//******************************************************************************************************************** // globale Funktionen //******************************************************************************************************************** /// <summary> /// TTA measurment without XYZ (but with repetation cycles) /// </summary> /// <returns>Flag of status</returns> public bool Start_Single_TTA() { //Status-Bar initialisieren GUI.StatusBar_TTA_Single(0, (int)MyRack.Cycles); //DAQ-System anpassen if (!MyDAQ.TTA_set_Device(MyRack.Time_Heat, MyRack.Time_Meas)) { return(false); } if (!MyDAQ.TTA_set_Trigger(MyRack.Gain, MyRack.U_offset)) { return(false); } //Definiere Feld für Raw-Daten Binary_Raw_Files = new short[MyRack.Cycles, MyDAQ.Samples]; //Speicher reservieren MyDAQ.TTA_reserve_Storage(Binary_Raw_Files); //Loop für Wiederholungs-Zyklen for (int repetation_nr = 0; repetation_nr < MyRack.Cycles; repetation_nr++) { //Bei bedarf abbrechen if (GUI.myBackroundWorker.CancellationPending) { //Falls abbruch --> Speicher lösen MyDAQ.TTA_free_Storage(Binary_Raw_Files); return(false); } //DAQ scharf stellen if (!MyDAQ.TTA_wait_for_Trigger()) { return(false); } //Puls starten (bei NI mit Warten sonst ohne) MyRack.SinglePuls_withoutDelay(); //Daten abholen if (!MyDAQ.TTA_Collect_Data(Binary_Raw_Files, repetation_nr)) { return(false); } //Daten prüfen //???????????????????????????????????????? //Daten in Raw plotten GUI.Add_Series_to_RAW(this, repetation_nr); //Statusbar anpassen GUI.StatusBar_TTA_Single(repetation_nr + 1, (int)MyRack.Cycles); } //DatenSatz auswerten Convert_Data(); //Speicher lösen MyDAQ.TTA_free_Storage(Binary_Raw_Files); return(true); }