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LTC3409 Datasheet, PDF (14/16 Pages) Linear Technology – 600mA Low Vin Buck Regulator in 3mm x 3mm DFN
LTC3409
APPLICATIO S I FOR ATIO
Design Example
As a design example, assume the LTC3409 is used in a
2-alkaline cell battery-powered application. The VIN will be
operating from a maximum of 3.2V down to about 1.8V.
The load current requirement is a maximum of 600mA 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 1.5V. With this information
we can calculate L using Equation 2:
L
=
f
1
• ∆IL
VOUT ⎛⎝⎜ 1–
VOUT
VIN
⎞
⎠⎟
(2)
Substituting VOUT = 1.5V, VIN = 3.2V, ∆IL = 240mA and
f = 1.7MHz in Equation 2 gives:
L
=
1
1.7MHz • 240mA
1.5⎛⎝⎜1–
13..52⎞⎠⎟
≅
2.2µH
For best efficiency choose a 750mA or greater inductor
with less than 0.3Ω series resistance. CIN will require an
RMS current rating of at least 0.3A ≅ ILOAD(MAX)/2 at
temperature.
For the feedback resistors, choose R2 = 133k. R1 can then
be calculated from Equation 2 at 191K. Figure 4 shows the
complete circuit along with its efficiency curve.
Table 2 below gives 1% resistor values for selected output
voltages.
VOUT
R1
R2
0.85V
51.1k
133k
1.2V
127k
133k
1.5V
191k
133k
1.8V
255k
133k
VIN
1.6V TO 5.5V
CIN
4.7µF
R2
133k
LTC3409
VFB SYNC
GND RUN
VIN
SW
VIN MODE
L1
2.2µH
R1
191k
3409 F04
L1: SUMIDA CDRH2D18/LD
COUT
10µF
CER
VOUT
1.5V
0.6A
C1
10pF
Figure 4
Burst Mode Efficiency, 1.5VOUT
100
90 1.8VIN
80
3.2VIN
70
2.5VIN
60
50
40
30
20
10
0
0.1
1
10
100
1000
LOAD CURRENT (mA)
3409 F04b
3409f
14