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HundM_Fortna/results/FB_CallSensors_skel_UH02.scl

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FUNCTION_BLOCK "FB_CallSensors_skel_UH02"
{ S7_Optimized_Access := 'TRUE' }
VERSION : 0.1
// AUTOMATISCH GENERIERT — create_skel.py (924 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 UC021
#fbSensorInput(stInSensorHW := "DI0006",
nInSensorNo := "cInDI0006",
stInOutSensor := "DB_Inputs".Sensors["cInDI0006"]);
// Vorsicherung 400V UC022
#fbSensorInput(stInSensorHW := "DI0007",
nInSensorNo := "cInDI0007",
stInOutSensor := "DB_Inputs".Sensors["cInDI0007"]);
// Vorsicherung 400V UC023
#fbSensorInput(stInSensorHW := "DI0010",
nInSensorNo := "cInDI0010",
stInOutSensor := "DB_Inputs".Sensors["cInDI0010"]);
// Vorsicherung 400V UC Reserve
#fbSensorInput(stInSensorHW := "DI0011",
nInSensorNo := "cInDI0011",
stInOutSensor := "DB_Inputs".Sensors["cInDI0011"]);
// Vorsicherung 400V UC Reserve
#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 UH03 (QA0660/QA0661)
#fbSensorInput(stInSensorHW := "DI0014",
nInSensorNo := "cInDI0014",
stInOutSensor := "DB_Inputs".Sensors["cInDI0014"]);
// Feedback Koppelrelais E-Stop-IF
#fbSensorInput(stInSensorHW := "DI0015",
nInSensorNo := "cInDI0015",
stInOutSensor := "DB_Inputs".Sensors["cInDI0015"]);
// Sicherungsautomatenfall
#fbSensorInput(stInSensorHW := "DI0016",
nInSensorNo := "cInDI0016",
stInOutSensor := "DB_Inputs".Sensors["cInDI0016"]);
// 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"]);
// Vorsicherung 24V OK (FC025)
#fbSensorInput(stInSensorHW := "DI0025",
nInSensorNo := "cInDI0025",
stInOutSensor := "DB_Inputs".Sensors["cInDI0025"]);
// Vorsicherung 24V OK (FC026)
#fbSensorInput(stInSensorHW := "DI0026",
nInSensorNo := "cInDI0026",
stInOutSensor := "DB_Inputs".Sensors["cInDI0026"]);
// 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"]);
// Bereichshalt UZ0201
#fbSensorInput(stInSensorHW := "SF0040",
nInSensorNo := "cInSF0040",
stInOutSensor := "DB_Inputs".Sensors["cInSF0040"]);
// Reset UZ0201
#fbSensorInput(stInSensorHW := "SF0041",
nInSensorNo := "cInSF0041",
stInOutSensor := "DB_Inputs".Sensors["cInSF0041"]);
// Bereichshalt UZ0202
#fbSensorInput(stInSensorHW := "SF0042",
nInSensorNo := "cInSF0042",
stInOutSensor := "DB_Inputs".Sensors["cInSF0042"]);
// Reset UZ0202
#fbSensorInput(stInSensorHW := "SF0043",
nInSensorNo := "cInSF0043",
stInOutSensor := "DB_Inputs".Sensors["cInSF0043"]);
// Bereichshalt UZ0203
#fbSensorInput(stInSensorHW := "SF0044",
nInSensorNo := "cInSF0044",
stInOutSensor := "DB_Inputs".Sensors["cInSF0044"]);
// Reset UZ0203
#fbSensorInput(stInSensorHW := "SF0045",
nInSensorNo := "cInSF0045",
stInOutSensor := "DB_Inputs".Sensors["cInSF0045"]);
// Bereichshalt UZ0204
#fbSensorInput(stInSensorHW := "SF0046",
nInSensorNo := "cInSF0046",
stInOutSensor := "DB_Inputs".Sensors["cInSF0046"]);
// Reset UZ0204
#fbSensorInput(stInSensorHW := "SF0047",
nInSensorNo := "cInSF0047",
stInOutSensor := "DB_Inputs".Sensors["cInSF0047"]);
// Bereichshalt UZ0205
#fbSensorInput(stInSensorHW := "SF0050",
nInSensorNo := "cInSF0050",
stInOutSensor := "DB_Inputs".Sensors["cInSF0050"]);
// Reset UZ0205
