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HundM_Fortna/results/FB_CallSensors_skel_UH01.scl
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FUNCTION_BLOCK "FB_CallSensors_skel_UH01"
{ S7_Optimized_Access := 'TRUE' }
VERSION : 0.1
// AUTOMATISCH GENERIERT — create_skel.py (287 Sensoren)
VAR
fbSensorInput : "FB_SensorInput";
END_VAR
BEGIN
// DT Anlage Aus
#fbSensorInput(stInSensorHW := "SF0000",
nInSensorNo := "cInSF0000",
stInOutSensor := "DB_Inputs".Sensors["cInSF0000"]);
// LDT Anlage Ein
#fbSensorInput(stInSensorHW := "SF0001",
nInSensorNo := "cInSF0001",
stInOutSensor := "DB_Inputs".Sensors["cInSF0001"]);
// LDT Reset
#fbSensorInput(stInSensorHW := "SF0002",
nInSensorNo := "cInSF0002",
stInOutSensor := "DB_Inputs".Sensors["cInSF0002"]);
// DT Lampentest
#fbSensorInput(stInSensorHW := "SF0003",
nInSensorNo := "cInSF0003",
stInOutSensor := "DB_Inputs".Sensors["cInSF0003"]);
// Druckschalter Druckluft OK
#fbSensorInput(stInSensorHW := "BP0004",
nInSensorNo := "cInBP0004",
stInOutSensor := "DB_Inputs".Sensors["cInBP0004"]);
// Phasenausfall 400V
#fbSensorInput(stInSensorHW := "DI0005",
nInSensorNo := "cInDI0005",
stInOutSensor := "DB_Inputs".Sensors["cInDI0005"]);
// Vorsicherung 400V UC0110
#fbSensorInput(stInSensorHW := "DI0006",
nInSensorNo := "cInDI0006",
stInOutSensor := "DB_Inputs".Sensors["cInDI0006"]);
// Vorsicherung 400V UC0111
#fbSensorInput(stInSensorHW := "DI0007",
nInSensorNo := "cInDI0007",
stInOutSensor := "DB_Inputs".Sensors["cInDI0007"]);
// Vorsicherung 400V UC011
#fbSensorInput(stInSensorHW := "DI0010",
nInSensorNo := "cInDI0010",
stInOutSensor := "DB_Inputs".Sensors["cInDI0010"]);
// Feedback Hauptschütze aktiv +UC0110
#fbSensorInput(stInSensorHW := "DI0011",
nInSensorNo := "cInDI0011",
stInOutSensor := "DB_Inputs".Sensors["cInDI0011"]);
// Feedback Hauptschütze aktiv +UC0111
#fbSensorInput(stInSensorHW := "DI0012",
nInSensorNo := "cInDI0012",
stInOutSensor := "DB_Inputs".Sensors["cInDI0012"]);
// Feedback Hauptschütze aktiv
#fbSensorInput(stInSensorHW := "DI0013",
nInSensorNo := "cInDI0013",
stInOutSensor := "DB_Inputs".Sensors["cInDI0013"]);
// Feedback Koppelrelais E-Stop-IF (QA0660/QA0661)
#fbSensorInput(stInSensorHW := "DI0014",
nInSensorNo := "cInDI0014",
stInOutSensor := "DB_Inputs".Sensors["cInDI0014"]);
// Vorsicherung 400V
#fbSensorInput(stInSensorHW := "DI0016",
nInSensorNo := "cInDI0016",
stInOutSensor := "DB_Inputs".Sensors["cInDI0016"]);
// Sicherung Lampe 1EA0012 & 1EA0013
#fbSensorInput(stInSensorHW := "DI0017",
nInSensorNo := "cInDI0017",
stInOutSensor := "DB_Inputs".Sensors["cInDI0017"]);
// Vorsicherung 24V OK (FC021)
#fbSensorInput(stInSensorHW := "DI0021",
nInSensorNo := "cInDI0021",
stInOutSensor := "DB_Inputs".Sensors["cInDI0021"]);
// Vorsicherung 24V OK (FC022)
#fbSensorInput(stInSensorHW := "DI0022",
nInSensorNo := "cInDI0022",
stInOutSensor := "DB_Inputs".Sensors["cInDI0022"]);
// Vorsicherung 24V OK (FC023)
#fbSensorInput(stInSensorHW := "DI0023",
nInSensorNo := "cInDI0023",
stInOutSensor := "DB_Inputs".Sensors["cInDI0023"]);
// Vorsicherung 24V OK (FC024)
#fbSensorInput(stInSensorHW := "DI0024",
nInSensorNo := "cInDI0024",
stInOutSensor := "DB_Inputs".Sensors["cInDI0024"]);
// Schlüsselschalter LS 1
#fbSensorInput(stInSensorHW := "SF0025",
nInSensorNo := "cInSF0025",
stInOutSensor := "DB_Inputs".Sensors["cInSF0025"]);
// Schlüsselschalter LS 2
#fbSensorInput(stInSensorHW := "SF0026",
nInSensorNo := "cInSF0026",
stInOutSensor := "DB_Inputs".Sensors["cInSF0026"]);
// Reset UZ0101
#fbSensorInput(stInSensorHW := "SF0031",
nInSensorNo := "cInSF0031",
stInOutSensor := "DB_Inputs".Sensors["cInSF0031"]);
// Freigabe UZ0102
#fbSensorInput(stInSensorHW := "SF0032",
nInSensorNo := "cInSF0032",
stInOutSensor := "DB_Inputs".Sensors["cInSF0032"]);
// Reset UZ0102
#fbSensorInput(stInSensorHW := "SF0033",
nInSensorNo := "cInSF0033",
stInOutSensor := "DB_Inputs".Sensors["cInSF0033"]);
// IF BMZ "fire alarm"
#fbSensorInput(stInSensorHW := "DI0034",
nInSensorNo := "cInDI0034",
stInOutSensor := "DB_Inputs".Sensors["cInDI0034"]);
// IF BST "No fire alarm"
#fbSensorInput(stInSensorHW := "DI0035",
nInSensorNo := "cInDI0035",
stInOutSensor := "DB_Inputs".Sensors["cInDI0035"]);
// IF BST "Non fault"
#fbSensorInput(stInSensorHW := "DI0036",
nInSensorNo := "cInDI0036",
stInOutSensor := "DB_Inputs".Sensors["cInDI0036"]);
// IF BST "FPC opened"
#fbSensorInput(stInSensorHW := "DI0037",
nInSensorNo := "cInDI0037",
stInOutSensor := "DB_Inputs".Sensors["cInDI0037"]);
// Strahler ein/aus LS1
#fbSensorInput(stInSensorHW := "SF0041",
nInSensorNo := "cInSF0041",
stInOutSensor := "DB_Inputs".Sensors["cInSF0041"]);
// Schnittstelle RFID (from Rielec "station ready")
#fbSensorInput(stInSensorHW := "DI0042",
nInSensorNo := "cInDI0042",
stInOutSensor := "DB_Inputs".Sensors["cInDI0042"]);
// Reset LS1
#fbSensorInput(stInSensorHW := "SF0043",
nInSensorNo := "cInSF0043",
stInOutSensor := "DB_Inputs".Sensors["cInSF0043"]);
// Ladeschleife aktivieren LS1
#fbSensorInput(stInSensorHW := "SF0044",
nInSensorNo := "cInSF0044",
stInOutSensor := "DB_Inputs".Sensors["cInSF0044"]);
// Strahler ein/aus LS2
#fbSensorInput(stInSensorHW := "SF0046",
nInSensorNo := "cInSF0046",
stInOutSensor := "DB_Inputs".Sensors["cInSF0046"]);
// Schnittstelle RFID (from Rielec "bypass mode")
#fbSensorInput(stInSensorHW := "DI0047",
nInSensorNo := "cInDI0047",
stInOutSensor := "DB_Inputs".Sensors["cInDI0047"]);
// Positionsschalter Ladeschleife 1 eingefahren
#fbSensorInput(stInSensorHW := "SF0050",
nInSensorNo := "cInSF0050",
stInOutSensor := "DB_Inputs".Sensors["cInSF0050"]);
// Positionsschalter Ladeschleife 1 ausgefahren
