LTC690/LTC691
LTC694/LTC695
7
690ff
For more information www.linear.com/690
pin FuncTions
PFO: Power Failure Output from C3. PFO remains high
when PFI is above 1.3V and goes low when PFI is below
1.3V. When V
CC
is lower than V
BATT
, C3 is shut down and
PFO is forced low.
RESET: Logic Output for µP Reset Control. Whenever
V
CC
falls below either the reset voltage threshold (4.65V,
typically) or V
BATT
, RESET goes active low. After V
CC
returns
to 5V, reset pulse generator forces RESET to remain active
low for a minimum of 35ms for the LTC690 /LTC691 (140ms
for the LTC694/LTC695). When the watchdog timer is
enabled but not serviced prior to a preset timeout period,
reset pulse generator also forces RESET to active low for
a minimum of 35ms for the LTC690/LTC691 (140ms for
the LTC694/5) for every preset timeout period (see Figure
11). The reset active time is adjustable on the LTC691/
LTC695. An external pushbutton reset can be used in
connection with the RESET output. See Pushbutton Reset
in Applications Information section.
RESET: RESET is an active high logic output. It is the
inverse of RESET.
LOW�LINE: Logic Output from Comparator C1. LOWLINE
indicates
a low line condition at the V
CC
input. When V
CC
falls below the reset voltage threshold (4.65V typically),
LOWLINE goes low. As soon as V
CC
rises above the reset
voltage threshold, LOWLINE returns high (see Figure 1).
LOWLINE goes low when V
CC
drops below V
BATT
(see
Table 1).
WDI: Watchdog Input, WDI, is a three level input. Driving
WDI either high or low for longer than the watchdog timeout
period, forces both RESET and WDO low. Floating WDI
disables the watchdog timer. The timer resets itself with
each transition of the watchdog input (see Figure 11).
WDO: Watchdog Logic Output. When the watchdog input
remains either high or low for longer than the watchdog
timeout period, WDO goes low. WDO is set high whenever
there is a transition on the WDI pin, or LOWLINE goes
low. The watchdog timer can be disabled by floating WDI
(see Figure 11).
CE IN: Logic input to the ChipEnable gating circuit. CE IN
can be derived from microprocessor’s address line and/
or decoder output. See Applications Information section
and Figure 5 for additional information.
CE OUT: Logic Output on the ChipEnable Gating Circuit.
When V
CC
is above the reset voltage threshold, CE OUT is
a buffered replica of CE IN. When V
CC
is below the reset
voltage threshold CE OUT is forced high (see Figure 5).
OSC SEL: Oscillator Selection Input. When OSC SEL is
high or floating, the internal oscillator sets the reset active
time and watchdog timeout period. Forcing OSC SEL low,
allows OSC IN be driven from an external clock signal or
external capacitor be connected between OSC IN and GND.
OSC IN: Oscillator Input. OSC IN can be driven by an external
clock signal or external capacitor can be connected between
OSC IN and GND when OSC SEL is forced low. In this
configuration the nominal reset active time and watchdog
timeout period are determined by the number of clocks or
set by the formula (see Applications Information section).
When OSC SEL is high or floating, the internal oscillator is
enabled and the reset active time is fixed at 50ms typical
for the LTC691 and 200ms typical for the LTC695. OSC
IN selects between the 1.6 seconds and 100ms typical
watchdog timeout periods. In both cases, the timeout
period immediately after a reset is 1.6 seconds typical.