#fbSensorInput(stInSensorHW := "SF0051",
nInSensorNo := "cInSF0051",
stInOutSensor := "DB_Inputs".Sensors["cInSF0051"]);
// Bereichshalt UZ0206
#fbSensorInput(stInSensorHW := "SF0052",
nInSensorNo := "cInSF0052",
stInOutSensor := "DB_Inputs".Sensors["cInSF0052"]);
// Reset UZ0206
#fbSensorInput(stInSensorHW := "SF0053",
nInSensorNo := "cInSF0053",
stInOutSensor := "DB_Inputs".Sensors["cInSF0053"]);
// Bereichshalt UZ0207
#fbSensorInput(stInSensorHW := "SF0054",
nInSensorNo := "cInSF0054",
stInOutSensor := "DB_Inputs".Sensors["cInSF0054"]);
// Reset UZ0207
#fbSensorInput(stInSensorHW := "SF0055",
nInSensorNo := "cInSF0055",
stInOutSensor := "DB_Inputs".Sensors["cInSF0055"]);
// Bereichshalt UZ0208
#fbSensorInput(stInSensorHW := "SF0056",
nInSensorNo := "cInSF0056",
stInOutSensor := "DB_Inputs".Sensors["cInSF0056"]);
// Reset UZ0208
#fbSensorInput(stInSensorHW := "SF0057",
nInSensorNo := "cInSF0057",
stInOutSensor := "DB_Inputs".Sensors["cInSF0057"]);
// MSS ausgelöst FC0060 (KR-M1103)
#fbSensorInput(stInSensorHW := "FC0060",
nInSensorNo := "cInFC0060",
stInOutSensor := "DB_Inputs".Sensors["cInFC0060"]);
// MSS ausgelöst FC0061 (KR-M1104)
#fbSensorInput(stInSensorHW := "FC0061",
nInSensorNo := "cInFC0061",
stInOutSensor := "DB_Inputs".Sensors["cInFC0061"]);
// MSS ausgelöst FC0062 (KR-M1201)
#fbSensorInput(stInSensorHW := "FC0062",
nInSensorNo := "cInFC0062",
stInOutSensor := "DB_Inputs".Sensors["cInFC0062"]);
// MSS ausgelöst FC0063 (KR-M1202)
#fbSensorInput(stInSensorHW := "FC0063",
nInSensorNo := "cInFC0063",
stInOutSensor := "DB_Inputs".Sensors["cInFC0063"]);
// MSS ausgelöst FC0064 (CV-M1205)
#fbSensorInput(stInSensorHW := "FC0064",
nInSensorNo := "cInFC0064",
stInOutSensor := "DB_Inputs".Sensors["cInFC0064"]);
// MSS ausgelöst FC0065 (CV-M1206)
#fbSensorInput(stInSensorHW := "FC0065",
nInSensorNo := "cInFC0065",
stInOutSensor := "DB_Inputs".Sensors["cInFC0065"]);
// MSS ausgelöst FC0066 (CV-M1207)
#fbSensorInput(stInSensorHW := "FC0066",
nInSensorNo := "cInFC0066",
stInOutSensor := "DB_Inputs".Sensors["cInFC0066"]);
// MSS ausgelöst FC0067 (CV-M1208)
#fbSensorInput(stInSensorHW := "FC0067",
nInSensorNo := "cInFC0067",
stInOutSensor := "DB_Inputs".Sensors["cInFC0067"]);
// MSS ausgelöst FC0070 (CV-M1209)
#fbSensorInput(stInSensorHW := "FC0070",
nInSensorNo := "cInFC0070",
stInOutSensor := "DB_Inputs".Sensors["cInFC0070"]);
// MSS ausgelöst FC0071 (CV-M1401)
#fbSensorInput(stInSensorHW := "FC0071",
nInSensorNo := "cInFC0071",
stInOutSensor := "DB_Inputs".Sensors["cInFC0071"]);
// MSS ausgelöst FC0072 (CV-M1501)
#fbSensorInput(stInSensorHW := "FC0072",
nInSensorNo := "cInFC0072",
stInOutSensor := "DB_Inputs".Sensors["cInFC0072"]);
// MSS ausgelöst FC0073 (CV-M1601)
#fbSensorInput(stInSensorHW := "FC0073",
nInSensorNo := "cInFC0073",
stInOutSensor := "DB_Inputs".Sensors["cInFC0073"]);
// MSS ausgelöst FC0074 (CV-M4701)
#fbSensorInput(stInSensorHW := "FC0074",
nInSensorNo := "cInFC0074",
stInOutSensor := "DB_Inputs".Sensors["cInFC0074"]);
// MSS ausgelöst FC0075 (KR-M1110)
#fbSensorInput(stInSensorHW := "FC0075",
nInSensorNo := "cInFC0075",
stInOutSensor := "DB_Inputs".Sensors["cInFC0075"]);
// MSS ausgelöst FC0076 (CV-M1801)
#fbSensorInput(stInSensorHW := "FC0076",
