LTC1727/LTC1728
10
17278fd
For more information www.linear.com/LTC1727
APPLICATIONS INFORMATION
Supply Monitoring
The LTC1727 is a low power, high accuracy triple sup-
ply monitoring circuit with three monitor outputs and a
200ms microprocessor reset output.
The LTC1728 is a low power, high accuracy triple supply
monitoring circuit with a single 200ms microprocessor
reset output.
All three V
CC
inputs must be above predetermined thresh-
olds for reset not to be invoked. The LTC1727/LTC1728 will
assert reset during power-up, power-down and brownout
conditions on any one or all of the V
CC
inputs.
Power Detect
The LTC1727/LTC1728 are powered from the 3.3V/3V input
pin (V
CC3
), the 1.8V input pin (V
CC18
), the 2.5V input pin
(V
CC25
) or the 5V input pin (V
CC5
), whichever pin has the
highest potential. This ensures the part pulls the RST pin
low as soon as either input pin is ≥1
V
.
Power-Up
Upon power-up, either the V
CC5
/V
CC25
/
V
CC18
or V
CC3
pin,
can power the part. This ensures that RST will be low
when either V
CC5
/V
CC25
/V
CC18
or V
CC3
reaches 1
V
. As long
as any one of the V
CC
inputs is below its predetermined
threshold, RST will stay a logic low. Once all of the V
CC
inputs rise above their thresholds, an internal timer is
started and RST is released after 200ms.
RST
is reasserted whenever any one of the V
CC
inputs
drops below its predetermined threshold and remains
asserted until 200ms after all of the V
CC
inputs are above
their thresholds.
On the LTC1727, each of the comparator outputs will be
low until the V
CC
input that is monitored by that compara-
tor rises above the appropriate predetermined threshold.
The COMP3, and COMP5/COMP25 outputs are guaran
-
teed to be in the correct logic state for either V
CC3
or
V
CC5
/V
CC25
greater than 1V. The COMPA output requires
the internal bandgap reference to be valid before the
correct logic state can be output. Therefore, the COMPA
output will be held low until V
CCA
is above 1V and V
CC3
or V
CC5
/V
CC25
is greater than 2V (typ).
Figure 1. Transient Duration vs Comparator Overdrive
Power-Down
On power-down, once any of the V
CC
inputs drop below
its threshold,
RST
is held at a logic low. A logic low of
0.3V is guaranteed until both V
CC3
and V
CC5
/V
CC25
/V
CC18
drop below 1V.
Glitch Immunity
The RST output of the LTC1727/LTC1728 have two forms
of glitch immunity built in. First, the input monitors require
the input voltage to transition at least 10% of the input
threshold (0.1 • V
RTH
) below the input threshold for ap-
proximately 50µs in order to force the monitor output low.
The duration of the transition must be longer for voltage
transitions of lesser magnitude (see Figure 1). Secondly,
the reset pulse width of approximately 200ms acts to
debounce the RST output ensuring that the RST output
will always be in the correct state.
The individual monitor outputs of the LTC1727 do not have
hysteresis and will track the monitor inputs relative to the
monitor’s input threshold (V
RTA
, V
RT25
, V
RT3
and V
RT5
). A
very slow moving input voltage with ripple riding on it may
cause the individual monitor outputs (COMPA, COMP25,
COMP3 and COMP5) to toggle on the ripple as the input
voltage passes the input threshold. The slow response
time of the LTC1727’s input monitors has a tendency to
integrate signals on the inputs improving their immunity
to noise and ripple.
RESET MONITOR OVERDRIVE VOLTAGE (% OF V
CC
)
0.1
250
300
350
400
1 10 100
1727/28 F01
200
150
50
0
100