LM2676T-ADJ National Semiconductor, LM2676T-ADJ Datasheet - Page 12

LM2676T-ADJ

Manufacturer Part Number

LM2676T-ADJ

Description

DC/DC Converter IC

Manufacturer

National Semiconductor

Datasheets

1.LM2676T-ADJ.pdf (25 pages)

2.LM2676T-ADJ.pdf (25 pages)

3.LM2676T-ADJ.pdf (23 pages)

Specifications of LM2676T-ADJ

Input Voltage

40V

Output Current

Output Voltage

37V

No. Of Pins

Termination Type

Through Hole

Mounting Type

Through Hole

Voltage Regulator Type

Switching

Output Current Max

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Application Hints

From Table 1, L33 in a through-hole component is available

from Renco with part number RL-1283-22-43 or part number

PE-53933 from Pulse Engineering.

Step 4: Use Table 3 to determine an output capacitor. With a

3.3V output and a 22µH inductor there are four through-hole

output capacitor solutions with the number of same type ca-

pacitors to be paralleled and an identifying capacitor code

given. Table 2 provides the actual capacitor characteristics.

Any of the following choices will work in the circuit:

1 x 220µF/10V Sanyo OS-CON (code C5)

1 x 1000µF/35V Sanyo MV-GX (code C10)

1 x 2200µF/10V Nichicon PL (code C5)

1 x 1000µF/35V Panasonic HFQ (code C7)

Step 5: Use Table 4 to select an input capacitor. With 3.3V

output and 22µH there are three through-hole solutions.

These capacitors provide a sufficient voltage rating and an

rms current rating greater than 1.25A (1/2 I

using Table 2 for specific component characteristics the fol-

lowing choices are suitable:

1 x 1000µF/63V Sanyo MV-GX (code C14)

1 x 820µF/63V Nichicon PL (code C24)

1 x 560µF/50V Panasonic HFQ (code C13)

Step 6: From Table 5 a 3A Schottky diode must be selected.

For through-hole components 20V rated diodes are sufficient

and 2 part types are suitable:

1N5820

SR302

Step 7: A 0.01µF capacitor will be used for Cboost.

ADJUSTABLE OUTPUT DESIGN EXAMPLE

In this example it is desired to convert the voltage from a two

battery automotive power supply (voltage range of 20V to

28V, typical in large truck applications) to the 14.8VDC alter-

nator supply typically used to power electronic equipment

from single battery 12V vehicle systems. The load current re-

quired is 2A maximum. It is also desired to implement the

power supply with all surface mount components.

Step 1: Operating conditions are:

Vout = 14.8V

Vin max = 28V

Iload max = 2A

Step 2: Select an LM2676S-ADJ. To set the output voltage

to 14.9V two resistors need to be chosen (R1 and R2 in Fig-

ure 2 ). For the adjustable device the output voltage is set by

the following relationship:

Where V

A recommended value to use for R1 is 1K. In this example

then R2 is determined to be:

R2 = 11.23K

The closest standard 1% tolerance value to use is 11.3K

This will set the nominal output voltage to 14.88V which is

within 0.5% of the target value.

is the feedback voltage of typically 1.21V.

(Continued)

load

max). Again

Step 3: To use the nomograph for the adjustable device, Fig-

ure

Volt • microsecond constant (E • T expressed in V • µS) from

the following formula:

where V

switch which is R

be typically 0.15

across the forward bisased Schottky diode, typically 0.5V.

The switching frequency of 260KHz is the nominal value to

use to estimate the ON time of the switch during which en-

ergy is stored in the inductor.

For this example E • T is found to be:

Using Figure 6 , the intersection of 27V • µS horizontally and

the 2A vertical line (I

ductor, should be used.

From Table 1, L38 in a surface mount component is available

from Pulse Engineering with part number PE-54038S.

Step 4: Use Table 6 to determine an output capacitor. With a

14.8V output the 12.5 to 15V row is used and with a 68µH in-

ductor there are three surface mount output capacitor solu-

tions. Table 2 provides the actual capacitor characteristics

based on the C Code number. Any of the following choices

can be used:

1 x 33µF/20V AVX TPS (code C6)

1 x 47µF/20V Sprague 594 (code C8)

1 x 47µF/20V Kemet T495 (code C8)

Important Note: When using the adjustable device in low

voltage applications (less than 3V output), if the nomograph,

Figure 6, selects an inductance of 22µH or less, Table 6 does

not provide an output capacitor solution. With these condi-

tions the number of output capacitors required for stable op-

eration becomes impractical. It is recommended to use ei-

ther a 33µH or 47µH inductor and the output capacitors from

Table 6.

Step 5: An input capacitor for this example will require at

least a 35V WV rating with an rms current rating of 1A (1/2

Iout max). From Table 2 it can be seen that C12, a 33µF/35V

capacitor from Sprague, has the required voltage/current rat-

ing of the surface mount components.

Step 6: From Table 5 a 3A Schottky diode must be selected.

For surface mount diodes with a margin of safety on the volt-

age rating one of five diodes can be used:

SK34

30BQ040

30WQ04F

MBRS340

MBRD340

Step 7: A 0.01µF capacitor will be used for Cboost.

6 ,

SAT

requires

is the voltage drop across the internal power

ds(ON)

x 2A or 0.3V and V

load

times I

max) indicates that L38 , a 68µH in-

calculation

load

. In this example this would

is the voltage drop

the

inductor

LM2676T-ADJ National Semiconductor, LM2676T-ADJ Datasheet - Page 12

LM2676T-ADJ

Specifications of LM2676T-ADJ

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