2. Repeat these two steps for the six digits. Once all the digits are set, the RTC calendar registers are configured, and the current time is displayed on the LCD. The application enters Active-halt mode and is woken up by the RTC wakeup interrupt to display the current time. It...
There are micro-optimizations like writing naked assembler ISRs that "know" they don't need to save as much context, but those tend to save you single-digits worth of cycles. Logged The following users thanked this post: Mtech1peter-h Super Contributor Posts: 4591 Country: Doing elect...
2. Repeat these two steps for the six digits. Once all the digits are set, the RTC calendar registers are configured, and the current time is displayed on the LCD. The application enters Active-halt mode and is woken up by the RTC wakeup interrupt to display the current time. It then ...
2. Repeat these two steps for the six digits. Once all the digits are set, the RTC calendar registers are configured, and the current time is displayed on the LCD. The application enters Active-halt mode and is woken up by the RTC wakeup interrupt to display the current time. It then ...
2. Repeat these two steps for the six digits. Once all the digits are set, the RTC calendar registers are configured, and the current time is displayed on the LCD. The application enters Active-halt mode and is woken up by the RTC wakeup interrupt to display the current time. I...