LTC1878 LINER [Linear Technology], LTC1878 Datasheet - Page 13
LTC1878
Manufacturer Part Number
LTC1878
Description
High Efficiency Monolithic Synchronous Step-Down Regulator
Manufacturer
LINER [Linear Technology]
Datasheet
1.LTC1878.pdf
(16 pages)
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APPLICATIO S I FOR ATIO
A second, more severe transient is caused by switching in
loads with large (>1 F) supply bypass capacitors. The
discharged bypass capacitors are effectively put in parallel
with C
deliver enough current to prevent this problem if the load
switch resistance is low and it is driven quickly. The only
solution is to limit the rise time of the switch drive so that
the load rise time is limited to approximately (25 • C
Thus, a 10 F capacitor charging to 3.3V would require a
250 s rise time, limiting the charging current to about
130mA.
PC Board Layout Checklist
When laying out the printed circuit board, the following
checklist should be used to ensure proper operation of the
LTC1878. These items are also illustrated graphically in
the layout diagram of Figure 7. Check the following in your
layout:
1. Are the signal and power grounds segregated? The
2. Does the V
3. Does the (+) plate of C
4. Keep the switching node SW away from sensitive small
LTC1878 signal ground consists of the resistive
divider, the optional compensation network (R
C
plate of C
LTC1878. The power ground traces should be kept
short, direct and wide. The signal ground and power
ground should converge to a common node in a star-
ground configuration.
resistors? The resistive divider R1/R2 must be con-
nected between the (+) plate of C
possible? This capacitor provides the AC current to the
internal power MOSFETs.
signal nodes.
C1
OUT
) and C
, causing a rapid drop in V
IN
C2
, the (–) plate of C
FB
. The power ground consists of the (–)
pin connect directly to the feedback
U
U
IN
connect to V
OUT
W
OUT
OUT
and signal ground.
. No regulator can
and Pin 4 of the
IN
as closely as
U
LOAD
C
and
).
Design Example
As a design example, assume the LTC1878 is used in a
single lithium-ion battery-powered cellular phone applica-
tion. The input voltage will be operating from a maximum
of 4.2V down to about 2.7V. The load current requirement
is a maximum of 0.3A but most of the time it will be in
standby mode, requiring only 2mA. Efficiency at both low
and high load currents is important. Output voltage is
2.5V. With this information we can calculate L using
equation (1),
Substituting V
f = 550kHz in equation (3) gives:
A 15 H inductor works well for this application. For best
efficiency choose a 1A inductor with less than 0.25
series resistance.
C
temperature and C
0.25 . In most applications, the requirements for these
capacitors are fairly similar.
For the feedback resistors, choose R1 = 412k. R2 can
then be calculated from equation (2) to be:
Figure 8 shows the complete circuit along with its effi-
ciency curve.
IN
L
L
R
will require an RMS current rating of at least 0.15A at
2
550
f
V
1
0 8
kHz
OUT
.
I
L
2 5
.
OUT
(
V
120
V
OUT
1 1 875 5
= 2.5V, V
OUT
mA
R
1
)
will require an ESR of less than
1
V
V
OUT
IN
IN
2 5
4 2
. ;
.
.
k use
= 4.2V, I
V
V
15 3
8
87k
LTC1878
.
L
=120mA and
H
13
(3)
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