LTC3615 LINER [Linear Technology], LTC3615 Datasheet - Page 19
LTC3615
Manufacturer Part Number
LTC3615
Description
Dual 4MHz, 3A Synchronous Step-Down DC/DC Converter
Manufacturer
LINER [Linear Technology]
Datasheet
1.LTC3615.pdf
(32 pages)
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applicaTions inForMaTion
Output Voltage Programming
The output voltages are set by external resistive dividers.
For example, V
equation:
The resistive divider allows pin V
the output voltage as shown in Figure 3.
Burst Clamp Programming
If the voltage on the MODE pin is less than 0.8V, Burst
Mode operation is enabled. If the voltage on the MODE pin
is less than 0.3V, the internal default burst clamp level is
selected. The minimum voltage on the ITH pin is typically
525mV (internal clamp).
If the voltage is between 0.45V and 0.8V, the voltage on
the MODE pin (V
on the ITH pin (external clamp) and determines the burst
clamp level I
When the ITH voltage falls below the internal (or external)
clamp voltage, the sleep state is entered. As the output
load current drops, the peak inductor current decreases
to keep the output voltage in regulation. When the output
load current demands a peak inductor current that is less
than I
current to remain equal to I
reductions in the load current.
Since the average inductor current is greater than the
output load current, the voltage on the ITH pin will
decrease. When the ITH voltage drops, sleep mode is
enabled in which both power switches are shut off along
with most of the circuitry to minimize power consumption.
All circuitry is turned back on and the power switches
resume operation when the output voltage drops out of
regulation. The value for I
desired amount of output voltage ripple. As the value of
I
the output voltage ripple increase. It is recommend to
use Burst Mode operation with internal clamp for tem-
peratures above 85°C ambient.
BURST
V
OUT2
BURST
increases, the sleep period between pulses and
=
, the burst clamp will force the peak inductor
0 6
BURST
.
OUT2
V
BURST
•
(typically from 1A to 3.5A).
can be set according to the following
1
+
) is equal to the minimum voltage
R
R
5
4
BURST
BURST
FB
is determined by the
to sense a fraction of
regardless of further
Pulse-Skipping Mode
Pulse-skipping mode, which is a compromise between low
output voltage ripple and efficiency, can be implemented
by connecting the MODE pin to SV
0A. In this condition, the peak inductor current is limited
by the minimum on-time of the current comparator. The
lowest output voltage ripple is achieved while still operating
discontinuously. During very light output loads, pulse-
skipping allows only a few switching cycles to skip while
maintaining the output voltage in regulation.
Internal and External Compensation
The regulator loop response can be checked by looking at
the load current transient response. Switching regulators
take several cycles to respond to a step in DC load current.
When a load step occurs, like the one shown in Figure 5,
V
ESR is the effective series resistance of C
also begins to charge or discharge C
feedback error signal that forces the regulator to adapt
to the current change and return V
value. During this recovery time, V
for excessive overshoot or ringing, which would indicate
a stability problem. The availability of the ITH pin allows
the transient response to be optimized over a wide range
of output capacitance.
The ITH1 external components (15k and 100pF) shown
in Figure 3 will provide an adequate compensation as
well as a starting point for most applications. The values
can be modified slightly to optimize transient response
once the final PCB layout is complete and the particular
output capacitor type and value have been determined.
The output capacitors need to be selected because the
various types and values determine the loop gain and
phase. The gain of the loop will be increased by increas-
ing R
by decreasing C
that C
same, thereby keeping the phase shift the same in the
most critical frequency range of the feedback loop. The
output voltage settling behavior is related to the stabil-
ity of the closed-loop system. The external compensa-
tion, forced continuous operation circuit in the Typical
OUT
C
shifts by an amount equal to ∆I
C
and the bandwidth of the loop will be increased
is decreased, the zero frequency will be kept the
C
. If R
C
is increased by the same factor
OUT
IN
OUT
. This sets I
OUT
LOAD
to its steady-state
can be monitored
LTC3615
, generating the
• ESR, where
OUT
. ∆I
BURST
LOAD
3615f
to
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