The Time Elapsed Counter (TEC) allows the user to make a precise time measurement between two (or more) events. The events may be either a rising or falling edge of a GPIO pin or a falling edge of the SPI SCS pin. Any GPIO pin can be programmed for TEC input. Rising or falling polarity can be chosen using the GPIO polarity invert register. After each TEC event, the counter values is captured and the application may read back a 40-bit value. The elapsed time is calculated based on the difference in the read back values. The accuracy of the measurement is better than 7.5 ns with a total measurement time over 59 minutes depending on exact configuration. It is necessary to read back at least the LSB of the TEC_CNTR to re-arm the TEC counter capture.

The TEC counter is clocked at a frequency based on PLL3 VCO frequency ÷8 or PLL2 VCO frequency ÷ 20. A time measurement is made by below steps.

1. Reset the TEC counter value. Recommended to reduce chance of counter roll-over between TEC capture events, but optional. If the reset is not done the user would need to detect roll-over of counter register which will complicate Equation 10 for elapsed time calculation.
2. Trigger TEC capture event and read back the TEC registers containing the stored counter value.
3. Trigger the TEC capture event a second time and read back the TEC registers containing the stored counter value.
4. Use Equation 10 to calculate the elapsed time. The worst-case error is twice the TEC counter clock period. Table 8-4 lists some common TEC clock frequencies/periods and roll-over times.

The TEC_CNTR register is split across five registers.

Figure 8-31 illustrates the states of the Time Elapsed Counter function.