datasheetbank_Logo
Integrated circuits, Transistor, Semiconductors Search and Datasheet PDF Download Site

ADM690AN View Datasheet(PDF) - Analog Devices

Part Name
Description
View to exact match
ADM690AN
ADI
Analog Devices ADI
ADM690AN Datasheet PDF : 16 Pages
First Prev 11 12 13 14 15 16
ADM690–ADM695
INPUT POWER
+5V
0.1µF
3V
BATTERY
R1
R2
NC
VCC BATT VOUT
VBATT ON CEOUT
ADM691
ADM693
CEIN
PFI ADM695
GND
WDI
OSC IN
PFO
OSC SEL
RESET
LOW LINE WDO
0.1µF
CMOS
RAM
ADDRESS
DECODE
A0–A15
I/O LINE
NMI µP
RESET
RESET
0.1µF
SYSTEM STATUS
INDICATORS
Figure 24. ADM691/ADM693/ADM695 Typical Application
Reset Output
The internal voltage detector monitors VCC and generates a
RESET output to hold the microprocessor’s Reset line low
when VCC is below 4.65 V (4.4 V for ADM693). An internal
timer holds RESET low for 50 ms (200 ms for the ADM695)
after VCC rises above 4.65 V (4.4 V for ADM693). This prevents
repeated toggling of RESET even if the 5 V power drops out
and recovers with each power line cycle.
The crystal oscillator normally used to generate the clock for mi-
croprocessors can take several milliseconds to stabilize. Since
most microprocessors need several clock cycles to reset, RESET
must be held low until the microprocessor clock oscillator has
started. The power-up RESET pulse lasts 50 ms (200 ms for the
ADM695) to allow for this oscillator start-up time. If a different
reset pulse width is required, then a capacitor should be con-
nected to OSC IN or an external clock may be used. Please refer
to Table I and Figure 4. The manual reset switch and the 0.1 µF
capacitor connected to the reset line can be omitted if a manual
reset is not needed. An inverted, active high, RESET output is
also available.
Power Fail Detector
The +5 V VCC power line is monitored via a resistive potential
divider connected to the Power Fail Input (PFI). When the
voltage at PFI falls below 1.3 V, the Power Fail Output (PFO)
drives the processor’s NMI input low. If for example a Power
Fail threshold of 4.8 V is set with resistors R1 and R2, the micro-
processor will have the time when VCC falls from 4.8 V to 4.65 V
to save data into RAM. An earlier power fail warning can be
generated if the unregulated dc input to the 5 V regulator is
available for monitoring. This will allow more time for micro-
processor housekeeping tasks to be completed before power is
lost.
RAM Write Protection
The ADM691/ADM693/ADM695 CEOUT line drives the Chip
Select inputs of the CMOS RAM. CEOUT follows CEIN as long
as VCC is above the 4.65 V (4.4 V for ADM693) reset threshold.
If VCC falls below the reset threshold, CEOUT goes high, inde-
pendent of the logic level at CEIN. This prevents the micropro-
cessor from writing erroneous data into RAM during power-up,
power-down, brownouts and momentary power interruptions.
Watchdog Timer
The microprocessor drives the Watchdog Input (WDI) with an
I/O line. When OSC IN and OSC SEL are unconnected, the
microprocessor must toggle the WDI pin once every 1.6 sec-
onds to verify proper software execution. If a hardware or soft-
ware failure occurs such that WDI not toggled, the ADM691/
ADM693 will issue a 50 ms (200 ms for ADM695) RESET
pulse after 1.6 seconds. This typically restarts the micro-
processor’s power-up routine. A new RESET pulse is issued
every 1.6 seconds until WDI is again strobed. If a different
watchdog timeout period is required, then a capacitor should be
connected to OSC IN or an external clock may be used. Please
refer to Table I and Figure 4.
The WATCHDOG OUTPUT (WDO) goes low if the watch-
dog timer is not serviced within its timeout period. Once WDO
goes low, it remains low until a transition occurs at WDI. The
watchdog timer feature can be disabled by leaving WDI
unconnected.
The RESET output has an internal 3 µA pull-up, and can either
connect to an open collector reset bus or directly drive a CMOS
gate without an external pull-up resistor.
REV. A
–13–
 

Share Link: 

datasheetbank.com [ Privacy Policy ] [ Request Datasheet ] [ Contact Us ]