MIC39100 Datasheet, PDF(11/12 Page) Micrel Semiconductor – 1A Low-Voltage Low-Dropout Regulator

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MIC39100 Datasheet, PDF (11/12 Pages) Micrel Semiconductor – 1A Low-Voltage Low-Dropout Regulator

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MIC39100/39101/39102

âT = TJ(max) â TA(max)

TJ(max) = 125Â°C

TA(max) = maximum ambient operating temperature

For example, the maximum ambient temperature is 50Â°C, the

âT is determined as follows:

âT = 125Â°C â 50Â°C

âT = 75Â°C

Using Figure 4, the minimum amount of required copper can

be determined based on the required power dissipation.

Power dissipation in a linear regulator is calculated as fol-

lows:

PD = (VIN â VOUT) IOUT + VIN Â· IGND

If we use a 2.5V output device and a 3.3V input at an output

current of 1A, then our power dissipation is as follows:

PD = (3.3V â 2.5V) Ã 1A + 3.3V Ã 11mA

PD = 800mW + 36mW

PD = 836mW

From Figure 4, the minimum amount of copper required to

operate this application at a âT of 75Â°C is 160mm2.

Micrel

Quick Method

Determine the power dissipation requirements for the design

along with the maximum ambient temperature at which the

device will be operated. Refer to Figure 5, which shows safe

operating curves for three different ambient temperatures:

25Â°C, 50Â°C and 85Â°C. From these curves, the minimum

amount of copper can be determined by knowing the maxi-

mum power dissipation required. If the maximum ambient

temperature is 50Â°C and the power dissipation is as above,

836mW, the curve in Figure 5 shows that the required area of

copper is 160mm2.

The Î¸JA of this package is ideally 63Â°C/W, but it will vary

depending upon the availability of copper ground plane to

which it is attached.

June 2000

MIC39100/39101/39102

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