nInSensorNo := "cInFC0076",
stInOutSensor := "DB_Inputs".Sensors["cInFC0076"]);
// MSS ausgelöst FC0077 (CV-M1801)
#fbSensorInput(stInSensorHW := "FC0077",
nInSensorNo := "cInFC0077",
stInOutSensor := "DB_Inputs".Sensors["cInFC0077"]);
// Bereichshalt UZ0209
#fbSensorInput(stInSensorHW := "SF0080",
nInSensorNo := "cInSF0080",
stInOutSensor := "DB_Inputs".Sensors["cInSF0080"]);
// Reset UZ0209
#fbSensorInput(stInSensorHW := "SF0081",
nInSensorNo := "cInSF0081",
stInOutSensor := "DB_Inputs".Sensors["cInSF0081"]);
// Bereichshalt UZ0210
#fbSensorInput(stInSensorHW := "SF0082",
nInSensorNo := "cInSF0082",
stInOutSensor := "DB_Inputs".Sensors["cInSF0082"]);
// Reset UZ0210
#fbSensorInput(stInSensorHW := "SF0083",
nInSensorNo := "cInSF0083",
stInOutSensor := "DB_Inputs".Sensors["cInSF0083"]);
// Bereichshalt UZ0211
#fbSensorInput(stInSensorHW := "SF0084",
nInSensorNo := "cInSF0084",
stInOutSensor := "DB_Inputs".Sensors["cInSF0084"]);
// Reset UZ0211
#fbSensorInput(stInSensorHW := "SF0085",
nInSensorNo := "cInSF0085",
stInOutSensor := "DB_Inputs".Sensors["cInSF0085"]);
// 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"]);
// Vorsicherung 24V OK (FC103)
#fbSensorInput(stInSensorHW := "DI0103",
nInSensorNo := "cInDI0103",
stInOutSensor := "DB_Inputs".Sensors["cInDI0103"]);
// 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"]);
// 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 UZ2101
#fbSensorInput(stInSensorHW := "SF0120",
nInSensorNo := "cInSF0120",
stInOutSensor := "DB_Inputs".Sensors["cInSF0120"]);
// Reset UZ2101
#fbSensorInput(stInSensorHW := "SF0121",
nInSensorNo := "cInSF0121",
stInOutSensor := "DB_Inputs".Sensors["cInSF0121"]);
// Bereichshalt UZ2102
#fbSensorInput(stInSensorHW := "SF0122",
nInSensorNo := "cInSF0122",
stInOutSensor := "DB_Inputs".Sensors["cInSF0122"]);
// Reset UZ2102
#fbSensorInput(stInSensorHW := "SF0123",
nInSensorNo := "cInSF0123",
stInOutSensor := "DB_Inputs".Sensors["cInSF0123"]);
// Bereichshalt UZ2103
#fbSensorInput(stInSensorHW := "SF0124",
nInSensorNo := "cInSF0124",
stInOutSensor := "DB_Inputs".Sensors["cInSF0124"]);
// Reset UZ2103
#fbSensorInput(stInSensorHW := "SF0125",
nInSensorNo := "cInSF0125",
stInOutSensor := "DB_Inputs".Sensors["cInSF0125"]);
// Bereichshalt UZ2104
#fbSensorInput(stInSensorHW := "SF0126",
nInSensorNo := "cInSF0126",
stInOutSensor := "DB_Inputs".Sensors["cInSF0126"]);
// Reset UZ2104
#fbSensorInput(stInSensorHW := "SF0127",
nInSensorNo := "cInSF0127",
stInOutSensor := "DB_Inputs".Sensors["cInSF0127"]);
// MSS ausgelöst FC0140 (KR-M1101)
#fbSensorInput(stInSensorHW := "FC0140",
nInSensorNo := "cInFC0140",
stInOutSensor := "DB_Inputs".Sensors["cInFC0140"]);
// MSS ausgelöst FC0141 (KR-M1102)
#fbSensorInput(stInSensorHW := "FC0141",
nInSensorNo := "cInFC0141",
stInOutSensor := "DB_Inputs".Sensors["cInFC0141"]);
// MSS ausgelöst FC0142 (CV-M1105)
#fbSensorInput(stInSensorHW := "FC0142",
nInSensorNo := "cInFC0142",
stInOutSensor := "DB_Inputs".Sensors["cInFC0142"]);
// MSS ausgelöst FC0143 (CV-M1106)
#fbSensorInput(stInSensorHW := "FC0143",
nInSensorNo := "cInFC0143",
stInOutSensor := "DB_Inputs".Sensors["cInFC0143"]);
// MSS ausgelöst FC0144 (CV-M1107)
