LTC3605 LINER [Linear Technology], LTC3605 Datasheet - Page 11
LTC3605
Manufacturer Part Number
LTC3605
Description
20V, 5A Synchronous Step-Down Regulator
Manufacturer
LINER [Linear Technology]
Datasheet
1.LTC3605.pdf
(20 pages)
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OPERATION
Using Ceramic Input and Output Capacitors
Higher values, lower cost ceramic capacitors are now
becoming available in smaller case sizes. Their high ripple
current, high voltage rating and low ESR make them ideal
for switching regulator applications. However, care must
be taken when these capacitors are used at the input and
output. When a ceramic capacitor is used at the input
and the power is supplied by a wall adapter through long
wires, a load step at the output can induce ringing at the
V
be mistaken as loop instability. At worst, a sudden inrush
of current through the long wires can potentially cause a
voltage spike at V
When choosing the input and output ceramic capacitors,
choose the X5R and X7R dielectric formulations. These
dielectrics have the best temperature and voltage charac-
teristics of all the ceramics for a given value and size.
Since the ESR of a ceramic capacitor is so low, the input
and output capacitor must instead fulfill a charge storage
requirement. During a load step, the output capacitor must
instantaneously supply the current to support the load
until the feedback loop raises the switch current enough
to support the load. The time required for the feedback
loop to respond is dependent on the compensation and the
output capacitor size. Typically, 3 to 4 cycles are required
to respond to a load step, but only in the first cycle does
the output drop linearly. The output droop, V
usually about 2 to 3 times the linear drop of the first cycle.
Thus, a good place to start with the output capacitor value
is approximately:
More capacitance may be required depending on the duty
cycle and load step requirements.
In most applications, the input capacitor is merely required
to supply high frequency bypassing, since the impedance to
the supply is very low. A 22µF ceramic capacitor is usually
enough for these conditions. Place this input capacitor as
close to the PV
IN
C
input. At best, this ringing can couple to the output and
OUT
≈ 2.5
f
O
IN
• V
DI
pins as possible.
IN
OUT
DROOP
large enough to damage the part.
DROOP
, is
Inductor Selection
Given the desired input and output voltages, the induc-
tor value and operating frequency determine the ripple
current:
Lower ripple current reduces core losses in the inductor,
ESR losses in the output capacitors and output voltage
ripple. Highest efficiency operation is obtained at low
frequency with small ripple current. However, achieving
this requires a large inductor. There is a trade-off between
component size, efficiency and operating frequency.
A reasonable starting point is to choose a ripple current
that is about 50% of I
tant at low V
Care must be given to choose an inductance value that
will generate a big enough current ripple (40% to 50%)
so that the chip’s valley current comparator has enough
signal-to-noise ratio to force constant switching frequency.
Meanwhile, also note that the largest ripple current occurs
at the highest V
not exceed a specified maximum, the inductance should
be chosen according to:
Once the value for L is known, the type of inductor must
be selected. Actual core loss is independent of core size
for a fixed inductor value, but is very dependent on the
inductance selected. As the inductance or frequency in-
creases, core losses decrease. Unfortunately, increased
inductance requires more turns of wire and therefore
copper losses will increase.
Ferrite designs have very low core losses and are pre-
ferred at high switching frequencies, so design goals can
concentrate on copper loss and preventing saturation.
Ferrite core material saturates “hard”, which means that
L =
DI
L
f • DI
=
V
f • L
V
OUT
OUT
L(MAX)
OUT
IN
1–
operation where V
. To guarantee that ripple current does
• 1–
V
IN(MAX)
V
OUT(MAX)
OUT
V
IN(MAX)
V
OUT
. This is especially impor-
OUT
LTC3605A
is 1.8V or below.
11
3605af
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