MAX807MEWE+ Maxim Integrated Products, MAX807MEWE+ Datasheet - Page 15
MAX807MEWE+
Manufacturer Part Number
MAX807MEWE+
Description
IC SUPERVISOR MPU 16-SOIC
Manufacturer
Maxim Integrated Products
Type
Battery Backup Circuitr
Datasheet
1.MAX807NEWE.pdf
(16 pages)
Specifications of MAX807MEWE+
Number Of Voltages Monitored
1
Reset
Active High/Active Low
Reset Timeout
140 ms Minimum
Voltage - Threshold
4.575V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
16-SOIC (0.300", 7.5mm Width)
Monitored Voltage
4.425 V
Output Type
Active High, Active Low
Manual Reset
Resettable
Watchdog
Watchdog
Battery Backup Switching
Backup
Supply Voltage (max)
5.5 V
Supply Voltage (min)
0 V
Supply Current (typ)
70 uA
Maximum Power Dissipation
762 mW
Maximum Operating Temperature
+ 85 C
Mounting Style
SMD/SMT
Minimum Operating Temperature
- 40 C
Power Fail Detection
Yes
Undervoltage Threshold
4.35 V
Overvoltage Threshold
4.5 V
Power-up Reset Delay (typ)
280 ms
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Output
-
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
The backup battery may be disconnected while V
above the reset threshold, provided BATT is bypassed
with a 0.1µF capacitor to ground. No precautions are
necessary to avoid spurious reset pulses.
While issuing resets to the µP during power-up, power-
down, and brownout conditions, these supervisors are
relatively immune to short-duration negative-going V
transients (glitches). It is usually undesirable to reset
the µP when V
The Typical Operating Characteristics show Maximum
Transient Duration vs. Reset Comparator Overdrive, for
which reset pulses are not generated. The graph was
produced using negative-going V
5V and ending below the reset threshold by the magni-
tude indicated (reset comparator overdrive). The graph
shows the maximum pulse width that a negative-going
V
reset pulse to be issued. As the amplitude of the tran-
sient increases (i.e., goes farther below the reset
threshold), the maximum allowable pulse width
decreases.
Typically, a V
reset threshold and lasts for 3µs or less will not cause a
reset pulse to be issued.
Figure 15. Adding Hysteresis to the Power-Fail Comparator
CC
PFO
+5V
R2
R1
0V
transient may typically have without causing a
V IN
0V
V
V
TRIP
H
= 2.265 /
R3
= 2.265
TO µP
CC
CC
Negative-Going V
Full-Featured µP Supervisory Circuit with
Backup-Battery Replacement
experiences only small glitches.
R1 + R2
transient that goes 40mV below the
______________________________________________________________________________________
R1 + R2
C1*
R2
R2
||
||
R3
R3
PFI
PFO
V
L
V
MAX807
- 2.265 + 5 - 2.265 = 2.265
L
R1
CC
GND
+5V
V
V
CC
TRIP
V
IN
pulses, starting at
CC
V
H
R3
Transients
*OPTIONAL
R2
CC
CC
is
A 0.1µF bypass capacitor mounted close to the V
pin provides additional transient immunity.
To help the watchdog timer keep a closer watch on soft-
ware execution, you can use the method of setting and
resetting the watchdog input at different points in the
program, rather than “pulsing” the watchdog input high-
low-high or low-high-low. This technique avoids a “stuck”
loop where the watchdog timer continues to be reset
within the loop, keeping the watchdog from timing out.
Figure 16 shows an example flow diagram where the
I/O driving the watchdog input is set high at the begin-
ning of the program, set low at the beginning of every
subroutine or loop, then set high again when the pro-
gram 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.
The V
the battery switchover comparator and should not
exceed 0.03V/µs. A standard rule for filter capacitance
on most regulators is on the order of 100µF per amp of
current. When the power supply is shut off or the main
battery is disconnected, the associated initial V
rate is just the inverse or 1A / 100µF = 0.01V/µs. The
V
tially, which more than satisfies the maximum fall-time
requirement.
Figure 16. Watchdog Flow Diagram
±1.5% Reset Accuracy
CC
fall rate decreases with time as V
CC
fall time is limited by the propagation delay of
Watchdog Software Considerations
OR PROGRAM LOOP,
SUBROUTINE
SET WDI
RETURN
START
Maximum V
HIGH
LOW
WDI
END
SET
CC
CC
falls exponen-
Fall Time
CC
fall
CC
15
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