#fbSensorInput(stInSensorHW := "SF0051",
nInSensorNo := "cInSF0051",
stInOutSensor := "DB_Inputs".Sensors["cInSF0051"]);
// Positionsschalter Ladeschleife 2 eingefahren
#fbSensorInput(stInSensorHW := "SF0052",
nInSensorNo := "cInSF0052",
stInOutSensor := "DB_Inputs".Sensors["cInSF0052"]);
// Positionsschalter Ladeschleife 2 ausgefahren
#fbSensorInput(stInSensorHW := "SF0053",
nInSensorNo := "cInSF0053",
stInOutSensor := "DB_Inputs".Sensors["cInSF0053"]);
// Reset LS2
#fbSensorInput(stInSensorHW := "SF0054",
nInSensorNo := "cInSF0054",
stInOutSensor := "DB_Inputs".Sensors["cInSF0054"]);
// Ladeschleife aktivieren LS2
#fbSensorInput(stInSensorHW := "SF0055",
nInSensorNo := "cInSF0055",
stInOutSensor := "DB_Inputs".Sensors["cInSF0055"]);
// MSS ausgelöst FC0057 (ILS-CVM0100)
#fbSensorInput(stInSensorHW := "FC0057",
nInSensorNo := "cInFC0057",
stInOutSensor := "DB_Inputs".Sensors["cInFC0057"]);
// MSS ausgelöst FC0060 (ILS-KR-M0101)
#fbSensorInput(stInSensorHW := "FC0060",
nInSensorNo := "cInFC0060",
stInOutSensor := "DB_Inputs".Sensors["cInFC0060"]);
// MSS ausgelöst FC0061 (ILS-KR-M0102) Auslagerkreisel
#fbSensorInput(stInSensorHW := "FC0061",
nInSensorNo := "cInFC0061",
stInOutSensor := "DB_Inputs".Sensors["cInFC0061"]);
// MSS ausgelöst FC0062 (ILS-CV-M0103)
#fbSensorInput(stInSensorHW := "FC0062",
nInSensorNo := "cInFC0062",
stInOutSensor := "DB_Inputs".Sensors["cInFC0062"]);
// MSS ausgelöst FC0063 (ILS-CV-M0105)
#fbSensorInput(stInSensorHW := "FC0063",
nInSensorNo := "cInFC0063",
stInOutSensor := "DB_Inputs".Sensors["cInFC0063"]);
// MSS ausgelöst FC0064 (ILS-CV M0106)
#fbSensorInput(stInSensorHW := "FC0064",
nInSensorNo := "cInFC0064",
stInOutSensor := "DB_Inputs".Sensors["cInFC0064"]);
// MSS ausgelöst FC0065 (ILS-CV M0107)
#fbSensorInput(stInSensorHW := "FC0065",
nInSensorNo := "cInFC0065",
stInOutSensor := "DB_Inputs".Sensors["cInFC0065"]);
// MSS ausgelöst FC0066 (ILS-CV M0109)
#fbSensorInput(stInSensorHW := "FC0066",
nInSensorNo := "cInFC0066",
stInOutSensor := "DB_Inputs".Sensors["cInFC0066"]);
// MSS ausgelöst FC0067 (ILS-CV M0110)
#fbSensorInput(stInSensorHW := "FC0067",
nInSensorNo := "cInFC0067",
stInOutSensor := "DB_Inputs".Sensors["cInFC0067"]);
// MSS ausgelöst FC0070
#fbSensorInput(stInSensorHW := "FC0070",
nInSensorNo := "cInFC0070",
stInOutSensor := "DB_Inputs".Sensors["cInFC0070"]);
// MSS ausgelöst FC0072
#fbSensorInput(stInSensorHW := "FC0072",
nInSensorNo := "cInFC0072",
stInOutSensor := "DB_Inputs".Sensors["cInFC0072"]);
// MSS ausgelöst FC0074
#fbSensorInput(stInSensorHW := "FC0074",
nInSensorNo := "cInFC0074",
stInOutSensor := "DB_Inputs".Sensors["cInFC0074"]);
// MSS ausgelöst FC0076
#fbSensorInput(stInSensorHW := "FC0076",
nInSensorNo := "cInFC0076",
stInOutSensor := "DB_Inputs".Sensors["cInFC0076"]);
// Meldekontakt 400V Motor+Bremse
#fbSensorInput(stInSensorHW := "DI0100",
nInSensorNo := "cInDI0100",
stInOutSensor := "DB_Inputs".Sensors["cInDI0100"]);
// Vorsicherung 24V OK (FC101)
#fbSensorInput(stInSensorHW := "DI0101",
nInSensorNo := "cInDI0101",
stInOutSensor := "DB_Inputs".Sensors["cInDI0101"]);
// Vorsicherung 24V OK (FC102)
#fbSensorInput(stInSensorHW := "DI0102",
nInSensorNo := "cInDI0102",
stInOutSensor := "DB_Inputs".Sensors["cInDI0102"]);
// Feedback Hauptschütze aktiv (QA0920/QA0921)
#fbSensorInput(stInSensorHW := "DI0106",
nInSensorNo := "cInDI0106",
stInOutSensor := "DB_Inputs".Sensors["cInDI0106"]);
// Druckschalter Druckluft OK
#fbSensorInput(stInSensorHW := "BP0107",
nInSensorNo := "cInBP0107",
stInOutSensor := "DB_Inputs".Sensors["cInBP0107"]);
// IF BST "No fire alarm"
#fbSensorInput(stInSensorHW := "DI0110",
nInSensorNo := "cInDI0110",
stInOutSensor := "DB_Inputs".Sensors["cInDI0110"]);
// IF BST "Non fault"
#fbSensorInput(stInSensorHW := "DI0111",
nInSensorNo := "cInDI0111",
stInOutSensor := "DB_Inputs".Sensors["cInDI0111"]);
// IF BST "FPC opened"
#fbSensorInput(stInSensorHW := "DI0112",
nInSensorNo := "cInDI0112",
stInOutSensor := "DB_Inputs".Sensors["cInDI0112"]);
// Feedback Koppelrelais E-Stop-IF (QA0922/QA0923)
#fbSensorInput(stInSensorHW := "DI0114",
nInSensorNo := "cInDI0114",
stInOutSensor := "DB_Inputs".Sensors["cInDI0114"]);
// LDT Reset
#fbSensorInput(stInSensorHW := "SF0117",
nInSensorNo := "cInSF0117",
stInOutSensor := "DB_Inputs".Sensors["cInSF0117"]);
// Bereichshalt UZ1101
#fbSensorInput(stInSensorHW := "SF0120",
nInSensorNo := "cInSF0120",
stInOutSensor := "DB_Inputs".Sensors["cInSF0120"]);
// Reset UZ1101
#fbSensorInput(stInSensorHW := "SF0121",
nInSensorNo := "cInSF0121",
stInOutSensor := "DB_Inputs".Sensors["cInSF0121"]);
// Bereichshalt UZ1103
#fbSensorInput(stInSensorHW := "SF0124",
nInSensorNo := "cInSF0124",
stInOutSensor := "DB_Inputs".Sensors["cInSF0124"]);
// Reset UZ1103
#fbSensorInput(stInSensorHW := "SF0125",
nInSensorNo := "cInSF0125",
stInOutSensor := "DB_Inputs".Sensors["cInSF0125"]);
// Bereichshalt UZ1104
#fbSensorInput(stInSensorHW := "SF0126",
nInSensorNo := "cInSF0126",
stInOutSensor := "DB_Inputs".Sensors["cInSF0126"]);
// Reset UZ1104
#fbSensorInput(stInSensorHW := "SF0127",
nInSensorNo := "cInSF0127",
stInOutSensor := "DB_Inputs".Sensors["cInSF0127"]);
// Bereichshalt UZ1105
#fbSensorInput(stInSensorHW := "SF0130",
nInSensorNo := "cInSF0130",
stInOutSensor := "DB_Inputs".Sensors["cInSF0130"]);
// Reset UZ1105
#fbSensorInput(stInSensorHW := "SF0131",
nInSensorNo := "cInSF0131",
stInOutSensor := "DB_Inputs".Sensors["cInSF0131"]);
// MSS ausgelöst FC0140 (KR-M4204)
#fbSensorInput(stInSensorHW := "FC0140",
nInSensorNo := "cInFC0140",
stInOutSensor := "DB_Inputs".Sensors["cInFC0140"]);
