LP2995M-EVAL National Semiconductor, LP2995M-EVAL Datasheet - Page 8

LP2995M-EVAL

Manufacturer Part Number

LP2995M-EVAL

Description

BOARD EVALUATION LP2995M

Manufacturer

National Semiconductor

Datasheets

1.LP2995MRNOPB.pdf (14 pages)

2.LP2995LQEVAL.pdf (5 pages)

3.LP2995M-EVAL.pdf (12 pages)

Specifications of LP2995M-EVAL

Channels Per Ic

1 - Single

Current - Output

1.5A

Voltage - Input

2.2 ~ 5.5V

Regulator Type

Positive Fixed

Operating Temperature

0°C ~ 125°C

Board Type

Fully Populated

Utilized Ic / Part

LP2995

Lead Free Status / RoHS Status

Not applicable / Not applicable

Voltage - Output

Lead Free Status / Rohs Status

Not Compliant

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Thermal Dissipation

Since the LP2995 is a linear regulator any current flow from

To prevent damaging the part from exceeding the maximum

allowable junction temperature, care should be taken to der-

ate the part dependent on the maximum expected ambient

temperature and power dissipation. The maximum allowable

internal temperature rise (T

maximum ambient temperature (T

the maximum allowable junction temperature (T

From this equation, the maximum power dissipation (P

of the part can be calculated:

The θ

the package used; the thickness of copper; the number of vias

and the airflow. For instance, the θ

with the package mounted to a standard 8x4 2-layer board

with 1oz. copper, no airflow, and 0.5W dissipation at room

temperature. This value can be reduced to 151.2°C/W by

changing to a 3x4 board with 2 oz. copper that is the JEDEC

standard.

the two boards mentioned.

Layout is also extremely critical to maximize the output cur-

rent with the LLP package. By simply placing vias under the

DAP the θ

LLP thermal data when placed on a 4-layer JEDEC board with

copper thickness of 0.5/1/1/0.5 oz. The number of vias, with

will result in internal power dissipation generating heat.

of the LP2995 will be dependent on several variables:

Figure 2

can be lowered significantly.

FIGURE 2. θ

shows how the θ

Rmax

Dmax

= T

Rmax

Jmax

vs Airflow (SO-8)

Rmax

) can be calculated given the

− T

Amax

/ θ

Amax

of the SO-8 is 163°C/W

) of the application and

varies with airflow for

Figure 3

Jmax

20039321

shows the

Dmax

)

a pitch of 1.27 mm, has been increased to the maximum of 4

where a θ

for this calculation is 0.036 mm for 1oz. Copper.

FIGURE 3. LLP-16 θ

Additional improvements in lowering the θ

achieved with a constant airflow across the package. Main-

taining the same conditions as above and utilizing the 2x2 via

array,

FIGURE 4. θ

Figure 4

of 50.41°C/W can be obtained. Via wall thickness

shows how the θ

vs Airflow Speed (JEDEC Board with 4

vs # of Vias (4 Layer JEDEC Board))

Vias)

varies with airflow.

can also be

20039322

20039323

LP2995M-EVAL National Semiconductor, LP2995M-EVAL Datasheet - Page 8

LP2995M-EVAL

Specifications of LP2995M-EVAL

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