#fbSensorInput(stInSensorHW := "FC0144",
nInSensorNo := "cInFC0144",
stInOutSensor := "DB_Inputs".Sensors["cInFC0144"]);
// MSS ausgelöst FC0145 (CV-M1108)
#fbSensorInput(stInSensorHW := "FC0145",
nInSensorNo := "cInFC0145",
stInOutSensor := "DB_Inputs".Sensors["cInFC0145"]);
// MSS ausgelöst FC0146 (CV-M1109)
#fbSensorInput(stInSensorHW := "FC0146",
nInSensorNo := "cInFC0146",
stInOutSensor := "DB_Inputs".Sensors["cInFC0146"]);
// Meldekontakt 400V Motor+Bremse
#fbSensorInput(stInSensorHW := "DI0160",
nInSensorNo := "cInDI0160",
stInOutSensor := "DB_Inputs".Sensors["cInDI0160"]);
// Vorsicherung 24V OK (FC161)
#fbSensorInput(stInSensorHW := "DI0161",
nInSensorNo := "cInDI0161",
stInOutSensor := "DB_Inputs".Sensors["cInDI0161"]);
// Vorsicherung 24V OK (FC162)
#fbSensorInput(stInSensorHW := "DI0162",
nInSensorNo := "cInDI0162",
stInOutSensor := "DB_Inputs".Sensors["cInDI0162"]);
// Vorsicherung 24V OK (FC163)
#fbSensorInput(stInSensorHW := "DI0163",
nInSensorNo := "cInDI0163",
stInOutSensor := "DB_Inputs".Sensors["cInDI0163"]);
// Vorsicherung 24V OK (FC164)
#fbSensorInput(stInSensorHW := "DI0164",
nInSensorNo := "cInDI0164",
stInOutSensor := "DB_Inputs".Sensors["cInDI0164"]);
// Vorsicherung 24V OK (FC165)
#fbSensorInput(stInSensorHW := "DI0165",
nInSensorNo := "cInDI0165",
stInOutSensor := "DB_Inputs".Sensors["cInDI0165"]);
// Feedback Hauptschütze aktiv (QA1230/QA1231)
#fbSensorInput(stInSensorHW := "DI0166",
nInSensorNo := "cInDI0166",
stInOutSensor := "DB_Inputs".Sensors["cInDI0166"]);
// Druckschalter Druckluft OK
#fbSensorInput(stInSensorHW := "BP0167",
nInSensorNo := "cInBP0167",
stInOutSensor := "DB_Inputs".Sensors["cInBP0167"]);
// Feedback Koppelrelais E-Stop-IF (QA1232/QA1233)
#fbSensorInput(stInSensorHW := "DI0174",
nInSensorNo := "cInDI0174",
stInOutSensor := "DB_Inputs".Sensors["cInDI0174"]);
// LDT Reset
#fbSensorInput(stInSensorHW := "SF0177",
nInSensorNo := "cInSF0177",
stInOutSensor := "DB_Inputs".Sensors["cInSF0177"]);
// Bereichshalt UZ2201
#fbSensorInput(stInSensorHW := "SF0180",
nInSensorNo := "cInSF0180",
stInOutSensor := "DB_Inputs".Sensors["cInSF0180"]);
// Reset UZ2201
#fbSensorInput(stInSensorHW := "SF0181",
nInSensorNo := "cInSF0181",
stInOutSensor := "DB_Inputs".Sensors["cInSF0181"]);
// Bereichshalt UZ2202
#fbSensorInput(stInSensorHW := "SF0182",
nInSensorNo := "cInSF0182",
stInOutSensor := "DB_Inputs".Sensors["cInSF0182"]);
// Reset UZ2202
#fbSensorInput(stInSensorHW := "SF0183",
nInSensorNo := "cInSF0183",
stInOutSensor := "DB_Inputs".Sensors["cInSF0183"]);
// Bereichshalt UZ2203
#fbSensorInput(stInSensorHW := "SF0184",
nInSensorNo := "cInSF0184",
stInOutSensor := "DB_Inputs".Sensors["cInSF0184"]);
// Reset UZ2203
#fbSensorInput(stInSensorHW := "SF0185",
nInSensorNo := "cInSF0185",
stInOutSensor := "DB_Inputs".Sensors["cInSF0185"]);
// Bereichshalt UZ2204
#fbSensorInput(stInSensorHW := "SF0186",
nInSensorNo := "cInSF0186",
stInOutSensor := "DB_Inputs".Sensors["cInSF0186"]);
// Reset UZ2204
#fbSensorInput(stInSensorHW := "SF0187",
nInSensorNo := "cInSF0187",
stInOutSensor := "DB_Inputs".Sensors["cInSF0187"]);
// Bereichshalt UZ2205
#fbSensorInput(stInSensorHW := "SF0190",
nInSensorNo := "cInSF0190",
