LM2671MX-5.0 National Semiconductor, LM2671MX-5.0 Datasheet - Page 11

LM2671MX-5.0

Manufacturer Part Number

LM2671MX-5.0

Description

IC,SMPS CONTROLLER,VOLTAGE-MODE,BIPOLAR/MOS,SOP,8PIN,PLASTIC

Manufacturer

National Semiconductor

Datasheets

1.LM2671LDX-ADJ.pdf (24 pages)

2.LM2671N-ADJ.pdf (26 pages)

3.LM2671MX-5.0.pdf (26 pages)

Specifications of LM2671MX-5.0

Rohs Compliant

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The capacitor list contains through-hole electrolytic capacitors from

four different capacitor manufacturers and surface mount tantalum

capacitors from two different capacitor manufacturers. It is

recommended that both the manufacturers and the manufacturer's

series that are listed in the table be used. A table listing the

manufacturers' phone numbers is located in Figure 11.

3. Catch Diode Selection (D1)

A. In normal operation, the average current of the catch diode is

the load current times the catch diode duty cycle, 1-D (D is the

switch duty cycle, which is approximately the output voltage divided

by the input voltage). The largest value of the catch diode average

current occurs at the maximum load current and maximum input

voltage (minimum D). For normal operation, the catch diode current

rating must be at least 1.3 times greater than its maximum average

current. However, if the power supply design must withstand a

continuous output short, the diode should have a current rating

equal to the maximum current limit of the LM2671. The most

stressful condition for this diode is a shorted output condition.

B. The reverse voltage rating of the diode should be at least 1.25

times the maximum input voltage.

C. Because of their fast switching speed and low forward voltage

drop, Schottky diodes provide the best performance and efficiency.

This Schottky diode must be located close to the LM2671 using

short leads and short printed circuit traces.

4. Input Capacitor (C

A low ESR aluminum or tantalum bypass capacitor is needed

between the input pin and ground to prevent large voltage

transients from appearing at the input. This capacitor should be

located close to the IC using short leads. In addition, the RMS

current rating of the input capacitor should be selected to be at least

½ the DC load current. The capacitor manufacturer data sheet must

be checked to assure that this current rating is not exceeded. The

curves shown in Figure 14 show typical RMS current ratings for

several different aluminum electrolytic capacitor values. A parallel

connection of two or more capacitors may be required to increase

the total minimum RMS current rating to suit the application

requirements.

For an aluminum electrolytic capacitor, the voltage rating should be

at least 1.25 times the maximum input voltage. Caution must be

exercised if solid tantalum capacitors are used. The tantalum

capacitor voltage rating should be twice the maximum input

voltage. The tables in Figure 15 show the recommended

application voltage for AVX TPS and Sprague 594D tantalum

capacitors. It is also recommended that they be surge current

tested by the manufacturer. The TPS series available from AVX,

and the 593D and 594D series from Sprague are all surge current

tested. Another approach to minimize the surge current stresses

on the input capacitor is to add a small inductor in series with the

input supply line.

Use caution when using ceramic capacitors for input bypassing,

because it may cause severe ringing at the V

PROCEDURE (Fixed Output Voltage Version)

)

pin.

Surface Mount:

68 μF/10V Sprague 594D Series.

100 μF/10V AVX TPS Series.

Through Hole:

68 μF/10V Sanyo OS-CON SA Series.

150 μF/35V Sanyo MV-GX Series.

150 μF/35V Nichicon PL Series.

150 μF/35V Panasonic HFQ Series.

3. Catch Diode Selection (D1)

A. Refer to the table shown in Figure 12. In this example, a 1A,

20V Schottky diode will provide the best performance. If the circuit

must withstand a continuous shorted output, a higher current

Schottky diode is recommended.

4. Input Capacitor (C

The important parameters for the input capacitor are the input

voltage rating and the RMS current rating. With a maximum input

voltage of 12V, an aluminum electrolytic capacitor with a voltage

rating greater than 15V (1.25 × V

higher capacitor voltage rating is 16V.

The RMS current rating requirement for the input capacitor in a

buck regulator is approximately ½ the DC load current. In this

example, with a 500 mA load, a capacitor with a RMS current rating

of at least 250 mA is needed. The curves shown in Figure 14 can

be used to select an appropriate input capacitor. From the curves,

locate the 16V line and note which capacitor values have RMS

current ratings greater than 250 mA.

For a through hole design, a 100 μF/16V electrolytic capacitor

(Panasonic HFQ series, Nichicon PL, Sanyo MV-GX series or

equivalent) would be adequate. Other types or other

manufacturers' capacitors can be used provided the RMS ripple

current ratings are adequate. Additionally, for a complete surface

mount design, electrolytic capacitors such as the Sanyo CV-C or

CV-BS and the Nichicon WF or UR and the NIC Components NACZ

series could be considered.

For surface mount designs, solid tantalum capacitors can be used,

but caution must be exercised with regard to the capacitor surge

current rating and voltage rating. In this example, checking Figure

15, and the Sprague 594D series datasheet, a Sprague 594D 15

μF, 25V capacitor is adequate.

EXAMPLE (Fixed Output Voltage Version)

)

) would be needed. The next

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LM2671MX-5.0 National Semiconductor, LM2671MX-5.0 Datasheet - Page 11

LM2671MX-5.0

Specifications of LM2671MX-5.0

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