RAGCom Kryotherm
Detaljer
- Typ
- Drivrutin
- Upplaggd av
- Ove Jansson, Abelko Innovation
- Version
- 2
- Uppdaterad
- 2013-09-02
- Skapad
- 2013-08-27
- Kategori
- AEACom, Kyla, Värme, Ventilation
- Visningar
- 3576
Beskrivning
Drivrutin
Bruksanvisning
Hur man installerar typdefinitionerna och driftsätter modulerna finns beskrivet i användarmanualen, kapitel 18.7.
Juridisk information
Alla skript tillhandahålls i befintligt skick och all användning sker på eget ansvar. Felaktig använding kan leda till skadad eller förstörd utrustning.
Skript kod
AEACOM2 CONFIGURATION
BAUDRATE 19200;
SEGMENT LENGTH 200;
SEGMENTS 64;
CYCLE TIME 15;
RESERVED SEGMENTS 0000 0000 0000 0000 0000 0000 0000 0000;
TRANSMIT SEGMENTS 0000 0000 0000 0000 0000 0000 0000 0000;
ACCEPT UNKNOWNS;
END;
AEADEVICE RAGCom NAMED "RAG-Com" TYPEID 4658 IS
PARAMETER
RAGGroup :"RAG Group";
Buzz :"Beeper";
PUBLIC
PRAGGroup :"RAG Group";
GT3 :"Room air temp" ["°C"];
GT4 :"Floor air temp" ["°C"];
Pot :"Set value displ." ["°C"]; %Börvärdesförskjutning
Ref :"Set value" ["°C"]; %Börvärde
Heat :"Heater"; %Status värmebatteri
Reg :"Controller val."; %Regulatorvärde
Gtime :"Damper motor" ["%"]; %Gångtid spjäll
PRIVATE
Fan;
BaseRef;
PotRange;
PFakt;
NoHeat;
Hyst;
HeatLim;
MESSAGE MAXSIZE 34
DATA[4] -> FLOAT(GT3 := ROUND(DATA*10)/10;);
DATA[8] -> FLOAT(GT4 := ROUND(DATA*10)/10;);
DATA[12] -> FLOAT(Pot := ROUND(DATA*10)/10;);
DATA[16] -> FLOAT(Reg := ROUND(DATA*10)/10;);
DATA[20] -> FLOAT(Gtime := ROUND(DATA););
DATA[24] -> BYTE(Heat := ROUND(DATA););
ACKNOWLEDGE
DATA[0] := FLOAT(BaseRef); %Basbörvärde
DATA[4] := FLOAT(PotRange); %Potentiometerförskjutning (maxgräns)
DATA[8] := FLOAT(PFakt); %P-område
DATA[12] := FLOAT(Hyst); %Hysteres
DATA[16] := FLOAT(HeatLim); %Efterbehandlingsgränsvärde
DATA[20] := BYTE(Fan); %Fläkthastighet
DATA[21] := BYTE(Buzz); %Summeraktivering
DATA[22] := BYTE(NoHeat); %Blockering av elvärme
END;
DEVICE
DEV[1] TO DEV[60] AEACOM 4658 AUTOMATIC;
END;
GROUP RAGGroup0 OF MAX 60 AEACOM TYPEID 4658
SELECT ONLINE RAGGroup < 2
ITERATOR Update
ALIAS
rag_speed = CHANNEL[159];
BaseSetpoint = PARAMETER[80];
MaxSetPointAdj = PARAMETER[81];
BlockHeater = PARAMETER[82];
PArea = PARAMETER[83];
Hysteresis = PARAMETER[84];
HeaterLimit = PARAMETER[85];
BEGIN
PRAGGroup := RAGGroup;
Fan := rag_speed;
BaseRef := BaseSetpoint;
PotRange := MaxSetPointAdj;
PFakt := PArea;
NoHeat := BlockHeater;
Hyst := Hysteresis;
HeatLim := HeaterLimit;
Ref := BaseRef + Pot;
END;
END;
