LT3756-1 LINER [Linear Technology], LT3756-1 Datasheet - Page 17

LT3756-1

Manufacturer Part Number

LT3756-1

Description

60VIN LED Controller with Internal PWM Generator

Manufacturer

LINER [Linear Technology]

Datasheet

1.LT3756-1.pdf (28 pages)

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applicaTions inFormaTion

For monitoring the LED string voltage, if the open LED

clamp voltage is programmed correctly using the FB

resistor divider then the FB pin should not exceed 1.18V

when LEDs are connected. If the OPENLED pulldown is

asserted and the PWM pin transitions low, the pulldown

will continue to be asserted until the next rising edge of

PWM even if FB falls below the OPENLED threshold.

Input Capacitor Selection

The input capacitor supplies the transient input current for

the power inductor of the converter and must be placed

and sized according to the transient current requirements.

The switching frequency, output current and tolerable input

voltage ripple are key inputs to estimating the capacitor

value. An X7R type ceramic capacitor is usually the best

choice since it has the least variation with temperature and

DC bias. Typically, boost and SEPIC converters require a

lower value capacitor than a buck mode converter. As-

suming that a 100mV input voltage ripple is acceptable,

the required capacitor value for a boost converter can be

estimated as follows:

LED

1. OPENLED ASSERTS WHEN V

2. OPENLED DE-ASSERTS WHEN FB < 1.19V, AND PWM LOGIC 1 = 1V

3. ANY FAULT CONDITION RESETS THE LATCH, SO LT3761 STARTS UP

WITH OPENLED DE-ASSERTED

(µF) = I

ISP

ISN

PWM

1.2V

Figure 6. OPENLED Logic Block Diagram

25mV

LED

–

(A) •

–

COMPARATOR

OPEN LED

ISP-ISN

COMPARATOR

OUT

C10

< 25mV AND FB > 1.2V, AND IS LATCHED

• t

(µs) •



 

A • µs

µF

OPENLED



 

1mA

3761 F06

Therefore, a 10μF capacitor is an appropriate selection

for a 400kHz boost regulator with 12V input, 48V output

and 1A load.

With the same V

pacitor for a buck converter can be estimated as follows:

A 10μF input capacitor is an appropriate selection for a

400kHz buck mode converter with a 1A load.

In the buck mode configuration, the input capacitor has

large pulsed currents due to the current returned through

the Schottky diode when the switch is off. In this buck

converter case it is important to place the capacitor as close

as possible to the Schottky diode and to the GND return

of the switch (i.e., the sense resistor). It is also important

to consider the ripple current rating of the capacitor. For

best reliability, this capacitor should have low ESR and

ESL and have an adequate ripple current rating.

Table 3. Recommended Ceramic Capacitor Manufacturers

MANUFACTURER

TDK

Kemet

Murata

Taiyo Yuden

Output Capacitor Selection

The selection of the output capacitor depends on the load

and converter configuration, i.e., step-up or step-down

and the operating frequency. For LED applications, the

equivalent resistance of the LED is typically low and the

output filter capacitor should be sized to attenuate the

current ripple. Use of X7R type ceramic capacitors is

recommended.

To achieve the same LED ripple current, the required filter

capacitor is larger in the boost and buck-boost mode ap-

plications than that in the buck mode applications. Lower

operating frequencies will require proportionately higher

capacitor values.

(µF) = I

LED

(A) • t

voltage ripple of 100mV, the input ca-

(µs) • 4.7 •

WEB

www.tdk.com

www.kemet.com

www.murata.com

www.t-yuden.com



 

A • µs

µF

LT3761



 

3761f

LT3756-1 LINER [Linear Technology], LT3756-1 Datasheet - Page 17

LT3756-1

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