lt3475efe-trpbf Linear Technology Corporation, lt3475efe-trpbf Datasheet - Page 14

lt3475efe-trpbf

Manufacturer Part Number

lt3475efe-trpbf

Description

Dual Step-down 1.5a Led Driver

Manufacturer

Linear Technology Corporation

Datasheet

1.LT3475EFE-TRPBF.pdf (20 pages)

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LT3475/LT3475-1

APPLICATIONS INFORMATION

with the energy stored in the inductor, the circuit will rely

on some minimum load current to get the boost circuit

running properly. This minimum load will depend on input

and output voltages, and on the arrangement of the boost

circuit. The minimum load current generally goes to zero

once the circuit has started. The typical performance char-

acteristics section shows a plot of minimum load to start

and to run as a function of input voltage. Even without an

output load current, in many cases the discharged output

capacitor will present a load to the switcher that will allow

it to start. The plots show the worst case, where V

ramping very slowly.

Programming LED Current

The LED current can be set by adjusting the voltage on the

to a 1.25V source. For lower output currents, program the

Voltages less than 1.25V can be generated with a voltage

divider from the REF pin, as shown in Figure 6. In order

to have accurate LED current, precision resistors are

preferred (1% or better is recommended). Note that the

the following formula to choose resistors:

To minimize the error from variations in V

use resistors with a parallel resistance of less than 4k. Use

resistor strings with a high enough series resistance so as not

to exceed the 500μA current compliance of the REF pin.

Dimming Control

There are several different types of dimming control

circuits. One dimming control circuit (Figure 7) changes

ADJ

R2 =

using the following formula: I

pin. For a 1.5A LED current, either tie V

pin sources a small amount of bias current, so use

Figure 6. Setting V

1.25V – V

ADJ

REF

+ 50nA

ADJ

LT3475

GND

with a Resistor Divider

3475 F06

LED

= 1.5A • V

ADJ

pin current,

ADJ

to REF or

/1.25V.

the voltage on the V

FET to the resistor divider string. This allows the se-

lection of two different LED currents. For reliable op-

eration program an LED current of no less than 50mA.

The maximum current dimming ratio (I

calculated from the maximum LED current (I

minimum LED current (I

Another dimming control circuit (Figure 8) uses the PWM

pin and an external NFET tied to the cathode of the LED.

An external PWM signal is applied to the PWM pin and the

gate of the NFET (For PWM dimming ratios of 20 to 1 or

less, the NFET can be omitted). The average LED current is

proportional to the duty cycle of the PWM signal. When the

PWM signal goes low, the NFET turns off, turning off the

LED and leaving the output capacitor charged. The PWM

pin is pulled low as well, which disconnects the V

storing the voltage in the capacitor tied there. Use the C-RC

string shown in Figure 8 and Figure 9 tied to the V

proper operation during startup. When the PWM pin goes

high again, the LED current returns rapidly to its previous

on state since the compensation and output capacitors are

at the correct voltage. This fast settling time allows the

MAX

100Hz TO

Figure 7. Dimming with a MOSFET and Resistor Divider

10kHz

PWM

MIN

Figure 8. Dimming Using PWM Signal

DIM

= I

RATIO

ADJ

PWM

LED

pin by tying a low on resistance

MIN

REF

ADJ

LT3475

) as follows:

GND

LT3475

GND

3475 F08

3475 F07

RATIO

3.3nF

MAX

) can be

) and the

10k

pin for

0.1μF

pin,

3475fb

lt3475efe-trpbf Linear Technology Corporation, lt3475efe-trpbf Datasheet - Page 14

lt3475efe-trpbf

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