GROUP RAGGroup1 OF MAX 60 AEACOM TYPEID 4658
SELECT ONLINE RAGGroup = 2
ITERATOR Update
ALIAS
rag_speed = CHANNEL[159];
BaseSetpoint = PARAMETER[86];
MaxSetPointAdj = PARAMETER[87];
BlockHeater = PARAMETER[88];
PArea = PARAMETER[89];
Hysteresis = PARAMETER[90];
HeaterLimit = PARAMETER[91];
BEGIN
PRAGGroup := RAGGroup;
Fan := rag_speed;
BaseRef := BaseSetpoint;
PotRange := MaxSetPointAdj;
PFakt := PArea;
NoHeat := BlockHeater;
Hyst := Hysteresis;
HeatLim := HeaterLimit;
Ref := BaseRef + Pot;
END;
END;
GROUP RAGGroup2 OF MAX 60 AEACOM TYPEID 4658
SELECT ONLINE RAGGroup = 3
ITERATOR Update
ALIAS
rag_speed = CHANNEL[159];
BaseSetpoint = PARAMETER[92];
MaxSetPointAdj = PARAMETER[93];
BlockHeater = PARAMETER[94];
PArea = PARAMETER[95];
Hysteresis = PARAMETER[96];
HeaterLimit = PARAMETER[97];
BEGIN
PRAGGroup := RAGGroup;
Fan := rag_speed;
BaseRef := BaseSetpoint;
PotRange := MaxSetPointAdj;
PFakt := PArea;
NoHeat := BlockHeater;
Hyst := Hysteresis;
HeatLim := HeaterLimit;
Ref := BaseRef + Pot;
END;
END;
% Added 061129 PW
GROUP RAGGroup3 OF MAX 60 AEACOM TYPEID 4658
SELECT ONLINE RAGGroup > 3
ITERATOR Update
ALIAS
damperMax = PARAMETER[59]; % Max damper position
za_st41 = CHANNEL[28]; % Supply Air Damper
controlMode = CHANNEL[85]; % Controler mode OFF (0), Comfort (1), Economy heating (2), Economy cooling (3)
%rag_speed = CHANNEL[159];
BaseSetpoint = PARAMETER[92];
MaxSetPointAdj = PARAMETER[93];
BlockHeater = PARAMETER[94];
PArea = PARAMETER[95];
Hysteresis = PARAMETER[96];
HeaterLimit = PARAMETER[97];
BEGIN
PRAGGroup := RAGGroup;
IF (controlMode = 1) AND (za_st41 > (damperMax-1)) THEN
Fan := 2;
ELSE
Fan := 0;
ENDIF;
BaseRef := BaseSetpoint;
PotRange := MaxSetPointAdj;
PFakt := PArea;
NoHeat := BlockHeater;
Hyst := Hysteresis;
HeatLim := HeaterLimit;
Ref := BaseRef + Pot;
END;
END;
GROUP AllRAG OF MAX 60 AEACOM TYPEID 4658
SELECT ALL
ITERATOR ChkAlarms
ALIAS
ComErrIndex = CHANNEL[194];
SensErrIndex = CHANNEL[195];
BEGIN
IF First = 1 THEN
ComErrIndex <- 0;
SensErrIndex <- 0;
ENDIF;
IF (Status = 1) AND (ComErrIndex = 0) THEN
ComErrIndex <- DevIndex;
ENDIF;
IF (SensErrIndex = 0) AND ((GT3 < 10) OR (GT3 > 40) OR (GT4 < 10) OR (GT4 > 40)) THEN
SensErrIndex <- DevIndex;
ENDIF;
END;
END;
ROUTINE RAGUpdate
ALIAS
GR0_MeanGT3 = CHANNEL[160];
GR0_MaxGT3 = CHANNEL[161];
GR0_MinGT3 = CHANNEL[162];
GR0_MeanErr = CHANNEL[163];
GR0_MeanGT4 = CHANNEL[164];
GR0_MaxGT4 = CHANNEL[165];
GR0_MinGT4 = CHANNEL[166];
GR0_Heaters = CHANNEL[167];
GR0_MeanCtrlVal = CHANNEL[168];
