MIC2873 Datasheet, PDF(17/24 Page) Micrel Semiconductor – 1.2A High-Brightness Flash LED Driver with Single-Wire Serial Interface

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MIC2873 Datasheet, PDF (17/24 Pages) Micrel Semiconductor – 1.2A High-Brightness Flash LED Driver with Single-Wire Serial Interface

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Micrel, Inc.

MIC2873

Component Selection

Inductor

Inductor selection is a balance between efficiency,

stability, cost, size, and rated current. Since the boost

converter is compensated internally, the recommended

inductance of L is limited from 1ÂµH to 2.2ÂµH to ensure

system stability. It is usually a good balance between

these considerations.

A large inductance value reduces the peak-to-peak

inductor ripple current hence the output ripple voltage and

the LED ripple current. This also reduces both the DC loss

and the transition loss at the same inductorâs DC

resistance (DCR). However, the DCR of an inductor

usually increases with the inductance in the same package

size. This is due to the longer windings required for an

increase in inductance. Since the majority of the input

current passes through the inductor, the higher the DCR

the lower the efficiency is, and more significantly at higher

load currents. On the other hand, inductor with smaller

DCR but the same inductance usually has a larger size.

The saturation current rating of the selected inductor must

be higher than the maximum peak inductor current to be

encountered and should be at least 20% to 30% higher

than the average inductor current at maximum output

current.

Input Capacitor

A ceramic capacitor of 4.7ÂµF or larger with low ESR is

recommended to reduce the input voltage ripple to ensure

a clean supply voltage for the device. The input capacitor

should be placed as close as possible to the MIC2873 VIN

pin with short trace for good noise performance. X5R or

X7R type ceramic capacitors are recommended for better

tolerance over temperature. The Y5V and Z5U type

temperature rating ceramic capacitors are not

recommended due to their large reduction in capacitance

over temperature and increased resistance at high

frequencies. These reduce their ability to filter out high-

frequency noise. The rated voltage of the input capacitor

should be at least 20% higher than the maximum

operating input voltage over the operating temperature

range.

Output Capacitor

Output capacitor selection is also a trade-off between

performance, size, and cost. Increasing output capacitor

will lead to an improved transient response, however, the

size and cost also increase. The output capacitor is

preferred in the range of 2.2ÂµF to 10ÂµF with ESR from

10mâ¦ to 50mâ¦, and a 4.7ÂµF ceramic capacitor is typically

recommended. X5R or X7R type ceramic capacitors are

recommended for better tolerance over temperature. The

Y5V and Z5U type ceramic capacitors are not

recommended due to their wide variation in capacitance

over temperature and increased resistance at high

frequencies. The rated voltage of the output capacitor

should be at least 20% higher than the maximum

operating output voltage over the operating temperature

range.

July 17, 2014

Revision 1.0

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