LM2674N-3.3 National Semiconductor, LM2674N-3.3 Datasheet - Page 12
LM2674N-3.3
Manufacturer Part Number
LM2674N-3.3
Description
DC/DC Converter IC
Manufacturer
National Semiconductor
Specifications of LM2674N-3.3
Input Voltage
40V
Output Current
500mA
Output Voltage
3.3V
No. Of Pins
8
Mounting Type
Through Hole
Voltage Regulator Type
Switching
Output Current Max
500mA
Peak Reflow Compatible (260 C)
No
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
www.national.com
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
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
5. Boost Capacitor (C
This capacitor develops the necessary voltage to turn the switch
gate on fully. All applications should use a 0.01 µF, 50V ceramic
capacitor.
LM2674 Series Buck Regulator Design Procedure (Fixed Output)
1
⁄
2
PROCEDURE (Fixed Output Voltage Version)
the DC load current. The capacitor manufacturer data
B
)
IN
pin.
12
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 x V
The next higher capacitor voltage rating is 16V.
The RMS current rating requirement for the input capacitor in a
buck regulator is approximately
example, with a 500mA load, a capacitor with an 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.
5. Boost Capacitor (C
For this application, and all applications, use a 0.01 µF, 50V
ceramic capacitor.
EXAMPLE (Fixed Output Voltage Version)
B
)
1
⁄
2
the DC load current. In this
IN
) would be needed.
(Continued)
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