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

In addition, the current drive required for GATE switching

should also be kept low in the case of high VIN voltages

(see “Thermal Considerations” in the Applications Informa-

tion section). The RDS(ON) of the MOSFET will determine

d.c. power losses but will usually be less significant

compared to switching losses. Be aware of the power

dissipation within the MOSFET by calculating d.c. and

switching losses and deciding if the thermal resistance

of the MOSFET package causes the junction temperature

to exceed maximum ratings.

Table 4. MOSFET Manufacturers

Manufacturer

PHONE NUMBER

Vishay Siliconix

402-563-6866

International Rectifier 310-252-7105

Fairchild

972-910-8000

WEB

www.vishay.com

www.irf.com

www.fairchildsemi.com

Power MOSFET: Current Sense Resistor

The LT3760 current mode boost converter controls peak

current in the inductor by controlling peak MOSFET current

in each switching cycle. The LT3760 monitors current in the

external N-channel power MOSFET by sensing the voltage

across a sense resistor (RS) connected between the source

of the FET and the power ground in the application. The

length of these tracks should be minimized and a Kelvin

sense should be taken from the top of RS to the sense

pin. A 52mV sense pin threshold combined with the value

of RS sets the maximum cycle-by-cycle peak MOSFET

current. The low 52mV threshold improves efficiency and

determines the value for RS given by:

RS

≤

52mV • 0.7

IL(PEAK )

where

IL(PEAK) =

1

1− D

• 8 • ILEDx

•

1+

0.5

2

D = MOSFET duty cycle = 1−

VIN(MIN)

VOUT(MAX )

,

( ) VOUT(MAX) = N • VF(MAX) + 1V

N = number of LEDs in each string,

VF(MAX) = maximum LED forward voltage drop,

VIN(MIN) = minimum input voltage to the inductor,

ILED = current in each LED pin,

and the 0.5 term represents an inductor peak-to-peak ripple

current of 50% of average inductor current.

The scale factor of • 0.7 ensures the boost converter

can meet the peak inductor requirements of the loop by

accounting for the combined errors of the 52mV sense

threshold, ILEDx, RS and circuit efficiency.

Example: For a 12W LED driver application requiring 8

strings of 10 LEDs each driven with 40mA, and choosing

VIN(MIN) = 8V, VOUT(MAX) = (4V • 10)+1V = 41V and ILEDx

= 40mA, the value for RS is chosen as:

RS

≤

52mV • 0.7

IL(PEAK )

≤





41

8

•

8

52mV •

• 0.04

0.7

• (1+

0.25)

≤ 52mV • 0.7 ≤ 17.7 mΩ

2.05

3760fc

13

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