LT3760EFE View Datasheet(PDF) - Linear Technology

Part Name

Description

MFG CO.

LT3760EFE

8-Channel × 100mA LED Driver

Linear Technology 

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LT3760

Applications Information

Selecting the optimum frequency depends on several

factors. Higher frequency allows reduction of inductor

size but efficiency drops due to higher switching losses.

Lower frequency allows higher operational duty cycles to

drive a larger number of LEDs per string from a low input

supply but require larger magnetics. In each application

the switching frequency can be tailored to provide the

optimum solution.

Table 5. Switching Frequency vs. RT (1% resistors)

SWITCHING FREQUENCY (kHz)

RT (kΩ)

100

523

200

249

300

158

400

115

500

90.9

600

73.2

700

60.4

800

51.1

900

44.2

1000

39.2

Duty Cycle Considerations

When designing the LT3760 LED driver for a given

application, the duty cycle requirements should be

considered and compared to the minimum/maximum

achievable duty cycles for the LT3760 GATE pin. If required,

the LT3760 switching frequency can be programmed to a

lower value to meet the duty cycle requirements. In general,

the minimum/maximum GATE duty cycles required for a

particular application are given by:

MIN Duty Cycle = GATE Minimum On-Time • Switching

Frequency fOSC

MAX Duty Cycle = 1 – (GATE Minimum Off-Time •

Switching Frequency fOSC)

The typical values for LT3760 GATE pin minimum on

and off times versus temperature are shown in the Typi-

cal Performance Characteristics. The range of GATE pin

minimum on time and off times are given in the electrical

specifications.

Table 6. LED Current vs. RISET (1% resistors)

LED CURRENT PER CHANNEL (mA)

RISET (kΩ)

20

29.4

40

14.7

60

9.76

80

7.32

100

5.76

An extra 50ns should be added to these tested timings to

account for errors in the rise/fall times of the GATE and

DRAIN of the external MOSFET and the d.c. resistance of

the external MOSFET and inductor.

Synchronizing to an External Clock

The SYNC pin allows the LT3760 oscillator to be synchro-

nized to an external clock. The SYNC pin can be driven

from a logic level output, requiring less than 0.6V for a

logic level low and greater than 2.2V for a logic level high.

SYNC pin high or low periods should exists for at least

100ns. If unused, the SYNC pin should be tied to ground.

To avoid loss of slope compensation during synchroniza-

tion, the free running oscillator frequency (fOSC) of the

LT3760 should be programmed to 80% of the external

clock frequency.

Programming LED Current

The current source to ground at each LED pin is programmed

using a single resistor RISET connected from the ISET pin

to ground according to the following equation:

I(LEDX

)

≈

590

RISET

( A ) (CTRL

>

1.1V)

See Table 6 for resistor values and corresponding pro-

grammed LED.

3760fc

16

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