コード例 #1
0
 private OPCObjects()
 {
     camPrepare                      = new CamPrepare();
     AnalogValues                    = new List <AnalogValue>();
     DiscreteValues                  = new List <DiscreteValue>();
     ValvesInput                     = new Dictionary <int, ValveInput>();
     ValvesStatus                    = new Dictionary <int, ValveStatus>();
     SFT01_FT                        = new AnalogValue();
     SFT02_FT                        = new AnalogValue();
     SFT03_FT                        = new AnalogValue();
     SFT04_FT                        = new AnalogValue();
     SFT05_FT                        = new AnalogValue();
     SFT06_FT                        = new AnalogValue();
     SFT07_FT                        = new AnalogValue();
     SFT08_FT                        = new AnalogValue();
     SFT09_FT                        = new AnalogValue();
     SFT10_FT                        = new AnalogValue();
     FT_TT_1                         = new AnalogValue();
     FT_TT_2                         = new AnalogValue();
     FT_TT_3                         = new AnalogValue();
     K_RRG1                          = new AnalogValue();
     K_RRG2                          = new AnalogValue();
     K_RRG3                          = new AnalogValue();
     K_RRG4                          = new AnalogValue();
     PidHeatMode                     = new AnalogValue();
     RRG_Pressure_SP                 = new AnalogValue();
     RRG_9A1_feedback                = new AnalogValue();
     RRG_9A2_feedback                = new AnalogValue();
     RRG_9A3_feedback                = new AnalogValue();
     RRG_9A4_feedback                = new AnalogValue();
     TE_1                            = new AnalogValue();
     Pneumatic_Pressure              = new AnalogValue();
     Crio_Pressure                   = new AnalogValue();
     Camera_Pressure                 = new AnalogValue();
     Main_Pressure                   = new AnalogValue();
     Crio_Temperature                = new AnalogValue();
     PreHeat_Temp_SP                 = new AnalogValue();
     HeatAssist_Temp_SP              = new AnalogValue();
     PreHeat_Timer_SP                = new AnalogValue();
     HeatAssist_Timer_SP             = new AnalogValue();
     ManualSetTemp                   = new AnalogValue();
     BLM_Speed                       = new AnalogValue();
     BLM_Speed_SP                    = new AnalogValue();
     PreHeat_Done                    = new DiscreteValue();
     HeatAssist_Done                 = new DiscreteValue();
     PreHeat_Start                   = new DiscreteValue();
     HeatAssist_Flag                 = new DiscreteValue();
     Heat_Done                       = new DiscreteValue();
     HeatAssist_TempDone             = new DiscreteValue();
     Heat_Assit_On                   = new DiscreteValue();
     BLM_Start                       = new DiscreteValue();
     BLM_Stop                        = new DiscreteValue();
     BLM_Remote_Control_Done         = new DiscreteValue();
     BLM_Run                         = new DiscreteValue();
     Alarm_Open_door                 = new DiscreteValue();
     Alarm_Water_CRIO                = new DiscreteValue();
     Alarm_Hight_Pne_Press           = new DiscreteValue();
     Alarm_Low_One_Presse            = new DiscreteValue();
     Alarm_Crio_power_failure        = new DiscreteValue();
     Alarm_Qartz_power_failure       = new DiscreteValue();
     Alarm_ELI_Power_failure         = new DiscreteValue();
     Alarm_FloatHeater_power_failure = new DiscreteValue();
     Alarm_Ion_power_failure         = new DiscreteValue();
     Alarm_FVP_power_failure         = new DiscreteValue();
     Alarm_Indexer_power_failure     = new DiscreteValue();
     Alarm_SSP_power_failure         = new DiscreteValue();
     Alarm_TV1_power_failure         = new DiscreteValue();
     Alarm_Water_SECOND              = new DiscreteValue();
     Alarm_Hight_Crio_Temp           = new DiscreteValue();
     Crio_start_signal               = new DiscreteValue();
     Alarm_manual_stop               = new DiscreteValue();
     StartProcessSignal              = new DiscreteValue();
     StopProcessSignal               = new DiscreteValue();
     ELI_complete                    = new DiscreteValue();
     ELI_access                      = new DiscreteValue();
     PreHeat_Stage                   = new IntValue();
     HeatAssist_Stage                = new IntValue();
     Tech_cam_STAGE                  = new IntValue();
     FullCycleStage                  = new IntValue();
     IntValues                       = new List <IntValue>();
     FVPStatus                       = new FVPStatus();
     IonInputSetPoint                = new IonInputSetPoint();
     OPCLocker                       = new object();
     SQLLocker                       = new object();
     BAV_3_status                    = new ValveStatus();
     FVV_S_Status                    = new ValveStatus();
     FVV_B_Status                    = new ValveStatus();
     CPV_Status                      = new ValveStatus();
     SHV_Status                      = new ValveStatus();
     BAV_3_input                     = new ValveInput();
     FVV_S_Input                     = new ValveInput();
     FVV_B_Input                     = new ValveInput();
     CPV_Input                       = new ValveInput();
     SHV_Input                       = new ValveInput();
     camPrepare                      = new CamPrepare();
     CrioPumpStart                   = new CrioPumpStart();
     openCam                         = new OpenCam();
     StopCrio                        = new StopCrio();
     StopFVP                         = new StopFVP();
     IonInputCommnd                  = new IonInputCommand();
     IonInputSetPoint                = new IonInputSetPoint();
     IonOutputFeedBack               = new IonOutputFeedBack();
     IonStatus                       = new IonStatus();
     FVPStatus                       = new FVPStatus();
     CrioInput                       = new CrioInput();
     CrioStatus                      = new CrioStatus();
     user                            = new User();
 }
コード例 #2
0
ファイル: OPCUAWorker.cs プロジェクト: tyrbonit/KVANT_Scada_2
        ///<summaray>
        ///Метод  StartOPCUAClient первичное подключени при инициализации системы.
        ///Выполняет чтение всех переменных.
        ///Запускает таймер циклического обновления данных
        ///</summaray>

