MAX791M(1995) 查看數據表(PDF) - Maxim Integrated
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MAX791M Datasheet PDF : 20 Pages
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Microprocessor Supervisory Circuit
+5V
3.6V
*1µF
+5V
3
1
VCC
2
VBATT VOUT
MAX791
RESET 15
WDI 11
LOWLINE 10
9 MR
WDPO 16
WDO 14
GND
4
0.1µF
1/6 74HC04
3
14
CLOCK VCC
5D
CD4013
Q1
SET RESET VSS Q 2
6
4
7
REACTIVATE
4.7k
*SETS Q HIGH ON POWER-UP
Figure 6. Two consecutive watchdog faults latch the system in reset.
µP POWER
µP
RESET
I/O
NMI
INTERRUPT
TWO
CONSECUTIVE
WATCHDOG
FAULT
INDICATIONS
dog-timeout period, WDO goes low 70ns after the
falling edge of WDPO and remains low until the next
transition at WDI (Figure 5). A flip-flop can force the
system into a hardware shutdown if there are two suc-
cessive watchdog faults (Figure 6). WDO has a 2 x TTL
output characteristic.
Watchdog-Pulse Output
As described in the preceding section, WDPO can be
used as the clock input to an external D flip-flop. Upon
the absence of a watchdog edge or pulse at WDI at the
end of a watchdog-timeout period, WDPO will pulse low
for 1ms. The falling edge of WDPO precedes WDO by
70ns. Since WDO is high when WDPO goes low, the
flip-flop’s Q output remains high as WDO goes low
(Figure 5). If the watchdog timer is not reset by a transi-
tion at WDI, WDO remains low and WDPO clocks a
logic low to the Q output, causing the MAX791 to latch
in reset. If the watchdog timer is reset by a transition at
WDI, WDO goes high and the flip-flop’s Q output
remains high. Thus, a system shutdown is only caused
by two successive watchdog faults.
The internal pull-up resistors associated with WDO and
WDPO connect to VOUT. Therefore, do not connect
these outputs directly to CMOS logic that is powered
from VCC since, in the absence of VCC (i.e., battery
mode), excessive current will flow from WDO or
WDPO through the protection diode(s) of the CMOS-
logic inputs to ground.
Selecting an Alternative Watchdog
Timeout Period
SWT input controls the watchdog-timeout period.
Connecting SWT to VOUT selects the internal 1.6sec
watchdog-timeout period. Select an alternative timeout
period by connecting a capacitor between SWT and
GND. Do not leave SWT floating, and do not connect it
to ground. The following formula determines the watch-
dog-timeout period:
Watchdog Timeout Period = 2.1 x (capacitor value
in nF) ms
This formula is valid for capacitance values between
4.7nF and 100nF (see the Watchdog Timeout vs.
Timing Capacitor graph in the Typical Operating
Characteristics). SWT is internally connected to a
±100nA (typ) current source, which charges and dis-
charges the timing capacitor to create the oscillator fre-
quency that sets the watchdog timeout period (see
Connecting a Timing Capacitor to SWT in the
Applications Information section).
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