. This output can support a

load current of up to 200mA and is short-circuit protected.

The MAX output can be used to power an LCD display or

external LDOs. The MAX output is operational whenever

either supply, BAT2 or USB2, is present, independent of

the state of all enables and the pushbutton interface.

(Pin 12): Power-on Reset Duration Programming

Capacitor. An external capacitor is connected from C

ground to set the duration of the microprocessor power-

on reset signal.