Figure 133. Control Circuit In External Clock Mode 2 + Trigger Mode - ST STM32F405 Reference Manual

Advanced-control timers (TIM1 and TIM8)
–
3. Configure the timer in trigger mode by writing SMS=110 in TIMx_SMCR register. Select
TI1 as the input source by writing TS=101 in TIMx_SMCR register.
A rising edge on TI1 enables the counter and sets the TIF flag. The counter then counts on
ETR rising edges.
The delay between the rising edge of the ETR signal and the actual reset of the counter is
due to the resynchronization circuit on ETRP input.
Counter clock = CK_CNT = CK_PSC
17.3.20 Timer synchronization
The TIM timers are linked together internally for timer synchronization or chaining. Refer to
Section 18.3.15: Timer synchronization
Note: The clock of the slave timer must be enabled prior to receive events from the master timer,
and must not be changed on-the-fly while triggers are received from the master timer.
17.3.21 Debug mode
When the microcontroller enters debug mode (Cortex
counter either continues to work normally or stops, depending on DBG_TIMx_STOP
configuration bit in DBG module. For more details, refer to
for timers, watchdog, bxCAN and I
For safety purposes, when the counter is stopped (DBG_TIMx_STOP = 1 in
DBGMCU_APBx_FZ register), the outputs are disabled (as if the MOE bit was reset). The
outputs can either be forced to an inactive state (OSSI bit = 1), or have their control taken
over by the GPIO controller (OSSI bit = 0) to force them to Hi-Z.
560/1749
CC1P=0 and CC1NP='0' in TIMx_CCER register to validate the polarity (and
detect rising edge only).

Figure 133. Control circuit in external clock mode 2 + trigger mode

TI1
CEN/CNT_EN
ETR
Counter register
TIF
34
for details.
®
2
C.
RM0090 Rev 18
35
-M4 with FPU core halted), the TIMx
Section 38.16.2: Debug support
RM0090
36
MS33110V1