LTC1871-1 LINER [Linear Technology], LTC1871-1 Datasheet - Page 10

LTC1871-1

Manufacturer Part Number

LTC1871-1

Description

High Effi ciency, Synchronous, 4-Switch Buck-Boost Controller

Manufacturer

LINER [Linear Technology]

Datasheet

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PIN FUNCTIONS

LTC3780

This pin connects the error ampliﬁ er input to an external

resistor divider from V

SGND (Pin 7/Pin 5): Signal Ground. All small-signal com-

ponents and compensation components should connect

to this ground, which should be connected to PGND at a

single point.

RUN (Pin 8/Pin 6): Run Control Input. Forcing the RUN

pin below 1.5V causes the IC to shut down the switching

regulator circuitry. There is a 100k resistor between the RUN

pin and SGND in the IC. Do not apply >6V to this pin.

FCB (Pin 9/Pin 7): Forced Continuous Control Input. The

voltage applied to this pin sets the operating mode of the

controller. When the applied voltage is less than 0.8V, the

forced continuous current mode is active. When this pin

is allowed to ﬂ oat, the Burst Mode operation is active in

boost operation and the skip-cycle mode is active in buck

operation. When the pin is tied to INTV

frequency discontinuous current mode is active in buck

or boost operation.

PLLFLTR (Pin 10/Pin 8): The phase-locked loop’s

lowpass ﬁ lter is tied to this pin. Alternatively, this pin can

be driven with an AC or DC voltage source to vary the

frequency of the internal oscillator.

PLLIN (Pin 11/Pin 10): External Synchronization Input to

Phase Detector. This pin is internally terminated to SGND

with 50kΩ. The phase-locked loop will force the rising

bottom gate signal of the controller to be synchronized

with the rising edge of the PLLIN signal.

STBYMD (Pin 12/Pin 11): LDO Control Pin. Determines

whether the internal LDO remains active when the control-

ler is shut down. See Operation section for details. If the

STBYMD pin is pulled to ground, the SS pin is internally

pulled to ground, preventing start-up and thereby provid-

ing a single control pin for turning off the controller. To

keep the LDO active when RUN is low, for example to

power a “wake up” circuit which controls the state of the

RUN pin, bypass STBYMD to signal ground with a 0.1μF

capacitor, or use a resistor divider from V

pin within 2V to 5V.

OSENSE

(Pin 6/Pin 4): Error Ampliﬁ er Feedback Input.

OUT

(SSOP/QFN)

, the constant

to keep the

BOOST2, BOOST1 (Pins 13, 24/Pins 14, 27): Boosted

Floating Driver Supply. The (+) terminal of the bootstrap

capacitor C

pin swings from a diode voltage below INTV

+ INTV

below INTV

TG2, TG1 (Pins 14, 23/Pins 15, 26): Top Gate Drive. Drives

the top N-channel MOSFET with a voltage swing equal to

INTV

SW2, SW1 (Pins 15, 22/Pins 17, 24): Switch Node. The (–)

terminal of the bootstrap capacitor C

connects here. The SW2 pin swings from a Schottky diode

(external) voltage drop below ground up to V

pin swings from a Schottky diode (external) voltage drop

below ground up to V

BG2, BG1 (Pins 16, 18/Pins 18, 20): Bottom Gate Drive.

Drives the gate of the bottom N-channel MOSFET between

ground and INTV

PGND (Pin 17/Pin 19): Power Ground. Connect this pin

closely to the source of the bottom N-channel MOSFET, the

(–) terminal of C

INTV

driver and control circuits are powered from this voltage.

Bypass this pin to ground with a minimum of 4.7μF low

ESR tantalum or ceramic capacitor.

EXTV

exceeds 5.7V, an internal switch connects this pin to INTV

and shuts down the internal regulator so that the controller

and gate drive power is drawn from EXTV

7V at this pin and ensure that EXTV

to SGND with an RC ﬁ lter (1Ω, 0.1μF).

Exposed Pad (Pin 33, QFN Only): This pin is SGND and

must be soldered to PCB ground.

(Pin 21/Pin 23): Main Input Supply. Bypass this pin

(Pin 19/Pin 21): Internal 6V Regulator Output. The

superimposed on the switch node voltage SW.

(Pin 20/Pin 22): External V

. The BOOST1 pin swings from a diode voltage

and C

up to V

VCC

(Figure 11) connects here. The BOOST2

and the (–) terminal of C

OUT

+ INTV

Input. When EXTV

and C

< V

. Do not exceed

(Figure 11).

(Figure 11)

. The SW1

up to V

3780fe

LTC1871-1 LINER [Linear Technology], LTC1871-1 Datasheet - Page 10

LTC1871-1

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