ADP3335ARM-18 Analog Devices, ADP3335ARM-18 Datasheet - Page 7

ADP3335ARM-18

Manufacturer Part Number

ADP3335ARM-18

Description

High Accuracy Ultralow IQ/ 500 mA anyCAP Low Dropout Regulator

Manufacturer

Analog Devices

Datasheet

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It is important to note that as C

will be delayed. With NR values greater than 1 nF, this delay

may be on the order of several milliseconds.

Paddle-Under-Lead Package

The ADP3335 uses a patented paddle-under-lead package

design to ensure the best thermal performance in an MSOP-8

footprint. This new package uses an electrically isolated die

attach that allows all pins to contribute to heat conduction.

This technique reduces the thermal resistance to 110°C/W on a

4-layer board as compared to >160°C/W for a standard MSOP-8

leadframe. Figure 22 shows the standard physical construc-

tion of the MSOP-8 and the paddle-under-lead leadframe.

Thermal Overload Protection

The ADP3335 is protected against damage from excessive power

dissipation by its thermal overload protection circuit which limits

the die temperature to a maximum of 165°C. Under extreme

conditions (i.e., high ambient temperature and power dissipation)

where die temperature starts to rise above 165°C, the output

current is reduced until the die temperature has dropped to a

safe level. The output current is restored when the die tempera-

ture is reduced.

Current and thermal limit protections are intended to protect

the device against accidental overload conditions. For normal

operation, device power dissipation should be externally limited

so that junction temperatures will not exceed 150°C.

REV. 0

Figure 22. Thermally Enhanced Paddle-Under-Lead Package

Figure 21. Typical Application Circuit

1 F

OFF

ADP3335

DIE

GND

OUT

increases, the turn-on time

N R

1 F

OUT

–7–

Calculating Junction Temperature

Device power dissipation is calculated as follows:

Where I

and V

Assuming I

The proprietary package used in the ADP3335 has a thermal

resistance of 110°C/W, significantly lower than a standard

MSOP-8 package. Assuming a 4-layer board, the junction tem-

perature rise above ambient temperature will be approximately

equal to:

To limit the maximum junction temperature to 150°C, maxi-

mum allowable ambient temperature will be:

Printed Circuit Board Layout Consideration

All surface mount packages rely on the traces of the PC board to

conduct heat away from the package.

In standard packages the dominant component of the heat resis-

tance path is the plastic between the die attach pad and the

individual leads. In typical thermally enhanced packages one or

more of the leads are fused to the die attach pad, significantly

decreasing this component. To make the improvement mean-

ingful, however, a significant copper area on the PCB must be

attached to these fused pins.

The patented paddle-under-lead frame design of the ADP3335

uniformly minimizes the value of the dominant portion of the

thermal resistance. It ensures that heat is conducted away by all

pins of the package. This yields a very low 110°C/W thermal

resistance for an MSOP-8 package, without any special board

layout requirements, relying only on the normal traces connected

to the leads. This yields a 33% improvement in heat dissipation

capability as compared to a standard MSOP-8 package. The

thermal resistance can be decreased by, approximately, an addi-

tional 10% by attaching a few square cm of copper area to the

IN pin of the ADP3335 package.

It is not recommended to use solder mask or silkscreen on the

PCB traces adjacent to the ADP3335’s pins since it will increase

the junction-to-ambient thermal resistance of the package.

Shutdown Mode

Applying a TTL high signal to the shutdown (SD) pin or tying

it to the input pin, will turn the output ON. Pulling SD down to

0.4 V or below, or tying it to ground will turn the output OFF.

In shutdown mode, quiescent current is reduced to much less

than 1 µA.

OUT

= 3.3 V, device power dissipation is:

OUT

LOAD

are input and output voltages respectively.

LOAD

∆T

= (5 – 3.3) 400 mA + 5.0(4 mA) = 700 mW

and I

AMAX

= 400 mA, I

GND

(

0 700

= 150°C – 77.0°C = 73.0°C

are load current and ground current, V

−

OUT

GND

)

110

= 4 mA, V

LOAD

C W

( )

ADP3335

77 0

= 5.0 V and

GND

ADP3335ARM-18 Analog Devices, ADP3335ARM-18 Datasheet - Page 7

ADP3335ARM-18

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