        public void StartOPCUAClient()
        {
            AnalogInput variable = new AnalogInput();

            OPCLocker  = new object();
            client     = new OpcClient("opc.tcp://192.168.0.10:4840/");
            opcobjects = OPCObjects.createObjects();

            OPCObjects.client    = client;
            OPCObjects.OPCLocker = OPCLocker;
            OPCObjects.client.Connect();

            lock (OPCObjects.OPCLocker)
            {
                //client.Connect();
                #region BAV_3
                ValveStatus BAV_3_Status = client.ReadNode(OPCUAWorkerPaths.BAV_3_Status_path).As <ValveStatus>();
                ValveInput  BAV_3_Input  = client.ReadNode(OPCUAWorkerPaths.BAV_3_Input_path).As <ValveInput>();
                #endregion
                #region FVV_S
                ValveStatus FVV_S_Status = client.ReadNode(OPCUAWorkerPaths.FVV_S_Status_path).As <ValveStatus>();
                ValveInput  FVV_S_Input  = client.ReadNode(OPCUAWorkerPaths.FVV_S_Input_path).As <ValveInput>();
                #endregion
                #region FVV_B
                ValveStatus FVV_B_Status = client.ReadNode(OPCUAWorkerPaths.FVV_B_Status_path).As <ValveStatus>();
                ValveInput  FVV_B_Input  = client.ReadNode(OPCUAWorkerPaths.FVV_B_Input_path).As <ValveInput>();
                #endregion
                #region CPV
                ValveStatus CPV_Status = client.ReadNode(OPCUAWorkerPaths.CPV_Status_path).As <ValveStatus>();
                ValveInput  CPV_Input  = client.ReadNode(OPCUAWorkerPaths.CPV_Input_path).As <ValveInput>();
                #endregion
                #region SHV
                ValveStatus SHV_Status = client.ReadNode(OPCUAWorkerPaths.SHV_Status_path).As <ValveStatus>();
                ValveInput  SHV_Input  = client.ReadNode(OPCUAWorkerPaths.SHV_Input_path).As <ValveInput>();
                #endregion