// MSS ausgelöst FC0141 (CV-M4503)
#fbSensorInput(stInSensorHW := "FC0141",
nInSensorNo := "cInFC0141",
stInOutSensor := "DB_Inputs".Sensors["cInFC0141"]);
// MSS ausgelöst FC0142 (CV-M4502)
#fbSensorInput(stInSensorHW := "FC0142",
nInSensorNo := "cInFC0142",
stInOutSensor := "DB_Inputs".Sensors["cInFC0142"]);
// MSS ausgelöst FC0143 (CV-M4403)
#fbSensorInput(stInSensorHW := "FC0143",
nInSensorNo := "cInFC0143",
stInOutSensor := "DB_Inputs".Sensors["cInFC0143"]);
// MSS ausgelöst FC0144 (CV-M4501)
#fbSensorInput(stInSensorHW := "FC0144",
nInSensorNo := "cInFC0144",
stInOutSensor := "DB_Inputs".Sensors["cInFC0144"]);
// MSS ausgelöst FC0145 (CV-M4104)
#fbSensorInput(stInSensorHW := "FC0145",
nInSensorNo := "cInFC0145",
stInOutSensor := "DB_Inputs".Sensors["cInFC0145"]);
// MSS ausgelöst FC0146 (CV-M4103)
#fbSensorInput(stInSensorHW := "FC0146",
nInSensorNo := "cInFC0146",
stInOutSensor := "DB_Inputs".Sensors["cInFC0146"]);
// MSS ausgelöst FC0147 (CV-M4203_A)
#fbSensorInput(stInSensorHW := "FC0147",
nInSensorNo := "cInFC0147",
stInOutSensor := "DB_Inputs".Sensors["cInFC0147"]);
// MSS ausgelöst FC0150 (CV-M4302_B)
#fbSensorInput(stInSensorHW := "FC0150",
nInSensorNo := "cInFC0150",
stInOutSensor := "DB_Inputs".Sensors["cInFC0150"]);
// MSS ausgelöst FC0151 (CV-M4402_B)
#fbSensorInput(stInSensorHW := "FC0151",
nInSensorNo := "cInFC0151",
stInOutSensor := "DB_Inputs".Sensors["cInFC0151"]);
// MSS ausgelöst FC0152 (CV-M4103_B)
#fbSensorInput(stInSensorHW := "FC0152",
nInSensorNo := "cInFC0152",
stInOutSensor := "DB_Inputs".Sensors["cInFC0152"]);
// MSS ausgelöst FC0153 (CV-M4203_B)
#fbSensorInput(stInSensorHW := "FC0153",
nInSensorNo := "cInFC0153",
stInOutSensor := "DB_Inputs".Sensors["cInFC0153"]);
// MSS ausgelöst FC0154 (CV-M4302_A)
#fbSensorInput(stInSensorHW := "FC0154",
nInSensorNo := "cInFC0154",
stInOutSensor := "DB_Inputs".Sensors["cInFC0154"]);
// MSS ausgelöst FC0155 (CV-M4402_A)
#fbSensorInput(stInSensorHW := "FC0155",
nInSensorNo := "cInFC0155",
stInOutSensor := "DB_Inputs".Sensors["cInFC0155"]);
// in Separator LS 1
#fbSensorInput(stInSensorHW := "BG0280",
nInSensorNo := "cInBG0280",
stInOutSensor := "DB_Inputs".Sensors["cInBG0280"]);
// in Separator Beladeposition 1, LS 1
#fbSensorInput(stInSensorHW := "BG0282",
nInSensorNo := "cInBG0282",
stInOutSensor := "DB_Inputs".Sensors["cInBG0282"]);
// in Separator Beladeposition 2, LS 1
#fbSensorInput(stInSensorHW := "BG0283",
nInSensorNo := "cInBG0283",
stInOutSensor := "DB_Inputs".Sensors["cInBG0283"]);
// Rad dreht (KR- LS 1)
#fbSensorInput(stInSensorHW := "BG0284",
nInSensorNo := "cInBG0284",
stInOutSensor := "DB_Inputs".Sensors["cInBG0284"]);
// Stausensor Staubereich nach Beladung voll
#fbSensorInput(stInSensorHW := "BG0285",
nInSensorNo := "cInBG0285",
stInOutSensor := "DB_Inputs".Sensors["cInBG0285"]);
// Stausensor Staubereich voll Einfahrt Kreisel
#fbSensorInput(stInSensorHW := "BG0286",
nInSensorNo := "cInBG0286",
stInOutSensor := "DB_Inputs".Sensors["cInBG0286"]);
// LS 1 Sensor 2m ausgefahren
#fbSensorInput(stInSensorHW := "BG0287",
nInSensorNo := "cInBG0287",
stInOutSensor := "DB_Inputs".Sensors["cInBG0287"]);
// Freigabe MT UZ0110-1
#fbSensorInput(stInSensorHW := "SF0305",
nInSensorNo := "cInSF0305",
stInOutSensor := "DB_Inputs".Sensors["cInSF0305"]);
// Beladeposition 2
#fbSensorInput(stInSensorHW := "SF0306",
nInSensorNo := "cInSF0306",
stInOutSensor := "DB_Inputs".Sensors["cInSF0306"]);
// MSS ausgelöst FC0320 Kreisel
#fbSensorInput(stInSensorHW := "FC0320",
nInSensorNo := "cInFC0320",
stInOutSensor := "DB_Inputs".Sensors["cInFC0320"]);
// MSS ausgelöst FC0321 Stützfuß LS1
#fbSensorInput(stInSensorHW := "FC0321",
nInSensorNo := "cInFC0321",
stInOutSensor := "DB_Inputs".Sensors["cInFC0321"]);
// Stützfuß hat Endlage unten erreicht
#fbSensorInput(stInSensorHW := "SF0322",
nInSensorNo := "cInSF0322",
stInOutSensor := "DB_Inputs".Sensors["cInSF0322"]);
// Stützfuß hat Endlage oben erreicht
#fbSensorInput(stInSensorHW := "SF0323",
nInSensorNo := "cInSF0323",
stInOutSensor := "DB_Inputs".Sensors["cInSF0323"]);
// SEW MOVIMOT OK LS1
#fbSensorInput(stInSensorHW := "DI0327",
nInSensorNo := "cInDI0327",
stInOutSensor := "DB_Inputs".Sensors["cInDI0327"]);
// Ladeschleife einfahren UZ0110-2
#fbSensorInput(stInSensorHW := "SF0330",
nInSensorNo := "cInSF0330",
stInOutSensor := "DB_Inputs".Sensors["cInSF0330"]);
// Ladeschleife ausfahren UZ0110-2
#fbSensorInput(stInSensorHW := "SF0331",
nInSensorNo := "cInSF0331",
stInOutSensor := "DB_Inputs".Sensors["cInSF0331"]);
// Freigabe MT ausfahren UZ0110-2
#fbSensorInput(stInSensorHW := "SF0332",
nInSensorNo := "cInSF0332",
stInOutSensor := "DB_Inputs".Sensors["cInSF0332"]);
// Stützfuß ab LS1
#fbSensorInput(stInSensorHW := "SF0333",
nInSensorNo := "cInSF0333",
stInOutSensor := "DB_Inputs".Sensors["cInSF0333"]);
// Stützfuß auf LS1
#fbSensorInput(stInSensorHW := "SF0334",
nInSensorNo := "cInSF0334",
stInOutSensor := "DB_Inputs".Sensors["cInSF0334"]);
// in Separator LS2
#fbSensorInput(stInSensorHW := "BG0340",
nInSensorNo := "cInBG0340",
stInOutSensor := "DB_Inputs".Sensors["cInBG0340"]);
// in Separator Beladeposition 1, LS 2
#fbSensorInput(stInSensorHW := "BG0342",
nInSensorNo := "cInBG0342",
stInOutSensor := "DB_Inputs".Sensors["cInBG0342"]);
// in Separator
#fbSensorInput(stInSensorHW := "BG0343",
nInSensorNo := "cInBG0343",
stInOutSensor := "DB_Inputs".Sensors["cInBG0343"]);
// Rad dreht (KR- LS 2)
#fbSensorInput(stInSensorHW := "BG0344",
nInSensorNo := "cInBG0344",
stInOutSensor := "DB_Inputs".Sensors["cInBG0344"]);
// Stausensor Staubereich nach Beladung voll
#fbSensorInput(stInSensorHW := "BG0345",
