21.6.2.5 Clock/Calendar (Mode 2)
When the RTC Operating Mode bits in the Control A register (CTRLA.MODE) are written to 0x2, the counter operates in Clock/Calendar mode. See RTC Block Diagram (Mode 2 — Clock/Calendar) figure in the Block Diagram from Related Links. When the RTC is enabled, the counter will increment on every 0-to-1 transition of CLK_RTC_CNT. The selected clock source and RTC prescaler must be configured to provide a 1Hz clock to the counter for correct operation in this mode.
The time and date can be read from or written to the Clock Value register (CLOCK) in a 32-bit time/date format. Time is represented as:
- Seconds
- Minutes
- Hours
Hours can be represented in either 12- or 24-hour format, selected by the Clock Representation bit in the Control A register (CTRLA.CLKREP). This bit can be changed only while the RTC is disabled.
The date is represented in this form:
- Day as the numeric day of the month (starting at 1)
- Month as the numeric month of the year (1 = January, 2 = February, etc.)
- Year as a value from 0x00 to 0x3F. This value must be added to a user-defined reference year. The reference year must be a leap year (2016, 2020 etc). Example: the year value 0x2D, added to a reference year 2016, represents the year 2061.
The RTC will increment until it reaches the top value of 23:59:59 December 31 of year value 0x3F, and then wrap to 00:00:00 January 1 of year value 0x00. This will set the Overflow Interrupt flag in the Interrupt Flag Status and Clear registers (INTFLAG.OVF).
The clock value is continuously compared with the 32-bit Alarm registers (ALARMn, n=0–1). When an alarm match occurs, the Alarm n Interrupt flag in the Interrupt Flag Status and Clear registers (INTFLAG.ALARMn, n=0..1) is set on the next 0-to-1 transition of CLK_RTC_CNT. E.g. For a 1Hz clock counter, it means the Alarm 0 Interrupt flag is set with a delay of 1s after the occurrence of alarm match.
A valid alarm match depends on the setting of the Alarm Mask Selection bits in the Alarm n Mask register (MASKn.SEL). These bits determine which time/date fields of the clock and alarm values are valid for comparison and which are ignored.