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RM0008
Table 75.
Counting direction versus encoder signals
General-purpose timer (TIMx)
Active edge
Level on opposite
signal (TI1FP1 for
TI1FP1 signal
TI2FP2 signal
TI2, TI2FP2 for TI1)
Rising
Falling
Rising
Falling
Counting on
TI1 only
Counting on
TI2 only
Counting on
TI1 and TI2
High
Low
High
Low
High
Low
Down
Up
No Count
No Count
Down
Up
Up
Down
No Count
No Count
Up
Down
No Count
No Count
Up
Down
Up
Down
No Count
No Count
Down
Up
Down
Up
An external incremental encoder can be connected directly to the MCU without external
interface logic. However, comparators are normally be used to convert the encoder’s
differential outputs to digital signals. This greatly increases noise immunity. The third
encoder output which indicate the mechanical zero position, may be connected to an
external interrupt input and trigger a counter reset.
The Figure 133 gives an example of counter operation, showing count signal generation and
direction control. It also shows how input jitter is compensated where both edges are
selected. This might occur if the sensor is positioned near to one of the switching points. For
this example we assume that the configuration is the following:
CC1S=’01’ (TIMx_CCMR1 register, IC1FP1 mapped on TI1).
CC2S=’01’ (TIMx_CCMR2 register, IC2FP2 mapped on TI2).
CC1P=’0’ (TIMx_CCER register, IC1FP1 non-inverted, IC1FP1=TI1).
CC2P=’0’ (TIMx_CCER register, IC2FP2 non-inverted, IC2FP2=TI2).
SMS=’011’ (TIMx_SMCR register, both inputs are active on both rising and falling
edges).
CEN=’1’ (TIMx_CR1 register, Counter is enabled).
Figure 133. Example of counter operation in encoder interface mode.
forward
jitter
backward
jitter
forward
TI1
TI2
Counter
up
down
up
Figure 134 gives an example of counter behavior when IC1FP1 polarity is inverted (same
configuration as above except CC1P=’1’).
Doc ID 13902 Rev 9
345/995
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