lt3742 Linear Technology Corporation, lt3742 Datasheet - Page 13
lt3742
Manufacturer Part Number
lt3742
Description
Dual, 2-phase Step-down Switching Controller
Manufacturer
Linear Technology Corporation
Datasheet
1.LT3742.pdf
(24 pages)
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APPLICATIONS INFORMATION
operation would reduce the RMS input capacitor current
from ~1.8A
reduction by itself, remember that power losses are pro-
portional to I
due to the input capacitor is reduced by a factor of ~4.
Figure 5 shows the reduction in RMS ripple current for a
typical application.
The reduced input ripple current also means that less
power is lost in the input power path. Improvements in
both conducted and radiated EMI also directly accrue as
a result of the reduced RMS input current and voltage.
Signifi cant cost and board footprint savings are also real-
ized by being able to use smaller, less expensive, lower
RMS current-rated input capacitors.
Of course, the improvement afforded by 2-phase opera-
tion is a function of the relative duty cycles of the two
controllers, which in turn, are dependent upon the input
voltage (DC ≈ V
It can be readily seen that the advantages of 2-phase op-
eration are not limited to a narrow operating range, but in
fact extend over a wide region. A good rule of thumb for
most applications is that 2-phase operation will reduce the
input capacitor requirement to that for just one channel
operating at maximum current and 50% duty cycle.
RMS
RMS
OUT
to ~0.8A
2
, meaning that the actual power wasted
/V
IN
).
RMS
. While this is an impressive
Figure 5. RMS Input Current Comparison
3.0
2.5
2.0
1.5
1.0
0.5
0
0
V
V
O1
O2
= 5V/3A
= 3.3V/3A
10
INPUT VOLTAGE (V)
DUAL CONTROLLER
SINGLE PHASE
DUAL CONTROLLER
2-PHASE
20
Inductor Value Selection
The inductor value directly affects inductor ripple current,
I
ripple current reduces core losses in the inductor, ESR
losses in the output capacitors and output voltage ripple.
Too large of a value, however, will result in a physically
large inductor. A good tradeoff is to choose the inductor
ripple current to be ~30% of the maximum output current.
This will provide a good tradeoff between the inductor
size, maximum output current, and the amount of ripple
current. Note that the largest ripple current occurs at the
highest the input voltage, so applications with a wide V
range should consider both V
calculating the inductor value:
This equation provides a good starting point for pick-
ing the inductor value. Most systems can easily tolerate
ripple currents in the range of 10% to 50%, so deviating
slightly from the calculated value is acceptable for most
applications. Pick a standard value inductor close to the
RIPPLE
L
≥
30
, and maximum output current, I
0 3
. •
V
3742 F05
IN
I
40
OUT MAX
–
V
OUT
(
)
•
V
V
OUT
IN
IN(TYP)
•
500
1
kHz
and V
OUT(MAX)
LT3742
IN(MAX)
. Lower
13
when
3742f
IN
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