Datasheet

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LT3471

3471fb

OPERATION

APPLICATIONS INFORMATION

Duty Cycle

The typical maximum duty cycle of the LT3471 is 94%.

The duty cycle for a given application is given by:

DC =

OUT

|+|V

|–|V

OUT

|+|V

|–|V

CESAT

Where V

is the diode forward voltage drop and V

CESAT

is in the worst case 330mV (at 1.3A)

The LT3471 can be used at higher duty cycles, but it must

be operated in the discontinuous conduction mode so that

the actual duty cycle is reduced.

Setting Output Voltage

Setting the output voltage depends on the topology used.

For normal noninverting boost regulator topologies:

OUT

= V

FBP













where V

FBN

is connected between R1 and R2 (see the

Typical Applications section for examples).

Select values of R1 and R2 according to the following

equation:

R1= R2

OUT

REF













–1













A good value for R2 is 15k which sets the current in the

resistor divider chain to 1.00V/15k = 67μA.

FBP

is usually just tied to V

REF

= 1.00V, but V

FBP

can also

be tied to a divided down version of V

REF

or some other

voltage as long as the absolute maximum ratings for the

feedback pins are not exceeded (see Absolute Maximum

Ratings).

For inverting topologies, V

FBN

is tied to ground and V

FBP

is connected between R1 and R2. R2 is between V

FBP

and V

REF

and R1 is between V

FBP

and V

OUT

(see the Ap-

plications section for examples). In this case:

OUT

= V

REF













Select values of R1 and R2 according to the following

equation:

R1=R2

OUT

REF













A good value for R2 is 15k, which sets the current in the

resistor divider chain to 1.00V/15k = 67μA.

Switching Frequency and Inductor Selection

The LT3471 switches at 1.2 MHz, allowing for small valued

inductors to be used. 4.7μH or 10μH will usually sufﬁ ce.

Choose an inductor that can handle at least 1.4A without

saturating, and ensure that the inductor has a low DCR

(copper-wire resistance) to minimize I

R power losses.

Note that in some applications, the current handling

requirements of the inductor can be lower, such as in the

SEPIC topology where each inductor only carries one half

of the total switch current. For better efﬁ ciency, use similar

valued inductors with a larger volume. Many different sizes

and shapes are available from various manufacturers.

Choose a core material that has low losses at 1.2 MHz,

such as ferrite core.

Table 1. Inductor Manufacturers

Sumida (847) 956-0666 www.sumida.com

TDK (847) 803-6100 www.tdk.com

Murata (714) 852-2001 www.murata.com

current reaches this value, the SR latch is reset regardless

of the state of the comparator A2 (A4). Also not shown

in the Block Diagram is the thermal shutdown circuit. If

the temperature of the part exceeds approximately 160°C,

both latches are reset regardless of the state of compara-

tors A2 and A4. The current limit and thermal shutdown

circuits protect the power switch as well as the external

components connected to the LT3471.