                #region Crio_pump
                CrioInput  crioInput  = client.ReadNode(OPCUAWorkerPaths.Crio_pump_Input_path).As <CrioInput>();
                CrioStatus crioStatus = client.ReadNode(OPCUAWorkerPaths.Crio_pump_Status_path).As <CrioStatus>();
                #endregion
                StopFVP  StopFVP  = client.ReadNode(OPCUAWorkerPaths.StopFVP_path).As <StopFVP>();
                StopCrio StopCrio = client.ReadNode(OPCUAWorkerPaths.StopCrio_path).As <StopCrio>();


                OpenCam           OpenCam           = client.ReadNode(OPCUAWorkerPaths.OpenCam_path).As <OpenCam>();
                CrioPumpStart     CrioPumpStart     = client.ReadNode(OPCUAWorkerPaths.CrioPumpStart_path).As <CrioPumpStart>();
                CamPrepare        camPrepare        = client.ReadNode(OPCUAWorkerPaths.CamPrepare_path).As <CamPrepare>();
                IonStatus         IonStatus         = client.ReadNode(OPCUAWorkerPaths.IonStatus_path).As <IonStatus>();
                IonOutputFeedBack IonOutputFeedBack = client.ReadNode(OPCUAWorkerPaths.IonOutputFeedBack_path).As <IonOutputFeedBack>();



                OPCObjects.IonInputSetPoint = client.ReadNode(OPCUAWorkerPaths.IonInputSetPoint_path).As <IonInputSetPoint>();


                //OpcNodeInfo adsd = client.BrowseNode(OPCUAWorkerPaths.IonInputSetPoint_path);
                //if (adsd is OpcVariableNodeInfo variablenode)
                //{
                //    OpcNodeId datatypeid = variablenode.DataTypeId;
                //    OpcDataTypeInfo datatype = client.GetDataTypeSystem().GetType(datatypeid);

                //    Console.WriteLine(datatype.TypeId);
                //    Console.WriteLine(datatype.Encoding);

                //    Console.WriteLine(datatype.Name);

                //    foreach (OpcDataFieldInfo field in datatype.GetFields())
                //        Console.WriteLine(".{0} : {1}", field.Name, field.FieldType);

                //    Console.WriteLine();
                //    Console.WriteLine("data type attributes:");
                //    Console.WriteLine(
                //            "\t[opcdatatype(\"{0}\")]",
                //            datatype.TypeId.ToString(OpcNodeIdFormat.Foundation));
                //    Console.WriteLine(
                //            "\t[opcdatatypeencoding(\"{0}\", namespaceuri = \"{1}\")]",
                //            datatype.Encoding.Id.ToString(OpcNodeIdFormat.Foundation),
                //            datatype.Encoding.Namespace.Value);
                //}


                IonInputCommand IonInputCommand = client.ReadNode(OPCUAWorkerPaths.IonInputCommand_path).As <IonInputCommand>();



                OPCObjects.FVPStatus = client.ReadNode(OPCUAWorkerPaths.FVPStatus_path).As <FVPStatus>();


                //variable.Alarm_Crio_power_failure = client.ReadNode(OPCUAWorkerPaths.Alarm_Crio_power_failure_path);

                //variable.Alarm_ELI_power_failure = client.ReadNode(OPCUAWorkerPaths.Alarm_ELI_power_failure_path);