GR0_MeanDamperMotor = CHANNEL[169];
GR1_MeanGT3 = CHANNEL[170];
GR1_MaxGT3 = CHANNEL[171];
GR1_MinGT3 = CHANNEL[172];
GR1_MeanErr = CHANNEL[173];
GR1_MeanGT4 = CHANNEL[174];
GR1_MaxGT4 = CHANNEL[175];
GR1_MinGT4 = CHANNEL[176];
GR1_Heaters = CHANNEL[177];
GR1_MeanCtrlVal = CHANNEL[178];
GR1_MeanDamperMotor = CHANNEL[179];
GR2_MeanGT3 = CHANNEL[180];
GR2_MaxGT3 = CHANNEL[181];
GR2_MinGT3 = CHANNEL[182];
GR2_MeanErr = CHANNEL[183];
GR2_MeanGT4 = CHANNEL[184];
GR2_MaxGT4 = CHANNEL[185];
GR2_MinGT4 = CHANNEL[186];
GR2_Heaters = CHANNEL[187];
GR2_MeanCtrlVal = CHANNEL[188];
GR2_MeanDamperMotor = CHANNEL[189];
GR0_RAGCount = CHANNEL[190];
GR1_RAGCount = CHANNEL[191];
GR2_RAGCount = CHANNEL[192];
RAGCountTot = CHANNEL[193];
GR3_RAGCount = CHANNEL[196];
VAR
Timer;
RAGCount;
LRAGCount;
Event;
BEGIN
RAGCount := RAGGroup0.COUNT + RAGGroup1.COUNT + RAGGroup2.COUNT;
IF RAGCount > LRAGCount THEN Event := 1; ELSE Event := 0; ENDIF;
LRAGCount := RAGCount;
RAGCountTot <- RAGCount;
GR0_RAGCount <- RAGGroup0.COUNT;
GR1_RAGCount <- RAGGroup1.COUNT;
GR2_RAGCount <- RAGGroup2.COUNT;
GR3_RAGCount <- RAGGroup3.COUNT;
CALL RAGGroup3.Update; % Added 061129 PW
IF (Timer = 0) OR (Event = 1) THEN
CALL RAGGroup0.Update;
ELSIF (Timer = 1) OR (Event = 1) THEN
CALL RAGGroup1.Update;
ELSIF (Timer = 2) OR (Event = 1) THEN
CALL RAGGroup2.Update;
ELSIF Timer = 3 THEN
GR0_MeanGT3 <- RAGGroup0.GT3.MEAN;
GR0_MaxGT3 <- RAGGroup0.GT3.MAX;
GR0_MinGT3 <- RAGGroup0.GT3.MIN;
GR0_MeanGT4 <- RAGGroup0.GT4.MEAN;
GR0_MaxGT4 <- RAGGroup0.GT4.MAX;
GR0_MinGT4 <- RAGGroup0.GT4.MIN;
GR0_MeanErr <- GR0_MeanGT3 - RAGGroup0.Ref.MEAN;
GR0_Heaters <- RAGGroup0.Heat.MEAN * 50; %Heater is 0, 1 or 2, scaled to percent
GR0_MeanCtrlVal <- RAGGroup0.Reg.MEAN;
GR0_MeanDamperMotor <- RAGGroup0.Gtime.MEAN;
ELSIF Timer = 4 THEN
GR1_MeanGT3 <- RAGGroup1.GT3.MEAN;
GR1_MaxGT3 <- RAGGroup1.GT3.MAX;
GR1_MinGT3 <- RAGGroup1.GT3.MIN;
GR1_MeanGT4 <- RAGGroup1.GT4.MEAN;
GR1_MaxGT4 <- RAGGroup1.GT4.MAX;
GR1_MinGT4 <- RAGGroup1.GT4.MIN;
GR1_MeanErr <- GR1_MeanGT3 - RAGGroup1.Ref.MEAN;
GR1_Heaters <- RAGGroup1.Heat.MEAN * 50; %Heater is 0, 1 or 2, scaled to percent
GR1_MeanCtrlVal <- RAGGroup1.Reg.MEAN;
GR1_MeanDamperMotor <- RAGGroup1.Gtime.MEAN;
ELSIF Timer = 5 THEN
GR2_MeanGT3 <- RAGGroup2.GT3.MEAN;
GR2_MaxGT3 <- RAGGroup2.GT3.MAX;
GR2_MinGT3 <- RAGGroup2.GT3.MIN;
GR2_MeanGT4 <- RAGGroup2.GT4.MEAN;
GR2_MaxGT4 <- RAGGroup2.GT4.MAX;
GR2_MinGT4 <- RAGGroup2.GT4.MIN;
GR2_MeanErr <- GR2_MeanGT3 - RAGGroup2.Ref.MEAN;
