5
FN8112.1
May 17, 2006
PRINCIPLES OF OPERATION
Power-on Reset
Applying power to the X40020/21 activates a Power-
on Reset Circuit that pulls the RESET/RESET
pins
active. This signal provides several benefits.
– It prevents the system microprocessor from starting
to operate with insufficient voltage.
– It prevents the processor from operating prior to sta-
bilization of the oscillator.
– It allows time for an FPGA to download its configura-
tion prior to initialization of the circuit.
– It prevents communication to the EEPROM, greatly
reducing the likelihood of data corruption on power-up.
When V
CC
exceeds the device V
TRIP1
threshold value
for t
PURST
(selectable) the circuit releases the RESET
(X40021) and RESET (X40020) pin allowing the system
to begin operation.
Figure 1. Connecting a Manual Reset Push-Button
Manual Reset
By connecting a push-button directly from MR
to
ground, the designer adds manual system reset capa-
bility. The MR
pin is LOW while the push-button is
closed and RESET/RESET
pin remains LOW for
t
PURST
or till the push-button is released and for t
PURST
thereafter. A weak pull up resistor is connected to the
MR
pin.
Low Voltage V1 Monitoring
During operation, the X40020/21 monitors the V
CC
level and asserts RESET if supply voltage falls below
a preset minimum V
TRIP1
. The RESET signal prevents
the microprocessor from operating in a power fail or
brownout condition. The V1FAIL
signal remains active
until the voltage drops below 1V. It also remains active
until V
CC
returns and exceeds V
TRIP1
for t
PURST
.
Low Voltage V2 Monitoring
The X40020/21 also monitors a second voltage level and
asserts V2FAIL
if the voltage falls below a preset mini-
mum V
TRIP2
. The V2FAIL signal is either ORed with
RESET to prevent the microprocessor from operating in
a power fail or brownout condition or used to interrupt the
microprocessor with notification of an impending power
failure. The V2FAIL
signal remains active until the V
CC
drops below 1V (V
CC
falling). It also remains active until
V2MON returns and exceeds V
TRIP2
.
V2MON voltage monitor is powered by V
OUT.
If V
CC
and V
BATT
go away, V2MON cannot be monitored.
Figure 2. Two Uses of Multiple Voltage Monitoring
WATCHDOG TIMER
The Watchdog Timer circuit monitors the microprocessor
activity by monitoring the SDA and SCL pins. A standard
read or write sequence to any slave address byte restarts
the watchdog timer and prevents the WDO
signal to go
active. A minimum sequence to reset the watchdog timer
requires four microprocessor instructions namely, a Start,
Clock Low, Clock High and Stop. The state of two non-
volatile control bits in the Status Register determine the
watchdog timer period. The microprocessor can change
these watchdog bits by writing to the X40020/21 control
register (also refer to page 21).
MR
System
Reset
Manual
Reset
X40020
RESET
Unreg.
Supply
V
CC
5V
Reg
V2MON
X40020
Resistors selected so 3V appears on V2MON when unregulated
supply reaches 6V.
Unreg.
Supply
V
CC
X40021
RESET
V2FAIL
System
V
OUT
Reset
RESET
V2FAIL
V
OUT
System
Reset
Notice: No external components required to monitor two voltages.
R
R
V2MON
5V
Reg
3V
Reg
X40020, 40021