                //variable.Alarm_FloatHeater_power_failure = client.ReadNode(OPCUAWorkerPaths.Alarm_FloatHeater_power_failure_path);
                //variable.Alarm_FVP_power_failure = client.ReadNode(OPCUAWorkerPaths.Alarm_FVP_power_failure_path);
                //variable.Alarm_Hight_Crio_Temp = client.ReadNode(OPCUAWorkerPaths.Alarm_Hight_Crio_Temp_path);
                //variable.Alarm_Hight_Pne_Presse = client.ReadNode(OPCUAWorkerPaths.Alarm_Hight_Pne_Presse_path);
                /// variable.Alarm_Indexer_power_failure = client.ReadNode(OPCUAWorkerPaths.Alarm_Indexer_power_failure_path);
                //variable.Alarm_Ion_power_failure = client.ReadNode(OPCUAWorkerPaths.Alarm_Ion_power_failure_path);
                //variable.Alarm_Low_One_Presse = client.ReadNode(OPCUAWorkerPaths.Alarm_Low_One_Presse_path);
                //variable.Alarm_manual_Stop = client.ReadNode(OPCUAWorkerPaths.Alarm_manual_Stop_path);
                //variable.Alarm_Open_door = client.ReadNode(OPCUAWorkerPaths.Alarm_Open_door_path);
                //variable.Alarm_Qartz_power_filure = client.ReadNode(OPCUAWorkerPaths.Alarm_Qartz_power_filure_path);
                //variable.Alarm_SSP_power_failure = client.ReadNode(OPCUAWorkerPaths.Alarm_SSP_power_failure_path);
                //variable.Alarm_TV1_power_failure = client.ReadNode(OPCUAWorkerPaths.Alarm_TV1_power_failure_path);
                //variable.Alarm_Water_CRIO = client.ReadNode(OPCUAWorkerPaths.Alarm_Water_CRIO_path);
                //variable.Alarm_Water_SECOND = client.ReadNode(OPCUAWorkerPaths.Alarm_Water_SECOND_path);
                //variable.BLM_Remote_Control_Done = client.ReadNode(OPCUAWorkerPaths.BLM_Remote_Control_Done_path);
                //variable.BLM_Run = client.ReadNode(OPCUAWorkerPaths.BLM_Run_path);
                //variable.BLM_Start = client.ReadNode(OPCUAWorkerPaths.BLM_Start_path);
                //variable.BLM_Stop = client.ReadNode(OPCUAWorkerPaths.BLM_Stop_path);
                //variable.Crio_start_signal = client.ReadNode(OPCUAWorkerPaths.Crio_start_signal_path);
                //variable.HeatAssist_Done = client.ReadNode(OPCUAWorkerPaths.HeatAssist_Done_path);
                //variable.HeatAssist_Flag = client.ReadNode(OPCUAWorkerPaths.HeatAssist_Flag_path);
                //variable.HeatAssist_TempDone = client.ReadNode(OPCUAWorkerPaths.HeatAssist_TempDone_path);
                //variable.Heat_Assist_ON = client.ReadNode(OPCUAWorkerPaths.Heat_Assist_ON_path);
                //variable.Heat_Done = client.ReadNode(OPCUAWorkerPaths.Heat_Done_path);
                //variable.Heat_Assist_ON = client.ReadNode(OPCUAWorkerPaths.Heat_Assist_ON_path);
                //variable.PreHeat_Done = client.ReadNode(OPCUAWorkerPaths.PreHeat_Done_path);
                //variable.PreHeat_Start = client.ReadNode(OPCUAWorkerPaths.PreHeat_Start_path);



                ReadAnalogValues(client);

                ReadDiscretValues(client);

                ReadIntegerValues(client);



                //variable.BLM_Speed = client.ReadNode(OPCUAWorkerPaths.BLM_Speed_path);


                // variable.BLM_Speed_SP = client.ReadNode(OPCUAWorkerPaths.BLM_Speed_SP_path);


                //variable.CameraPressure = client.ReadNode(OPCUAWorkerPaths.CameraPressure_path);

                //variable.CrioPressure = client.ReadNode(OPCUAWorkerPaths.CrioPressure_path);

                //variable.CrioTemperature = client.ReadNode(OPCUAWorkerPaths.CrioTemperature_path);


                //variable.FT_TT_1 = client.ReadNode(OPCUAWorkerPaths.FT_TT_1_path);
                //variable.FT_TT_2 = client.ReadNode(OPCUAWorkerPaths.FT_TT_2_path);
                //variable.FT_TT_3 = client.ReadNode(OPCUAWorkerPaths.FT_TT_3_path);



                //variable.HeatAssist_Temp_SP = client.ReadNode(OPCUAWorkerPaths.HeatAssist_Temp_SP_path);

                variable.HeatAssist_Timer = client.ReadNode(OPCUAWorkerPaths.HeatAssist_Timer_path);