nInSensorNo := "cInBG0345",
stInOutSensor := "DB_Inputs".Sensors["cInBG0345"]);
// Stausensor 2 (KR-M1102)
#fbSensorInput(stInSensorHW := "BG0346",
nInSensorNo := "cInBG0346",
stInOutSensor := "DB_Inputs".Sensors["cInBG0346"]);
// LS 2 Sensor 2m ausgefahren
#fbSensorInput(stInSensorHW := "BG0347",
nInSensorNo := "cInBG0347",
stInOutSensor := "DB_Inputs".Sensors["cInBG0347"]);
// Freigabe MT UZ0111-1
#fbSensorInput(stInSensorHW := "SF0365",
nInSensorNo := "cInSF0365",
stInOutSensor := "DB_Inputs".Sensors["cInSF0365"]);
// Beladeposition 2
#fbSensorInput(stInSensorHW := "SF0366",
nInSensorNo := "cInSF0366",
stInOutSensor := "DB_Inputs".Sensors["cInSF0366"]);
// MSS ausgelöst FC0380 Kreisel
#fbSensorInput(stInSensorHW := "FC0380",
nInSensorNo := "cInFC0380",
stInOutSensor := "DB_Inputs".Sensors["cInFC0380"]);
// MSS ausgelöst FC0381 Stützfuß LS2
#fbSensorInput(stInSensorHW := "FC0381",
nInSensorNo := "cInFC0381",
stInOutSensor := "DB_Inputs".Sensors["cInFC0381"]);
// Stützfuß hat Endlage unten erreicht
#fbSensorInput(stInSensorHW := "SF0382",
nInSensorNo := "cInSF0382",
stInOutSensor := "DB_Inputs".Sensors["cInSF0382"]);
// Stützfuß hat Endlage oben erreicht
#fbSensorInput(stInSensorHW := "SF0383",
nInSensorNo := "cInSF0383",
stInOutSensor := "DB_Inputs".Sensors["cInSF0383"]);
// SEW MOVIMOT OK LS2
#fbSensorInput(stInSensorHW := "DI0387",
nInSensorNo := "cInDI0387",
stInOutSensor := "DB_Inputs".Sensors["cInDI0387"]);
// Ladeschleife einfahren UZ0111-2
#fbSensorInput(stInSensorHW := "SF0390",
nInSensorNo := "cInSF0390",
stInOutSensor := "DB_Inputs".Sensors["cInSF0390"]);
// Ladeschleife ausfahren UZ0111-2
#fbSensorInput(stInSensorHW := "SF0391",
nInSensorNo := "cInSF0391",
stInOutSensor := "DB_Inputs".Sensors["cInSF0391"]);
// Freigabe MT UZ0111-2
#fbSensorInput(stInSensorHW := "SF0392",
nInSensorNo := "cInSF0392",
stInOutSensor := "DB_Inputs".Sensors["cInSF0392"]);
// Stützfuß ab LS2
#fbSensorInput(stInSensorHW := "SF0393",
nInSensorNo := "cInSF0393",
stInOutSensor := "DB_Inputs".Sensors["cInSF0393"]);
// Stützfuß auf LS2
#fbSensorInput(stInSensorHW := "SF0394",
nInSensorNo := "cInSF0394",
stInOutSensor := "DB_Inputs".Sensors["cInSF0394"]);
// Not Halt Kanal 1 UH01
#fbSensorInput(stInSensorHW := "SF0400",
nInSensorNo := "cInSF0400",
stInOutSensor := "DB_Inputs".Sensors["cInSF0400"]);
// Not Halt Kanal 1 UZ0101
#fbSensorInput(stInSensorHW := "SF0401",
nInSensorNo := "cInSF0401",
stInOutSensor := "DB_Inputs".Sensors["cInSF0401"]);
// Not Halt Kanal 1 UZ0102
#fbSensorInput(stInSensorHW := "SF0402",
nInSensorNo := "cInSF0402",
stInOutSensor := "DB_Inputs".Sensors["cInSF0402"]);
// Not Halt Kanal 1 LS 1 UZ0103
#fbSensorInput(stInSensorHW := "SF0403",
nInSensorNo := "cInSF0403",
stInOutSensor := "DB_Inputs".Sensors["cInSF0403"]);
// Not Halt Kanal 2 UH01
#fbSensorInput(stInSensorHW := "SF0404",
nInSensorNo := "cInSF0404",
stInOutSensor := "DB_Inputs".Sensors["cInSF0404"]);
// Not Halt Kanal 2 UZ0101
#fbSensorInput(stInSensorHW := "SF0405",
nInSensorNo := "cInSF0405",
stInOutSensor := "DB_Inputs".Sensors["cInSF0405"]);
// Not Halt Kanal 2 UZ0102
#fbSensorInput(stInSensorHW := "SF0406",
nInSensorNo := "cInSF0406",
stInOutSensor := "DB_Inputs".Sensors["cInSF0406"]);
// Not Halt Kanal 2 LS 1 UZ0103
#fbSensorInput(stInSensorHW := "SF0407",
nInSensorNo := "cInSF0407",
stInOutSensor := "DB_Inputs".Sensors["cInSF0407"]);
// Not Halt Kanal 1 LS 2 UZ0104
#fbSensorInput(stInSensorHW := "SF0470",
nInSensorNo := "cInSF0470",
stInOutSensor := "DB_Inputs".Sensors["cInSF0470"]);
// Not Halt Schnittstelle CH1 (Reserve)
#fbSensorInput(stInSensorHW := "SF0471",
nInSensorNo := "cInSF0471",
stInOutSensor := "DB_Inputs".Sensors["cInSF0471"]);
// Not Halt Kanal 2 LS 2 UZ0104
#fbSensorInput(stInSensorHW := "SF0474",
nInSensorNo := "cInSF0474",
stInOutSensor := "DB_Inputs".Sensors["cInSF0474"]);
// Not Halt Schnittstelle CH2 (Reserve)
#fbSensorInput(stInSensorHW := "SF0475",
nInSensorNo := "cInSF0475",
stInOutSensor := "DB_Inputs".Sensors["cInSF0475"]);
// Not Halt Kanal 1 UC011
#fbSensorInput(stInSensorHW := "SF0710",
nInSensorNo := "cInSF0710",
stInOutSensor := "DB_Inputs".Sensors["cInSF0710"]);
// Not Halt Kanal 2 UC011
#fbSensorInput(stInSensorHW := "SF0714",
nInSensorNo := "cInSF0714",
stInOutSensor := "DB_Inputs".Sensors["cInSF0714"]);
// Not Halt Schnittstelle CH1 (from UH06)
#fbSensorInput(stInSensorHW := "SF0781",
nInSensorNo := "cInSF0781",
stInOutSensor := "DB_Inputs".Sensors["cInSF0781"]);
// Not Halt Schnittstelle CH2 (from UH0X)
#fbSensorInput(stInSensorHW := "SF0785",
nInSensorNo := "cInSF0785",
stInOutSensor := "DB_Inputs".Sensors["cInSF0785"]);
// Not Halt Kanal 1 UZ0110-1
#fbSensorInput(stInSensorHW := "SF1640",
nInSensorNo := "cInSF1640",
stInOutSensor := "DB_Inputs".Sensors["cInSF1640"]);
// Not Halt Kanal 2 UZ0110-1
#fbSensorInput(stInSensorHW := "SF1644",
nInSensorNo := "cInSF1644",
stInOutSensor := "DB_Inputs".Sensors["cInSF1644"]);
// Not Halt Kanal 1 UZ0111-1
#fbSensorInput(stInSensorHW := "SF1950",
nInSensorNo := "cInSF1950",
stInOutSensor := "DB_Inputs".Sensors["cInSF1950"]);
// Not Halt Kanal 2 UZ0111-1
#fbSensorInput(stInSensorHW := "SF1954",
nInSensorNo := "cInSF1954",
stInOutSensor := "DB_Inputs".Sensors["cInSF1954"]);
// Sensor Förderer voll (ILS-CV M4104)
#fbSensorInput(stInSensorHW := "BG3000",
nInSensorNo := "cInBG3000",
stInOutSensor := "DB_Inputs".Sensors["cInBG3000"]);
// Stausensor 1 (ILS-CV M4104)
#fbSensorInput(stInSensorHW := "BG3001",
nInSensorNo := "cInBG3001",
stInOutSensor := "DB_Inputs".Sensors["cInBG3001"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M4103_A)
#fbSensorInput(stInSensorHW := "BG3002",
