SGM3141B Datasheet, PDF(8/14 Page) SG Micro Corp

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SGM3141B Datasheet, PDF (8/14 Pages) SG Micro Corp – Charge Pump LED Driver

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SGM3141B

OPERATION

The SGM3141B is a charge pump regulator designed for

converting a Li-ion battery voltage of 2.7V to 4.2V to drive

a white LED used in digital still camera flash and torch

applications. The SGM3141B has two modes of

operation which are pin selectable for either Flash or

Torch. Both modes can be used continuously unless

thermal shutdown happens. Torch is often used for

several seconds in a digital still camera âmovieâ mode.

The SGM3141B also has two modes of operation to

control the output current: the 1Ã mode and 2Ã mode.

Operation begins after the enable pin EN receives a logic

high, the band-gap reference wakes up after 50Î¼s, and

then SGM3141B goes through a soft-start mode

designed to reduce inrush current. The SGM3141B starts

in the 1Ã mode, which acts like a linear regulator to

control the output current by continuously monitoring the

feedback pin FB. In 1Ã mode, if the SGM3141B auto

detects a dropout condition, which is when the FB pin is

below the regulation point for more than 15Î¼s, the

SGM3141B automatically switches to the 2Ã mode. The

SGM3141B remains in the 2Ã mode until one of four

things happens:

1) The enable pin EN has been toggled.

2) The FLASH pin has changed from high to low.

3) VIN is cycled or VIN is at least 1V above VOUT.

4) A thermal fault occurs.

700mA Buck/Boost

Charge Pump LED Driver

The 2Ã mode is the charge pump mode where the output

can be pumped as high as two times the input voltage,

provided the output does not exceed the maximum

voltage for the SGM3141B, which is internally limited to

about 5.5V. In the 2Ã mode, as in the 1Ã mode, the

output current is regulated by the voltage at the FB pin.

In the Torch mode (FLASH = âGNDâ), the FLASH pin is

set to logic low and the SGM3141B FB pin is regulated to

47mV output:

VFB = 47mV (Torch Mode)

When in Flash mode (FLASH = âHighâ), the FB regulation

voltage is set by the resistor RSET connected between the

RSET pin and SGND pin with the equation:

VFB = (1.26V/RSET) Ã 10.2kâ¦ (Flash Mode)

Where 1.26V is the internal band-gap reference voltage

and 10.2kâ¦ is an internal resistance used to scale the

RSET current. Typical values of RSET are 42kâ¦ to 170kâ¦

for a range of VFB = 300mV to 75mV in Flash mode.

The output current is then set in either Flash or Torch

mode by the equation:

IOUT = VFB/RSENSE

SG Micro Corp

www.sg-micro.com

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