34.2 Errata ATmega88
The revision letter in this section refers to the revision of the ATmega88 device.
34.2.1
Rev. D
• Interrupts may be lost when writing the timer registers in the asynchronous timer
1. Interrupts may be lost when writing the timer registers in the asynchronous timer
If one of the timer registers which is synchronized to the asynchronous timer2 clock is writ-
ten in the cycle before an overflow interrupt occurs, the interrupt may be lost.
The only safe time to write to any of the Timer2 registers in asynchronous mode is in a com-
pare interrupt routine where the compare register is not 0xFF, or if the compare register is
0xFF, after a delay of at least one asynchronous clock cycle from the start of the interrupt.
Problem Fix/Workaround
Always check that the Timer2 Timer/Counter register, TCNT2, does not have the value 0xFF
before writing the Timer2 Control Register, TCCR2, or Output Compare Register, OCR2.
34.2.2
34.2.3
Rev. B/C
Rev. A
Not sampled.
• Writing to EEPROM does not work at low Operating Voltages
• Part may hang in reset
• Interrupts may be lost when writing the timer registers in the asynchronous timer
1. Writing to EEPROM does not work at low operating voltages
Writing to the EEPROM does not work at low voltages.
Problem Fix/Workaround
Do not write the EEPROM at voltages below 4.5 Volts.
This will be corrected in rev. B.
2. Part may hang in reset
Some parts may get stuck in a reset state when a reset signal is applied when the internal
reset state-machine is in a specific state. The internal reset state-machine is in this state for
approximately 10 ns immediately before the part wakes up after a reset, and in a 10 ns win-
dow when altering the system clock prescaler. The problem is most often seen during In-
System Programming of the device. There are theoretical possibilities of this happening also
in run-mode. The following three cases can trigger the device to get stuck in a reset-state:
- Two succeeding resets are applied where the second reset occurs in the 10ns window
before the device is out of the reset-state caused by the first reset.
- A reset is applied in a 10 ns window while the system clock prescaler value is updated by
software.
- Leaving SPI-programming mode generates an internal reset signal that can trigger this
case.
The two first cases can occur during normal operating mode, while the last case occurs only
during programming of the device.
360
ATmega48/88/168
2545M–AVR–09/07
ATMEL [ ATMEL ]
