LTC690/LTC691
LTC694/LTC695
13
690ff
For more information www.linear.com/690
applicaTions inForMaTion
V
HYSTERESIS
= 5V
R1
R3
= 850mV
R3 ≈ 5.88 R1
Choose R3 = 300k and R1 = 51k. Also select R4 = 10k
which is much smaller than R3.
7.5V = 1.3V 1+
51k
R2
−
(5V −1.3V) 51k
1.3V (310k)
R2 = 9.7kΩ, Choose nearest 5% resistor 10k and recalcu-
late V
L
,
V
L
= 1.3V 1+
10k
−
1.3V (310k)
= 7.32V
V
H
= 1.3V 1+
51k
10k
−
51k
300k
= 8.151V
(7.32V − 6.25V)
100mV / ms
= 10.7ms
V
HYSTERESIS
= 8.151V − 7.32V = 831mV
The 10.7ms allows enough time to execute shutdown
procedure for microprocessor and 831mV of hysteresis
would prevent PFO from going low due to the noise of V
IN
.
Example 2: The circuit in Figure 9 can be used to measure
the regulated 5V supply to provide early warning of power
failure. Because of variations in the PFI threshold, this
circuit requires adjustment to ensure the PFI compara-
tor trips before the reset threshold is reached. Adjust R5
such that the PFO output goes low when the V
CC
supply
reaches the desired level (e.g., 4.85V).
Monitoring the Status of the Battery
C3 can also monitor the status of the memory back-up
battery (Figure 10). If desired, the CE OUT can be used to
apply a test load to the battery. Since CE OUT is forced high
in battery back-up mode, the test load will not be applied
to the battery while it is in use, even if the microprocessor
is not powered.
3V
5V
690 F10
R1
1M
R
L
20K
R2
1M
OPTIONAL TEST LOAD
LOW-BATTERY SIGNAL
TO µP I/O PIN
I/O PIN
V
CC
V
BATT
GND
PFI
LTC691
LTC695
CE IN
PFO
CE OUT
Figure 10. Back-Up Battery Monitor with Optional Test Load
Watchdog Timer
The LTC690 family provides a watchdog timer function
to monitor the activity of the microprocessor. If the mi-
croprocessor does not toggle the Watchdog Input (WDI)
within a selected timeout period, RESET is forced to ac-
tive low for a minimum of 35ms for the LTC690/LTC691
(140ms for the LTC694/LTC695). The reset active time is
adjustable on the LTC691/LTC695. Since many systems
can not service the watchdog timer immediately after a
reset, the LTC691 and LTC695 have longer timeout period
(1.0 second minimum) right after a reset is issued. The
normal timeout period (70ms minimum) becomes effective
following the first transition of WDI after RESET is inac-
tive. The watchdog timeout period is fixed at 1.0 second
minimum on the LTC690 and LTC694. Figure 11 shows
the timing diagram of watchdog timeout period and reset
active time. The watchdog timeout period is restarted as
soon as RESET is inactive. When either a high-to-low
or low-to-high transition occurs at the WDI pin prior to
timeout, the watchdog time is reset and begins to time
out again. To ensure the watchdog time
does not time
out,
either a high-to-low or low-to-high transition on the
WDI pin must occur at or less than the minimum timeout
period. If the input to the WDI pin remains either high or
low, reset pulses will be issued every 1.6 seconds typically.
The watchdog time can be deactivated by floating the WDI
pin. The timer is also disabled when V
CC
falls below the
reset voltage threshold or V
BATT
.