                //variable.Heat_Assist_Timer_SP = client.ReadNode(OPCUAWorkerPaths.Heat_Assist_Timer_SP_path);


                //variable.MainPressure = client.ReadNode(OPCUAWorkerPaths.MainPressure_path);

                //variable.ManualSetTemp = client.ReadNode(OPCUAWorkerPaths.ManualSetTemp_path);

                //variable.PneumaticPressure = client.ReadNode(OPCUAWorkerPaths.PneumaticPressure_path);



                //variable.PreHeat_Temp_SP = client.ReadNode(OPCUAWorkerPaths.PreHeat_Temp_SP_path);

                variable.PreHeat_Timer = client.ReadNode(OPCUAWorkerPaths.PreHeat_Timer_path);

                //variable.PreHeat_Timer_SP = client.ReadNode(OPCUAWorkerPaths.PreHeat_Timer_SP_path);

                //variable.RRG_9A1_feedback = client.ReadNode(OPCUAWorkerPaths.RRG_9A1_feedback_path);
                //variable.RRG_9A2_feedback = client.ReadNode(OPCUAWorkerPaths.RRG_9A2_feedback_path);
                //variable.RRG_9A3_feedback = client.ReadNode(OPCUAWorkerPaths.RRG_9A3_feedback_path);
                //variable.RRG_9A4_feedback = client.ReadNode(OPCUAWorkerPaths.RRG_9A4_feedback_path);
                //variable.SFT01_FT = client.ReadNode(OPCUAWorkerPaths.SFT01_FT_path);
                //variable.SFT02_FT = client.ReadNode(OPCUAWorkerPaths.SFT02_FT_path);
                //variable.SFT03_FT = client.ReadNode(OPCUAWorkerPaths.SFT03_FT_path);
                //variable.SFT04_FT = client.ReadNode(OPCUAWorkerPaths.SFT04_FT_path);
                //variable.SFT05_FT = client.ReadNode(OPCUAWorkerPaths.SFT05_FT_path);
                //variable.SFT06_FT = client.ReadNode(OPCUAWorkerPaths.SFT06_FT_path);
                //variable.SFT07_FT = client.ReadNode(OPCUAWorkerPaths.SFT07_FT_path);
                //variable.SFT08_FT = client.ReadNode(OPCUAWorkerPaths.SFT08_FT_path);
                //variable.SFT09_FT = client.ReadNode(OPCUAWorkerPaths.SFT09_FT_path);
                //variable.SFT10_FT = client.ReadNode(OPCUAWorkerPaths.SFT10_FT_path);
                //variable.TE_1 = client.ReadNode(OPCUAWorkerPaths.TE_1_path);



                //client.Disconnect();

                Console.WriteLine("SDASDASDASDASDSA {0}", opcobjects.GetIonInputSetPoint().Heat_U_SP);


