Kamstrup 402 värmemätare
Detaljer
Beskrivning
Fungerar även på IMSE Ultra
Kamstrup MC 402 är en vidareutveckling av Kamstrup MC 401.
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
DEVICETYPE Kamstrup_402 NAMED "Kamstrup_402" TYPEID 16384 IS
% --- Device created 09:28:47 2011-03-16
PARAMETER
Id :"Address"INT;
PUBLIC
IDNr : "ID number"INT;
rec2 : "Energy"["kWh"]INT;
rec3 : "Volume"["m³"]DEC2;
rec5 : "Flow Temperature"["°C"]DEC2;
rec6 : "Return Temperature"["°C"]DEC2;
rec7 : "Temperature Difference"["°K"]DEC2;
rec8 : "Power"["kW"]DEC2;
rec10 : "Volume Flow"["m³/h"]DEC2;
PRIVATE
Exp;
BAUDRATE 2400;
PARITY EVEN;
CHECKSUM SUM8 SKIP 4;
POSTBYTES 1;
TELEGRAM Init NAMED "Init" IS
QUESTION
DATA[0] := HEX(10);
DATA[1] := HEX(40);
DATA[2] := BYTE(Id);
DATA[3] <- BYTE(DATA :=Id+64;);
DATA[4] := HEX(16);
ANSWER SIZE 1
DATA[0] = HEX(E5);
TIMEOUT 5000
END;
TELEGRAM Read NAMED "Read" IS
QUESTION
DATA[0] := HEX(10);
DATA[1] := HEX(5B);
DATA[2] := BYTE(Id);
DATA[3] <- BYTE(DATA :=Id+91;);
DATA[4] := HEX(16);
ANSWER SIZE 253
DATA[0] = HEX(68);
DATA[1] = HEX(F7);
DATA[2] = HEX(F7);
DATA[3] = HEX(68);
DATA[4] = HEX(08);
DATA[5] = BYTE(Id);
DATA[6] = HEX(72);
DATA[7] -> BYTE(IDNr := (DATA & HEX(F)) + 10*(DATA & HEX(F0))/16;);
DATA[8] -> BYTE(IDNr := IDNr + 100*(DATA & HEX(F)) + 1000*(DATA & HEX(F0))/16;);
DATA[9] -> BYTE(IDNr := IDNr + 10000*(DATA & HEX(F)) + 100000*(DATA & HEX(F0))/16;);
DATA[10] -> BYTE(IDNr := IDNr + 1000000*(DATA & HEX(F)) + 10000000*(DATA & HEX(F0))/16;);
DATA[14] = HEX(04);
DATA[27] -> WORD(rec2:=DATA;);
DATA[29] -> WORD(rec2:=rec2 + 65536*DATA;);
DATA[26] -> BYTE(Exp := DATA & 7 - 6; rec2 := rec2*10^Exp;);
DATA[33] -> WORD(rec3:=DATA;);
DATA[35] -> WORD(rec3:=rec3 + 65536*DATA;);
DATA[32] -> BYTE(Exp := DATA & 7 - 6; rec3 := rec3*10^Exp;);
DATA[45] -> WORD(rec5:=DATA;);
DATA[47] -> WORD(rec5:=rec5 + 65536*DATA;);
DATA[44] -> BYTE(Exp := DATA & 3 - 3; rec5 := rec5*10^Exp;);
DATA[51] -> WORD(rec6:=DATA;);
DATA[53] -> WORD(rec6:=rec6 + 65536*DATA;);
DATA[50] -> BYTE(Exp := DATA & 3 - 3; rec6 := rec6*10^Exp;);
DATA[57] -> WORD(rec7:=DATA;);
DATA[59] -> WORD(rec7:=rec7 + 65536*DATA;);
DATA[56] -> BYTE(Exp := DATA & 3 - 3; rec7 := rec7*10^Exp;);
DATA[63] -> WORD(rec8:=DATA;);
DATA[65] -> WORD(rec8:=rec8 + 65536*DATA;);
DATA[62] -> BYTE(Exp := DATA & 7 - 6; rec8 := rec8*10^Exp;);
DATA[75] -> WORD(rec10:=DATA;);
DATA[77] -> WORD(rec10:=rec10 + 65536*DATA;);
