YB1313 Datasheet, PDF(7/9 Page) YOBON TECHNOLOGIES,INC. – 1x/1.5x/2x Charge Pump for White LED Application

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YB1313 Datasheet, PDF (7/9 Pages) YOBON TECHNOLOGIES,INC. – 1x/1.5x/2x Charge Pump for White LED Application

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YB1313

1x/1.5x/2x Charge Pump for White LED Application

Thermal Protection

The regulator has thermal shutdown circuitry

that protects it from damage caused by high

temperature conditions. The thermal protection

circuitry shut down the device when the

junction temperature reached approximately

160â, allowing the device to cool. When the

junction temperature cools to approximately

140â, the device is automatically reenabled.

Continuously running the regulator into thermal

shutdown can degrade reliability.

Undervoltage Lockout

The undervoltage lockout circuit shuts down

the device when the voltage at VIN drops

below a typical threshold of 2.2V. The prevents

damage to the devices.

Termination of Unused Current Source

Outputs

If any outputs (D1 to D5) are not used, the

LEDs pin should be connected to VDD or

floating. Figure 4 shows the connection for

4LEDs application, D5 pin is connection to

VDD directly.

Power Efficiency

The battery current and efficiency of the

YB1313 are mostly dependent on the chare

pump mode of operation. To get the best

performance form the YB1313 it is better to use

LEDs with consistently lower VF voltage.

Lower VF will keep the charge pump in 1x

mode longer and will uses less battery current,

extending the run time of the battery. The

power conversion efficiency of the YB1313 can

be calculated by adding up the products of each

LED current and voltage and dividing it by the

product of the input voltage and current. With a

fully charged battery where the input voltage is

typically above the LED forward voltage, the

charge pump operates in the 1x mode and

efficiency is high. As the battery discharges,

there is a point where the current sources no

longer have enough voltage overhead to

maintain a constant current regulation. At that

point, the charge pump switches into the 1.5x

mode. The conversion efficiency is lowest at

the crossover. When in 1x mode the voltage

conversion efficiency is defined as output

power divided by input power:

Î· = POUT = VOUT Ã IOUT Ã100%

PIN

VIN Ã IIN

IIN = IOUT + IQ

Î· = POUT = VOUT Ã IOUT Ã100%

PIN VIN Ã (IOUT + IQ )

Figure 4. Application for 4 LEDs.

YB1313 MRev.1.1

When in 1.5x or 2x mode the voltage

conversion efficiency is as output power

divided by input power:

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