nInSensorNo := "cInBG3002",
stInOutSensor := "DB_Inputs".Sensors["cInBG3002"]);
// in Separator 1 (ILS-CV M4103_A)
#fbSensorInput(stInSensorHW := "BG3003",
nInSensorNo := "cInBG3003",
stInOutSensor := "DB_Inputs".Sensors["cInBG3003"]);
// MT in Position (ILS-CV M4103_A)
#fbSensorInput(stInSensorHW := "BG3004",
nInSensorNo := "cInBG3004",
stInOutSensor := "DB_Inputs".Sensors["cInBG3004"]);
// Stausensor (ILS-CV M4103_A)
#fbSensorInput(stInSensorHW := "BG3005",
nInSensorNo := "cInBG3005",
stInOutSensor := "DB_Inputs".Sensors["cInBG3005"]);
// Sensor Förderer voll (ILS-CV M4103_A)
#fbSensorInput(stInSensorHW := "BG3006",
nInSensorNo := "cInBG3006",
stInOutSensor := "DB_Inputs".Sensors["cInBG3006"]);
// Rad dreht (ILS-KR-M4204)
#fbSensorInput(stInSensorHW := "BG3007",
nInSensorNo := "cInBG3007",
stInOutSensor := "DB_Inputs".Sensors["cInBG3007"]);
// in Separator 1 (ILS-KR-M4204)
#fbSensorInput(stInSensorHW := "BG3010",
nInSensorNo := "cInBG3010",
stInOutSensor := "DB_Inputs".Sensors["cInBG3010"]);
// MT in Position (ILS-CV M4501))
#fbSensorInput(stInSensorHW := "BG3011",
nInSensorNo := "cInBG3011",
stInOutSensor := "DB_Inputs".Sensors["cInBG3011"]);
// Stausensor 2 (ILS-KR-M4204)
#fbSensorInput(stInSensorHW := "BG3012",
nInSensorNo := "cInBG3012",
stInOutSensor := "DB_Inputs".Sensors["cInBG3012"]);
// in Separator 2 (ILS-KR-M4204)
#fbSensorInput(stInSensorHW := "BG3013",
nInSensorNo := "cInBG3013",
stInOutSensor := "DB_Inputs".Sensors["cInBG3013"]);
// Stausensor nach Ausfahrt KR-M4204 ( ILS-CV M4203)
#fbSensorInput(stInSensorHW := "BG3014",
nInSensorNo := "cInBG3014",
stInOutSensor := "DB_Inputs".Sensors["cInBG3014"]);
// Stausensor 1 (ILS-KR-M4204)
#fbSensorInput(stInSensorHW := "BG3015",
nInSensorNo := "cInBG3015",
stInOutSensor := "DB_Inputs".Sensors["cInBG3015"]);
// Stausensor (ILS-KR-M4204)
#fbSensorInput(stInSensorHW := "BG3016",
nInSensorNo := "cInBG3016",
stInOutSensor := "DB_Inputs".Sensors["cInBG3016"]);
// Staumelder, Einfahrt (ILS-CV M4501)
#fbSensorInput(stInSensorHW := "BG3017",
nInSensorNo := "cInBG3017",
stInOutSensor := "DB_Inputs".Sensors["cInBG3017"]);
// in Separator 1 (ILS-CV M4501)
#fbSensorInput(stInSensorHW := "BG3020",
nInSensorNo := "cInBG3020",
stInOutSensor := "DB_Inputs".Sensors["cInBG3020"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M4501)
#fbSensorInput(stInSensorHW := "BG3021",
nInSensorNo := "cInBG3021",
stInOutSensor := "DB_Inputs".Sensors["cInBG3021"]);
// Stausensor 1 (ILS-CV M4501)
#fbSensorInput(stInSensorHW := "BG3022",
nInSensorNo := "cInBG3022",
stInOutSensor := "DB_Inputs".Sensors["cInBG3022"]);
// Sensor (ILS-CV M4501)
#fbSensorInput(stInSensorHW := "BG3023",
nInSensorNo := "cInBG3023",
stInOutSensor := "DB_Inputs".Sensors["cInBG3023"]);
// in Separator 1 (ILS-CV M4203)
#fbSensorInput(stInSensorHW := "BG3024",
nInSensorNo := "cInBG3024",
stInOutSensor := "DB_Inputs".Sensors["cInBG3024"]);
// in Separator (ILS-CV M4104)
#fbSensorInput(stInSensorHW := "BG3025",
nInSensorNo := "cInBG3025",
stInOutSensor := "DB_Inputs".Sensors["cInBG3025"]);
// MT in Position (ILS-CV M4104)
#fbSensorInput(stInSensorHW := "BG3026",
nInSensorNo := "cInBG3026",
stInOutSensor := "DB_Inputs".Sensors["cInBG3026"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M4104)
#fbSensorInput(stInSensorHW := "BG3027",
nInSensorNo := "cInBG3027",
stInOutSensor := "DB_Inputs".Sensors["cInBG3027"]);
// in Separator 1 (ILS-CV M4503)
#fbSensorInput(stInSensorHW := "BG3060",
nInSensorNo := "cInBG3060",
stInOutSensor := "DB_Inputs".Sensors["cInBG3060"]);
// Stausensor (ILS-CV M4503)
#fbSensorInput(stInSensorHW := "BG3061",
nInSensorNo := "cInBG3061",
stInOutSensor := "DB_Inputs".Sensors["cInBG3061"]);
// Sensor (ILS-CV M4503)
#fbSensorInput(stInSensorHW := "BG3062",
nInSensorNo := "cInBG3062",
stInOutSensor := "DB_Inputs".Sensors["cInBG3062"]);
// in Separator 1 (ILS-CV M4502)
#fbSensorInput(stInSensorHW := "BG3063",
nInSensorNo := "cInBG3063",
stInOutSensor := "DB_Inputs".Sensors["cInBG3063"]);
// MT in Position (ILS-CV M4502))
#fbSensorInput(stInSensorHW := "BG3064",
nInSensorNo := "cInBG3064",
stInOutSensor := "DB_Inputs".Sensors["cInBG3064"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M4502)
#fbSensorInput(stInSensorHW := "BG3065",
nInSensorNo := "cInBG3065",
stInOutSensor := "DB_Inputs".Sensors["cInBG3065"]);
// Sensor Förderer voll (ILS-CV M4502)
#fbSensorInput(stInSensorHW := "BG3066",
nInSensorNo := "cInBG3066",
stInOutSensor := "DB_Inputs".Sensors["cInBG3066"]);
// Stausensor 1 (ILS-CV M4502)
#fbSensorInput(stInSensorHW := "BG3067",
nInSensorNo := "cInBG3067",
stInOutSensor := "DB_Inputs".Sensors["cInBG3067"]);
// Sensor (ILS-CV M4403)
#fbSensorInput(stInSensorHW := "BG3070",
nInSensorNo := "cInBG3070",
stInOutSensor := "DB_Inputs".Sensors["cInBG3070"]);
// Stausensor 1 (ILS-CV M4403)
#fbSensorInput(stInSensorHW := "BG3071",
nInSensorNo := "cInBG3071",
stInOutSensor := "DB_Inputs".Sensors["cInBG3071"]);
// in Separator 2 (ILS-CV M4403)
#fbSensorInput(stInSensorHW := "BG3073",
nInSensorNo := "cInBG3073",
stInOutSensor := "DB_Inputs".Sensors["cInBG3073"]);
// MT in Position (ILS-CV M4403)
#fbSensorInput(stInSensorHW := "BG3074",
nInSensorNo := "cInBG3074",
stInOutSensor := "DB_Inputs".Sensors["cInBG3074"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M4403)
#fbSensorInput(stInSensorHW := "BG3075",
nInSensorNo := "cInBG3075",
stInOutSensor := "DB_Inputs".Sensors["cInBG3075"]);
// in Separator 2 (ILS-CV M4503)
#fbSensorInput(stInSensorHW := "BG3080",
nInSensorNo := "cInBG3080",
stInOutSensor := "DB_Inputs".Sensors["cInBG3080"]);
// Abfrage Mitnehmerfinger in Position in Separator 2 (ILS-CV M4503)