                OPCObjects.AnalogValues.Add(OPCObjects.BLM_Speed_SP);
                OPCObjects.AnalogValues.Add(OPCObjects.Camera_Pressure);
                OPCObjects.AnalogValues.Add(OPCObjects.Crio_Pressure);
                OPCObjects.AnalogValues.Add(OPCObjects.Crio_Temperature);
                OPCObjects.AnalogValues.Add(OPCObjects.FT_TT_1);
                OPCObjects.AnalogValues.Add(OPCObjects.FT_TT_2);
                OPCObjects.AnalogValues.Add(OPCObjects.FT_TT_3);
                OPCObjects.AnalogValues.Add(OPCObjects.HeatAssist_Temp_SP);
                OPCObjects.AnalogValues.Add(OPCObjects.HeatAssist_Timer_SP);
                OPCObjects.AnalogValues.Add(OPCObjects.Main_Pressure);
                OPCObjects.AnalogValues.Add(OPCObjects.ManualSetTemp);
                OPCObjects.AnalogValues.Add(OPCObjects.Pneumatic_Pressure);
                OPCObjects.AnalogValues.Add(OPCObjects.PreHeat_Temp_SP);
                OPCObjects.AnalogValues.Add(OPCObjects.PreHeat_Timer_SP);
                OPCObjects.AnalogValues.Add(OPCObjects.BLM_Speed);
                OPCObjects.AnalogValues.Add(OPCObjects.RRG_9A1_feedback);
                OPCObjects.AnalogValues.Add(OPCObjects.RRG_9A2_feedback);
                OPCObjects.AnalogValues.Add(OPCObjects.RRG_9A3_feedback);
                OPCObjects.AnalogValues.Add(OPCObjects.RRG_9A4_feedback);
                OPCObjects.AnalogValues.Add(OPCObjects.SFT01_FT);
                OPCObjects.AnalogValues.Add(OPCObjects.SFT02_FT);
                OPCObjects.AnalogValues.Add(OPCObjects.SFT03_FT);
                OPCObjects.AnalogValues.Add(OPCObjects.SFT04_FT);
                OPCObjects.AnalogValues.Add(OPCObjects.SFT05_FT);
                OPCObjects.AnalogValues.Add(OPCObjects.SFT06_FT);
                OPCObjects.AnalogValues.Add(OPCObjects.SFT07_FT);
                OPCObjects.AnalogValues.Add(OPCObjects.SFT08_FT);
                OPCObjects.AnalogValues.Add(OPCObjects.SFT09_FT);
                OPCObjects.AnalogValues.Add(OPCObjects.SFT10_FT);
                OPCObjects.AnalogValues.Add(OPCObjects.TE_1);
                OPCObjects.AnalogValues.Add(OPCObjects.K_RRG1);
                OPCObjects.AnalogValues.Add(OPCObjects.K_RRG2);
                OPCObjects.AnalogValues.Add(OPCObjects.K_RRG3);
                OPCObjects.AnalogValues.Add(OPCObjects.K_RRG4);
                OPCObjects.AnalogValues.Add(OPCObjects.RRG_Pressure_SP);
                OPCObjects.AnalogValues.Add(OPCObjects.PidHeatMode);

                OPCObjects.DiscreteValues.Add(OPCObjects.Alarm_Crio_power_failure);
                OPCObjects.DiscreteValues.Add(OPCObjects.Alarm_ELI_Power_failure);
                OPCObjects.DiscreteValues.Add(OPCObjects.Alarm_FloatHeater_power_failure);
                OPCObjects.DiscreteValues.Add(OPCObjects.Alarm_FVP_power_failure);
                OPCObjects.DiscreteValues.Add(OPCObjects.Alarm_Hight_Crio_Temp);
                OPCObjects.DiscreteValues.Add(OPCObjects.Alarm_Hight_Pne_Press);
                OPCObjects.DiscreteValues.Add(OPCObjects.Alarm_Indexer_power_failure);
                OPCObjects.DiscreteValues.Add(OPCObjects.Alarm_Ion_power_failure);
                OPCObjects.DiscreteValues.Add(OPCObjects.Alarm_Low_One_Presse);
                OPCObjects.DiscreteValues.Add(OPCObjects.Alarm_manual_stop);
                OPCObjects.DiscreteValues.Add(OPCObjects.Alarm_Open_door);
                OPCObjects.DiscreteValues.Add(OPCObjects.Alarm_Qartz_power_failure);
                OPCObjects.DiscreteValues.Add(OPCObjects.Alarm_SSP_power_failure);
                OPCObjects.DiscreteValues.Add(OPCObjects.Alarm_TV1_power_failure);
                OPCObjects.DiscreteValues.Add(OPCObjects.Alarm_Water_CRIO);
                OPCObjects.DiscreteValues.Add(OPCObjects.Alarm_Water_SECOND);
                OPCObjects.DiscreteValues.Add(OPCObjects.BLM_Remote_Control_Done);
                OPCObjects.DiscreteValues.Add(OPCObjects.BLM_Run);
                OPCObjects.DiscreteValues.Add(OPCObjects.BLM_Start);
                OPCObjects.DiscreteValues.Add(OPCObjects.BLM_Stop);
                OPCObjects.DiscreteValues.Add(OPCObjects.Crio_start_signal);
                OPCObjects.DiscreteValues.Add(OPCObjects.HeatAssist_Done);
                OPCObjects.DiscreteValues.Add(OPCObjects.HeatAssist_Flag);
                OPCObjects.DiscreteValues.Add(OPCObjects.HeatAssist_TempDone);
                OPCObjects.DiscreteValues.Add(OPCObjects.Heat_Assit_On);
                OPCObjects.DiscreteValues.Add(OPCObjects.Heat_Done);
                OPCObjects.DiscreteValues.Add(OPCObjects.PreHeat_Done);
                OPCObjects.DiscreteValues.Add(OPCObjects.PreHeat_Start);
                OPCObjects.DiscreteValues.Add(OPCObjects.StopProcessSignal);
                OPCObjects.DiscreteValues.Add(OPCObjects.StartProcessSignal);
                OPCObjects.DiscreteValues.Add(OPCObjects.ELI_access);
                OPCObjects.DiscreteValues.Add(OPCObjects.ELI_complete);

