MAX793 Maxim, MAX793 Datasheet - Page 18
MAX793
Manufacturer Part Number
MAX793
Description
3.0V/3.3V Adjustable Microprocessor Supervisory Circuits
Manufacturer
Maxim
Datasheet
1.MAX793.pdf
(20 pages)
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The power-fail comparator has a typical input hystere-
sis of 10mV. This is sufficient for most applications
where a power-supply line is being monitored through
an external voltage divider (see the section Monitoring
an Additional Power Supply ).
If additional noise margin is desired, connect a resistor
between PFO and PFI as shown in Figure 16a. Select
the ratio of R1 and R2 such that PFI sees V
V
hysteresis and should typically be more than 10 times
the value of R1 or R2. The hysteresis window extends
both above (V
(V
Connecting an ordinary signal diode in series with R3,
as shown in Figure 16b, causes the lower trip point (V
to coincide with the trip point without hysteresis (V
so the entire hysteresis window occurs above V
This method provides additional noise margin without
compromising the accuracy of the power-fail threshold
when the monitored voltage is falling. It is useful for
accurately detecting when a voltage falls past a thresh-
old. The current through R1 and R2 should be at least
1µA to ensure that the 25nA (max over temperature)
PFI input current does not shift the trip point. R3 should
be larger than 82kΩ so it does not load down the PFO
pin. Capacitor C1 is optional, and adds noise rejection.
These µP supervisors can monitor either positive or
negative supplies using a resistor voltage divider to
3.0V/3.3V Adjustable Microprocessor
Supervisory Circuits
Figure 18. Maximum Transient Duration without Causing a
Reset Pulse vs. Reset Comparator Overdrive
18
IN
TRIP
falls to its trip point (V
______________________________________________________________________________________
Monitoring an Additional Power Supply
).
Adding Hysteresis to the Power-Fail
100
90
80
70
60
50
40
30
20
10
0
RESET COMPARATOR OVERDRIVE, V
10 20
H
Comparator (MAX793/MAX794)
) and below (V
30
40
TRIP
50 60 70
). R3 adds the additional
L
) the original trip point
80
RST
- V
90
CC
100
(mV)
PFT
when
TRIP
TRIP
L
),
)
.
PFI. PFO can be used to generate an interrupt to the
µP or to cause reset to assert (Figure 12).
Since the RESET output is open drain, the MAX793/
MAX794/MAX795 interface easily with µPs that have
bidirectional reset pins, such as the Motorola 68HC11.
Connecting the RESET output of the µP supervisor
directly to the RESET input of the microcontroller with a
single pull-up resistor allows either device to assert
reset (Figure 17).
These supervisors are relatively immune to short-dura-
tion negative-going V
ing resets to the µP during power-up, power-down, and
brownout conditions. Therefore, resetting the µP when
V
ommended.
Figure 18 shows maximum transient duration vs. reset-
comparator overdrive, for which reset pulses are not
generated. The graph was produced using negative-
going V
the reset threshold by the magnitude indicated (reset
comparator overdrive). The graph shows the maximum
pulse width a negative-going V
Figure 19. Watchdog Flow Diagram
CC
experiences only small glitches is usually not rec-
CC
pulses, starting at 3.3V and ending below
Negative-Going V
CC
SET WDI LOW
Program Loop
Subroutine or
PROGRAM
SET WDI
RETURN
START
Bidirectional Reset Pins
CODE
HIGH
transients (glitches) while issu-
Interfacing to µPs with
CC
transient can typically
CC
Transients
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