GR2_Heaters <- RAGGroup2.Heat.MEAN * 50; %Heater is 0, 1 or 2, scaled to percent
GR2_MeanCtrlVal <- RAGGroup2.Reg.MEAN;
GR2_MeanDamperMotor <- RAGGroup2.Gtime.MEAN;
ELSIF Timer = 6 THEN
CALL AllRAG.ChkAlarms;
ENDIF;
Timer := Timer + 1;
IF Timer > 6 THEN Timer := 0; ENDIF;
END;
BAUDRATE 19200;
SEGMENT LENGTH 200;
SEGMENTS 64;
CYCLE TIME 15;
RESERVED SEGMENTS 0000 0000 0000 0000 0000 0000 0000 0000;
TRANSMIT SEGMENTS 0000 0000 0000 0000 0000 0000 0000 0000;
ACCEPT UNKNOWNS;
END;
AEADEVICE RAGCom NAMED "RAG-Com" TYPEID 4658 IS
PARAMETER
RAGGroup :"RAG Group";
Buzz :"Beeper";
PUBLIC
PRAGGroup :"RAG Group";
GT3 :"Room air temp" ["°C"];
GT4 :"Floor air temp" ["°C"];
Pot :"Set value displ." ["°C"]; %Börvärdesförskjutning
Ref :"Set value" ["°C"]; %Börvärde
Heat :"Heater"; %Status värmebatteri
Reg :"Controller val."; %Regulatorvärde
Gtime :"Damper motor" ["%"]; %Gångtid spjäll
PRIVATE
Fan;
BaseRef;
PotRange;
PFakt;
NoHeat;
Hyst;
HeatLim;
MESSAGE MAXSIZE 34
DATA[4] -> FLOAT(GT3 := ROUND(DATA*10)/10;);
DATA[8] -> FLOAT(GT4 := ROUND(DATA*10)/10;);
DATA[12] -> FLOAT(Pot := ROUND(DATA*10)/10;);
DATA[16] -> FLOAT(Reg := ROUND(DATA*10)/10;);
DATA[20] -> FLOAT(Gtime := ROUND(DATA););
DATA[24] -> BYTE(Heat := ROUND(DATA););
ACKNOWLEDGE
DATA[0] := FLOAT(BaseRef); %Basbörvärde
DATA[4] := FLOAT(PotRange); %Potentiometerförskjutning (maxgräns)
DATA[8] := FLOAT(PFakt); %P-område
DATA[12] := FLOAT(Hyst); %Hysteres
DATA[16] := FLOAT(HeatLim); %Efterbehandlingsgränsvärde
DATA[20] := BYTE(Fan); %Fläkthastighet
DATA[21] := BYTE(Buzz); %Summeraktivering
DATA[22] := BYTE(NoHeat); %Blockering av elvärme
END;
DEVICE
DEV[1] TO DEV[60] AEACOM 4658 AUTOMATIC;
END;
GROUP RAGGroup0 OF MAX 60 AEACOM TYPEID 4658
SELECT ONLINE RAGGroup < 2
ITERATOR Update
ALIAS
rag_speed = CHANNEL[159];
BaseSetpoint = PARAMETER[80];
MaxSetPointAdj = PARAMETER[81];
BlockHeater = PARAMETER[82];
PArea = PARAMETER[83];
Hysteresis = PARAMETER[84];
HeaterLimit = PARAMETER[85];
BEGIN
PRAGGroup := RAGGroup;
Fan := rag_speed;
BaseRef := BaseSetpoint;
PotRange := MaxSetPointAdj;
PFakt := PArea;
NoHeat := BlockHeater;
Hyst := Hysteresis;
HeatLim := HeaterLimit;
Ref := BaseRef + Pot;
END;
END;
GROUP RAGGroup1 OF MAX 60 AEACOM TYPEID 4658
SELECT ONLINE RAGGroup = 2
ITERATOR Update
ALIAS
rag_speed = CHANNEL[159];
BaseSetpoint = PARAMETER[86];
MaxSetPointAdj = PARAMETER[87];
BlockHeater = PARAMETER[88];
PArea = PARAMETER[89];
Hysteresis = PARAMETER[90];
HeaterLimit = PARAMETER[91];
BEGIN
PRAGGroup := RAGGroup;
Fan := rag_speed;
