W-6137 Datasheet, PDF(12/16 Page) Copal Electronics

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W-6137 Datasheet, PDF (12/16 Pages) Copal Electronics – CMOS Boost Converter

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W-6137

Dimming Control

There are several methods available to control the LED

brightness.

PWM Signal on the SHDN Pin

LED brightness dimming can be done by applying a PWM

signal to the SHDN input. The LED current is repetitively

turned on and off, so that the average current is proportional

to the duty cycle. A 100% duty cycle, with SHDN always

high, corresponds to the LEDs at nominal current.

Figures 27 and 28 show 1 kHz and 4 kHz signals with a 50%

duty cycle applied to the SHDN pin. The PWM frequency

range is from 100 Hz to 10 kHz. The recommended PWM

frequency range is from 100 Hz to 4 kHz.

Switching Waveforms PWM on SHDN

Filtered PWM Signal

A filtered PWM signal can be used as a variable DC

voltage that can be used to control the LED current.

Figure 29 shows the PWM control circuitry connected to the

W-6137 FB pin. The PWM signal has a voltage swing of

0 V to 2.5 V. The LED current can be dimmed within a range

from 0 to 22 mA. The PWM signal frequency can vary from

very low frequency up to 100 kHz.

PWM

Signal

2.5 V

VIN

W-6137

SHDN

GND FB

LED

Current

4.02 k

0.22 +F

3.3 k

VFB = 300 mV

Figure 29. Circuit for Filtered PWM Signal

A PWM signal at 0 V DC, or a 0% duty cycle, results in

a max LED current of about 22 mA. A PWM signal with a

100% duty cycle results in an LED current of 0 mA.

Figure 27. PWM at 1 kHz

100

DUTY CYCLE (%)

Figure 30. LED Current vs. Duty Cycle

Figure 28. PWM at 4 kHz

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