IMP690AC 查看數據表(PDF) - A1 PROs co., Ltd.
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IMP690AC Datasheet PDF : 10 Pages
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IMP690A, 692A, 802L, 802M, 805L
Application Information
Reset Output
It is important to initialize a microprocessor to a known state in
response to specific events that could create code execution errors
and “lock-up”. The reset output of these supervisory circuits send
a reset pulse to the microprocessor in response to power-up,
power-down/power-loss or a watchdog time-out. The reset pulse
width, tRS, is typically around 200ms and is LOW for the
IMP690A, IMP692A, IMP802 and HIGH for the IMP805L.
Power-up reset occurs when a rising VCC reaches the reset thresh-
old, VRT, forcing a reset condition in which the reset output is
asserted in the appropriate logic state for the duration of tRS.
Figure 2 shows the reset pin timing.
Power-loss or “brown-out” reset occurs when VCC dips below the
reset threshold resulting in a reset assertion for the duration of tRS.
The reset signal remains asserted as long as VCC is between VRT
and 1.1V, the lowest VCC for which these devices can provide a
guaranteed logic-low output. To ensure logic inputs connected to
the IMP690A/692A/802 RESET pin are in a known state when
VCC is under 1.1V, a 100kΩ pull-down resistor at RESET is needed:
the logic-high IMP805L will need a pull-up resistor to VCC.
A Watchdog time-out reset occurs when a logic “1” or logic “0” is
continuously applied to the WDI pin for more than 1.6 seconds.
After the duration of the reset interval, the watchdog timer starts
a new 1.6 second timing interval; the microprocessor must service
the watchdog input by changing states or by floating the WDI pin
before this interval is finished. If the WDI pin is held either HIGH
or LOW, a reset pulse will be triggered every 1.8 seconds (the 1.6
second timing interval plus the reset pulse width tRS).
Microprocessor Interface.
The IMP690 has logic-LOW RESET output while the IMP805 has
an inverted logic-HIGH RESET output. Microprocessors with bi-
directional reset pins (69HC11 for example) can pose a problem
when the supervisory circuit and the microprocessor output pins
attempt to go to opposite logic states. The problem can be
resolved by placing a 4.7kΩ resistor between the RESET output
and the microprocessor reset pin. This is shown in Figure 3. Since
the series resistor limits drive capabilities, the reset signal to other
devices should be buffered.
+ 5V
VCC
+ 0V
+ 5V
VOUT
+ 0V
+ 5V
RESET
+ 0V
+ 5V
(RESET)
+ 0V
3.0V
3.0V
+ 5V
PFO
+ 0V
( ) IMP805L
tRS
VBATT = PFI = 3.0V
IOUT = 0mA
690A_04.eps
8
VBATT
2
VCC
Battery-Switchover
Circuit
Reset
Generator
+
1
VOUT
7 RESET
(RESET)
1.25V
3.5V
+
Watchdog
Timer
6
WDI
+ 1.25V
0.8V
5
4
PFI
+
PFO
IMP690A, IMP692A, IMP802L, IMP802M,
IMP805L
( ) IMP805L
3 GND
690A_03.eps
Figure 1. Block Diagram
Figure 2. Timing Diagram
Buffered RESET to Other System Components
VCC
4.7k
RESET
IMP690A
GND
VCC
RESET
GND
690A_05.eps
Figure 3. Interfacing with bi-directional microprocessor
reset inputs
5
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