LTC3854 LINER [Linear Technology], LTC3854 Datasheet - Page 14
LTC3854
Manufacturer Part Number
LTC3854
Description
Small Footprint, Wide VIN Range Synchronous Step-Down DC/DC Controller
Manufacturer
LINER [Linear Technology]
Datasheet
1.LTC3854.pdf
(28 pages)
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LTC3854
applicaTions inForMaTion
capacitor C
total input capacitance of the topside MOSFET. The reverse
breakdown of the external Schottky diode must be greater
than V
final arbiter is the total input current for the regulator. If
a change is made and the input current decreases, then
the efficiency has improved. If there is no change in input
current, then there is no change in efficiency.
Undervoltage Lockout
The LTC3854 has two functions that help protect the
controller in case of undervoltage conditions. A precision
UVLO comparator constantly monitors the INTV
to ensure that an adequate gate-drive voltage is present.
Switching action is disabled when INTV
To prevent oscillation caused by a disturbance on INTV
the UVLO comparator has 350mV of hysteresis.
Another way to detect an undervoltage condition is to
monitor the V
turn-on reference of 1.2V, enabling a resistor divider to V
to turn on the IC when V
It is recommended that the resistor divider be used if the
input voltage will be quickly cycled on and off.
C
In forced continuous mode, the source current of the
top N-channel MOSFET is a square wave of duty cycle
V
input capacitor sized for the maximum RMS current must
be used.
The maximum RMS capacitor current is:
This formula has a maximum at V
I
This simple worst-case condition is commonly used for
design because even significant deviations do not offer
much relief. Note that capacitor manufacturers’ ripple
RMS
IN
OUT
I
I
RMS
RMS
Selection
/V
= I
IN(MAX)
IN
OUT
=
=
. To prevent large voltage transients, a low ESR
I
I
OUT
MAX
V
B
/2.
2
IN
needs to be at least 100 times that of the
. When adjusting the gate-drive level, the
IN
supply. The RUN/SS pin has a precision
(
V
OUT
)
• V
IN
(
is above the desired value.
IN
− V
OUT
IN
)
)
= 2•V
CC
1/ 2
is below 3.5V.
OUT
CC
, where
voltage
CC
IN
,
current ratings are often based on only 2000 hours of life.
This makes it advisable to further derate the capacitor or
to choose a capacitor rated at a higher temperature than
required. Several capacitors may also be paralleled to meet
size or height requirements in the design. Always consult
the manufacturer if there is any question.
C
The selection of C
fective series resistance (ESR) to minimize voltage ripple.
The output ripple (∆V
Where f
ripple current in the inductor. The output ripple is highest
at maximum input voltage since ∆I
voltage. Typically, once the ESR requirement for C
been met, the RMS current rating generally far exceeds
the I
allowing 2/3 of the ripple due to ESR, the output ripple
will be less than 50mV at max V
The first condition relates to the ripple current into the
ESR of the output capacitance while the second term guar-
antees that the output capacitance does not significantly
discharge during the operating frequency period due to
ripple current. The choice of smaller output capacitance
increases the ripple voltage due to the discharging term
but can be compensated with capacitors of very low ESR
to maintain the ripple voltage at or below 50mV. The I
OPTI-LOOP compensation components can be optimized
to provide stable, high performance transient response
regardless of the output capacitors selected. The selec-
tion of output capacitors for applications with large load
current transients is primarily determined by the voltage
tolerance specifications of the load. The resistive compo-
nent of the capacitor, ESR, multiplied by the load current
change plus any output voltage ripple must be within the
voltage tolerance of the load.
OUT
C
C
∆V
OUT
RIPPLE(P-P)
OUT
Selection
OUT
SW
Required ESR < 2.2 R
>
= ∆I
8f
= 400kHz, C
SW
L
requirement. With ∆I
R
1
ESR +
SENSE
OUT
OUT
is primarily determined by the ef-
OUT
8 • f
) in continuous mode is:
= output capacitance and ∆I
SW
SENSE
1
• C
IN
OUT
assuming:
L
increases with input
L
= 0.3I
OUT(MAX)
OUT
TH
3854fa
and
has
pin
L
=
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