stInOutSensor := "DB_Inputs".Sensors["cInSF0190"]);
// Reset UZ2205
#fbSensorInput(stInSensorHW := "SF0191",
nInSensorNo := "cInSF0191",
stInOutSensor := "DB_Inputs".Sensors["cInSF0191"]);
// Bereichshalt UZ2206
#fbSensorInput(stInSensorHW := "SF0192",
nInSensorNo := "cInSF0192",
stInOutSensor := "DB_Inputs".Sensors["cInSF0192"]);
// Reset UZ2206
#fbSensorInput(stInSensorHW := "SF0193",
nInSensorNo := "cInSF0193",
stInOutSensor := "DB_Inputs".Sensors["cInSF0193"]);
// Bereichshalt UZ2207
#fbSensorInput(stInSensorHW := "SF0194",
nInSensorNo := "cInSF0194",
stInOutSensor := "DB_Inputs".Sensors["cInSF0194"]);
// Reset UZ2207
#fbSensorInput(stInSensorHW := "SF0195",
nInSensorNo := "cInSF0195",
stInOutSensor := "DB_Inputs".Sensors["cInSF0195"]);
// Bereichshalt UZ2208
#fbSensorInput(stInSensorHW := "SF0196",
nInSensorNo := "cInSF0196",
stInOutSensor := "DB_Inputs".Sensors["cInSF0196"]);
// Reset UZ2208
#fbSensorInput(stInSensorHW := "SF0197",
nInSensorNo := "cInSF0197",
stInOutSensor := "DB_Inputs".Sensors["cInSF0197"]);
// MSS ausgelöst FC0200 (KR-M1203)
#fbSensorInput(stInSensorHW := "FC0200",
nInSensorNo := "cInFC0200",
stInOutSensor := "DB_Inputs".Sensors["cInFC0200"]);
// MSS ausgelöst FC0201 (KR-M1204)
#fbSensorInput(stInSensorHW := "FC0201",
nInSensorNo := "cInFC0201",
stInOutSensor := "DB_Inputs".Sensors["cInFC0201"]);
// MSS ausgelöst FC0202 (KR-M1301)
#fbSensorInput(stInSensorHW := "FC0202",
nInSensorNo := "cInFC0202",
stInOutSensor := "DB_Inputs".Sensors["cInFC0202"]);
// MSS ausgelöst FC0203 (KR-M1302)
#fbSensorInput(stInSensorHW := "FC0203",
nInSensorNo := "cInFC0203",
stInOutSensor := "DB_Inputs".Sensors["cInFC0203"]);
// Meldekontakt 400V Motor+Bremse
#fbSensorInput(stInSensorHW := "DI0220",
nInSensorNo := "cInDI0220",
stInOutSensor := "DB_Inputs".Sensors["cInDI0220"]);
// Vorsicherung 24V OK (FC221)
#fbSensorInput(stInSensorHW := "DI0221",
nInSensorNo := "cInDI0221",
stInOutSensor := "DB_Inputs".Sensors["cInDI0221"]);
// Vorsicherung 24V OK (FC222)
#fbSensorInput(stInSensorHW := "DI0222",
nInSensorNo := "cInDI0222",
stInOutSensor := "DB_Inputs".Sensors["cInDI0222"]);
// Vorsicherung 24V OK (FC223)
#fbSensorInput(stInSensorHW := "DI0223",
nInSensorNo := "cInDI0223",
stInOutSensor := "DB_Inputs".Sensors["cInDI0223"]);
// Feedback Hauptschütze aktiv (QA1540/QA1541)
#fbSensorInput(stInSensorHW := "DI0226",
nInSensorNo := "cInDI0226",
stInOutSensor := "DB_Inputs".Sensors["cInDI0226"]);
// Druckschalter Druckluft OK
#fbSensorInput(stInSensorHW := "BP0227",
nInSensorNo := "cInBP0227",
stInOutSensor := "DB_Inputs".Sensors["cInBP0227"]);
// Feedback Koppelrelais E-Stop-IF (QA1542/QA1531)
#fbSensorInput(stInSensorHW := "DI0234",
nInSensorNo := "cInDI0234",
stInOutSensor := "DB_Inputs".Sensors["cInDI0234"]);
// LDT Reset
#fbSensorInput(stInSensorHW := "SF0237",
nInSensorNo := "cInSF0237",
stInOutSensor := "DB_Inputs".Sensors["cInSF0237"]);
// Bereichshalt UZ2301
#fbSensorInput(stInSensorHW := "SF0240",
nInSensorNo := "cInSF0240",
stInOutSensor := "DB_Inputs".Sensors["cInSF0240"]);
// Reset UZ2301
#fbSensorInput(stInSensorHW := "SF0241",
nInSensorNo := "cInSF0241",
stInOutSensor := "DB_Inputs".Sensors["cInSF0241"]);
