fDigitThreshold(0),
fMeanPhotonElectron(0),
fPinNoise(0),
+fTimeDelay(0),
fTimeResolution(0),
//fTimeThreshold(0),
//fTimeSignalLength(0),
//Parameters in Digitizer
fMeanPhotonElectron = 4400; // electrons per GeV
fPinNoise = 0.012; // pin noise in GeV from analysis test beam data
- fDigitThreshold = fPinNoise * 3; // 3 * sigma
- fTimeResolution = 0.6e-9 ; // 600 psc
+ fDigitThreshold = 3; // 3 ADC counts not anymore cut in energy: //fPinNoise * 3; // 3 * sigma
+ fTimeResolution = 0.6e-9 ; // 600 pc
+ fTimeDelay = 600e-9 ; // 600 nc
+
//fTimeSignalLength = 1.0e-9 ;
fNADCEC = (Int_t) TMath::Power(2,16) ; // number of channels in Tower ADC - 65536
//fTimeThreshold = 0.001*10000000 ; // Means 1 MeV in terms of SDigits amplitude ??
fDigitThreshold(0),
fMeanPhotonElectron(0),
fPinNoise(0),
+fTimeDelay(0),
fTimeResolution(0),
//fTimeThreshold(0),
//fTimeSignalLength(0),//Digitizer
printf("=== Parameters in Digitizer === \n");
printf("\t Electronics noise in EMC (fPinNoise) = %f\n", fPinNoise) ;
- printf("\t Threshold in EMC (fDigitThreshold) = %f\n", fDigitThreshold) ;
+ printf("\t Threshold in EMC (fDigitThreshold) = %d\n", fDigitThreshold) ;
printf("\t Time Resolution (fTimeResolution) = %g\n", fTimeResolution) ;
- printf("\t Mean Photon-Electron (fMeanPhotonElectron) = %d\n", fMeanPhotonElectron) ;
+ printf("\t Time Delay (fTimeDelay) = %g\n", fTimeDelay) ;
+ printf("\t Mean Photon-Electron (fMeanPhotonElectron) = %d\n", fMeanPhotonElectron) ;
printf("\t N channels in EC section ADC (fNADCEC) = %d\n", fNADCEC) ;
printf("\n");