improved AliT0DataDCS from Tomek

[u/mrichter/AliRoot.git] / T0 / AliT0DataDCS.h

diff --git a/T0/AliT0DataDCS.h b/T0/AliT0DataDCS.h
index 971603b00ed888dab8f482e9d19c4d8a17422deb..035de5654d6b8e41bfee82d79fdad8ddf763eda4 100644 (file)
--- a/T0/AliT0DataDCS.h
+++ b/T0/AliT0DataDCS.h
@@ -40,28 +40,28 @@ private:
        void Init();
        void Introduce(UInt_t numAlias, const TObjArray* aliasArr)const;
 
-       Int_t fRun;     // Run number
-       UInt_t fStartTime;      // Start time
-       UInt_t fEndTime;        // End time
-       Int_t fStartTimeDCSQuery; // Begin time DCSQuery
-       Int_t fEndTimeDCSQuery;   // End time DCSQuery
-       Float_t fHViA[kHV];
-       Float_t fHVvA[kHV]; 
-       Float_t fLViA[kLV]; 
-       Float_t fLVvA[kLV];
-       Float_t fHViC[kHV];
-        Float_t fHVvC[kHV];
-        Float_t fLViC[kLV];
-        Float_t fLVvC[kLV];
-       Float_t fCFDtA[kCFD];
-       Float_t fCFDwA[kCFD];
-       Float_t fCFDtC[kCFD];
-        Float_t fCFDwC[kCFD];
+       Int_t fRun;                     // Run number
+       UInt_t fStartTime;              // Start time
+       UInt_t fEndTime;                // End time
+       Int_t fStartTimeDCSQuery;       // Begin time DCSQuery
+       Int_t fEndTimeDCSQuery;         // End time DCSQuery
+       Float_t fHViA[kHV];             // Mean value of HV current in uA on A-side
+       Float_t fHVvA[kHV];             // Mean value of HV voltage in V on A-side
+       Float_t fLViA[kLV];             // Mean value of LV current in uA on A-side
+       Float_t fLVvA[kLV];             // Mean value of LV voltage in V on A-side
+       Float_t fHViC[kHV];             // Mean value of HV current in uA on C-side
+        Float_t fHVvC[kHV];            // Mean value of HV voltage in V on C-side
+        Float_t fLViC[kLV];            // Mean value of LV current in uA on C-side
+        Float_t fLVvC[kLV];            // Mean value of LV voltage in V on C-side
+       Float_t fCFDtA[kCFD];           // Mean threshold on CFD in V on A-side 
+       Float_t fCFDwA[kCFD];           // Mean walk on CFD in V on A-side
+       Float_t fCFDtC[kCFD];           // Mean threshold on CFD in V on C-side
+        Float_t fCFDwC[kCFD];          // Mean walk on CFD in V on C-side
         Float_t fScalerMean[kScalers];  // Mean value of T0 scaler counts from the entire run
-        Float_t fScalerSecMean[kScalers];
-       Float_t fTRM[kTRM];
-       Float_t fDRM[kDRM];
-       Float_t fAtten; 
+        Float_t fScalerSecMean[kScalers]; // Mean value of T0 scaler counts per second
+       Float_t fTRM[kTRM];             // Mean temperature on TRM in degrees of Celsius
+       Float_t fDRM[kDRM];             // Mean temperature on DRM in degrees of Celsius
+       Float_t fAtten;                 // Laser amplitude in MIPs
        TString fAliasNames[kNAliases];         // T0 data points aliases  
        Bool_t fIsProcessed;                    // status - was processing data successful
        ClassDef(AliT0DataDCS, 3);