MIC2292_11 Datasheet, PDF(9/10 Page) Micrel Semiconductor – High Frequency PWM White LED Drivers with Internal Schottky Diode and OVP

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MIC2292_11 Datasheet, PDF (9/10 Pages) Micrel Semiconductor – High Frequency PWM White LED Drivers with Internal Schottky Diode and OVP

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Micrel, Inc.

Dimming Control

There are two techniques for dimming control. One is

PWM dimming, and the other is continuous dimming.

1. PWM dimming control is implemented by

applying a PWM signal on EN pin as shown in

Figure 1. The MIC2292/93C is turned on and off

by the PWM signal. With this method, the LEDs

operate with either zero or full current. The

average LED current is increased proportionally

to the duty-cycle of the PWM signal. This

technique has high-efï¬ciency because the IC

and the LEDs consume no current during the off

cycle of the PWM signal. Typical frequency

should be between 100Hz and 10kHz.

2. Continuous dimming control is implemented by

applying a DC control voltage to the FB pin of

the MIC2292/93C through a series resistor as

shown in Figure 2. The LED current is

decreased proportionally with the amplitude of

the control voltage. The LED intensity (current)

can be dynamically varied applying a DC voltage

to the FB pin. The DC voltage can come from a

DAC signal or a ï¬ltered PWM signal. The

advantage of this approach is that a high

frequency PWM signal (>10kHz) can be used to

control LED intensity.

VIN

PWM

VIN SW

OUT

GND

Figure 1. PWM Dimming Method

VIN

VIN SW

OUT

GND

5.11k

49.9k

Equivalent

Figure 2. Continuous Dimming

MIC2292/93C

Open-Circuit Protection

If the LEDs are disconnected from the circuit, or in case

an LED fails open, the sense resistor will pull the FB pin

to ground. This will cause the MIC2292/93C to switch

with a high duty-cycle resulting in output overvoltage.

This may cause the SW pin voltage to exceed its

maximum voltage rating, possibly damaging the IC and

the external components. To ensure the highest level of

protection, the MIC2292/93C has three product options

in the 8-pin MLFÂ® with overvoltage protection, OVP. The

extra pins of the 8-pin MLFÂ® package allow the use of a

dedicated OVP monitor with options for 15V or 34V (see

Figure 3). The reason for the three OVP levels is to let

users choose the suitable level of OVP for their

application. For example, a 3-LED application would

typically see an output voltage of no more than 12V, so a

15V OVP option would offer a suitable level of

protection. This allows the user to select the output

diode and capacitor with the lowest voltage ratings, and

accordingly, smallest size and lowest cost. The OVP will

clamp the output voltage to within the speciï¬ed limits.

VIN

VIN SW

OUT

GND

Figure 3. MLFÂ® Package OVP Circuit

Start-Up and Inrush Current

During start-up, inrush current of approximately double

the nominal current ï¬ows to set up the inductor current

and the voltage on the output capacitor. If the inrush

current needs to be limited, a soft-start circuit similar to

Figure 4 could be implemented. The soft-start capacitor,

Css, provides over-drive to the FB pin at start-up,

resulting in gradual increase of switch duty cycle and

limited inrush current.

VIN

2200pF

CSS

VIN SW

OUT

GND

R 10k

September 2009

Figure 4. One of Soft-Start Circuit

M9999-091509-A

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