void SetSDDChargeLoss(Double_t p1) {fSDDChargeLoss=p1;}
Float_t GetSDDChargeLoss() const {return fSDDChargeLoss;}
+ void SetSDDTrigDelay(Double_t p1) {fSDDTrigDelay=p1;}
+ Float_t GetSDDTrigDelay() const {return fSDDTrigDelay;}
+
void SetSDDRawDataFormatCarlos() {fSDDRawFormat=7;}
void SetSDDRawDataFormatFixLen8bitEncoded() {fSDDRawFormat=0;}
Char_t GetSDDRawDataFormat() const {return fSDDRawFormat;}
static const Float_t fgkSDDDynamicRangeDefault; // default for fSDDDynamicRange
static const Int_t fgkSDDMaxAdcDefault; // default for fSDDMaxAdc
static const Float_t fgkSDDChargeLossDefault; // default for fSDDChargeLoss
+ static const Float_t fgkSDDTrigDelayDefault; // default for fSDDTrigDelay
static const Double_t fgkSSDCouplingPRDefault; // default values
static const Double_t fgkSSDCouplingPLDefault; // for the
Float_t fSDDDynamicRange; // SDD Dynamic Range
Float_t fSDDMaxAdc; // SDD ADC saturation value
Float_t fSDDChargeLoss; // Set Linear Coefficient for Charge Loss
+ Float_t fSDDTrigDelay; // SDD time-zero
Char_t fSDDRawFormat; // Index for SDD RawFormat
Double_t fSSDCouplingPR; // SSD couplings
Double_t fN; // the impurity concentration of the material in #/cm^3 (NOT USED!)
Float_t fT; // The temperature of the Si in Degree K.
- ClassDef(AliITSSimuParam,4);
+ ClassDef(AliITSSimuParam,5);
};
#endif