LTC3411 Linear Technology, LTC3411 Datasheet - Page 12
LTC3411
Manufacturer Part Number
LTC3411
Description
1.25A/ 4MHz/ Synchronous Step-Down DC/DC Converter
Manufacturer
Linear Technology
Datasheet
1.LTC3411.pdf
(20 pages)
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APPLICATIO S I FOR ATIO
LTC3411
The LTC3411 can also be synchronized to an external
clock signal by the SYNC/MODE pin. The internal oscillator
frequency should be set to 20% lower than the external
clock frequency to ensure adequate slope compensation,
since slope compensation is derived from the internal
oscillator. During synchronization, the mode is set to
pulse skipping and the top switch turn on is synchronized
to the rising edge of the external clock.
Checking Transient Response
The OPTI-LOOP compensation allows the transient re-
sponse to be optimized for a wide range of loads and
output capacitors. The availability of the I
allows optimization of the control loop behavior but also
provides a DC coupled and AC filtered closed loop re-
sponse test point. The DC step, rise time and settling at this
test point truly reflects the closed loop response. Assum-
ing a predominantly second order system, phase margin
and/or damping factor can be estimated using the percent-
age of overshoot seen at this pin. The bandwidth can also
be estimated by examining the rise time at the pin.
The I
will provide an adequate starting point for most applica-
tions. The series R-C filter sets the dominant pole-zero
loop compensation. The values can be modified slightly
(from 0.5 to 2 times their suggested values) to optimize
transient response once the final PC layout is done and the
particular output capacitor type and value have been
determined. The output capacitors need to be selected
12
TH
external components shown in the Figure 1 circuit
TO 5.5V
2.5V
V
IN
U
SGND
PGND
U
C6
C
ITH
PGND
SGND
+
W
C
IN
C
C8
C
R
C
SGND
SGND
TH
Figure 5. LTC3411 General Schematic
R6
pin not only
SV
SYNC/MODE
I
SGND PGND
TH
U
IN
GND
LTC3411
PV
IN
SHDN/R
PGOOD
V
SW
FB
because the various types and values determine the loop
feedback factor gain and phase. An output current pulse of
20% to 100% of full load current having a rise time of 1 s
to 10 s will produce output voltage and I
that will give a sense of the overall loop stability without
breaking the feedback loop.
Switching regulators take several cycles to respond to a
step in load current. When a load step occurs, V
immediately shifts by an amount equal to I
where ESR is the effective series resistance of C
ing a feedback error signal used by the regulator to return
V
V
indicate a stability problem.
The initial output voltage step may not be within the
bandwidth of the feedback loop, so the standard second
order overshoot/DC ratio cannot be used to determine
phase margin. The gain of the loop increases with R and
the bandwidth of the loop increases with decreasing C. If
R is increased by the same factor that C is decreased, the
zero frequency will be kept the same, thereby keeping the
phase the same in the most critical frequency range of the
feedback loop. In addition, a feedforward capacitor C
be added to improve the high frequency response, as
shown in Figure 5. Capacitor C
creating a high frequency zero with R2 which improves the
phase margin.
T
OUT
OUT
I
LOAD
SGND SGND
can be monitored for overshoot or ringing that would
to its steady-state value. During this recovery time,
R5
R
D1
OPTIONAL
T
also begins to charge or discharge C
L1
PGOOD
R1
C
F
R2
PGND
+
C
OUT
F
provides phase lead by
PGND
3411 F05
C5
TH
V
OUT
pin waveforms
OUT
LOAD
sn3411 3411fs
generat-
• ESR,
F
OUT
OUT
can
.
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