SM8237 Datasheet, PDF(10/14 Page) SamHop Microelectronics Corp.

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SM8237 Datasheet, PDF (10/14 Pages) SamHop Microelectronics Corp. – 1.2MHz STEP-UP CONVERTER

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SAMHOP Microelectronics Corp.

1.2MHz STEP-UP CONVERTER

APPLICATIONS INFORMATION

LED current control

The LED current is controlled by the feedback resistor. The feedback reference is 95mV. The LED current is 95

mV/R1. In order to have accurate LED current, precision resistors are preferred (1% is recommended). The

formula and table for R1 selection are shown below.

(1) R1 = 95 mV / ILED

Table 1. R1 resistor value selection

ILED (mA)

R1 (â¦)

19.1

9.53

7.87

6.34

4.75

SM8237

Figure 2. LED driver with open-circuit protection

Setting the output voltage for DC to DC Converter

Set the output voltage by selecting the resistive voltage divider ratio. Using 51 Kâ¦ for the High-side resistor R1

of the voltage divider. Determine the Low-side resistor R2 according to the following formula:

R1 Â· VFB

R2 = Vout - VFB

Where Vout is the output voltage for R1= 51 Kâ¦ and VFB = 0.095 V, then R2 (Kâ¦) = 4.845 / Vout -0.095

Please see the typical application on page 1.

Open-circuit protection

In the cases of output circuit, when the LEDs are disconnected from the circuit or the LEDs fail, the feedback

voltage will be zero. The SM8237 will then switch at a high duty cycle resulting in a high output voltage, which

may cause the SW pin voltage to exceed its maximum 36V rating. A zener diode can be used at the output to

limit the voltage on the SW pin (figure 2). The zener voltage should be larger than the maximum forward voltage

of the LED string. The current rating zener should be larger than 0.1mA.

Dimming control

There are four different types of dimming control circuits:

1. Using a PWM signal to SHDN pin

With the PWM signal applied to the SHDN pin, the SM8237 is turned on or off by the PWM signal. The LEDs

operate at either zero or full current. The average LED current increases proportionally with the duty cycle of the

PWM signal. A 0% duty cycle will turn off the SM8237 and corresponds to zero full LED current. A 100% duty

cycle corresponds to full current. The typical frequency range of the PWM signal is 1kHz to 10kHz. The

magnitude of the PWM signal should be higher than the minimum SHDN voltage high.

Page 9

V.1.3 Aug 28,2007

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