AME5248A Datasheet, PDF(11/20 Page) Analog Microelectronics – 1.5MHz, 600mA Synchronous Buck Converter

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AME5248A Datasheet, PDF (11/20 Pages) Analog Microelectronics – 1.5MHz, 600mA Synchronous Buck Converter

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AME

AME5248A

1.5MHz, 600mA

Synchronous Buck Converter

Output Capacitor Selection

The selection of COUT is driven by the required effective

series resistance (ESR). Typically, once the ESR re-

quirement for COUT has been met, the RMS current rating

generally far exceeds the IRIPPLE(P-P) requirement. The

output ripple VOUT is determined by

â VOUT

â âIL (ESR +

8COUT

fSW

)

Where fSW=operating frequency, COUT=output capaci-

tance and IL=ripple current in the inductor. For a fixed

output voltage, the output ripple is highest at maximum

input voltage since IL increases with input voltage.

At the light load current, the device operates in Power

Saving Mode, and the output voltage ripple is indepen-

dent of the value of the output capacitor. The output ripple

is set by the internal comparator thresholds and is also

affected by the feedback capacitor C1 in figure2. Large

capacitor values can decrease the output ripple, usually

a 22pF capacitor is sufficient for most applications.

When the input and output ceramic capacitors are cho-

sen, choose the X5R or X7R dielectric formulations. These

dielectrics have the best temperature and voltage char-

acters have the best temperature and voltage character-

istics of all the ceramics for a given value and size.

Thermal Considerations

In most applications the AME5248A does not dissi-

pate much heat due to its high efficiency. But, in applica-

tions where the AME5248A is running at high ambient

temperature with low supply voltage and high duty cycles,

such as in dropout, the heat dissipated may exceed the

maximum junction temperature of the part. If the junc-

tion temperature reaches approximately 160 , both

power switches will be turned off and the SW node will

become high impedance. To avoid the AME5248A from

exceeding the maximum junction temperature, the user

will need to do some thermal analysis. The goal of the

thermal analysis is to determine whether the power dis-

sipated exceeds the maximum junction temperature of

the part. The temperature rise is given by:

TR = (PD) ÃÎ¸ JA

Where PD is the power dissipated by the regulator and

Î¸JA is the thermal resistance from the junction of the die

to the ambient temperature.

Output Voltage Setting

In the adjustable version, the output voltage is set by a

resistor divider according to following formula:

VOUT

0.5V

Ã(1 +

R2)

The external resistor divider is connected to the output.

Rev.A.01

▷