PIC24F16KL402 Datasheet, PDF(184/260 Page) Microchip Technology – Low-Power, Low-Cost, General Purpose 16-Bit Flash Microcontrollers with nanoWatt XLP Technology

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PIC24F16KL402 Datasheet, PDF (184/260 Pages) Microchip Technology – Low-Power, Low-Cost, General Purpose 16-Bit Flash Microcontrollers with nanoWatt XLP Technology

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PIC24F16KL402 FAMILY

23.3 Watchdog Timer (WDT)

For the PIC24F16KL402 family of devices, the WDT is

driven by the LPRC oscillator. When the WDT is

enabled, the clock source is also enabled.

The nominal WDT clock source from LPRC is 31 kHz.

This feeds a prescaler that can be configured for either

5-bit (divide-by-32) or 7-bit (divide-by-128) operation.

The prescaler is set by the FWPSA Configuration bit.

With a 31 kHz input, the prescaler yields a nominal

WDT time-out period (TWDT) of 1 ms in 5-bit mode or

4 ms in 7-bit mode.

A variable postscaler divides down the WDT prescaler

output and allows for a wide range of time-out periods.

The postscaler is controlled by the Configuration bits,

WDTPS<3:0> (FWDT<3:0>), which allow the selection

of a total of 16 settings, from 1:1 to 1:32,768. Using the

prescaler and postscaler time-out periods, ranges from

1 ms to 131 seconds can be achieved.

The WDT, prescaler and postscaler are reset:

â¢ On any device Reset

â¢ On the completion of a clock switch, whether

invoked by software (i.e., setting the OSWEN bit

after changing the NOSC bits) or by hardware

(i.e., Fail-Safe Clock Monitor)

â¢ When a PWRSAV instruction is executed

(i.e., Sleep or Idle mode is entered)

â¢ When the device exits Sleep or Idle mode to

resume normal operation

â¢ By a CLRWDT instruction during normal execution

If the WDT is enabled in hardware (FWDTEN<1:0> = 11),

it will continue to run during Sleep or Idle modes. When

the WDT time-out occurs, the device will wake and code

execution will continue from where the PWRSAV

instruction was executed. The corresponding SLEEP or

IDLE bits (RCON<3:2>) will need to be cleared in

software after the device wakes up.

The WDT Flag bit, WDTO (RCON<4>), is not

automatically cleared following a WDT time-out. To

detect subsequent WDT events, the flag must be

cleared in software.

Note:

The CLRWDT and PWRSAV instructions

clear the prescaler and postscaler counts

when executed.

23.3.1 WINDOWED OPERATION

The Watchdog Timer has an optional Fixed Window

mode of operation. In this Windowed mode, CLRWDT

instructions can only reset the WDT during the last 1/4

of the programmed WDT period. A CLRWDT instruction,

executed before that window, causes a WDT Reset

similar to a WDT time-out.

Windowed WDT mode is enabled by programming the

Configuration bit, WINDIS (FWDT<6>), to â0â.

23.3.2 CONTROL REGISTER

The WDT is enabled or disabled by the FWDTEN<1:0>

Configuration bits. When both the FWDTEN<1:0> Con-

figuration bits are set, the WDT is always enabled.

The WDT can be optionally controlled in software when

the FWDTEN<1:0> Configuration bits have been pro-

grammed to â10â. The WDT is enabled in software by

setting the SWDTEN control bit (RCON<5>). The

SWDTEN control bit is cleared on any device Reset.

The software WDT option allows the user to enable the

WDT for critical code segments, and disable the WDT

during non-critical segments, for maximum power sav-

ings. When the FWTEN<1:0> bits are set to â01â, the

WDT is enabled only in Run and Idle modes, and is dis-

abled in Sleep. Software control of the WDT SWDTEN

bit (RCON<5>) is disabled with this setting.

FIGURE 23-1:

SWDTEN

FWDTEN

LPRC Input

All Device Resets

Transition to

New Clock Source

Exit Sleep or

Idle Mode

CLRWDT Instr.

PWRSAV Instr.

Sleep or Idle Mode

WDT BLOCK DIAGRAM

LPRC Control

FWPSA

31 kHz

Prescaler

(5-Bit/7-Bit)

WDT

Counter

1 ms/4 ms

WDTPS<3:0>

Postscaler

1:1 to 1:32.768

Wake from Sleep

WDT Overflow

Reset

DS31037B-page 184

ï£ 2011 Microchip Technology Inc.

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