LTC1871-1 LINER [Linear Technology], LTC1871-1 Datasheet - Page 14

LTC1871-1

Manufacturer Part Number

LTC1871-1

Description

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

Manufacturer

LINER [Linear Technology]

Datasheet

1.LTC1871-1.pdf (28 pages)

Current page: 14 of 28
Download datasheet (393Kb)

LTC3780

OPERATION

on. switch A and synchronous switch B are alternately

turned on to maintain the output voltage independent of

direction of inductor current. Every ten cycles, synchro-

nous switch D is forced off for about 300ns to allow C

to recharge. This is the least efﬁ cient operating mode at

light load, but may be desirable in certain applications. In

this mode, the output can source or sink current.

When the FCB pin voltage is below V

than 0.8V, the controller enters Burst Mode operation in

boost operation or enters skip-cycle mode in buck opera-

tion. During boost operation, Burst Mode operation sets a

minimum output current level before inhibiting the switch

C and turns off synchronous switch D when the inductor

current goes negative. This combination of requirements

will, at low currents, force the I

threshold that will temporarily inhibit turn-on of power

switches C and D until the output voltage drops. There is

100mV of hysteresis in the burst comparator tied to the

MOSFETs C and D that turn them on for several cycles,

followed by a variable “sleep” interval depending upon the

load current. The maximum output voltage ripple is limited

to 3% of the nominal DC output voltage as determined

by a resistive feedback divider. During buck operation at

no load, switch A is turned on for its minimum on-time.

This will not occur every clock cycle when the output load

current drops below 1% of the maximum designed load.

The body diode of synchronous switch B or the Schottky

diode, which is in parallel with switch B, is used to dis-

charge the inductor current; switch B only turns on every

ten clock cycles to allow C

is applied, switch A turns on every cycle, and its on-time

begins to increase. At higher current, switch B turns on

brieﬂ y after each turn-off of switch A. switches C and D

remain off at light load, except to refresh CA (Figure 11)

every 10 clock cycles. In Burst Mode operation/skip-cycle

mode, the output is prevented from sinking current.

When the FCB pin voltage is tied to the INTV

controller enters constant frequency discontinuous current

mode (DCM). For boost operation, synchronous switch D

is held off whenever the I

age. In every cycle, switch C is used to charge inductor

current. After the output voltage is high enough, the

pin. This hysteresis produces output signals to the

pin is below a threshold volt-

to recharge. As load current

INTVCC

pin below a voltage

– 1V, but greater

pin, the

controller will enter continuous current buck mode for

one cycle to discharge inductor current. In the following

cycle, the controller will resume DCM boost operation. For

buck operation, constant frequency discontinuous current

mode sets a minimum negative inductor current level.

synchronous switch B is turned off whenever inductor

current is lower than this level. At very light loads, this

constant frequency operation is not as efﬁ cient as Burst

Mode operation or skip-cycle, but does provide lower

noise, constant frequency operation.

FREQUENCY SYNCHRONIZATION AND

FREQUENCY SETUP

The phase-locked loop allows the internal oscillator to be

synchronized to an external source via the PLLIN pin. The

phase detector output at the PLLFLTR pin is also the DC

frequency control input of the oscillator. The frequency

ranges from 200kHz to 400kHz, corresponding to a DC

voltage input from 0V to 2.4V at PLLFLTR. When locked,

the PLL aligns the turn on of the top MOSFET to the ris-

ing edge of the synchronizing signal. When PLLIN is left

open, the PLLFLTR pin goes low, forcing the oscillator to

its minimum frequency.

INTV

Power for all power MOSFET drivers and most inter-

nal circuitry is derived from the INTV

EXTV

regulator supplies INTV

5.7V, the 6V regulator is turned off and an internal switch

is turned on, connecting EXTV

the INTV

external source.

POWER GOOD (PGOOD) PIN

The PGOOD pin is connected to an open drain of an internal

MOSFET. The MOSFET turns on and pulls the pin low when

the output is not within ±7.5% of the nominal output level

as determined by the resistive feedback divider. When

the output meets the ±7.5% requirement, the MOSFET

is turned off and the pin is allowed to be pulled up by an

external resistor to a source of up to 7V.

/EXTV

pin is left open, an internal 6V low dropout linear

power to be derived from a high efﬁ ciency

Power

power. If EXTV

to INTV

pin. When the

is taken above

. This allows

3780fe

LTC1871-1 LINER [Linear Technology], LTC1871-1 Datasheet - Page 14

LTC1871-1

Related parts for LTC1871-1