LT3690 LINER [Linear Technology], LT3690 Datasheet - Page 16
LT3690
Manufacturer Part Number
LT3690
Description
42V, 2.5A Synchronous Step-Down Regulator
Manufacturer
LINER [Linear Technology]
Datasheet
1.LT3690.pdf
(20 pages)
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LT8610
APPLICATIONS INFORMATION
Output Power Good
When the LT8610’s output voltage is within the ±9%
window of the regulation point, which is a V
the range of 0.883V to 1.057V (typical), the output voltage
is considered good and the open-drain PG pin goes high
impedance and is typically pulled high with an external
resistor. Otherwise, the internal pull-down device will pull
the PG pin low. To prevent glitching both the upper and
lower thresholds include 1.3% of hysteresis.
The PG pin is also actively pulled low during several fault
conditions: EN/UV pin is below 1V, INTV
low, V
Synchronization
To select low ripple Burst Mode operation, tie the SYNC pin
below 0.4V (this can be ground or a logic low output). To
synchronize the LT8610 oscillator to an external frequency
connect a square wave (with 20% to 80% duty cycle) to
the SYNC pin. The square wave amplitude should have val-
leys that are below 0.4V and peaks above 2.4V (up to 6V).
The LT8610 will not enter Burst Mode operation at low
output loads while synchronized to an external clock, but
instead will pulse skip to maintain regulation. The LT8610
may be synchronized over a 200kHz to 2.2MHz range. The
R
frequency equal to or below the lowest synchronization
input. For example, if the synchronization signal will be
500kHz and higher, the R
The slope compensation is set by the R
minimum slope compensation required to avoid subhar-
monic oscillations is established by the inductor size,
input voltage, and output voltage. Since the synchroniza-
tion frequency will not change the slopes of the inductor
current waveform, if the inductor is large enough to avoid
subharmonic oscillations at the frequency set by R
the slope compensation will be sufficient for all synchro-
nization frequencies.
For some applications it is desirable for the LT8610 to
operate in pulse-skipping mode, offering two major differ-
ences from Burst Mode operation. First is the clock stays
awake at all times and all switching cycles are aligned to
the clock. Second is that full switching frequency is reached
at lower output load than in Burst Mode operation. These
16
T
resistor should be chosen to set the LT8610 switching
IN
is too low, or thermal shutdown.
T
should be selected for 500kHz.
T
CC
value, while the
has fallen too
FB
voltage in
T
, then
two differences come at the expense of increased quiescent
current. To enable pulse-skipping mode, the SYNC pin is
tied high either to a logic output or to the INTVCC pin.
The LT8610 does not operate in forced continuous mode
regardless of SYNC signal. Never leave the SYNC pin
floating.
Shorted and Reversed Input Protection
The LT8610 will tolerate a shorted output. Several features
are used for protection during output short-circuit and
brownout conditions. The first is the switching frequency
will be folded back while the output is lower than the set
point to maintain inductor current control. Second, the
bottom switch current is monitored such that if inductor
current is beyond safe levels switching of the top switch
will be delayed until such time as the inductor current
falls to safe levels.
Frequency foldback behavior depends on the state of the
SYNC pin: If the SYNC pin is low the switching frequency
will slow while the output voltage is lower than the pro-
grammed level. If the SYNC pin is connected to a clock
source or tied high, the LT8610 will stay at the programmed
frequency without foldback and only slow switching if the
inductor current exceeds safe levels.
There is another situation to consider in systems where
the output will be held high when the input to the LT8610
is absent. This may occur in battery charging applications
or in battery-backup systems where a battery or some
other supply is diode ORed with the LT8610’s output. If
the V
(either by a logic signal or because it is tied to V
the LT8610’s internal circuitry will pull its quiescent current
through its SW pin. This is acceptable if the system can
tolerate several μA in this state. If the EN pin is grounded
the SW pin current will drop to near 1μA. However, if the
V
less of EN, parasitic body diodes inside the LT8610 can
pull current from the output through the SW pin and
the V
EN/UV pins that will allow the LT8610 to run only when
the input voltage is present and that protects against a
shorted or reversed input.
IN
pin is grounded while the output is held high, regard-
IN
IN
pin is allowed to float and the EN pin is held high
pin. Figure 3 shows a connection of the V
IN
), then
IN
and
8610p
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