LTC3209-2 Linear Technology, LTC3209-2 Datasheet - Page 18

LTC3209-2

Manufacturer Part Number

LTC3209-2

Description

600mA Main/Camera LED Controller

Manufacturer

Linear Technology

Datasheet

1.LTC3209-2.pdf (20 pages)

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APPLICATIO S I FOR ATIO

LTC3209-1/LTC3209-2

Power Efficiency

To calculate the power efficiency (η) of a white LED driver

chip, the LED power should be compared to the input

power. The difference between these two numbers repre-

sents lost power whether it is in the charge pump or the

current sources. Stated mathematically, the power effi-

ciency is given by:

The efficiency of the LTC3209-1/LTC3209-2 depends upon

the mode in which it is operating. Recall that the

LTC3209-1/LTC3209-2 operates as a pass switch,

connecting V

available for a given input voltage and LED forward

voltage. When it is operating as a switch, the efficiency is

approximated by:

since the input current will be very close to the sum of the

LED currents.

At moderate to high output power, the quiescent current

of the LTC3209-1/LTC3209-2 is negligible and the expres-

sion above is valid.

Once dropout is detected at the LED pin, the LTC3209-1/

LTC3209-2 enables the charge pump in 1.5x mode.

LED

η =

pin. This feature provides the optimum efficiency

LED

BAT

(

to CPO, until dropout is detected at the

BAT

LED

•

LED

BAT

)

LED

BAT

(1x Mode)

In 1.5x boost mode, the efficiency is similar to that of a

linear regulator with an effective input voltage of 1.5 times

the actual input voltage. This is because the input current

for a 1.5x charge pump is approximately 1.5 times the load

current. In an ideal 1.5x charge pump, the power efficiency

would be given by:

(1.5x Mode)

Similarly, in 2x boost mode, the efficiency is similar to that

of a linear regulator with an effective input voltage of 2

times the actual input voltage. In an ideal 2x charge pump,

the power efficiency would be given by:

Thermal Management

For higher input voltages and maximum output current,

there can be substantial power dissipation in the

LTC3209-1/LTC3209-2. If the junction temperature in-

creases above approximately 150°C the thermal shut-

down circuitry will automatically deactivate the output

current sources and charge pump. To reduce maximum

junction temperature, a good thermal connection to the PC

board is recommended. Connecting the Exposed Pad to a

ground plane and maintaining a solid ground plane under

the device will reduce the thermal resistance of the pack-

age and PC board considerably.

IDEAL

(2x Mode)

IDEAL

LED

(

BAT

(

BAT

(

LED

•

LED

( . )

•

1 5

•

( ) 2

•

LED

•

LED

)

(

1 5

•

LED

•

LED

BAT

320912fa

BAT

)

LTC3209-2 Linear Technology, LTC3209-2 Datasheet - Page 18

LTC3209-2

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