                OPCObjects.IntValues.Add(OPCObjects.HeatAssist_Stage);
                OPCObjects.IntValues.Add(OPCObjects.Tech_cam_STAGE);
                OPCObjects.IntValues.Add(OPCObjects.PreHeat_Stage);



                opcobjects.setBAV_3_Status(BAV_3_Status);
                opcobjects.setBAV_3_Input(BAV_3_Input);
                opcobjects.set_CVP_Input(CPV_Input);
                opcobjects.set_CVP_Status(CPV_Status);
                opcobjects.set_FVV_B_Input(FVV_B_Input);
                opcobjects.set_FVV_B_Status(FVV_B_Status);
                opcobjects.set_FVV_S_Input(FVV_S_Input);
                opcobjects.set_FVV_S_Status(FVV_S_Status);
                opcobjects.set_SHV_Input(SHV_Input);
                opcobjects.set_SHV_Status(SHV_Status);
                opcobjects.SetCrioInput(crioInput);
                opcobjects.SetCrioStatus(crioStatus);
                opcobjects.SetStopFvp(StopFVP);
                opcobjects.SetStopCrio(StopCrio);
                opcobjects.set_OpcClient(client);
                opcobjects.SetOpenCam(OpenCam);
                opcobjects.set_CrioPumpStart(CrioPumpStart);
                opcobjects.set_camPrepare(camPrepare);
                opcobjects.SetIonStatus(IonStatus);
                opcobjects.SetIonOutputFeedBack(IonOutputFeedBack);
                //opcobjects.SetIonInputSetPoint(IonInputSetPoint);
                // opcobjects.SetIonInputCommand(IonInputCommand);
                //opcobjects.SetFVPStatus(FVPStatus);
                opcobjects.SetAnalogInput(variable);
                opcobjects.setOPCLocker(OPCLocker);


                OPCObjects.ValvesInput.Add(1, OPCObjects.BAV_3_input);
                OPCObjects.ValvesStatus.Add(1, OPCObjects.BAV_3_status);
                OPCObjects.ValvesInput.Add(2, OPCObjects.SHV_Input);
                OPCObjects.ValvesStatus.Add(2, OPCObjects.SHV_Status);
                OPCObjects.ValvesInput.Add(3, OPCObjects.FVV_S_Input);
                OPCObjects.ValvesStatus.Add(3, OPCObjects.FVV_S_Status);
                OPCObjects.ValvesStatus.Add(4, OPCObjects.FVV_B_Status);
                OPCObjects.ValvesInput.Add(4, OPCObjects.FVV_B_Input);
                OPCObjects.ValvesInput.Add(5, OPCObjects.CPV_Input);
                OPCObjects.ValvesStatus.Add(5, OPCObjects.CPV_Status);
            }
            //this.RegisterSubscribe();

            OpcInnerTimer = new TimerCallback(TimerRead);
            timer         = new Timer(OpcInnerTimer, client, 0, 2000);

            _opcHandler("OPC DONE");
        }
コード例 #3
0
 public void SetStopFvp(StopFVP obj)
 {
     StopFVP = obj;
 }