BaseRef := BaseSetpoint;
PotRange := MaxSetPointAdj;
PFakt := PArea;
NoHeat := BlockHeater;
Hyst := Hysteresis;
HeatLim := HeaterLimit;
Ref := BaseRef + Pot;
END;
END;
GROUP RAGGroup2 OF MAX 60 AEACOM TYPEID 4658
SELECT ONLINE RAGGroup = 3
ITERATOR Update
ALIAS
rag_speed = CHANNEL[159];
BaseSetpoint = PARAMETER[92];
MaxSetPointAdj = PARAMETER[93];
BlockHeater = PARAMETER[94];
PArea = PARAMETER[95];
Hysteresis = PARAMETER[96];
HeaterLimit = PARAMETER[97];
BEGIN
PRAGGroup := RAGGroup;
Fan := rag_speed;
BaseRef := BaseSetpoint;
PotRange := MaxSetPointAdj;
PFakt := PArea;
NoHeat := BlockHeater;
Hyst := Hysteresis;
HeatLim := HeaterLimit;
Ref := BaseRef + Pot;
END;
END;
% Added 061129 PW
GROUP RAGGroup3 OF MAX 60 AEACOM TYPEID 4658
SELECT ONLINE RAGGroup > 3
ITERATOR Update
ALIAS
damperMax = PARAMETER[59]; % Max damper position
za_st41 = CHANNEL[28]; % Supply Air Damper
controlMode = CHANNEL[85]; % Controler mode OFF (0), Comfort (1), Economy heating (2), Economy cooling (3)
%rag_speed = CHANNEL[159];
BaseSetpoint = PARAMETER[92];
MaxSetPointAdj = PARAMETER[93];
BlockHeater = PARAMETER[94];
PArea = PARAMETER[95];
Hysteresis = PARAMETER[96];
HeaterLimit = PARAMETER[97];
BEGIN
PRAGGroup := RAGGroup;
IF (controlMode = 1) AND (za_st41 > (damperMax-1)) THEN
Fan := 2;
ELSE
Fan := 0;
ENDIF;
BaseRef := BaseSetpoint;
PotRange := MaxSetPointAdj;
PFakt := PArea;
NoHeat := BlockHeater;
Hyst := Hysteresis;
HeatLim := HeaterLimit;
Ref := BaseRef + Pot;
END;
END;
GROUP AllRAG OF MAX 60 AEACOM TYPEID 4658
SELECT ALL
ITERATOR ChkAlarms
ALIAS
ComErrIndex = CHANNEL[194];
SensErrIndex = CHANNEL[195];
BEGIN
IF First = 1 THEN
ComErrIndex <- 0;
SensErrIndex <- 0;
ENDIF;
IF (Status = 1) AND (ComErrIndex = 0) THEN
ComErrIndex <- DevIndex;
ENDIF;
IF (SensErrIndex = 0) AND ((GT3 < 10) OR (GT3 > 40) OR (GT4 < 10) OR (GT4 > 40)) THEN
SensErrIndex <- DevIndex;
ENDIF;
END;
END;
ROUTINE RAGUpdate
ALIAS
GR0_MeanGT3 = CHANNEL[160];
GR0_MaxGT3 = CHANNEL[161];
GR0_MinGT3 = CHANNEL[162];
GR0_MeanErr = CHANNEL[163];
GR0_MeanGT4 = CHANNEL[164];
GR0_MaxGT4 = CHANNEL[165];
GR0_MinGT4 = CHANNEL[166];
GR0_Heaters = CHANNEL[167];
GR0_MeanCtrlVal = CHANNEL[168];
GR0_MeanDamperMotor = CHANNEL[169];
GR1_MeanGT3 = CHANNEL[170];
GR1_MaxGT3 = CHANNEL[171];
GR1_MinGT3 = CHANNEL[172];
GR1_MeanErr = CHANNEL[173];
GR1_MeanGT4 = CHANNEL[174];
GR1_MaxGT4 = CHANNEL[175];
GR1_MinGT4 = CHANNEL[176];
GR1_Heaters = CHANNEL[177];
GR1_MeanCtrlVal = CHANNEL[178];
GR1_MeanDamperMotor = CHANNEL[179];