#fbSensorInput(stInSensorHW := "BG3081",
nInSensorNo := "cInBG3081",
stInOutSensor := "DB_Inputs".Sensors["cInBG3081"]);
// MT in Position (ILS-CV M4503)
#fbSensorInput(stInSensorHW := "BG3082",
nInSensorNo := "cInBG3082",
stInOutSensor := "DB_Inputs".Sensors["cInBG3082"]);
// in Separator (ILS-CV M4203_A)
#fbSensorInput(stInSensorHW := "BG3120",
nInSensorNo := "cInBG3120",
stInOutSensor := "DB_Inputs".Sensors["cInBG3120"]);
// MT in Position (ILS-CV M4203_A)
#fbSensorInput(stInSensorHW := "BG3121",
nInSensorNo := "cInBG3121",
stInOutSensor := "DB_Inputs".Sensors["cInBG3121"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M4302_A)
#fbSensorInput(stInSensorHW := "BG3122",
nInSensorNo := "cInBG3122",
stInOutSensor := "DB_Inputs".Sensors["cInBG3122"]);
// Sensor (ILS-CV M4203_A)
#fbSensorInput(stInSensorHW := "BG3123",
nInSensorNo := "cInBG3123",
stInOutSensor := "DB_Inputs".Sensors["cInBG3123"]);
// Stausensor (ILS-CV M4203_A)
#fbSensorInput(stInSensorHW := "BG3124",
nInSensorNo := "cInBG3124",
stInOutSensor := "DB_Inputs".Sensors["cInBG3124"]);
// in Separator (ILS-CV M4302)
#fbSensorInput(stInSensorHW := "BG3125",
nInSensorNo := "cInBG3125",
stInOutSensor := "DB_Inputs".Sensors["cInBG3125"]);
// Stausensor (ILS-CV M4302_B)
#fbSensorInput(stInSensorHW := "BG3126",
nInSensorNo := "cInBG3126",
stInOutSensor := "DB_Inputs".Sensors["cInBG3126"]);
// Sensor Förderer voll (ILS-CV M4302_B)
#fbSensorInput(stInSensorHW := "BG3127",
nInSensorNo := "cInBG3127",
stInOutSensor := "DB_Inputs".Sensors["cInBG3127"]);
// in Separator 2 (ILS-CV M4302_B)
#fbSensorInput(stInSensorHW := "BG3130",
nInSensorNo := "cInBG3130",
stInOutSensor := "DB_Inputs".Sensors["cInBG3130"]);
// MT in Position (ILS-CV M4302_B)
#fbSensorInput(stInSensorHW := "BG3131",
nInSensorNo := "cInBG3131",
stInOutSensor := "DB_Inputs".Sensors["cInBG3131"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M4302_B)
#fbSensorInput(stInSensorHW := "BG3132",
nInSensorNo := "cInBG3132",
stInOutSensor := "DB_Inputs".Sensors["cInBG3132"]);
// Sensor Förderer voll (ILS-CV M4402_B)
#fbSensorInput(stInSensorHW := "BG3133",
nInSensorNo := "cInBG3133",
stInOutSensor := "DB_Inputs".Sensors["cInBG3133"]);
// Stausensor (ILS-CV M4402_B)
#fbSensorInput(stInSensorHW := "BG3134",
nInSensorNo := "cInBG3134",
stInOutSensor := "DB_Inputs".Sensors["cInBG3134"]);
// in Separator 2 (ILS-CV M4402_B)
#fbSensorInput(stInSensorHW := "BG3135",
nInSensorNo := "cInBG3135",
stInOutSensor := "DB_Inputs".Sensors["cInBG3135"]);
// MT in Position (ILS-CV M4402_B)
#fbSensorInput(stInSensorHW := "BG3136",
nInSensorNo := "cInBG3136",
stInOutSensor := "DB_Inputs".Sensors["cInBG3136"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M4402_B)
#fbSensorInput(stInSensorHW := "BG3137",
nInSensorNo := "cInBG3137",
stInOutSensor := "DB_Inputs".Sensors["cInBG3137"]);
// Staumelder, Einfahrt (ILS-CV M4103_A)
#fbSensorInput(stInSensorHW := "BG3140",
nInSensorNo := "cInBG3140",
stInOutSensor := "DB_Inputs".Sensors["cInBG3140"]);
// Sensor Förderer voll (ILS-CV M4103_B)
#fbSensorInput(stInSensorHW := "BG3142",
nInSensorNo := "cInBG3142",
stInOutSensor := "DB_Inputs".Sensors["cInBG3142"]);
// Stausensor (ILS-CV M4103_B)
#fbSensorInput(stInSensorHW := "BG3143",
nInSensorNo := "cInBG3143",
stInOutSensor := "DB_Inputs".Sensors["cInBG3143"]);
// Staumelder, Einfahrt (ILS-CV M4203_A)
#fbSensorInput(stInSensorHW := "BG3144",
nInSensorNo := "cInBG3144",
stInOutSensor := "DB_Inputs".Sensors["cInBG3144"]);
// Sensor Förderer voll (ILS-CV M4203_B)
#fbSensorInput(stInSensorHW := "BG3146",
nInSensorNo := "cInBG3146",
stInOutSensor := "DB_Inputs".Sensors["cInBG3146"]);
// Stausensor (ILS-CV M4203_B)
#fbSensorInput(stInSensorHW := "BG3147",
nInSensorNo := "cInBG3147",
stInOutSensor := "DB_Inputs".Sensors["cInBG3147"]);
// Staumelder, Einfahrt (ILS-CV M4302_A)
#fbSensorInput(stInSensorHW := "BG3150",
nInSensorNo := "cInBG3150",
stInOutSensor := "DB_Inputs".Sensors["cInBG3150"]);
// Sensor Förderer voll (ILS-CV M4302_A)
#fbSensorInput(stInSensorHW := "BG3152",
nInSensorNo := "cInBG3152",
stInOutSensor := "DB_Inputs".Sensors["cInBG3152"]);
// Stausensor (ILS-CV M4302_A)
#fbSensorInput(stInSensorHW := "BG3153",
nInSensorNo := "cInBG3153",
stInOutSensor := "DB_Inputs".Sensors["cInBG3153"]);
// Staumelder, Einfahrt (ILS-CV M4402_A)
#fbSensorInput(stInSensorHW := "BG3154",
nInSensorNo := "cInBG3154",
stInOutSensor := "DB_Inputs".Sensors["cInBG3154"]);
// Sensor Förderer voll (ILS-CV M4402_A)
#fbSensorInput(stInSensorHW := "BG3156",
nInSensorNo := "cInBG3156",
stInOutSensor := "DB_Inputs".Sensors["cInBG3156"]);
// Stausensor (ILS-CV M4402_A)
#fbSensorInput(stInSensorHW := "BG3157",
nInSensorNo := "cInBG3157",
stInOutSensor := "DB_Inputs".Sensors["cInBG3157"]);
// Sensor Förderer voll (ILS-CV M0100)
#fbSensorInput(stInSensorHW := "BG3240",
nInSensorNo := "cInBG3240",
stInOutSensor := "DB_Inputs".Sensors["cInBG3240"]);
// Stausensor (ILS-CV M0100)
#fbSensorInput(stInSensorHW := "BG3241",
nInSensorNo := "cInBG3241",
stInOutSensor := "DB_Inputs".Sensors["cInBG3241"]);
// in Separator 1 (ILS-CV M0100)
#fbSensorInput(stInSensorHW := "BG3242",
nInSensorNo := "cInBG3242",
stInOutSensor := "DB_Inputs".Sensors["cInBG3242"]);
// Stausensor 1 (KR-K0111)
#fbSensorInput(stInSensorHW := "BG3243",
nInSensorNo := "cInBG3243",
stInOutSensor := "DB_Inputs".Sensors["cInBG3243"]);
// Stausensor 2 (KR-K0111)
#fbSensorInput(stInSensorHW := "BG3245",
nInSensorNo := "cInBG3245",
stInOutSensor := "DB_Inputs".Sensors["cInBG3245"]);
// in Separator, Einfahrt MT-Buffer LS2 (KR-M0101)
#fbSensorInput(stInSensorHW := "BG3246",
