3.0 KiB
3.0 KiB
// Block Type: FB
// Block Number: 1782
// Original Network Languages: LAD
// Block Comment:
// TASK1 PID
FUNCTION_BLOCK "PID_RMM303"
{ S7_Optimized_Access := 'TRUE' }
VERSION : 0.1
VAR_INPUT
PID_Enable : Bool;
MAN_ON : Bool;
P_Sel : Bool;
I_Sel : Bool;
D_Sel : Bool;
FF_Enable : Bool;
REG_INV : Bool;
LMN_FAC : Real;
LMN_OFF : Real;
END_VAR
VAR_OUTPUT
LMN_P : Real;
LMN_I : Real;
LMN_D : Real;
END_VAR
VAR_INOUT
PID_Data : "PID";
END_VAR
VAR_STAT
PID_CO2_Proportional : Real;
PID_CO2_Integral : Real;
PID_CO2_Derivative : Real;
mCO2ValveOut : Real;
mCO2PIDEn : Bool;
PID : "PIDControl";
END_VAR
VAR_TEMP
mAux : Real;
END_VAR
BEGIN
// Network 1: Manual Enable (Original Language: LAD)
"HMI_PID"."RMM303"."ManualControl"."PidEnable" := ("gP_CarboPipe_En" AND "gWorkshopTest") OR ("gBlenderBlending" AND "Blender_Variables_Pers"."gCarboStillProduct" AND "HMI_Blender_Parameters"."Processor_Options"."Blender_OPT"."_RemoteInjection" AND "gWorkshopTest");
// Network 2: Setpoint (Original Language: LAD)
"HMI_PID"."RMM303"."Sp" := "Blender_Variables"."gSP_CO2";
// Network 3: PV forcing (Original Language: LAD)
IF "HMI_PID"."RMM303"."ManualControl"."PidEnable" AND "gBlenderStableFlow" AND "Procedure_Variables"."Blender_Rinse"."Running" AND "AUX FALSE" AND "gP_CarboPipe_En" THEN
"HMI_PID"."RMM303"."Pv" := "HMI_PID"."RMM303"."Sp";
END_IF;
// Network 4: Error Ok (Original Language: LAD)
IF "HMI_Service"."Workshop_Test"."CO2TestRequest" AND "gWorkshopTest" THEN
"mAux" := "HMI_Service"."Workshop_Test"."SIMCO2_Test_SP" - "HMI_PID"."RMM303"."Pv";
END_IF;
// Network 5: Error Ok (Original Language: LAD)
IF "HMI_Service"."Workshop_Test"."CO2TestRequest" THEN
"HMI_Service"."Workshop_Test"."SIMCO2_Error_OK" := FALSE;
END_IF;
// Network 6: PID Control (Original Language: LAD)
// Attenzione al Bit REG_INV !!
"PID"(D_Sel := "AUX TRUE", FF_Enable := "AUX TRUE", I_Sel := "AUX TRUE", LMN_FAC := 1.0, LMN_OFF := 0.0, MAN_ON := "gBlenderCIPMode" OR "HMI_PID"."RMM303"."ManualControl"."ManOut", PID_Data := "HMI_PID"."RMM303", PID_Enable := "HMI_PID"."RMM303"."ManualControl"."PidEnable" OR "HMI_PID"."RMM303"."I_ITL", P_Sel := "AUX TRUE", REG_INV := "AUX FALSE");
// Network 7: Integral (Original Language: LAD)
"mPID_RMM303_Int" := "PID_CO2_Integral";
// Network 8: Integral PID Inizialize (Original Language: LAD)
IF "HMI_PID"."RMM303"."I_ITL" THEN
"HMI_PID"."RMM303"."I_ITL" := FALSE;
END_IF;
// Network 9: C02 Valve Output (Original Language: LAD)
// NBox SymPy processed, logic in consumer
"mCO2PIDEn" := "HMI_PID"."RMM303"."ManualControl"."PidEnable"; // N_TRIG("HMI_PID"."RMM303"."ManualControl"."PidEnable") - Mem: "mCO2PIDEn"
IF "mCO2PIDEn" AND NOT "HMI_PID"."RMM303"."ManualControl"."PidEnable" THEN
"mCO2ValveOut" := "HMI_PID"."RMM303"."Out";
END_IF;
// Network 10: C02 Valve Output (Original Language: LAD)
SEL_R(G := "HMI_PID"."RMM303"."ManualControl"."PidEnable", IN0 := 0.0, IN1 := "HMI_PID"."RMM303"."Out");
END_FUNCTION_BLOCK