Float_t* GetSigma() const {return (float*)fSigma;}
Float_t GetGain(Int_t channel) const {return fGain[channel];}
Float_t* GetGain() const {return (float*)fGain;}
+ Float_t GetADCsigma(Int_t channel) const {return fADCsigma[channel];}
+ Float_t* GetADCsigma() const {return (float*)fADCsigma;}
Float_t GetTimeOffset(Int_t channel) const {return fTimeOffset[channel];}
Float_t* GetTimeOffset() const {return (float*)fTimeOffset;}
void SetSigma(Float_t* Sigma);
void SetGain(Float_t val, Int_t channel) {fGain[channel]=val;}
void SetGain(Float_t* Gain);
-
+ void SetADCsigma(Float_t val, Int_t channel) {fADCsigma[channel]=val;}
+ void SetADCsigma(Float_t* ADCsigma);
+
void SetTimeOffset(Float_t val, Int_t channel) {fTimeOffset[channel]=val;}
void SetTimeOffset(Float_t* TimeOffset);
void SetTimeGain(Float_t val, Int_t channel) {fTimeGain[channel]=val;}
void SetWidthHV(Float_t val, Int_t channel) {fWidthHV[channel]=val;}
void SetWidthHV(Float_t* WidthHVs);
-
-
protected:
Float_t fPedestal[128]; // Mean pedestal values
Float_t fSigma[128]; // Sigmas of pedestal peaks
- Float_t fGain[128]; // PM gains
+ Float_t fGain[128]; // ADC mean values
+ Float_t fADCsigma[128]; // ADC sigma values
Float_t fTimeOffset[64];
Float_t fTimeGain[64];