nInSensorNo := "cInBG3246",
stInOutSensor := "DB_Inputs".Sensors["cInBG3246"]);
// Stausensor Str.01 (Block 1.2)
#fbSensorInput(stInSensorHW := "BG3250",
nInSensorNo := "cInBG3250",
stInOutSensor := "DB_Inputs".Sensors["cInBG3250"]);
// Stausensor Str.02 (Block 1.2)
#fbSensorInput(stInSensorHW := "BG3251",
nInSensorNo := "cInBG3251",
stInOutSensor := "DB_Inputs".Sensors["cInBG3251"]);
// Stausensor Str.03 (Block 1.2)
#fbSensorInput(stInSensorHW := "BG3252",
nInSensorNo := "cInBG3252",
stInOutSensor := "DB_Inputs".Sensors["cInBG3252"]);
// Stausensor Str.04 (Block 1.2)
#fbSensorInput(stInSensorHW := "BG3253",
nInSensorNo := "cInBG3253",
stInOutSensor := "DB_Inputs".Sensors["cInBG3253"]);
// Stausensor Str.05 (Block 1.2)
#fbSensorInput(stInSensorHW := "BG3254",
nInSensorNo := "cInBG3254",
stInOutSensor := "DB_Inputs".Sensors["cInBG3254"]);
// in Separator, Einfahrt MT-Buffer LS1 (KR-M0101)
#fbSensorInput(stInSensorHW := "BG3257",
nInSensorNo := "cInBG3257",
stInOutSensor := "DB_Inputs".Sensors["cInBG3257"]);
// Stausensor Str.01 (Block 1.1)
#fbSensorInput(stInSensorHW := "BG3260",
nInSensorNo := "cInBG3260",
stInOutSensor := "DB_Inputs".Sensors["cInBG3260"]);
// Stausensor Str.02 (Block 1.1)
#fbSensorInput(stInSensorHW := "BG3261",
nInSensorNo := "cInBG3261",
stInOutSensor := "DB_Inputs".Sensors["cInBG3261"]);
// Stausensor Str.03 (Block 1.1)
#fbSensorInput(stInSensorHW := "BG3262",
nInSensorNo := "cInBG3262",
stInOutSensor := "DB_Inputs".Sensors["cInBG3262"]);
// Stausensor Str.04 (Block 1.1)
#fbSensorInput(stInSensorHW := "BG3263",
nInSensorNo := "cInBG3263",
stInOutSensor := "DB_Inputs".Sensors["cInBG3263"]);
// Stausensor Str.05 (Block 1.1)
#fbSensorInput(stInSensorHW := "BG3264",
nInSensorNo := "cInBG3264",
stInOutSensor := "DB_Inputs".Sensors["cInBG3264"]);
// Sensor MT in Scanposition (ILS-CV M0106)
#fbSensorInput(stInSensorHW := "BG3265",
nInSensorNo := "cInBG3265",
stInOutSensor := "DB_Inputs".Sensors["cInBG3265"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV-M0103)
#fbSensorInput(stInSensorHW := "BG3270",
nInSensorNo := "cInBG3270",
stInOutSensor := "DB_Inputs".Sensors["cInBG3270"]);
// in Separator (ILS-CV M0103)
#fbSensorInput(stInSensorHW := "BG3271",
nInSensorNo := "cInBG3271",
stInOutSensor := "DB_Inputs".Sensors["cInBG3271"]);
// MT in Position (ILS-CV M0103)
#fbSensorInput(stInSensorHW := "BG3272",
nInSensorNo := "cInBG3272",
stInOutSensor := "DB_Inputs".Sensors["cInBG3272"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M0106)
#fbSensorInput(stInSensorHW := "BG3273",
nInSensorNo := "cInBG3273",
stInOutSensor := "DB_Inputs".Sensors["cInBG3273"]);
// Stausensor (ILS-CV M0106)
#fbSensorInput(stInSensorHW := "BG3276",
nInSensorNo := "cInBG3276",
stInOutSensor := "DB_Inputs".Sensors["cInBG3276"]);
// in Separator (ILS-BX1104)
#fbSensorInput(stInSensorHW := "BG3280",
nInSensorNo := "cInBG3280",
stInOutSensor := "DB_Inputs".Sensors["cInBG3280"]);
// Stausensor(ILS-BX1104)
#fbSensorInput(stInSensorHW := "BG3281",
nInSensorNo := "cInBG3281",
stInOutSensor := "DB_Inputs".Sensors["cInBG3281"]);
// MT in Position (ILS-CV M0107)
#fbSensorInput(stInSensorHW := "BG3282",
nInSensorNo := "cInBG3282",
stInOutSensor := "DB_Inputs".Sensors["cInBG3282"]);
// in Separator (ILS-CV M0107)
#fbSensorInput(stInSensorHW := "BG3283",
nInSensorNo := "cInBG3283",
stInOutSensor := "DB_Inputs".Sensors["cInBG3283"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M0107)
#fbSensorInput(stInSensorHW := "BG3284",
nInSensorNo := "cInBG3284",
stInOutSensor := "DB_Inputs".Sensors["cInBG3284"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M0110)
#fbSensorInput(stInSensorHW := "BG3285",
nInSensorNo := "cInBG3285",
stInOutSensor := "DB_Inputs".Sensors["cInBG3285"]);
// in Separator 2 (ILS-CV M0100)
#fbSensorInput(stInSensorHW := "BG3290",
nInSensorNo := "cInBG3290",
stInOutSensor := "DB_Inputs".Sensors["cInBG3290"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M0100)
#fbSensorInput(stInSensorHW := "BG3291",
nInSensorNo := "cInBG3291",
stInOutSensor := "DB_Inputs".Sensors["cInBG3291"]);
// MT in Position (ILS-CV M0100)
#fbSensorInput(stInSensorHW := "BG3292",
nInSensorNo := "cInBG3292",
stInOutSensor := "DB_Inputs".Sensors["cInBG3292"]);
// Stausensor (ILS-CV M0110)
#fbSensorInput(stInSensorHW := "BG3294",
nInSensorNo := "cInBG3294",
stInOutSensor := "DB_Inputs".Sensors["cInBG3294"]);
// in Separator (ILS-CV)
#fbSensorInput(stInSensorHW := "BG3295",
nInSensorNo := "cInBG3295",
stInOutSensor := "DB_Inputs".Sensors["cInBG3295"]);
// Stausensor (ILS-CV)
#fbSensorInput(stInSensorHW := "BG3296",
nInSensorNo := "cInBG3296",
stInOutSensor := "DB_Inputs".Sensors["cInBG3296"]);
// Sensor MT in Scanposition (ILS-CV M0110)
#fbSensorInput(stInSensorHW := "BG3297",
nInSensorNo := "cInBG3297",
stInOutSensor := "DB_Inputs".Sensors["cInBG3297"]);
// in Separator 1 (ILS-KR-M0102)
#fbSensorInput(stInSensorHW := "BG3300",
nInSensorNo := "cInBG3300",
stInOutSensor := "DB_Inputs".Sensors["cInBG3300"]);
// Teil auf MT (Sep 1MB3300)
#fbSensorInput(stInSensorHW := "BG3301",
nInSensorNo := "cInBG3301",
stInOutSensor := "DB_Inputs".Sensors["cInBG3301"]);
// Stausensor 2 (ILS-KR-M0102)
#fbSensorInput(stInSensorHW := "BG3304",
nInSensorNo := "cInBG3304",
stInOutSensor := "DB_Inputs".Sensors["cInBG3304"]);
// Stausensor (ILS-CV-M0103)
#fbSensorInput(stInSensorHW := "BG3305",
nInSensorNo := "cInBG3305",
stInOutSensor := "DB_Inputs".Sensors["cInBG3305"]);
// in Separator 2 (ILS-KR-M0102)
#fbSensorInput(stInSensorHW := "BG3306",
nInSensorNo := "cInBG3306",
stInOutSensor := "DB_Inputs".Sensors["cInBG3306"]);
// in Separator 01 (Block 1.1.)
