LM2576-12 MOTOROLA [Motorola, Inc], LM2576-12 Datasheet - Page 18

LM2576-12

Manufacturer Part Number

LM2576-12

Description

Easy Switcher 3.0A Step-Down Voltage Regulator

Manufacturer

MOTOROLA [Motorola, Inc]

Datasheet

1.LM2576-12.pdf (28 pages)

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Part Number:

LM2576-12

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10 000

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Thermal Analysis and Design

whether or not a heatsink will be required. First determine:

1. P D(max) maximum regulator power dissipation in the

2. T A(max )

3. T J(max)

4. R JC

5. R JA

(Refer to Absolute Maximum Ratings on page 2 of this data

sheet or R JC and R JA values).

power dissipated by the LM2576:

where d is the duty cycle and for buck converter

I Q

V in

V O

I Load is the load current.

can be neglected if proper type catch diode is used.

Packages Not on a Heatsink (Free–Standing)

the junction temperature can be determined by the following

expression:

where (R JA )(P D ) represents the junction temperature rise

caused by the dissipated power and T A is the maximum

ambient temperature.

Packages on a Heatsink

the selected safe operating junction temperature determined

in step 3, than a heatsink is required. The junction

temperature will be calculated as follows:

where

The following procedure must be performed to determine

The following formula is to calculate the approximate total

The dynamic switching losses during turn–on and turn–off

For a free–standing application when no heatsink is used,

If the actual operating junction temperature is greater than

(quiescent current) and V sat can be found in the

LM2576 data sheet,

is minimum input voltage applied,

is the regulator output voltage,

R JC is the thermal resistance junction–case,

R CS is the thermal resistance case–heatsink,

R SA is the thermal resistance heatsink–ambient.

T J = P D (R JA + R CS + R SA ) + T A

P D = (V in x I Q ) + d x I Load x V sat

application.

maximum ambient temperature in the

application.

maximum allowed junction temperature

(125 C for the LM2576). For a conservative

design, the maximum junction temperature

should not exceed 110 C to assure safe

operation. For every additional +10 C

temperature rise that the junction must

withstand, the estimated operating lifetime of

the component is halved.

package thermal resistance junction–case.

package thermal resistance junction–ambient.

T J = (R JA ) (P D ) + T A

t on

LM2576

selected safe operating junction temperature, then a larger

heatsink is required.

Some Aspects That can Influence Thermal Design

the junction temperature rise numbers are all approximate,

and there are many factors that will affect these numbers,

such as PC board size, shape, thickness, physical position,

location, board temperature, as well as whether the

surrounding air is moving or still.

area, copper thickness, single– or double–sided, multilayer

board, the amount of solder on the board or even colour of

the traces.

the board can also influence its effectiveness to dissipate

the heat.

12 to 40 V

Unregulated

DC Input

ADDITIONAL APPLICATIONS

Inverting Regulator

shown in Figure 26. This circuit converts a positive input

voltage to a negative output voltage with a common ground

by bootstrapping the regulators ground to the negative output

voltage. By grounding the feedback pin, the regulator senses

the inverted output voltage and regulates it.

–12 V output. The maximum input voltage in this case

cannot exceed +28 V because the maximum voltage

appearing across the regulator is the absolute sum of the

input and output voltages and this must be limited to a

maximum of 40 V.

0.7 A to the output when the input voltage is 12 V or higher. At

lighter loads the minimum input voltage required drops to

approximately 4.7 V, because the buck–boost regulator

topology can produce an output voltage that, in its absolute

value, is either greater or less than the input voltage.

If the actual operating temperature is greater than the

It should be noted that the package thermal resistance and

Other factors are trace width, total printed circuit copper

The size, quantity and spacing of other components on

An inverting buck–boost regulator using the LM2576–12 is

In this example the LM2576–12 is used to generate a

This circuit configuration is able to deliver approximately

100 F

Figure 26. Inverting Buck–Boost Develops –12 V

C in

+V in

MOTOROLA ANALOG IC DEVICE DATA

LM2576–12

Gnd

ON/OFF

Output

Feedback

1N5822

68 H

–12 V @ 0.7 A

Regulated

C out

2200 F

Output

LM2576-12 MOTOROLA [Motorola, Inc], LM2576-12 Datasheet - Page 18

LM2576-12

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