timing
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| Both sides previous revision Previous revision Next revision | Previous revision Next revision Both sides next revision | ||
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timing [2019/05/24 14:09] pereira |
timing [2019/05/24 14:11] pereira [Phillips TDC] |
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| ^ E1 up ^ 14 | LeCroy Var. ampl. -> Mesytec MCFD ch #0 -> ECL-NIM -> Fan in/out -> Fan in/out -> Fan in/out -> NIM-ECL | | ^ E1 up ^ 14 | LeCroy Var. ampl. -> Mesytec MCFD ch #0 -> ECL-NIM -> Fan in/out -> Fan in/out -> Fan in/out -> NIM-ECL | | ||
| ^ E1 up ^ 15 | LeCroy Var. ampl. -> Mesytec MCFD ch #0 -> ECL-NIM -> Fan in/out -> Fan in/out -> NIM-ECL | | ^ E1 up ^ 15 | LeCroy Var. ampl. -> Mesytec MCFD ch #0 -> ECL-NIM -> Fan in/out -> Fan in/out -> NIM-ECL | | ||
| - | ^ II PPAC2 anode ^ 16 | Mesytec MCFD2 ch #0 | | + | ^ II PPAC2 anode ^ 16 | Mesytec MCFD2 ch #0 | |
| - | ^ II PPAC2 down ^ 17 | Mesytec MCFD2 ch #1 | | + | ^ II PPAC2 down ^ 17 | Mesytec MCFD2 ch #1 | |
| - | ^ II PPAC2 up ^ 18 | Mesytec MCFD2 ch #2 | | + | ^ II PPAC2 up ^ 18 | Mesytec MCFD2 ch #2 | |
| - | ^ II PPAC2 right ^ 19 | Mesytec MCFD2 ch #3 | | + | ^ II PPAC2 right ^ 19 | Mesytec MCFD2 ch #3 | |
| - | ^ II PPAC2 left ^ 20 | Mesytec MCFD2 ch #4 | | + | ^ II PPAC2 left ^ 20 | Mesytec MCFD2 ch #4 | |
| - | ^ II PPAC1 anode ^ 21 | Mesytec MCFD2 ch #5 | | + | ^ II PPAC1 anode ^ 21 | Mesytec MCFD2 ch #5 | |
| - | ^ II PPAC1 down ^ 22 | Mesytec MCFD2 ch #6 | | + | ^ II PPAC1 down ^ 22 | Mesytec MCFD2 ch #6 | |
| - | ^ II PPAC1 up ^ 23 | Mesytec MCFD2 ch #7 | | + | ^ II PPAC1 up ^ 23 | Mesytec MCFD2 ch #7 | |
| - | ^ II PPAC1 right ^ 24 | Mesytec MCFD2 ch #8 | | + | ^ II PPAC1 right ^ 24 | Mesytec MCFD2 ch #8 | |
| - | ^ II PPAC1 left ^ 25 | Mesytec MCFD2 ch #9 | | + | ^ II PPAC1 left ^ 25 | Mesytec MCFD2 ch #9 | |
| Line 83: | Line 83: | ||
| ==== Phillips TDC ==== | ==== Phillips TDC ==== | ||
| + | **ATTENTION: | ||
| + | |||
| * Before going to the TDC, the OBJ and XFP detector signals are sent to a {{: | * Before going to the TDC, the OBJ and XFP detector signals are sent to a {{: | ||
| * The TDC start is provided by the [[Trigger|ULM trigger module]]. Since the delay of the S800 trigger may be adjusted during tuning of the S800 (XDT), the stop signals (e.g. from OBJ or XFP) need to be re-adjusted so that the ToF fits into the 400-ns range of the TDC. This is done manually for OBJ and XFP, and remotely via [[XLM Delay|XLM delay module]] (operated by the [[S800 DAQ tools#Delay Window|Delay GUI]]) for other timing signals | * The TDC start is provided by the [[Trigger|ULM trigger module]]. Since the delay of the S800 trigger may be adjusted during tuning of the S800 (XDT), the stop signals (e.g. from OBJ or XFP) need to be re-adjusted so that the ToF fits into the 400-ns range of the TDC. This is done manually for OBJ and XFP, and remotely via [[XLM Delay|XLM delay module]] (operated by the [[S800 DAQ tools#Delay Window|Delay GUI]]) for other timing signals | ||
timing.txt · Last modified: 2020/04/02 20:58 by pereira
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