TPS73601DCQRG4 Datasheet

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TPS736xx

www.ti.com

SBVS038K 鈥?SEPTEMBER 2003 鈥?REVISED SEPTEMBER 2005

Reverse Current

The NMOS pass element of the TPS736xx provides

inherent protection against current flow from the

output of the regulator to the input when the gate of

the pass device is pulled low. To ensure that all

charge is removed from the gate of the pass element,

the enable pin must be driven low before the input

voltage is removed. If this is not done, the pass

element may be left on due to stored charge on the

gate.

After the enable pin is driven low, no bias voltage is

needed on any pin for reverse current blocking. Note

that reverse current is specified as the current flowing

out of the IN pin due to voltage applied on the OUT

pin. There will be additional current flowing into the

OUT pin due to the 80k鈩?internal resistor divider to

ground (see

Figure 1

and

Figure 2).

For the TPS73601, reverse current may flow when

V

FB

is more than 1.0V above V

IN

.

expected ambient temperature and worst-case load.

The internal protection circuitry of the TPS736xx has

been designed to protect against overload conditions.

It was not intended to replace proper heat sinking.

Continuously running the TPS736xx into thermal

shutdown will degrade reliability.

Power Dissipation

The ability to remove heat from the die is different for

each package type, presenting different consider-

ations in the PCB layout. The PCB area around the

device that is free of other components moves the

heat from the device to the ambient air. Performance

data for JEDEC low and high K boards are shown in

the Power Dissipation Ratings table. Using heavier

copper will increase the effectiveness in removing

heat from the device. The addition of plated

through-holes to heat-dissipating layers will also im-

prove the heat-sink effectiveness.

Power dissipation depends on input voltage and load

conditions. Power dissipation is equal to the product

of the output current times the voltage drop across

the output pass element (V

IN

to V

OUT

):

P

D

+

(V

IN

*

V

OUT

)

I

OUT

(6)

Thermal Protection

Thermal protection disables the output when the

junction temperature rises to approximately 160掳C,

allowing the device to cool. When the junction tem-

perature cools to approximately 140掳C, the output

circuitry is again enabled. Depending on power dissi-

pation, thermal resistance, and ambient temperature,

the thermal protection circuit may cycle on and off.

This limits the dissipation of the regulator, protecting

it from damage due to overheating.

Any tendency to activate the thermal protection circuit

indicates excessive power dissipation or an inad-

equate heat sink. For reliable operation, junction

temperature should be limited to 125掳C maximum. To

estimate the margin of safety in a complete design

(including heat sink), increase the ambient tempera-

ture until the thermal protection is triggered; use

worst-case loads and signal conditions. For good

reliability, thermal protection should trigger at least

35掳C above the maximum expected ambient con-

dition of your application. This produces a worst-case

junction temperature of 125掳C at the highest

Power dissipation can be minimized by using the

lowest possible input voltage necessary to assure the

required output voltage.

Package Mounting

Solder pad footprint recommendations for the

TPS736xx are presented in Application Bulletin

Solder Pad Recommendations for Surface-Mount De-

vices

(AB-132), available from the Texas Instruments

web site at

www.ti.com.

13

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