LTC1871-1 LINER [Linear Technology], LTC1871-1 Datasheet - Page 19

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)

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APPLICATIONS INFORMATION

Schottky Diode (D1, D2) Selection

and Light Load Operation

The Schottky diodes D1 and D2 shown in Figure 1 conduct

during the dead time between the conduction of the power

MOSFET switches. They are intended to prevent the body

diode of synchronous switches B and D from turning on

and storing charge during the dead time. In particular, D2

signiﬁ cantly reduces reverse recovery current between

switch D turn-off and switch C turn-on, which improves

converter efﬁ ciency and reduces switch C voltage stress.

In order for the diode to be effective, the inductance

between it and the synchronous switch must be as small

as possible, mandating that these components be placed

adjacently.

In buck mode, when the FCB pin voltage is 0.85 < V

< 5V, the converter operates in skip-cycle mode. In this

mode, synchronous switch B remains off until the induc-

tor peak current exceeds one-ﬁ fth of its maximum peak

current. As a result, D1 should be rated for about one-half

to one-third of the full load current.

In boost mode, when the FCB pin voltage is higher than

5.3V, the converter operates in discontinuous current mode.

In this mode, synchronous switch D remains off until the

inductor peak current exceeds one-ﬁ fth of its maximum

peak current. As a result, D2 should be rated for about

one-third to one-fourth of the full load current.

In buck mode, when the FCB pin voltage is higher than 5.3V,

the converter operates in constant frequency discontinu-

ous current mode. In this mode, synchronous switch B

remains on until the inductor valley current is lower than

the sense voltage representing the minimum negative

inductor current level (V

and B are off until next clock signal.

In boost mode, when the FCB pin voltage is 0.85 < V

< 5.3V, the converter operates in Burst Mode operation.

In this mode, the controller clamps the peak inductor

current to approximately 20% of the maximum inductor

current. The output voltage ripple can increase during

Burst Mode operation.

SENSE

= –5mV). Both switch A

FCB

INTV

An internal P-channel low dropout regulator produces 6V

at the INTV

the drivers and internal circuitry within the LTC3780. The

INTV

and must be bypassed to ground with a minimum of 4.7μF

tantalum, 10μF special polymer or low ESR type electrolytic

capacitor. A 1μF ceramic capacitor placed directly adjacent

to the INTV

Good bypassing is necessary to supply the high transient

current required by MOSFET gate drivers.

Higher input voltage applications in which large MOSFETs

are being driven at high frequencies may cause the maxi-

mum junction temperature rating for the LTC3780 to be

exceeded. The system supply current is normally dominated

by the gate charge current. Additional external loading of

the INTV

power dissipation calculations. The total INTV

can be supplied by either the 6V internal linear regulator

or by the EXTV

the EXTV

is supplied by the internal 6V linear regulator. Power dis-

sipation for the IC in this case is V

efﬁ ciency is lowered. The junction temperature can be

estimated by using the equations given in Note 2 of the

Electrical Characteristics. For example, a typical application

operating in continuous current mode might draw 24mA

from a 24V supply when not using the EXTV

Use of the EXTV

perature to:

To prevent maximum junction temperature from being

exceeded, the input supply current must be checked

operating in continuous mode at maximum V

= 70°C + 24mA • 24V • 34°C/W = 90°C

= 70°C + 24mA • 6V • 34°C/W = 75°C

Regulator

pin regulator can supply a peak current of 40mA

pin is less than 5.7V, all of the INTV

also needs to be taken into account for the

pin from the V

and PGND IC pins is highly recommended.

input pin. When the voltage applied to

input pin reduces the junction tem-

supply pin. INTV

• I

INTVCC

LTC3780

, and overall

pin:

powers

current

3780fe

LTC1871-1 LINER [Linear Technology], LTC1871-1 Datasheet - Page 19

LTC1871-1

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