// Bereichshalt UZ2302
#fbSensorInput(stInSensorHW := "SF0242",
nInSensorNo := "cInSF0242",
stInOutSensor := "DB_Inputs".Sensors["cInSF0242"]);
// Reset UZ2302
#fbSensorInput(stInSensorHW := "SF0243",
nInSensorNo := "cInSF0243",
stInOutSensor := "DB_Inputs".Sensors["cInSF0243"]);
// Bereichshalt UZ2303
#fbSensorInput(stInSensorHW := "SF0244",
nInSensorNo := "cInSF0244",
stInOutSensor := "DB_Inputs".Sensors["cInSF0244"]);
// Reset UZ2303
#fbSensorInput(stInSensorHW := "SF0245",
nInSensorNo := "cInSF0245",
stInOutSensor := "DB_Inputs".Sensors["cInSF0245"]);
// Bereichshalt UZ2304
#fbSensorInput(stInSensorHW := "SF0246",
nInSensorNo := "cInSF0246",
stInOutSensor := "DB_Inputs".Sensors["cInSF0246"]);
// Reset UZ2304
#fbSensorInput(stInSensorHW := "SF0247",
nInSensorNo := "cInSF0247",
stInOutSensor := "DB_Inputs".Sensors["cInSF0247"]);
// MSS ausgelöst FC0260 (KR-M1303)
#fbSensorInput(stInSensorHW := "FC0260",
nInSensorNo := "cInFC0260",
stInOutSensor := "DB_Inputs".Sensors["cInFC0260"]);
// MSS ausgelöst FC0261 (KR-M1304)
#fbSensorInput(stInSensorHW := "FC0261",
nInSensorNo := "cInFC0261",
stInOutSensor := "DB_Inputs".Sensors["cInFC0261"]);
// MSS ausgelöst FC0262 (CV-M1305)
#fbSensorInput(stInSensorHW := "FC0262",
nInSensorNo := "cInFC0262",
stInOutSensor := "DB_Inputs".Sensors["cInFC0262"]);
// MSS ausgelöst FC0263 (CV-M1306)
#fbSensorInput(stInSensorHW := "FC0263",
nInSensorNo := "cInFC0263",
stInOutSensor := "DB_Inputs".Sensors["cInFC0263"]);
// MSS ausgelöst FC0264 (CV-M1307)
#fbSensorInput(stInSensorHW := "FC0264",
nInSensorNo := "cInFC0264",
stInOutSensor := "DB_Inputs".Sensors["cInFC0264"]);
// MSS ausgelöst FC0265 (CV-M1308)
#fbSensorInput(stInSensorHW := "FC0265",
nInSensorNo := "cInFC0265",
stInOutSensor := "DB_Inputs".Sensors["cInFC0265"]);
// MSS ausgelöst FC0266 (CV-M1309)
#fbSensorInput(stInSensorHW := "FC0266",
nInSensorNo := "cInFC0266",
stInOutSensor := "DB_Inputs".Sensors["cInFC0266"]);
// Not Halt Kanal 1 UH02
#fbSensorInput(stInSensorHW := "SF0400",
nInSensorNo := "cInSF0400",
stInOutSensor := "DB_Inputs".Sensors["cInSF0400"]);
// Not Halt Kanal 1 UZ0201
#fbSensorInput(stInSensorHW := "SF0401",
nInSensorNo := "cInSF0401",
stInOutSensor := "DB_Inputs".Sensors["cInSF0401"]);
// Not Halt Kanal 1 UZ0202
#fbSensorInput(stInSensorHW := "SF0402",
nInSensorNo := "cInSF0402",
stInOutSensor := "DB_Inputs".Sensors["cInSF0402"]);
// Not Halt Kanal 1 UZ0203
#fbSensorInput(stInSensorHW := "SF0403",
nInSensorNo := "cInSF0403",
stInOutSensor := "DB_Inputs".Sensors["cInSF0403"]);
// Not Halt Kanal 2 UH02
#fbSensorInput(stInSensorHW := "SF0404",
nInSensorNo := "cInSF0404",
stInOutSensor := "DB_Inputs".Sensors["cInSF0404"]);
// Not Halt Kanal 2 UZ0201
#fbSensorInput(stInSensorHW := "SF0405",
nInSensorNo := "cInSF0405",
stInOutSensor := "DB_Inputs".Sensors["cInSF0405"]);
// Not Halt Kanal 2 UZ0202
#fbSensorInput(stInSensorHW := "SF0406",
nInSensorNo := "cInSF0406",
stInOutSensor := "DB_Inputs".Sensors["cInSF0406"]);
// Not Halt Kanal 2 UZ0203
#fbSensorInput(stInSensorHW := "SF0407",
nInSensorNo := "cInSF0407",
stInOutSensor := "DB_Inputs".Sensors["cInSF0407"]);
// Not Halt Kanal 1 UZ0204
#fbSensorInput(stInSensorHW := "SF0470",
