MAX793SCSE データシートの表示(PDF) - Maxim Integrated
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MAX793SCSE Datasheet PDF : 20 Pages
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3.0V/3.3V Adjustable Microprocessor
Supervisory Circuits
3.3V
0.1µF
R1
(OPTIONAL)
Si9433DY
SILICONIX
D
S
PMOS
VCC BATT ON OUT
R2
3.6V
0.1µF
+5V SUPPLY
+5V FAILURE
RESET IN CE OUT
MAX794
BATT
CE IN
WDI
WDO LOWLINE
MR
PFO
RESET
0.1µF
CMOS
RAM
ADDRESS
DECODER
VCC
4.7kΩ
VCC
A0-A15
I/O
NMI
RESET
PFI
GND
( ) VRST = VRST IN
R1 + 1
R2
Figure 3. MAX794 Standard Application Circuit
Reset Threshold
The MAX793T/MAX795T are intended for 3.3V systems
with a ±5% power-supply tolerance and a 10% systems
tolerance. Except when MR is asserted, reset does not
assert as long as the power supply remains above
3.15V (3.3V - 5%). Reset is guaranteed to assert before
the power supply falls below 3.0V (3.3V - 10%).
The MAX793S/MAX795S are designed for 3.3V ±10%
power supplies. Except when MR is asserted, they are
guaranteed not to assert reset as long as the supply
remains above 3.0V (3.0V is just above 3.3V - 10%).
Reset is guaranteed to assert before the power supply
falls below 2.85V (3.3V - 14%).
The MAX793R/MAX795R are optimized to monitor 3.0V
±10% power supplies. Reset does not occur until VCC
falls below 2.7V (3.0V - 10%), but is guaranteed to
occur before the supply falls below 2.55V (3.0V - 15%).
Program the MAX794’s reset threshold with an external
voltage divider to RESET IN. The reset-threshold toler-
ance is a combination of the RESET IN tolerance and
the tolerance of the resistors used to make the external
voltage divider. Calculate the reset threshold as follows:
VRST = VRST IN (R1 / R2 + 1)
VRST
VRST
VCC
tRP
RESET
PFO
(EXTERNALLY HELD AT 0V)
PFO STATE LATCHED,
FRESHNESS SEAL ENABLED.
RESET PULLED UP TO VCC
Figure 4. Battery Freshness Seal Enable Timing
Using the standard application circuit (Figure 3), the
reset threshold can be programmed anywhere in the
range of VSW (the battery switch threshold) to 5.5V.
Reset is asserted when VCC falls below VSW.
Battery Freshness Seal
The MAX793/MAX794’s battery freshness seal discon-
nects the backup battery from internal circuitry until it is
needed. This allows an OEM to ensure that the backup
battery connected to BATT is fresh when the final prod-
uct is put to use. To enable the freshness seal, connect
a battery to BATT, ground PFO, bring VCC above the
reset threshold, and hold it there until reset is deassert-
ed following the reset timeout period, then bring VCC
back down again (Figure 4). Once the battery fresh-
ness seal is enabled (disconnecting the backup battery
from the internal circuitry and anything connected to
OUT), it remains enabled until VCC is brought above
VRST. Note that connecting PFO to MR does not inter-
fere with battery freshness seal operation.
BATT OK Output (MAX793)
BATT OK indicates the status of the backup battery.
When reset is not asserted, the MAX793 checks the
battery voltage continuously. If VBATT is below VBOK
(2.0V min), BATT OK goes low; otherwise, it remains
pulled up to VCC. BATT OK also goes low when VCC
goes below VSW.
Watchdog Input (MAX793/MAX794)
In the MAX793/MAX794, the watchdog circuit monitors
the µP’s activity. If the µP does not toggle the watchdog
input (WDI) within 1.6s, WDO goes low. The internal
1.6s timer is cleared and WDO returns high either when
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