#fbSensorInput(stInSensorHW := "BG3310",
nInSensorNo := "cInBG3310",
stInOutSensor := "DB_Inputs".Sensors["cInBG3310"]);
// in Separator 02 (Block 1.1.)
#fbSensorInput(stInSensorHW := "BG3311",
nInSensorNo := "cInBG3311",
stInOutSensor := "DB_Inputs".Sensors["cInBG3311"]);
// in Separator 03 (Block 1.1.)
#fbSensorInput(stInSensorHW := "BG3312",
nInSensorNo := "cInBG3312",
stInOutSensor := "DB_Inputs".Sensors["cInBG3312"]);
// in Separator 04 (Block 1.1.)
#fbSensorInput(stInSensorHW := "BG3313",
nInSensorNo := "cInBG3313",
stInOutSensor := "DB_Inputs".Sensors["cInBG3313"]);
// in Separator 05 (Block 1.1.)
#fbSensorInput(stInSensorHW := "BG3314",
nInSensorNo := "cInBG3314",
stInOutSensor := "DB_Inputs".Sensors["cInBG3314"]);
// in Separator (Block 1.1)
#fbSensorInput(stInSensorHW := "BG3315",
nInSensorNo := "cInBG3315",
stInOutSensor := "DB_Inputs".Sensors["cInBG3315"]);
// in Separator, (KR-M0102)
#fbSensorInput(stInSensorHW := "BG3316",
nInSensorNo := "cInBG3316",
stInOutSensor := "DB_Inputs".Sensors["cInBG3316"]);
// in Separator 01 (Block 1.2.)
#fbSensorInput(stInSensorHW := "BG3320",
nInSensorNo := "cInBG3320",
stInOutSensor := "DB_Inputs".Sensors["cInBG3320"]);
// in Separator 02 (Block 1.2.)
#fbSensorInput(stInSensorHW := "BG3321",
nInSensorNo := "cInBG3321",
stInOutSensor := "DB_Inputs".Sensors["cInBG3321"]);
// in Separator 03 (Block 1.2)
#fbSensorInput(stInSensorHW := "BG3322",
nInSensorNo := "cInBG3322",
stInOutSensor := "DB_Inputs".Sensors["cInBG3322"]);
// in Separator 04 (Block 1.2)
#fbSensorInput(stInSensorHW := "BG3323",
nInSensorNo := "cInBG3323",
stInOutSensor := "DB_Inputs".Sensors["cInBG3323"]);
// in Separator 05 (Block 1.2)
#fbSensorInput(stInSensorHW := "BG3324",
nInSensorNo := "cInBG3324",
stInOutSensor := "DB_Inputs".Sensors["cInBG3324"]);
// in Separator (Block 1.2.)
#fbSensorInput(stInSensorHW := "BG3325",
nInSensorNo := "cInBG3325",
stInOutSensor := "DB_Inputs".Sensors["cInBG3325"]);
// Stausensor 3 (ILS-KR-M0102)
#fbSensorInput(stInSensorHW := "BG3330",
nInSensorNo := "cInBG3330",
stInOutSensor := "DB_Inputs".Sensors["cInBG3330"]);
// Stausensor1
#fbSensorInput(stInSensorHW := "BG3331",
nInSensorNo := "cInBG3331",
stInOutSensor := "DB_Inputs".Sensors["cInBG3331"]);
// in Separator 3 (ILS-KR-M0102)
#fbSensorInput(stInSensorHW := "BG3332",
nInSensorNo := "cInBG3332",
stInOutSensor := "DB_Inputs".Sensors["cInBG3332"]);
// Stausensor 4 (ILS-KR-M0102)
#fbSensorInput(stInSensorHW := "BG3334",
nInSensorNo := "cInBG3334",
stInOutSensor := "DB_Inputs".Sensors["cInBG3334"]);
// in Separator 4 (ILS-KR-M0102)
#fbSensorInput(stInSensorHW := "BG3335",
nInSensorNo := "cInBG3335",
stInOutSensor := "DB_Inputs".Sensors["cInBG3335"]);
// in Separator 5 (ILS-KR-M0102)
#fbSensorInput(stInSensorHW := "BG3337",
nInSensorNo := "cInBG3337",
stInOutSensor := "DB_Inputs".Sensors["cInBG3337"]);
// Stausensor (ILS-CV M4104)
#fbSensorInput(stInSensorHW := "BG3340",
nInSensorNo := "cInBG3340",
stInOutSensor := "DB_Inputs".Sensors["cInBG3340"]);
// Stausensor 5 (ILS-KR-M0102)
#fbSensorInput(stInSensorHW := "BG3341",
nInSensorNo := "cInBG3341",
stInOutSensor := "DB_Inputs".Sensors["cInBG3341"]);
// Rad dreht (ILS-KR-M0102)
#fbSensorInput(stInSensorHW := "BG3342",
nInSensorNo := "cInBG3342",
stInOutSensor := "DB_Inputs".Sensors["cInBG3342"]);
// LS Endlage ausgefahren
#fbSensorInput(stInSensorHW := "BG3343",
nInSensorNo := "cInBG3343",
stInOutSensor := "DB_Inputs".Sensors["cInBG3343"]);
// LS Endlage eingefahren
#fbSensorInput(stInSensorHW := "BG3344",
nInSensorNo := "cInBG3344",
stInOutSensor := "DB_Inputs".Sensors["cInBG3344"]);
// LS Endlage ausgefahren
#fbSensorInput(stInSensorHW := "BG3345",
nInSensorNo := "cInBG3345",
stInOutSensor := "DB_Inputs".Sensors["cInBG3345"]);
// LS Endlage eingefahren
#fbSensorInput(stInSensorHW := "BG3346",
nInSensorNo := "cInBG3346",
stInOutSensor := "DB_Inputs".Sensors["cInBG3346"]);
// Rad dreht (KR-M0101)
#fbSensorInput(stInSensorHW := "BG3347",
nInSensorNo := "cInBG3347",
stInOutSensor := "DB_Inputs".Sensors["cInBG3347"]);
// Längenabfrage Grenze kurz (ILS-CV)
#fbSensorInput(stInSensorHW := "BG3354",
nInSensorNo := "cInBG3354",
stInOutSensor := "DB_Inputs".Sensors["cInBG3354"]);
// Längenabfrage Grenze lang (ILS-CV)
#fbSensorInput(stInSensorHW := "BG3355",
nInSensorNo := "cInBG3355",
stInOutSensor := "DB_Inputs".Sensors["cInBG3355"]);
// Längenabfrage Grenze zu lang (ILS-CV)
#fbSensorInput(stInSensorHW := "BG3356",
nInSensorNo := "cInBG3356",
stInOutSensor := "DB_Inputs".Sensors["cInBG3356"]);
// Verlassensensor Längenmessung (ILS-CV)
#fbSensorInput(stInSensorHW := "BG3357",
nInSensorNo := "cInBG3357",
stInOutSensor := "DB_Inputs".Sensors["cInBG3357"]);
// Neigungssensor Ladeschleife 1
#fbSensorInput(stInSensorHW := "BG4740",
nInSensorNo := "cInBG4740",
stInOutSensor := "DB_Inputs".Sensors["cInBG4740"]);
// Bodenabstandssensor ( LS 1)
#fbSensorInput(stInSensorHW := "BG4820",
nInSensorNo := "cInBG4820",
stInOutSensor := "DB_Inputs".Sensors["cInBG4820"]);
// Neigungssensor Ladeschleife 2
#fbSensorInput(stInSensorHW := "BG5060",
nInSensorNo := "cInBG5060",
stInOutSensor := "DB_Inputs".Sensors["cInBG5060"]);
// Bodenabstandssensor ( LS 2)
#fbSensorInput(stInSensorHW := "BG5140",
nInSensorNo := "cInBG5140",
stInOutSensor := "DB_Inputs".Sensors["cInBG5140"]);
END_FUNCTION_BLOCK