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| 型号: | LM2594-ADJMWC |
| 厂商: | NATIONAL SEMICONDUCTOR CORP |
| 元件分类: | 稳压器 |
| 英文描述: | 1.4 A SWITCHING REGULATOR, 173 kHz SWITCHING FREQ-MAX, UUC |
| 封装: | WAFER |
| 文件页数: | 4/33页 |
| 文件大小: | 837K |
| 代理商: | LM2594-ADJMWC |
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LM2594/LM2594HV Series Buck Regulator Design Procedure (Adjustable
Output) (Continued)
PROCEDURE (Adjustable Output Voltage Version)
EXAMPLE (Adjustable Output Voltage Version)
1. Programming Output Voltage (Selecting R
1 and R2,as
shown in
Figure 1.
Use the following formula to select the appropriate resistor
values.
Select a value for R
1 between 240 and 1.5 k. The lower
resistor values minimize noise pickup in the sensitive feed-
back pin. (For the lowest temperature coefficient and the best
stability with time, use 1% metal film resistors.)
1. Programming Output Voltage (Selecting R
1 and R2,as
shown in
Figure 1 )
Select R
1 to be 1 k, 1%. Solve for R2.
R
2 = 1k (16.26 1) = 15.26k, closest 1% value is 15.4 k.
R
2 = 15.4 k.
2. Inductor Selection (L1)
A. Calculate the inductor Volt microsecond constant
E
T(V s) , from the following formula:
where V
SAT = internal switch saturation voltage = 0.9V
and V
D = diode forward voltage drop = 0.5V
B. Use the E
T value from the previous formula and match
it with the E
T number on the vertical axis of the Inductor
Value Selection Guide shown in
Figure 7.
C. on the horizontal axis, select the maximum load current.
D. Identify the inductance region intersected by the E
T
value and the Maximum Load Current value. Each region is
identified by an inductance value and an inductor code
(LXX).
E. Select an appropriate inductor from the four manufactur-
er’s part numbers listed in
Figure 8.
2. Inductor Selection (L1)
A. Calculate the inductor Volt
microsecond constant (E T)
,
B. E
T = 35.2 (V s)
C. I
LOAD(max) = 0.5A
D. From the inductor value selection guide shown in
Figure 7,
the inductance region intersected by the 35 (V
s) horizon-
tal line and the 0.5A vertical line is 150 H, and the inductor
code is L19.
E. From the table in
Figure 8, locate line L19, and select an
inductor part number from the list of manufacturers part num-
bers.
3. Output Capacitor Selection (C
OUT)
A. In the majority of applications, low ESR electrolytic or solid
tantalum capacitors between 82 F and 220 F provide the
best results. This capacitor should be located close to the IC
using short capacitor leads and short copper traces. Do not
use capacitors larger than 220 F. For additional informa-
tion, see section on output capacitors in application in-
formation section.
B. To simplify the capacitor selection procedure, refer to the
quick design table shown in
Figure 3. This table contains dif-
ferent output voltages, and lists various output capacitors
that will provide the best design solutions.
C. The capacitor voltage rating should be at least 1.5 times
greater than the output voltage, and often much higher volt-
age ratings are needed to satisfy the low ESR requirements
needed for low output ripple voltage.
3. Output Capacitor SeIection (C
OUT)
A. See section on C
OUT in Application Information section.
B. From the quick design table shown in
Figure 3, locate the
output voltage column. From that column, locate the output
voltage closest to the output voltage in your application. In
this example, select the 24V line. Under the output capacitor
section, select a capacitor from the list of through hole elec-
trolytic or surface mount tantalum types from four different
capacitor manufacturers. It is recommended that both the
manufacturers and the manufacturers series that are listed in
the table be used.
In this example, through hole aluminum electrolytic capaci-
tors from several different manufacturers are available.
82 F
50V
Panasonic HFQ Series
120 F
50V
Nichicon PL Series
C. For a 20V output, a capacitor rating of at least 30V or
more is needed. In this example, either a 35V or 50V capaci-
tor would work. A 50V rating was chosen because it has a
lower ESR which provides a lower output ripple voltage.
Other manufacturers or other types of capacitors may also
be used, provided the capacitor specifications (especially the
100 kHz ESR) closely match the types listed in the table. Re-
fer to the capacitor manufacturers data sheet for this informa-
tion.
LM2594/LM2594HV
www.national.com
12
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