MAX16838_11 Datasheet, PDF(13/21 Page) Maxim Integrated Products – Integrated, 2-Channel, High-Brightness LED Driver with High-Voltage Boost and SEPIC Controller

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MAX16838_11 Datasheet, PDF (13/21 Pages) Maxim Integrated Products – Integrated, 2-Channel, High-Brightness LED Driver with High-Voltage Boost and SEPIC Controller

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Integrated, 2-Channel, High-Brightness LED Driver

with High-Voltage Boost and SEPIC Controller

The voltage at each of the current-sink outputs (OUT_)

is the difference between the DC-DC regulator output

voltage (VLED) and the total forward voltage of the LED

string connected to the output (OUT_). The DC-DC con-

verter then adjusts VLED until the output channel with

the lowest voltage at OUT_ is 1V relative to LEDGND. As

a result, the device minimizes power dissipation in the

current sinks and still maintains LED current regulation.

For efficient adaptive control functionality, use an equal

number of HB LEDs of the same forward voltage rating

in each string.

Current Limit

The MAX16838 includes a fast current-limit comparator

to terminate the on-cycle during an overload or a fault

condition. The current-sense resistor (RCS) connected

between the source of the internal MOSFET and ground

sets the current limit. The CS input has a 0.3V voltage

trip level (VCS). Use the following equation to calculate

RCS:

RCS = (VCS)/IPEAK

where IPEAK is the peak current that flows through the

MOSFET.

Undervoltage Lockout

The MAX16838 features two undervoltage lockouts:

UVLOIN and UVLOVCC. The undervoltage lockout

threshold for VIN is 4.3V (typ) and the undervoltage

lockout threshold for VCC is 4V (typ).

Soft-Start

The MAX16838 features a soft-start that activates during

power-up. The soft-start ramps up the output of the con-

verter in 64 steps in a period of 100ms (typ), unless both

strings reach regulation point, in which case the soft-start

would terminate to resume normal operation immediately.

Once the soft-start is over, the internal soft-start circuitry

is disabled and the normal operation begins.

Oscillator Frequency/External Synchronization

The MAX16838 oscillator frequency is programmable

between 200kHz and 2MHz using one external resis-

tor (RRT) connected between RT and SGND. The PWM

MOSFET driver output switching frequency is the same

as the oscillator frequency. The oscillator frequency is

determined using the following formula:

fSW = (7.342X109/RRT)(Hz)

where RRT is in Ï.

Synchronize the oscillator with an external clock by

AC-coupling the external clock to the RRT input. The

capacitor used for the AC-coupling should satisfy the

following relation:

CSYNC

â¤

ï£«

ï£¬

ï£

9.862

0.144

Ã 10â3

ï£¶

ï£· (ÂµF)

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ï£¸

where RRT is in I.

The pulse width for the synchronization signal should

satisfy the following relations:

tPW

tCLK

0.8

ï£«

ï£¬ 0.8

ï£

tPW

tCLK

ï£¶

ï£·

ï£¸

3.4

where tPW is the synchronization source pulse width,

tCLK is the synchronization clock time period, and VS

is the synchronization pulse voltage level. See Figure 1.

5V LDO Regulator (DRV)

The internal LDO regulator converts the input voltage

at IN to a 5V output voltage at DRV. The LDO regulator

output supports up to 30mA current, enough to provide

power to the internal control circuitry and the gate driver.

tPW

tCLK

Figure 1. Synchronizing External Clock Signal

______________________________________________________________________________________ââ 13

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