lt3845ife-trpbf Linear Technology Corporation, lt3845ife-trpbf Datasheet - Page 17

lt3845ife-trpbf

Manufacturer Part Number

lt3845ife-trpbf

Description

High Voltage Synchronous Current Mode Step-down Controller With Adjustable Operating Frequency

Manufacturer

Linear Technology Corporation

Datasheet

1.LT3845IFE-TRPBF.pdf (24 pages)

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If low supply current in standby mode is required, select

a higher value of R

The supply turn off voltage is 9% below turn on. In the

example the V

If additional hysteresis is desired for the enable function,

an external positive feedback resistor can be used from

the LT3845 regulator output.

The shutdown function can be disabled by connecting the

SHDN pin to the V

This pin contains a low impedance clamp at 6V, so the SHDN

pin will sink current from the pull-up resistor(R

Because this arrangement will clamp the SHDN pin to the

6V, it will violate the 5V absolute maximum voltage rating of

the pin. This is permitted, however, as long as the absolute

maximum input current rating of 1mA is not exceeded.

Input SHDN pin currents of <100μA are recommended: a

1MΩ or greater pull-up resistor is typically used for this

conﬁ guration.

Soft-Start

The desired soft-start time (t

The amount of time in which the power supply can withstand

a V

the C

by the following formula:

Oscillator SYNC

The oscillator can be synchronized to an external clock.

Set the R

frequency.

APPLICATIONS INFORMATION

SHDN

FAULT

capacitor as follows:

, V

pin voltage enters its active region is approximated

SET

2µA • t

or V

1.231V

resistor at least 10% below the desired sync

SUPPLY(OFF)

– 6V

SHDN

50µA

• 0.65V

through a large value pull-up resistor.

UVLO fault condition (t

would be 13.2V.

) is programmed via the

FAULT

) before

It is recommended that the SYNC pin be driven with a

square wave that has amplitude greater than 2V, pulse

width greater than 1μs and rise time less than 500ns. The

rising edge of the sync wave form triggers the discharge

of the internal oscillator capacitor.

Minimum On-Time Considerations (Buck Mode)

Minimum on-time t

that the LT3845 is capable of turning the top MOSFET on

and off again. It is determined by internal timing delays

and the amount of gate charge required turning on the

top MOSFET. Low duty cycle applications may approach

this minimum on-time limit and care should be taken to

ensure that:

where t

If the duty cycle falls below what can be accommodated by

the minimum on-time, the LT3845 will begin to skip cycles.

The output will be regulated, but the ripple current and

ripple voltage will increase. If lower frequency operation

is acceptable, the on-time can be increased above t

for the same step-down ratio.

Layout Considerations

The LT3845 is typically used in DC/DC converter designs

that involve substantial switching transients. The switch

drivers on the IC are designed to drive large capacitances

and, as such, generate signiﬁ cant transient currents

themselves. Careful consideration must be made regard-

ing supply bypass capacitor locations to avoid corrupting

the ground reference used by IC.

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

are referred.

Effective grounding can be achieved by considering switch

current in the ground plane, and the return current paths of

each respective bypass capacitor. The V

bypass return, and the source of the synchronous

ON(MIN)

OUT

• f

is 400ns worst case.

ON(MIN)

> t

ON(MIN)

is the smallest amount of time

bypass return,

LT3845

ON(MIN)

3845fc

lt3845ife-trpbf Linear Technology Corporation, lt3845ife-trpbf Datasheet - Page 17

lt3845ife-trpbf

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