User Manual

ATmega48A/PA/88A/PA/168A/PA/328/P [DATASHEET]

8271E–AVR–07/2012

itself, as this might compromise the safety-function of the Watchdog System Reset mode. If the interrupt is not exe-

cuted before the next time-out, a System Reset will be applied.

Note: 1. WDTON Fuse set to “0” means programmed and “1” means unprogrammed.

• Bit 4 – WDCE: Watchdog Change Enable

This bit is used in timed sequences for changing WDE and prescaler bits. To clear the WDE bit, and/or change the

prescaler bits, WDCE must be set.

Once written to one, hardware will clear WDCE after four clock cycles.

• Bit 3 – WDE: Watchdog System Reset Enable

WDE is overridden by WDRF in MCUSR. This means that WDE is always set when WDRF is set. To clear WDE,

WDRF must be cleared first. This feature ensures multiple resets during conditions causing failure, and a safe

start-up after the failure.

• Bit 5, 2:0 - WDP[3:0]: Watchdog Timer Prescaler 3, 2, 1 and 0

The WDP[3:0] bits determine the Watchdog Timer prescaling when the Watchdog Timer is running. The different

prescaling values and their corresponding time-out periods are shown in Table 11-2 on page 55.

Table 11-1. Watchdog Timer Configuration

WDTON

(1)

WDE WDIE Mode Action on Time-out

1 0 0 Stopped None

1 0 1 Interrupt Mode Interrupt

1 1 0 System Reset Mode Reset

111

Interrupt and System Reset

Mode

Interrupt, then go to System

Reset Mode

0 x x System Reset Mode Reset

Table 11-2. Watchdog Timer Prescale Select

WDP3 WDP2 WDP1 WDP0

Number of WDT Oscillator

Cycles

Typical Time-out at

= 5.0V

0 0 0 0 2K (2048) cycles 16ms

0 0 0 1 4K (4096) cycles 32ms

0 0 1 0 8K (8192) cycles 64ms

0 0 1 1 16K (16384) cycles 0.125 s

0 1 0 0 32K (32768) cycles 0.25 s

0 1 0 1 64K (65536) cycles 0.5 s

0 1 1 0 128K (131072) cycles 1.0 s

0 1 1 1 256K (262144) cycles 2.0 s

1 0 0 0 512K (524288) cycles 4.0 s

1 0 0 1 1024K (1048576) cycles 8.0 s