ltc3770 Linear Technology Corporation, ltc3770 Datasheet - Page 14
ltc3770
Manufacturer Part Number
ltc3770
Description
Fast No Rsense Step-down Synchronous Controller With Margining, Tracking And Pll
Manufacturer
Linear Technology Corporation
Datasheet
1.LTC3770.pdf
(24 pages)
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APPLICATIO S I FOR ATIO
LTC3770
A reasonable starting point is to choose a ripple current
that is about 40% of I
occurs at the highest V
does 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. High efficiency converters generally cannot
afford the core loss found in low cost powdered iron
cores, forcing the use of more expensive ferrite, molyper-
malloy or Kool Mµ
for high current, low voltage applications are available
from manufacturers such as Sumida, Panasonic, Coil-
tronics, Coilcraft and Toko.
Schottky Diode D1 Selection
The Schottky diode D1 shown in Figure 12 conducts
during the dead time between the conduction of the power
MOSFET switches. It is intended to prevent the body diode
of the bottom MOSFET from turning on and storing charge
during the dead time, which can cause a modest (about
1%) efficiency loss. The diode can be rated for about one
half to one fifth of the full load current since it is on for only
a fraction of the duty cycle. In order for the diode to be
effective, the inductance between it and the bottom MOS-
FET must be as small as possible, mandating that these
components be placed adjacently. The diode can be omit-
ted if the efficiency loss is tolerable.
C
The input capacitance C
wave current at the drain of the top MOSFET. Use a low
ESR capacitor sized to handle the maximum RMS current.
This formula has a maximum at V
I
commonly used for design because even significant
14
RMS
IN
I
L
RMS
and C
=
= I
⎛
⎜
⎝
OUT(MAX)
≅
f I
OUT
∆
I
OUT MAX
V
OUT
L MAX
(
Selection
(
/ 2. This simple worst-case condition is
®
)
U
⎞
⎟
⎠
)
cores. A variety of inductors designed
⎛
⎜
⎝
V
OUT(MAX)
1
V
OUT
IN
IN
−
IN
. To guarantee that ripple current
V
U
IN MAX
is required to filter the square
V
OUT
(
V
V
OUT
. The largest ripple current
IN
)
⎞
⎟
⎠
– 1
W
IN
= 2V
OUT
U
, where
deviations do not offer much relief. Note that ripple
current ratings from capacitor manufacturers are often
based on only 2000 hours of life which makes it advisable
to derate the capacitor.
The selection of C
required to minimize voltage ripple and load step
transients. The output ripple ∆V
bounded by:
Since ∆I
highest at maximum input voltage. Typically, once the ESR
requirement is satisfied, the capacitance is adequate for
filtering and has the necessary RMS current rating.
Multiple capacitors placed in parallel may be needed to
meet the ESR and RMS current handling requirements.
Dry tantalum, special polymer, aluminum electrolytic and
ceramic capacitors are all available in surface mount
packages. Special polymer capacitors offer very low ESR
but have lower capacitance density than other types.
Tantalum capacitors have the highest capacitance density
but it is important to only use types that have been surge
tested for use in switching power supplies. Aluminum
electrolytic capacitors have significantly higher ESR, but
can be used in cost-sensitive applications providing that
consideration is given to ripple current ratings and long
term reliability. Ceramic capacitors have excellent low
ESR characteristics but can have a high voltage coefficient
and audible piezoelectric effects. The high Q of ceramic
capacitors with trace inductance can also lead to signifi-
cant ringing. When used as input capacitors, care must be
taken to ensure that ringing from inrush currents and
switching does not pose an overvoltage hazard to the
power switches and controller. To dampen input voltage
transients, add a small 5µF to 50µF aluminum electrolytic
capacitor with an ESR in the range of 0.5Ω to 2Ω. High
performance through-hole capacitors may also be used,
but an additional ceramic capacitor in parallel is recom-
mended to reduce the effect of their lead inductance.
∆
V
OUT
L
increases with input voltage, the output ripple is
≤ ∆
I ESR
L
⎛
⎜
⎝
OUT
is primarily determined by the ESR
+
8
fC
1
OUT
⎞
⎟
⎠
OUT
is approximately
3770fb
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