PIC17C7XX_13 Datasheet, PDF(193/306 Page) Microchip Technology – High-Performance 8-bit CMOS EPROM Microcontrollers with 10-bit A/D

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PIC17C7XX_13 Datasheet, PDF (193/306 Pages) Microchip Technology – High-Performance 8-bit CMOS EPROM Microcontrollers with 10-bit A/D

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PIC17C7XX

17.3 Watchdog Timer (WDT)

The Watchdog Timerâs function is to recover from soft-

ware malfunction, or to reset the device while in SLEEP

mode. The WDT uses an internal free running on-chip

RC oscillator for its clock source. This does not require

any external components. This RC oscillator is sepa-

rate from the RC oscillator of the OSC1/CLKIN pin.

That means that the WDT will run even if the clock on

the OSC1/CLKIN and OSC2/CLKOUT pins has been

stopped, for example, by execution of a SLEEP instruc-

tion. During normal operation, a WDT time-out gener-

ates a device RESET. The WDT can be permanently

disabled by programming the configuration bits

WDTPS1:WDTPS0 as '00' (Section 17.1).

Under normal operation, the WDT must be cleared on

a regular interval. This time must be less than the min-

imum WDT overflow time. Not clearing the WDT in this

time frame will cause the WDT to overflow and reset

the device.

17.3.1 WDT PERIOD

The WDT has a nominal time-out period of 12 ms (with

postscaler = 1). The time-out periods vary with temper-

ature, VDD and process variations from part to part (see

DC specs). If longer time-out periods are desired, con-

figuration bits should be used to enable the WDT with

a greater prescale. Thus, typical time-out periods up to

3.0 seconds can be realized.

The CLRWDT and SLEEP instructions clear the WDT

and its postscale setting and prevent it from timing out,

thus generating a device RESET condition.

The TO bit in the CPUSTA register will be cleared upon

a WDT time-out.

17.3.2 CLEARING THE WDT AND

POSTSCALER

The WDT and postscaler are cleared when:

â¢ The device is in the RESET state

â¢ A SLEEP instruction is executed

â¢ A CLRWDT instruction is executed

â¢ Wake-up from SLEEP by an interrupt

The WDT counter/postscaler will start counting on the

first edge after the device exits the RESET state.

17.3.3 WDT PROGRAMMING

CONSIDERATIONS

It should also be taken in account that under worst case

conditions (VDD = Min., Temperature = Max., Max.

WDT postscaler), it may take several seconds before a

WDT time-out occurs.

The WDT and postscaler become the Power-up Timer

whenever the PWRT is invoked.

17.3.4 WDT AS NORMAL TIMER

When the WDT is selected as a normal timer, the clock

source is the device clock. Neither the WDT nor the

postscaler are directly readable or writable. The over-

flow time is 65536 TOSC cycles. On overflow, the TO bit

is cleared (device is not RESET). The CLRWDT instruc-

tion can be used to set the TO bit. This allows the WDT

to be a simple overflow timer. The simple timer does

not increment when in SLEEP.

FIGURE 17-1:

WATCHDOG TIMER BLOCK DIAGRAM

On-chip RC

Oscillator(1)

WDT

WDT Enable

Note 1: This oscillator is separate from the external

RC oscillator on the OSC1 pin.

Postscaler

4 - to - 1 MUX

WDTPS1:WDTPS0

WDT Overflow

TABLE 17-2: REGISTERS/BITS ASSOCIATED WITH THE WATCHDOG TIMER

Address

Name

Bit 7 Bit 6 Bit 5

Bit 4

Bit 3

Bit 2

Bit 1

Bit 0

â

Config

See Figure 17-1 for location of WDTPSx bits in Configuration Word.

06h, Unbanked CPUSTA

â

â

STKAV GLINTD

TO

PD

POR

BOR

Legend: - = unimplemented, read as '0', q = value depends on condition. Shaded cells are not used by the WDT.

Note 1: This value will be as the device was programmed, or if unprogrammed, will read as all '1's.

Value on

POR, BOR

MCLR, WDT

(Note 1)

(Note 1)

--11 11qq --11 qquu

ï£ 1998-2013 Microchip Technology Inc.

DS30289C-page 193

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