MAX791 Maxim, MAX791 Datasheet - Page 11
MAX791
Manufacturer Part Number
MAX791
Description
Microprocessor Supervisory Circuit
Manufacturer
Maxim
Datasheet
1.MAX791.pdf
(20 pages)
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The MAX791 provides internal gating of chip-enable
(CE) signals, to prevent erroneous data from corrupting
the CMOS RAM in the event of a power failure. During
normal operation, the CE gate is enabled and passes
all CE transitions. When reset is asserted, this path
becomes disabled, preventing erroneous data from
corrupting the CMOS RAM. The MAX791 uses a series
transmission gate from the Chip-Enable Input (CE IN) to
CE OUT (Figure 1).
The 10ns max CE propagation from CE IN to CE OUT
enables the MAX791 to be used with most µPs.
CE IN is high impedance (disabled mode) while RESET
is asserted.
During a power-down sequence were V
4.65V, CE IN assumes a high-impedance state when
the voltage at CE IN goes high or 15µs after reset is
asserted, whichever occurs first (Figure 7).
During a power-up sequence, CE IN remains high
impedance, regardless of CE IN activity, until reset is
deasserted following the reset-timeout period.
In the high-impedance mode, the leakage currents into
this input are ±1µA max over temperature. In the low-
impedance mode, the impedance of CE IN appears as
a 75Ω resistor in series with the load at CE OUT.
Figure 7. Reset and Chip-Enable Timing
THRESHOLD
CE OUT
RESET
RESET
RESET
CE IN
V
CC
______________________________________________________________________________________
Chip-Enable Signal Gating
Microprocessor Supervisory Circuit
15 s
100 s
Chip-Enable Input
CC
100 s
passes
The propagation delay through the CE transmission
gate depends on both the source impedance of the
drive to CE IN and the capacitive loading on CE OUT
(see the Chip-Enable Propagation Delay vs. CE OUT
Load Capacitance graph in the Typical Operating
Characteristics ). The CE propagation delay is produc-
tion tested from the 50% point on CE IN to the 50%
point on CE OUT using a 50Ω driver and 50pF of load
capacitance (Figure 8). For minimum propagation
delay, minimize the capacitive load at CE OUT and use
a low output-impedance driver.
In the enabled mode, the impedance of CE OUT is
equivalent to 75Ω in series with the source driving CE
IN. In the disabled mode, the 75Ω transmission gate is
off and CE OUT is actively pulled to V
turns off when the transmission gate is enabled.
The low-line comparator monitors V
threshold voltage 150mV above the reset threshold,
and has 15mV of hysteresis. LOWLINE typically sinks
3.2mA at 0.1V. For normal operation (V
LOWLINE threshold), LOWLINE is pulled to V
access to the unregulated supply is unavailable, use
LOWLINE to provide a nonmaskable interrupt (NMI) to
the µP as V
Figure 8. CE Propagation Delay Test Circuit
50 DRIVER
CC
begins to fall (Figure 9a).
CE IN
MAX791
GND
V
+5V
CC
CE OUT
LOWLINE Output
Chip-Enable Output
CC
OUT
CC
with a typical
. This source
C
LOAD
above the
OUT
. If
11
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