// // --> Frist of all the WIDTH of the time slice of one FADC slice // this is 3.33333 nsec. // #define WIDTH_FADC_TIMESLICE (50./15.) // this means 3.33 nsec // // --> Second the number of slices to fill in MFADC. This must by // connected to the MTrigger class. The time of interest must be // equal in both classes. // #define SLICES_MFADC (TOTAL_TRIGGER_TIME / WIDTH_FADC_TIMESLICE) // // --> The amount of FADC slice written to the raw format. // #define FADC_SLICES 15 // // --> The amount of ns before trigger that would be read from the ADC // in oder to show also the start of the pulse before the // the trigger time. // #define TIME_BEFORE_TRIGGER 10. // --> like the trigger the FADC value will also have a standard response // to one single Photo electron. This response is binned with smaller // bins. The WIDTH of that response function is done here. // #define SUBBINS 5. #define WIDTH_RESPONSE_MFADC (WIDTH_FADC_TIMESLICE / SUBBINS ) // 5 sub-bin in one FADC slice // // --> the number of Response slices // #define RESPONSE_SLICES_MFADC 45 // // #define MFADC_RESPONSE_FWHM 5.0 // // #define MFADC_RESPONSE_INTEGRAL 4.0 // // --> The maximum number of FADC channels // Most likely it will be always equal to CAMERA_PIXELS #define MFADC_CHANNELS 3500 // // Ratio of high to low gain: // #define HIGH2LOWGAIN 10.