Microchip Technology AC244055 Data Sheet
PIC16(L)F1938/9
DS40001574C-page 104
2011-2013 Microchip Technology Inc.
10.1
Independent Clock Source
The WDT derives its time base from the 31 kHz
LFINTOSC internal oscillator. Time intervals in this
chapter are based on a nominal interval of 1 ms. See
the Electrical Specifications Chapters for the
LFINTOSC tolerances.
LFINTOSC internal oscillator. Time intervals in this
chapter are based on a nominal interval of 1 ms. See
the Electrical Specifications Chapters for the
LFINTOSC tolerances.
10.2
WDT Operating Modes
The Watchdog Timer module has four operating modes
controlled by the WDTE<1:0> bits in Configuration
Words. See
controlled by the WDTE<1:0> bits in Configuration
Words. See
.
10.2.1
WDT IS ALWAYS ON
When the WDTE bits of Configuration Words are set to
‘11’, the WDT is always on.
WDT protection is active during Sleep.
‘11’, the WDT is always on.
WDT protection is active during Sleep.
10.2.2
WDT IS OFF IN SLEEP
When the WDTE bits of Configuration Words are set to
‘10’, the WDT is on, except in Sleep.
WDT protection is not active during Sleep.
‘10’, the WDT is on, except in Sleep.
WDT protection is not active during Sleep.
10.2.3
WDT CONTROLLED BY SOFTWARE
When the WDTE bits of Configuration Words are set to
‘01’, the WDT is controlled by the SWDTEN bit of the
WDTCON register.
WDT protection is unchanged by Sleep. See
‘01’, the WDT is controlled by the SWDTEN bit of the
WDTCON register.
WDT protection is unchanged by Sleep. See
for more details.
TABLE 10-1:
WDT OPERATING MODES
10.3
Time-Out Period
The WDTPS bits of the WDTCON register set the
time-out period from 1 ms to 256 seconds (nominal).
After a Reset, the default time-out period is 2 seconds.
time-out period from 1 ms to 256 seconds (nominal).
After a Reset, the default time-out period is 2 seconds.
10.4
Clearing the WDT
The WDT is cleared when any of the following condi-
tions occur:
• Any Reset
• CLRWDT instruction is executed
• Device enters Sleep
• Device wakes up from Sleep
• Oscillator fail
• WDT is disabled
• Oscillator Start-up TImer (OST) is running
See
tions occur:
• Any Reset
• CLRWDT instruction is executed
• Device enters Sleep
• Device wakes up from Sleep
• Oscillator fail
• WDT is disabled
• Oscillator Start-up TImer (OST) is running
See
for more information.
10.5
Operation During Sleep
When the device enters Sleep, the WDT is cleared. If
the WDT is enabled during Sleep, the WDT resumes
counting.
When the device exits Sleep, the WDT is cleared
again. The WDT remains clear until the OST, if
enabled, completes. See
the WDT is enabled during Sleep, the WDT resumes
counting.
When the device exits Sleep, the WDT is cleared
again. The WDT remains clear until the OST, if
enabled, completes. See
for more
information on the OST.
When a WDT time-out occurs while the device is in
Sleep, no Reset is generated. Instead, the device wakes
up and resumes operation. The TO and PD bits in the
STATUS register are changed to indicate the event. See
When a WDT time-out occurs while the device is in
Sleep, no Reset is generated. Instead, the device wakes
up and resumes operation. The TO and PD bits in the
STATUS register are changed to indicate the event. See
and STATUS
register (
) for more information.
WDTE<1:0>
SWDTEN
Device
Mode
WDT
Mode
11
X
X
Active
10
X
Awake
Active
Sleep
Disabled
01
1
X
Active
0
Disabled
00
X
X
Disabled
TABLE 10-2:
WDT CLEARING CONDITIONS
Conditions
WDT
WDTE<1:0> = 00
Cleared
WDTE<1:0> = 01 and SWDTEN = 0
WDTE<1:0> = 10 and enter Sleep
CLRWDT Command
Oscillator Fail Detected
Exit Sleep + System Clock = T1OSC, EXTRC, INTOSC, EXTCLK
Exit Sleep + System Clock = XT, HS, LP
WDTE<1:0> = 10 and enter Sleep
CLRWDT Command
Oscillator Fail Detected
Exit Sleep + System Clock = T1OSC, EXTRC, INTOSC, EXTCLK
Exit Sleep + System Clock = XT, HS, LP
Cleared until the end of OST
Change INTOSC divider (IRCF bits)
Unaffected