lt3781 Linear Technology Corporation, lt3781 Datasheet - Page 14

lt3781

Manufacturer Part Number

lt3781

Description

Bootstrap Start Dual Transistor Synchronous Forward Controller

Manufacturer

Linear Technology Corporation

Datasheet

1.LT3781.pdf (20 pages)

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LT3781

APPLICATIO S I FOR ATIO

Shutdown

The LT3781 SHDN pin will support TTL and CMOS logic

signals and also analog inputs. The SHDN pin turn-on

(rising) threshold is 1.25V with 150mV of hysteresis. A

common use of the SHDN pin is for under voltage detec-

tion on the input supply. Driving the SHDN pin with a

resistor-divider connected from the input supply to ground

will prevent switching until the desired input supply volt-

age is achieved.

An 18V clamp on the V

mode, preventing a trickle start circuit from pulling that pin

above maximum operational levels.

The LT3781 enters an ultralow current shutdown mode

when the SHDN pin is below 350mV. During this mode,

total supply current drops to a typical value of 16 A. When

SHDN rises above 350mV, the IC will draw increasing

amounts of supply current until just before the 1.25V

turn-on threshold is achieved, when the supply current

reaches 75 A.

The shutdown function can be disabled by connecting the

SHDN pin to V

through a 20k series input resistance and can therefore

draw almost 1mA when tied directly to the V

additional current can be minimized by making the con-

nection through an external series resistor (100k is typi-

cally used).

Soft-Start

The LT3781 current control pin (V

to zero at voltage less than 1.4V through full current limit

at V

The voltage on the V

or equal to SS + 0.7V. As such, the SS pin has a “dead

zone” between 0V and 0.7V, where a zero sensed current

condition is maintained. At SS voltages above 0.7V, the

sensed current limit threshold on the V

needed up to the SS maintained current limit value. Once

the SS pin rises to the V

2.5V, the SS circuit has no effect.

= 3.2V, yielding 1.8V over the full regulation range.

. This pin is internally clamped to 2.5V

pin is internally forced to be less than

pin maximum value less 0.7V, or

pin is enabled during shutdown

) limits sensed current

pin may rise as

supply. This

The SS pin sources a typical current of 10 A. Placing a

capacitor (C

voltage on the SS pin to ramp up at a controlled rate,

allowing a graceful increase of maximum converter output

current during a start-up condition. The start-up delay

time to full available current limit is:

The LT3781 internally pulls the SS pin below the zero

current threshold during any fault condition to assure

graceful recovery. The SS circuit also acts as a fault control

latch to assure a full-range recovery from a short duration

fault. Once a fault condition is detected, the LT3781 will

suspend switching until the SS pin has discharged to

approximately 225mV.

Layout Considerations-Grounding

The LT3781 is typically used in high current converter

designs that involve substantial switching transients. The

switch drivers on the IC are designed to drive large

capacitances and, as such, generate significant transient

currents. Careful consideration must be made regarding

input and local power supply bypassing to avoid corrupt-

ing the ground references used by the error amplifier and

current sense circuitry.

Effective grounding of the two-transistor synchronous

forward topology where the LT3781 is used is inherently

difficult. The situation is complicated further by the num-

ber of bypass elements that must be considered.

Typically, high current paths and transients from the input

supply and any local drive supplies must be kept isolated

from SGND, to which sensitive circuits such as the error

amp reference and the current sense circuits, as well as the

local 5V

used in LT3781 applications, the large currents from the

primary switches, as well as the switch drive transients,

pass through the sense resistor to ground. This defines

the ground connection of the sense resistor as the refer-

ence point for both SGND and PGND. In nonisolated

applications where SGND is the output reference, we now

have a condition where every bypass capacitor in the

converter is referenced to the same point.

= 2.5 • 10

REF

supply, are referred. By virtue of the topologies

) from the SS pin to ground will cause the

• C

(sec)

3781f

lt3781 Linear Technology Corporation, lt3781 Datasheet - Page 14

lt3781

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