nInSensorNo := "cInSF0470",
stInOutSensor := "DB_Inputs".Sensors["cInSF0470"]);
// Not Halt Kanal 1 UZ0209
#fbSensorInput(stInSensorHW := "SF0471",
nInSensorNo := "cInSF0471",
stInOutSensor := "DB_Inputs".Sensors["cInSF0471"]);
// Not Halt Kanal 1 UZ0210
#fbSensorInput(stInSensorHW := "SF0472",
nInSensorNo := "cInSF0472",
stInOutSensor := "DB_Inputs".Sensors["cInSF0472"]);
// Not Halt Kanal 1 UZ0211
#fbSensorInput(stInSensorHW := "SF0473",
nInSensorNo := "cInSF0473",
stInOutSensor := "DB_Inputs".Sensors["cInSF0473"]);
// Not Halt Kanal 2 UZ0204
#fbSensorInput(stInSensorHW := "SF0474",
nInSensorNo := "cInSF0474",
stInOutSensor := "DB_Inputs".Sensors["cInSF0474"]);
// Not Halt Kanal 2 UZ0209
#fbSensorInput(stInSensorHW := "SF0475",
nInSensorNo := "cInSF0475",
stInOutSensor := "DB_Inputs".Sensors["cInSF0475"]);
// Not Halt Kanal 2 UZ0210
#fbSensorInput(stInSensorHW := "SF0476",
nInSensorNo := "cInSF0476",
stInOutSensor := "DB_Inputs".Sensors["cInSF0476"]);
// Not Halt Kanal 2 UZ0211
#fbSensorInput(stInSensorHW := "SF0477",
nInSensorNo := "cInSF0477",
stInOutSensor := "DB_Inputs".Sensors["cInSF0477"]);
// Not Halt Schnittstelle CH1
#fbSensorInput(stInSensorHW := "SF0541",
nInSensorNo := "cInSF0541",
stInOutSensor := "DB_Inputs".Sensors["cInSF0541"]);
// Not Halt Schnittstelle von UH05 CH1
#fbSensorInput(stInSensorHW := "SF0542",
nInSensorNo := "cInSF0542",
stInOutSensor := "DB_Inputs".Sensors["cInSF0542"]);
// Not Halt Schnittstelle von UH03 CH2
#fbSensorInput(stInSensorHW := "SF0545",
nInSensorNo := "cInSF0545",
stInOutSensor := "DB_Inputs".Sensors["cInSF0545"]);
// Not Halt Schnittstelle von UH05 CH2
#fbSensorInput(stInSensorHW := "SF0546",
nInSensorNo := "cInSF0546",
stInOutSensor := "DB_Inputs".Sensors["cInSF0546"]);
// Not Halt Kanal 1 UC021
#fbSensorInput(stInSensorHW := "SF0710",
nInSensorNo := "cInSF0710",
stInOutSensor := "DB_Inputs".Sensors["cInSF0710"]);
// Not Halt Kanal 1 UZ2101
#fbSensorInput(stInSensorHW := "SF0711",
nInSensorNo := "cInSF0711",
stInOutSensor := "DB_Inputs".Sensors["cInSF0711"]);
// Not Halt Kanal 1 UZ2102
#fbSensorInput(stInSensorHW := "SF0712",
nInSensorNo := "cInSF0712",
stInOutSensor := "DB_Inputs".Sensors["cInSF0712"]);
// Not Halt Kanal 1 UZ2103
#fbSensorInput(stInSensorHW := "SF0713",
nInSensorNo := "cInSF0713",
stInOutSensor := "DB_Inputs".Sensors["cInSF0713"]);
// Not Halt Kanal 2 UC021
#fbSensorInput(stInSensorHW := "SF0714",
nInSensorNo := "cInSF0714",
stInOutSensor := "DB_Inputs".Sensors["cInSF0714"]);
// Not Halt Kanal 2 UZ2101
#fbSensorInput(stInSensorHW := "SF0715",
nInSensorNo := "cInSF0715",
stInOutSensor := "DB_Inputs".Sensors["cInSF0715"]);
// Not Halt Kanal 2 UZ2102
#fbSensorInput(stInSensorHW := "SF0716",
nInSensorNo := "cInSF0716",
stInOutSensor := "DB_Inputs".Sensors["cInSF0716"]);
// Not Halt Kanal 2 UZ2103
#fbSensorInput(stInSensorHW := "SF0717",
nInSensorNo := "cInSF0717",
stInOutSensor := "DB_Inputs".Sensors["cInSF0717"]);
// Not Halt Kanal 1 UZ2104
#fbSensorInput(stInSensorHW := "SF0780",
nInSensorNo := "cInSF0780",
stInOutSensor := "DB_Inputs".Sensors["cInSF0780"]);
// Not Halt Schnittstelle CH1
#fbSensorInput(stInSensorHW := "SF0781",
nInSensorNo := "cInSF0781",
