MAX818MEPA Maxim Integrated, MAX818MEPA Datasheet - Page 10
MAX818MEPA
Manufacturer Part Number
MAX818MEPA
Description
Supervisory Circuits
Manufacturer
Maxim Integrated
Series
MAX817, MAX817L, MAX817M, MAX818, MAX818L, MAX818M, MAX819, MAX819L, MAX819Mr
Datasheet
1.MAX817LCSA-T.pdf
(16 pages)
Specifications of MAX818MEPA
Number Of Voltages Monitored
1
Monitored Voltage
4.4 V
Undervoltage Threshold
4.25 V
Overvoltage Threshold
4.5 V
Output Type
Active Low, Open Drain
Manual Reset
Not Resettable
Watchdog
Watchdog
Battery Backup Switching
Backup
Power-up Reset Delay (typ)
280 ms
Supply Voltage - Max
5.5 V
Maximum Operating Temperature
+ 85 C
Mounting Style
Through Hole
Package / Case
PDIP N
Chip Enable Signals
Yes
Maximum Power Dissipation
727 mW
Minimum Operating Temperature
- 40 C
Power Fail Detection
Yes
Supply Current (typ)
11 uA
Supply Voltage - Min
0 V
+5V Microprocessor Supervisory Circuits
On the MAX819, MR must be high or open to enable
the battery freshness seal. Once the battery freshness
seal is enabled its operation is unaffected by MR.
In the MAX817/MAX818, the watchdog circuit monitors
the µP’s activity. If the µP does not toggle the watchdog
input (WDI) within t
nal 1.6sec timer is cleared by either a reset pulse or by
toggling WDI, which can detect pulses as short as
50ns. The timer remains cleared and does not count for
as long as reset is asserted. As soon as reset is
released, the timer starts counting (Figure 4).
To disable the watchdog function, leave WDI uncon-
nected or three-state the driver connected to WDI. The
watchdog input is internally driven low during the first
7/8 of the watchdog timeout period, then momentarily
pulses high, resetting the watchdog counter. When
WDI is left open-circuited, this internal driver clears the
1.6sec timer every 1.4sec. When WDI is three-stated or
left unconnected, the maximum allowable leakage cur-
rent is 10µA and the maximum allowable load capaci-
tance is 200pF.
Internal gating of the chip-enable (CE) signal prevents
erroneous data from corrupting CMOS RAM in the
event of an undervoltage condition. The MAX818 uses
a series transmission gate from CE IN to CE OUT
(Figure 5). During normal operation (reset not assert-
ed), the CE transmission 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 short CE propagation
delay from CE IN to CE OUT enables the MAX818 to be
used with most µPs. If CE IN is low when reset asserts,
CE OUT remains low for typically 15µs to permit the
current write cycle to complete.
The CE transmission gate is disabled and CE IN is high
impedance (disabled mode) while reset is asserted.
During a power-down sequence when V
reset threshold, the CE transmission gate disables and
CE IN immediately becomes high impedance if the volt-
age at CE IN is high. If CE IN is low when reset asserts,
the CE transmission gate will disable 15µs after reset
asserts (Figure 6). This permits the current write cycle
to complete during power-down.
10
______________________________________________________________________________________
Watchdog Input (MAX817/MAX818)
Chip-Enable Gating (MAX818)
WD
Chip-Enable Input (MAX818)
(1.6sec), reset asserts. The inter-
CC
passes the
Figure 4. Watchdog Timing
Figure 5. Chip-Enable Transmission Gate
Figure 6. Chip-Enable Timing
CE IN
RESET
V
V
CE OUT
WDI
V
V
RESET
CE IN
CC
V
CC
V
BATT
CHIP-ENABLE
GENERATOR
CONTROL
OUTPUT
t
MAX817
MAX818
RP
RESET
V
RST
t
RP
V
RST
SEAL CIRCUITRY
FRESHNESS
P
N
V
BATTERY
BATT
15 s
SWITCHOVER
t
CIRCUITRY
RP
V
BATTERY
RST
OUT
V
RST
t
WD
CE OUT
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