LT3595A Datasheet, PDF(8/16 Page) Linear Technology – 16 Channel Buck Mode LED Driver

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LT3595A Datasheet, PDF (8/16 Pages) Linear Technology – 16 Channel Buck Mode LED Driver

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LT3595A

OPERATION

The LT3595A uses a constant-frequency, current mode

control scheme to provide excellent line and load regula-

tion. Operation is best understood by referring to the Block

Diagram. The oscillator, V-I converter and internal regulator

are shared by the sixteen converters. The control circuitry,

power switches, PWM comparators and Dimming Feedback

Control (DFC) blocks are identical for all converters.

The LT3595A enters shutdown mode when the SHDN

pin is lower than 400mV. If the SHDN pin is above 1.6V,

then the LT3595A turns on. At the start of each oscillator

cycle, the power switch is turned on. Current ramps up

through the output capacitor, the inductor, and the switch

to ground. When the voltage across the output capacitor

is larger than the LEDsâ forward voltage, current ï¬ows

through the LEDs.

When the switch is on, a voltage proportional to the switch

current is added to a stabilizing ramp and the resulting

sum is fed into the positive terminal of the PWM compara-

tor. When this voltage exceeds the level at the negative

input of the PWM comparator, the PWM logic turns off

the power switch. The level at the negative input of the

PWM comparator is set by the error ampliï¬er output. This

voltage is set by the LED current and the bandgap refer-

ence. In this manner, the error ampliï¬er sets the correct

peak current level in the inductor to keep the LED output

current in regulation. The external RSET resistor is used

to program the LED current from 10mA to 50mA.

Input Voltage Range

The minimum input voltage required to generate a speciï¬c

output voltage in an LT3595A application is limited by its

4.5V input voltage or by its maximum duty cycle. The duty

cycle is the fraction of time that the internal switch is on

divided by the total period. It is determined by the input

voltage and the voltage across the LEDs:

DC =

VLED + VD

VVIN â VCESAT + VD

where VLED is the voltage drop across the LEDs, VD is

the Schottky forward drop, and VCESAT is the saturation

voltage of the internal switch. This leads to a minimum

input voltage of:

VIN(MIN)

VLED + VD

DCMAX

VCESAT

where DCMAX is the minimum rating of maximum duty

cycle.

The maximum input voltage is limited by the absolute

maximum rating of 45V.

Pulse-Skipping

At low duty cycles, the LT3595A may enter pulse-skipping

mode. Low duty cycle occurs at higher input voltages and

lower LED count. The LT3595A can drive currents with-

out pulse-skipping provided the voltage across the LED

string is greater than 15% of the input supply voltage. If

the current decreases to the point that the LED voltage is

less than 15% of the input supply, the device may begin

skipping pulses. This will result in some low frequency

ripple, although the LED current remains regulated on an

average basis down to 10mA.

3595af

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