LTC3855 LINER [Linear Technology], LTC3855 Datasheet - Page 14
LTC3855
Manufacturer Part Number
LTC3855
Description
Dual, Fast, Accurate Step-Down DC/DC Controller
Manufacturer
LINER [Linear Technology]
Datasheet
1.LTC3855.pdf
(54 pages)
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LTC3838
OPERATION
Main Control Loop
The LTC3838 is a controlled on-time, valley current mode
step-down DC/DC dual controller with two channels
operating out of phase. Each channel drives both main
and synchronous N-channel MOSFETs. The two channels
can be either configured to two independently regulated
outputs, or combined into a single output.
The top MOSFET is turned on for a time interval determined
by a one-shot timer. The duration of the one-shot timer is
controlled to maintain a fixed switching frequency. As the
top MOSFET is turned off, the bottom MOSFET is turned
on after a small delay. The delay, or dead time, is to avoid
both top and bottom MOSFETs being on at the same time,
causing shoot-through current from V
ground. The next switching cycle is initiated when the cur-
rent comparator, I
below the trip level set by voltages at the ITH and V
pins. The bottom MOSFET is turned off immediately and
the top MOSFET on again, restarting the one-shot timer
and repeating the cycle. In order to avoid shoot-through
current, there is also a small dead-time delay before the
top MOSFET turns on. At this moment, the inductor cur-
rent hits its “valley” and starts to rise again.
Inductor current is determined by sensing the voltage
between SENSE
resistor connected in series with the inductor or by implic-
itly sensing the inductor’s DC resistive (DCR) voltage drop
through an RC filter connected across the inductor. The
trip level of the current comparator, I
to the voltage at the ITH pin, with a zero-current threshold
corresponding to an ITH voltage of around 0.8V.
The error amplifier (EA) adjusts this ITH voltage by com-
paring the feedback signal to the internal 0.6V reference
voltage. On Channel 1, the difference amplifier (DIFFAMP)
converts the differential feedback signal (V
V
uses V
regulated so that the feedback voltage is equal to the internal
0.6V reference. If the load current increases/decreases, it
causes a momentary drop/rise in the differential feedback
voltage relative to the reference. The EA then moves ITH
14
OUTSENSE1
FB2
directly with respect to SGND. Output voltage is
–
) to a single-ended input for the EA; Channel 2
+
and SENSE
CMP
(Refer to Functional Diagram)
, senses that inductor current falls
–
, either by using an explicit
CMP
IN
directly to power
, is proportional
OUTSENSE1
RNG
+
–
voltage, or inductor valley current setpoint, higher/lower
until the average inductor current again matches the load
current, so that the output voltage comes back to the
regulated voltage.
The LTC3838 features a detect transient (DTR) pin to detect
“load-release”, or a transient where the load current sud-
denly drops, by monitoring the first derivative of the ITH
voltage. When detected, the bottom gate (BG) is turned
off and inductor current flows through the body diode
in the bottom MOSFET, allowing the SW node voltage to
drop below PGND by the body diode’s forward-conduction
voltage. This creates a more negative differential voltage
(V
current to drop faster to zero, thus creating less overshoot
on V
tions Information for details.
Differential Output Sensing
This dual controller’s first channel features differential
output voltage sensing. The output voltage is resistively
divided externally to create a feedback voltage for the con-
troller. The internal difference amplifier (DIFFAMP) senses
this feedback voltage with respect to the output’s remote
ground reference to create a differential feedback voltage.
This scheme eliminates any ground offsets between local
ground and remote output ground, resulting in a more
accurate output voltage. Channel 1 allows remote output
ground to deviate as much as ±500mV with respect to
local ground (SGND).
DRV
DRV
Normally the two DRV
the PCB, and decoupled to PGND with a minimum 4.7μF
ceramic capacitor, C
biased from the floating bootstrap capacitors (C
which are recharged during each cycle through an external
Schottky diode when the top MOSFET turns off and the
SW pin swings down.
The DRV
dropout (LDO) linear voltage regulator that is powered
SW
OUT
CC
CC1,2
– V
/EXTV
. See Load-Release Transient Detection in Applica-
CC
OUT
are the power for the bottom MOSFET drivers.
can be powered on two ways: an internal low-
) across the inductor, allowing the inductor
CC
/INTV
DRVCC
CC
CC
Power
. The top MOSFET drivers are
pins are shorted together on
B1,2
3838fa
)
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