NB=value1, LD=value1, SS=value1, FL=value1, RE=value1, OCS=value1, FE=value1, NA=value1, PE=value1
Event Input Control
| PE | Output Trigger Pulse Enable for ETLx 0 (value1): The trigger pulse generation is disabled 1 (value2): The trigger pulse generation is enabled |
| LD | Rebuild Level Detection for Status Flag for ETLx 0 (value1): The status flag FL is not cleared by hardware and is used as “sticky” bit. Once set, it is not influenced by any edge until it becomes cleared by software. 1 (value2): The status flag FL rebuilds a level detection of the desired event. It becomes automatically set with a rising edge if RE = 1 or with a falling edge if FE = 1. It becomes automatically cleared with a rising edge if RE = 0 or with a falling edge if FE = 0. |
| RE | Rising Edge Detection Enable ETLx 0 (value1): A rising edge is not considered as edge event 1 (value2): A rising edge is considered as edge event |
| FE | Falling Edge Detection Enable ETLx 0 (value1): A falling edge is not considered as edge event 1 (value2): A falling edge is considered as edge event |
| OCS | Output Channel Select for ETLx Output Trigger Pulse 0 (value1): Trigger pulses are sent to OGU0 1 (value2): Trigger pulses are sent to OGU1 2 (value3): Trigger pulses are sent to OGU2 3 (value4): Trigger pulses are sent to OGU3 |
| FL | Status Flag for ETLx 0 (value1): The enabled edge event has not been detected 1 (value2): The enabled edge event has been detected |
| SS | Input Source Select for ERSx 0 (value1): Input A without additional combination 1 (value2): Input B without additional combination 2 (value3): Input A OR input B 3 (value4): Input A AND input B |
| NA | Input A Negation Select for ERSx 0 (value1): Input A is used directly 1 (value2): Input A is inverted |
| NB | Input B Negation Select for ERSx 0 (value1): Input B is used directly 1 (value2): Input B is inverted |