DATA[74] -> BYTE(Exp := DATA & 7 - 6; rec10 := rec10*10^Exp;);
TIMEOUT 5000
END;
END;
% --- Device created 09:28:47 2011-03-16
PARAMETER
Id :"Address"INT;
PUBLIC
IDNr : "ID number"INT;
rec2 : "Energy"["kWh"]INT;
rec3 : "Volume"["m³"]DEC2;
rec5 : "Flow Temperature"["°C"]DEC2;
rec6 : "Return Temperature"["°C"]DEC2;
rec7 : "Temperature Difference"["°K"]DEC2;
rec8 : "Power"["kW"]DEC2;
rec10 : "Volume Flow"["m³/h"]DEC2;
PRIVATE
Exp;
BAUDRATE 2400;
PARITY EVEN;
CHECKSUM SUM8 SKIP 4;
POSTBYTES 1;
TELEGRAM Init NAMED "Init" IS
QUESTION
DATA[0] := HEX(10);
DATA[1] := HEX(40);
DATA[2] := BYTE(Id);
DATA[3] <- BYTE(DATA :=Id+64;);
DATA[4] := HEX(16);
ANSWER SIZE 1
DATA[0] = HEX(E5);
TIMEOUT 5000
END;
TELEGRAM Read NAMED "Read" IS
QUESTION
DATA[0] := HEX(10);
DATA[1] := HEX(5B);
DATA[2] := BYTE(Id);
DATA[3] <- BYTE(DATA :=Id+91;);
DATA[4] := HEX(16);
ANSWER SIZE 253
DATA[0] = HEX(68);
DATA[1] = HEX(F7);
DATA[2] = HEX(F7);
DATA[3] = HEX(68);
DATA[4] = HEX(08);
DATA[5] = BYTE(Id);
DATA[6] = HEX(72);
DATA[7] -> BYTE(IDNr := (DATA & HEX(F)) + 10*(DATA & HEX(F0))/16;);
DATA[8] -> BYTE(IDNr := IDNr + 100*(DATA & HEX(F)) + 1000*(DATA & HEX(F0))/16;);
DATA[9] -> BYTE(IDNr := IDNr + 10000*(DATA & HEX(F)) + 100000*(DATA & HEX(F0))/16;);
DATA[10] -> BYTE(IDNr := IDNr + 1000000*(DATA & HEX(F)) + 10000000*(DATA & HEX(F0))/16;);
DATA[14] = HEX(04);
DATA[27] -> WORD(rec2:=DATA;);
DATA[29] -> WORD(rec2:=rec2 + 65536*DATA;);
DATA[26] -> BYTE(Exp := DATA & 7 - 6; rec2 := rec2*10^Exp;);
DATA[33] -> WORD(rec3:=DATA;);
DATA[35] -> WORD(rec3:=rec3 + 65536*DATA;);
DATA[32] -> BYTE(Exp := DATA & 7 - 6; rec3 := rec3*10^Exp;);
DATA[45] -> WORD(rec5:=DATA;);
DATA[47] -> WORD(rec5:=rec5 + 65536*DATA;);
DATA[44] -> BYTE(Exp := DATA & 3 - 3; rec5 := rec5*10^Exp;);
DATA[51] -> WORD(rec6:=DATA;);
DATA[53] -> WORD(rec6:=rec6 + 65536*DATA;);
DATA[50] -> BYTE(Exp := DATA & 3 - 3; rec6 := rec6*10^Exp;);
DATA[57] -> WORD(rec7:=DATA;);
DATA[59] -> WORD(rec7:=rec7 + 65536*DATA;);
DATA[56] -> BYTE(Exp := DATA & 3 - 3; rec7 := rec7*10^Exp;);
DATA[63] -> WORD(rec8:=DATA;);
DATA[65] -> WORD(rec8:=rec8 + 65536*DATA;);
DATA[62] -> BYTE(Exp := DATA & 7 - 6; rec8 := rec8*10^Exp;);
DATA[75] -> WORD(rec10:=DATA;);
DATA[77] -> WORD(rec10:=rec10 + 65536*DATA;);
DATA[74] -> BYTE(Exp := DATA & 7 - 6; rec10 := rec10*10^Exp;);
TIMEOUT 5000
END;
END;
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