C8051F99X_10 Datasheet, PDF(276/322 Page) Silicon Laboratories – Ultra Low Power, 8-2 kB Flash, Capacitive Sensing MCU

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C8051F99X_10 Datasheet, PDF (276/322 Pages) Silicon Laboratories – Ultra Low Power, 8-2 kB Flash, Capacitive Sensing MCU

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C8051F99x-C8051F98x

25. Timers

Each MCU includes four counter/timers: two are 16-bit counter/timers compatible with those found in the

standard 8051, and two are 16-bit auto-reload timer for use with the ADC, SMBus, or for general purpose

use. These timers can be used to measure time intervals, count external events and generate periodic

interrupt requests. Timer 0 and Timer 1 are nearly identical and have four primary modes of operation.

Timer 2 and Timer 3 offer 16-bit and split 8-bit timer functionality with auto-reload. Additionally, Timer 2 and

Timer 3 have a Capture Mode that can be used to measure the SmaRTClock or a Comparator period with

respect to another oscillator. This is particularly useful when using Capacitive Touch Switches. See

Application Note AN338 for details on Capacitive Touch Switch sensing.

Timer 0 and Timer 1 Modes

13-bit counter/timer

16-bit counter/timer

8-bit counter/timer with auto-

reload

Two 8-bit counter/timers (Timer 0

only)

Timer 2 Modes

16-bit timer with auto-reload

Two 8-bit timers with auto-reload

Timer 3 Modes

16-bit timer with auto-reload

Two 8-bit timers with auto-reload

Timers 0 and 1 may be clocked by one of five sources, determined by the Timer Mode Select bits (T1Mâ

T0M) and the Clock Scale bits (SCA1âSCA0). The Clock Scale bits define a pre-scaled clock from which

Timer 0 and/or Timer 1 may be clocked (See SFR Definition 25.1 for pre-scaled clock selection).

Timer 0/1 may then be configured to use this pre-scaled clock signal or the system clock. Timer 2 and

Timer 3 may be clocked by the system clock, the system clock divided by 12. Timer 2 may additionally be

clocked by the SmaRTClock divided by 8 or the Comparator0 output. Timer 3 may additionally be clocked

by the external oscillator clock source divided by 8 or the Comparator1 output.

Timer 0 and Timer 1 may also be operated as counters. When functioning as a counter, a counter/timer

register is incremented on each high-to-low transition at the selected input pin (T0 or T1). Events with a

frequency of up to one-fourth the system clock frequency can be counted. The input signal need not be

periodic, but it should be held at a given level for at least two full system clock cycles to ensure the level is

properly sampled.

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