GR2_MeanGT3 = CHANNEL[180];
GR2_MaxGT3 = CHANNEL[181];
GR2_MinGT3 = CHANNEL[182];
GR2_MeanErr = CHANNEL[183];
GR2_MeanGT4 = CHANNEL[184];
GR2_MaxGT4 = CHANNEL[185];
GR2_MinGT4 = CHANNEL[186];
GR2_Heaters = CHANNEL[187];
GR2_MeanCtrlVal = CHANNEL[188];
GR2_MeanDamperMotor = CHANNEL[189];
GR0_RAGCount = CHANNEL[190];
GR1_RAGCount = CHANNEL[191];
GR2_RAGCount = CHANNEL[192];
RAGCountTot = CHANNEL[193];
GR3_RAGCount = CHANNEL[196];
VAR
Timer;
RAGCount;
LRAGCount;
Event;
BEGIN
RAGCount := RAGGroup0.COUNT + RAGGroup1.COUNT + RAGGroup2.COUNT;
IF RAGCount > LRAGCount THEN Event := 1; ELSE Event := 0; ENDIF;
LRAGCount := RAGCount;
RAGCountTot <- RAGCount;
GR0_RAGCount <- RAGGroup0.COUNT;
GR1_RAGCount <- RAGGroup1.COUNT;
GR2_RAGCount <- RAGGroup2.COUNT;
GR3_RAGCount <- RAGGroup3.COUNT;
CALL RAGGroup3.Update; % Added 061129 PW
IF (Timer = 0) OR (Event = 1) THEN
CALL RAGGroup0.Update;
ELSIF (Timer = 1) OR (Event = 1) THEN
CALL RAGGroup1.Update;
ELSIF (Timer = 2) OR (Event = 1) THEN
CALL RAGGroup2.Update;
ELSIF Timer = 3 THEN
GR0_MeanGT3 <- RAGGroup0.GT3.MEAN;
GR0_MaxGT3 <- RAGGroup0.GT3.MAX;
GR0_MinGT3 <- RAGGroup0.GT3.MIN;
GR0_MeanGT4 <- RAGGroup0.GT4.MEAN;
GR0_MaxGT4 <- RAGGroup0.GT4.MAX;
GR0_MinGT4 <- RAGGroup0.GT4.MIN;
GR0_MeanErr <- GR0_MeanGT3 - RAGGroup0.Ref.MEAN;
GR0_Heaters <- RAGGroup0.Heat.MEAN * 50; %Heater is 0, 1 or 2, scaled to percent
GR0_MeanCtrlVal <- RAGGroup0.Reg.MEAN;
GR0_MeanDamperMotor <- RAGGroup0.Gtime.MEAN;
ELSIF Timer = 4 THEN
GR1_MeanGT3 <- RAGGroup1.GT3.MEAN;
GR1_MaxGT3 <- RAGGroup1.GT3.MAX;
GR1_MinGT3 <- RAGGroup1.GT3.MIN;
GR1_MeanGT4 <- RAGGroup1.GT4.MEAN;
GR1_MaxGT4 <- RAGGroup1.GT4.MAX;
GR1_MinGT4 <- RAGGroup1.GT4.MIN;
GR1_MeanErr <- GR1_MeanGT3 - RAGGroup1.Ref.MEAN;
GR1_Heaters <- RAGGroup1.Heat.MEAN * 50; %Heater is 0, 1 or 2, scaled to percent
GR1_MeanCtrlVal <- RAGGroup1.Reg.MEAN;
GR1_MeanDamperMotor <- RAGGroup1.Gtime.MEAN;
ELSIF Timer = 5 THEN
GR2_MeanGT3 <- RAGGroup2.GT3.MEAN;
GR2_MaxGT3 <- RAGGroup2.GT3.MAX;
GR2_MinGT3 <- RAGGroup2.GT3.MIN;
GR2_MeanGT4 <- RAGGroup2.GT4.MEAN;
GR2_MaxGT4 <- RAGGroup2.GT4.MAX;
GR2_MinGT4 <- RAGGroup2.GT4.MIN;
GR2_MeanErr <- GR2_MeanGT3 - RAGGroup2.Ref.MEAN;
GR2_Heaters <- RAGGroup2.Heat.MEAN * 50; %Heater is 0, 1 or 2, scaled to percent
GR2_MeanCtrlVal <- RAGGroup2.Reg.MEAN;
GR2_MeanDamperMotor <- RAGGroup2.Gtime.MEAN;
ELSIF Timer = 6 THEN
CALL AllRAG.ChkAlarms;
ENDIF;
Timer := Timer + 1;
IF Timer > 6 THEN Timer := 0; ENDIF;
END;
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