MAX708TEUA+T Maxim Integrated, MAX708TEUA+T Datasheet - Page 12
MAX708TEUA+T
Manufacturer Part Number
MAX708TEUA+T
Description
Supervisory Circuits +3V Voltage Monitoring Low-Cost P Supervisory Circuits
Manufacturer
Maxim Integrated
Series
MAX706AP, MAX706AR, MAX706AS, MAX706AT, MAX706P, MAX706R, MAX706S, MAX706T, MAX708R, MAX708S, MAX708Tr
Datasheet
1.MAX185BEWGT.pdf
(19 pages)
Specifications of MAX708TEUA+T
Number Of Voltages Monitored
1
Monitored Voltage
4.4 V
Undervoltage Threshold
3 V
Overvoltage Threshold
3.15 V
Output Type
Active High, Active Low, Push-Pull
Manual Reset
Resettable
Watchdog
No Watchdog
Battery Backup Switching
No Backup
Power-up Reset Delay (typ)
280 ms
Supply Voltage - Max
5.5 V
Maximum Operating Temperature
+ 85 C
Mounting Style
SMD/SMT
Package / Case
uSOP
Chip Enable Signals
No
Maximum Power Dissipation
362 mW
Minimum Operating Temperature
- 40 C
Power Fail Detection
Yes
Supply Current (typ)
350 uA
Supply Voltage - Min
1 V
These µP supervisors can monitor either positive or
negative supplies using a resistor voltage-divider to
PFI. PFO can be used to generate an interrupt to the µP
or cause reset to assert (Figure 3).
The power-fail comparator can be used to monitor a
negative supply voltage using the circuit shown in
Figure 3. When the negative supply is valid, PFO is low.
When the negative supply voltage drops, PFO goes
high. The circuit’s accuracy is affected by the PFI
threshold tolerance, V
The MAX6715–MAX6729 supervisors are relatively
immune to short-duration negative-going V
(glitches). It is usually undesirable to reset the µP when
V
Operating Characteristics show Maximum Transient
Duration vs. Reset Threshold Overdrive, for which reset
pulses are not generated. The graph was produced
using negative-going V
and ending below the reset threshold by the magnitude
indicated (reset threshold overdrive). The graph shows
the maximum pulse width that a negative-going V
transient may typically have without causing a reset
pulse to be issued. As the amplitude of the transient
increases (i.e., goes farther below the reset threshold),
the maximum allowable pulse width decreases. A 0.1µF
bypass capacitor mounted close to the V
vides additional transient immunity.
Setting and resetting the watchdog input at different
points in the program, rather than “pulsing” the watch-
dog input high-low-high or low-high-low, helps the
Dual/Triple Ultra-Low-Voltage SOT23 µP
Supervisory Circuits
Figure 5. Adding Hysteresis to Power-Fail for Push-Pull PFO
12
CC
V
EXT
A
R1
R2
______________________________________________________________________________________
Monitoring an Additional Power Supply
experiences only small glitches. The Typical
PFI
Watchdog Software Considerations
MAX6728/
MAX6729
GND
Negative-Going V
R3
Monitoring a Negative Voltage
PFO
CC
V
V
V
R2 = 200kΩ (FOR > 2.5µA R2 CURRENT)
R1 = R2 ((V
R3 = (R1 x V
CC
GOOD
FAIL
OH
, R1, and R2.
PFO
V
= V
IN
= DESIRED V
= DESIRED V
CC
pulses, starting above V
1 (FOR PUSH-PULL PFO)
GOOD
OH
) / (V
- V
EXT
GOOD
EXT
PFI
FAIL VOLTAGE THRESHOLD
) - (V
GOOD VOLTAGE THRESHOLD
- V
CC
PFI
FAIL
)(V
)
GOOD
Transients
CC
V
V
GOOD
FAIL
CC
- V
FAIL
transients
) / V
pin pro-
OH
) / V
PFI
CC
TH
watchdog timer to closely monitor software execution.
This technique avoids a “stuck” loop where the watch-
dog timer continues to be reset within the loop, keeping
the watchdog from timing out. Figure 6 shows an exam-
ple flow diagram where the I/O driving the watchdog
input is set high at the beginning of the program, set low
at the beginning of every subroutine or loop, then set
high again when the program returns to the beginning. If
the program should “hang” in any subroutine, the I/O is
continually set low and the watchdog timer is allowed to
time out, causing a reset or interrupt to be issued.
TRANSISTOR COUNT: 1072
PROCESS: BiCMOS
Figure 6. Watchdog Flow Diagram
SUBROUTINE
COMPLETED
SUBROUTINE OR
PROGRAM LOOP
SET WDI LOW
PROGRAM
SET WDI
RETURN
START
CODE
HIGH
Chip Information
SUBROUTINE
HANG IN
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