PAM3101_13 Datasheet, PDF(13/26 Page) Power Analog Micoelectronics – 300mA High PSRR Low Dropout CMOS Linear Regulator

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PAM3101_13 Datasheet, PDF (13/26 Pages) Power Analog Micoelectronics – 300mA High PSRR Low Dropout CMOS Linear Regulator

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PAM3101

300mA High PSRR Low Dropout CMOS Linear Regulator

Thermal considerations

Thermal protection limits power dissipation in the

PAM3101. When the junction temperature

exceeds 150Â°C, the OTP (Over Temperature

Protection) starts the thermal shutdown and turns

the pass transistor off. The pass transistor

resumes operation after the junction temperature

drops below 120Â°C.

For continuous operation, the junction

temperature should be maintained below 125Â°C.

The power dissipation is defined as:

PD= (VIN-V ) OUT *IO+VIN*IGND

The maximum power dissipation depends on the

thermal resistance of IC package, PCB layout,

the rate of surrounding airflow and temperature

difference between junction and ambient. The

maximum power dissipation can be calculated by

the following formula:

PD(MAX) = (T - J(MAX) TA)/Î¸JA

Where TJ(MAX) is the maximum allowable junction

temperature 125Â°C, TAis the ambient temperature

and Î¸JA is the thermal resistance from the junction

to the ambient.

For example, as Î¸JA is 250Â°C/W for the SOT-23

package and 180Â°C/W for the SOT-89 package

based on the standard JEDEC 51-3 for a single-

layer thermal test board, the maximum power

dissipation at TA=25Â°C can be calculated by

following formula:

P = D(MAX) (125Â°C-25Â°C)/250=0.4W SOT-23

P = D(MAX) (125Â°C-25Â°C)/180=0.55W SOT-89

It is also useful to calculate the junction

temperature of the PAM3101 under a set of

specific conditions. For example, suppose the

input voltage VIN=3.3V, the output current

IO=300mA and the case temperature TA=40Â°C

measured by a thermalcouple during operation,

the power dissipation for the Vo=2.8V version of

the PAM3101 can be calculated as:

PD=(3.3V-2.8V)*300mA+3.3V*70Î¼Aâ150mW

And the junction temperature, TJ, can be

calculated as follows:

TJ = TA+PD*Î¸JA

TJ = 40Â°C+0.15W*250Â°C/W

=40Â°C+37.5Â°C

=77.5Â°C<TJ(MAX) = 125Â°C

For this operating condition, TJ is lower than the

absolute maximum operating junction

temperature, 125Â°C, so it is safe to use the

PAM3101 in this configuration.

Power Analog Microelectronics,Inc

www.poweranalog.com

11/2010 Rev 2.5

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