AAT4280
Slew Rate Controlled Load Switch
For maximum current, refer to the following equation:
ratio seen in the chart to derive the RDS for a 4 volt
VIN: 120mΩ × 87mΩ/80mΩ = 130mΩ . De-rated
for temperature: 130mΩ x (1 + .0028 × (125°C -
25°C)) = 166mΩ. The power dissipation for a
100mA load is calculated as follows:
1/2
IOUT(MAX) < ( PD(MAX) / RDS
)
For example, if VIN = 5V, RDS(MAX)=154mΩ and TA
= 25°C, IOUT(MAX) = 2.3A. If the output load current
were to exceed 2.3A or if the ambient temperature
were to increase, the internal die temperature will
increase, and the device will be damaged.
2
PD(MAX) = IOUT × RDS
PD(100mA) = (100mA)2 × 166mΩ
PD(100mA) = 1.66mW
PD(87.5%D/C) = %DC × PD(100mA)
PD(87.5%D/C) = 0.875 × 1.66mW
PD(87.5%D/C) = 1.45mW
Higher peak currents can be obtained with the
AAT4280. To accomplish this, the device thermal
resistance must be reduced by increasing the heat
sink area or by operating the load switch in a duty
cycle manner.
The power dissipation for 100mA load at 87.5%
duty cycle is 1.45mW. Now the power dissipation
for the remaining 12.5% of the duty cycle at 2A is
calculated:
High Peak Output Current Applications
Some applications require the load switch to oper-
ate at a continuous nominal current level with short
duration high current peaks. The duty cycle for
both output current levels must be taken into
account. To do so, first calculate the power dissi-
pation at the nominal continuous current level, and
then add in the additional power dissipation due to
the short duration high current peak scaled by the
duty factor.
2
P
D(MAX) = IOUT × RDS
PD(2A) = (2A)2 × 166mΩ
PD(2A) = 664mW
PD(12.5%D/C) = %DC × PD(2A)
PD(12.5%D/C) = 0.125 × 664mW
PD(12.5%D/C) = 83mW
The power dissipation for 2A load at 12.5% duty
cycle is 83mW. Finally, the two power figures are
summed to determine the total true power dissipa-
tion under the varied load.
For example, a 4V system using an AAT4280 oper-
ates at a continuous 100mA load current level and
has short 2A current peaks, as in a GSM applica-
tion. The current peak occurs for 576µs out of a
4.61ms period.
PD(total) = PD(100mA) + PD(2A)
PD(total) = 1.45mW + 83mW
PD(total) = 84.5mW
First, the current duty cycle is calculated:
The maximum power dissipation for the AAT4280
operating at an ambient temperature of 85°C is
333mW. The device in this example will have a
total power dissipation of 84.5mW. This is well with
in the thermal limits for safe operation of the
device, in fact, at 85°C, the AAT4280 will handle a
2A pulse for up to 50% duty cycle. At lower ambi-
ent temperatures the duty cycle can be further
increased.
% Peak Duty Cycle: X/100 = 576µs/4.61ms
% Peak Duty Cycle = 12.5%
The load current is 100mA for 87.5% of the 4.61ms
period and 2A for 12.5% of the period. Since the
Electrical Characteristics do not report RDS(MAX) for
4 volt operation, it must be calculated approxi-
mately by consulting the chart of RDS(ON) vs. VIN.
The RDS reported for 5 volts can be scaled by the
4280.2002.2.0.92
11
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