AAT4285 Analogic Corporation, AAT4285 Datasheet - Page 9

AAT4285

Manufacturer Part Number

AAT4285

Description

12V Slew Rate Controller Load Switch

Manufacturer

Analogic Corporation

Datasheet

1.AAT4285.pdf (11 pages)

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For maximum current, refer to the following equation:

For example, if V

rent were to exceed 1.53A or if the ambient tem-

perature were to increase, the internal die temper-

ature would increase, and the device would be

damaged. Higher peak currents can be obtained

with the AAT4285. 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 cycled manner.

High Peak Output Current Applications

Some applications require the load switch to operate

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 dissipation 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.

For example, a 12V system using an AAT4285

operates at a continuous 100mA load current level

and has short 2A current peaks.

The current peak occurs for 500µs out of a 5ms

period.

First, the current duty cycle is calculated:

The load current is 100mA for 90% of the 5ms peri-

od and 2A for 10% of the period.

De-rated for temperature:

4285.2007.04.1.0

240mΩ · (1 + 0.0028 · (125°C - 25°C)) = 307mΩ

= 25°C, I

% Peak Duty Cycle =

OUT(MAX)

= 12V, R

= 1.53A. If the output load cur-

⎛

⎝

10%

DS(MAX)

100

D(MAX)

⎞

⎠ =

= 307mΩ and

⎛

⎝

500μs

5.0ms

⎞

⎠

12V Slew Rate Controlled Load Switch

The power dissipation for a 100mA load is calculat-

ed as follows:

The power dissipation for 100mA load at 90% duty

cycle is 2.76mW. Now the power dissipation for the

remaining 10% of the duty cycle at 2A is calculated:

The power dissipation for 2A load at 10% duty

cycle is 123mW. Finally, the two power figures are

summed to determine the total true power dissipa-

tion under the varied load.

The maximum power dissipation for the AAT4285

operating at an ambient temperature of 85°C is

286mW. The device in this example will have a total

power dissipation of 123mW. This is well within the

thermal limits for safe operation of the device; in fact,

at 85°C, the AAT4285 will handle a 2A pulse for up

to 23% duty cycle. At lower ambient temperatures,

the duty cycle can be further increased.

Printed Circuit Board Layout

Recommendations

For proper thermal management and to take

advantage of the low R

circuit board layout rules should be followed: V

D(MAX)

D(100mA)

D(90%D/C)

D(MAX)

D(2A)

D(10%D/C)

D(TOTAL)

= (2A)

= 1.23W

= I

= (100mA)

= 3.07mW

= P

= 2.76mW + 123mW

= 125.76mW

= %DC · P

= 0.90 · 3.07mW

= 2.76mW

= %DC · P

= 0.10 · 1.23mW

= 123mW

OUT

D(100mA)

· 307mΩ

· R

+ P

D(100mA)

D(2A)

· 307mΩ

D(2A)

DS(ON)

of the AAT4285, a few

AAT4285

AAT4285 Analogic Corporation, AAT4285 Datasheet - Page 9

AAT4285

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