stInOutSensor := "DB_Inputs".Sensors["cInSF0781"]);
// Not Halt Kanal 2 UZ2104
#fbSensorInput(stInSensorHW := "SF0784",
nInSensorNo := "cInSF0784",
stInOutSensor := "DB_Inputs".Sensors["cInSF0784"]);
// Not Halt Schnittstelle CH2
#fbSensorInput(stInSensorHW := "SF0785",
nInSensorNo := "cInSF0785",
stInOutSensor := "DB_Inputs".Sensors["cInSF0785"]);
// Not Halt Kanal 1 UC022
#fbSensorInput(stInSensorHW := "SF1020",
nInSensorNo := "cInSF1020",
stInOutSensor := "DB_Inputs".Sensors["cInSF1020"]);
// Not Halt Kanal 1 UZ2201
#fbSensorInput(stInSensorHW := "SF1021",
nInSensorNo := "cInSF1021",
stInOutSensor := "DB_Inputs".Sensors["cInSF1021"]);
// Not Halt Kanal 1 UZ2202
#fbSensorInput(stInSensorHW := "SF1022",
nInSensorNo := "cInSF1022",
stInOutSensor := "DB_Inputs".Sensors["cInSF1022"]);
// Not Halt Kanal 1 UZ2203
#fbSensorInput(stInSensorHW := "SF1023",
nInSensorNo := "cInSF1023",
stInOutSensor := "DB_Inputs".Sensors["cInSF1023"]);
// Not Halt Kanal 2 UC022
#fbSensorInput(stInSensorHW := "SF1024",
nInSensorNo := "cInSF1024",
stInOutSensor := "DB_Inputs".Sensors["cInSF1024"]);
// Not Halt Kanal 2 UZ2201
#fbSensorInput(stInSensorHW := "SF1025",
nInSensorNo := "cInSF1025",
stInOutSensor := "DB_Inputs".Sensors["cInSF1025"]);
// Not Halt Kanal 2 UZ2202
#fbSensorInput(stInSensorHW := "SF1026",
nInSensorNo := "cInSF1026",
stInOutSensor := "DB_Inputs".Sensors["cInSF1026"]);
// Not Halt Kanal 2 UZ2203
#fbSensorInput(stInSensorHW := "SF1027",
nInSensorNo := "cInSF1027",
stInOutSensor := "DB_Inputs".Sensors["cInSF1027"]);
// Not Halt Kanal 1 UZ2204
#fbSensorInput(stInSensorHW := "SF1090",
nInSensorNo := "cInSF1090",
stInOutSensor := "DB_Inputs".Sensors["cInSF1090"]);
// Not Halt Schnittstelle CH1 (UC073-UC022)
#fbSensorInput(stInSensorHW := "SF1091",
nInSensorNo := "cInSF1091",
stInOutSensor := "DB_Inputs".Sensors["cInSF1091"]);
// Not Halt Kanal 2 UZ2204
#fbSensorInput(stInSensorHW := "SF1094",
nInSensorNo := "cInSF1094",
stInOutSensor := "DB_Inputs".Sensors["cInSF1094"]);
// Not Halt Schnittstelle CH2 (UC073-UC022)
#fbSensorInput(stInSensorHW := "SF1095",
nInSensorNo := "cInSF1095",
stInOutSensor := "DB_Inputs".Sensors["cInSF1095"]);
// Not Halt Kanal 1 UC023
#fbSensorInput(stInSensorHW := "SF1330",
nInSensorNo := "cInSF1330",
stInOutSensor := "DB_Inputs".Sensors["cInSF1330"]);
// Not Halt Kanal 1 UZ2301
#fbSensorInput(stInSensorHW := "SF1331",
nInSensorNo := "cInSF1331",
stInOutSensor := "DB_Inputs".Sensors["cInSF1331"]);
// Not Halt Kanal 1 UZ2302
#fbSensorInput(stInSensorHW := "SF1332",
nInSensorNo := "cInSF1332",
stInOutSensor := "DB_Inputs".Sensors["cInSF1332"]);
// Not Halt Kanal 1 UZ2303
#fbSensorInput(stInSensorHW := "SF1333",
nInSensorNo := "cInSF1333",
stInOutSensor := "DB_Inputs".Sensors["cInSF1333"]);
// Not Halt Kanal 2 UC023
#fbSensorInput(stInSensorHW := "SF1334",
nInSensorNo := "cInSF1334",
stInOutSensor := "DB_Inputs".Sensors["cInSF1334"]);
// Not Halt Kanal 2 UZ2301
#fbSensorInput(stInSensorHW := "SF1335",
nInSensorNo := "cInSF1335",
stInOutSensor := "DB_Inputs".Sensors["cInSF1335"]);
// Not Halt Kanal 2 UZ2302
#fbSensorInput(stInSensorHW := "SF1336",
nInSensorNo := "cInSF1336",
stInOutSensor := "DB_Inputs".Sensors["cInSF1336"]);
// Not Halt Kanal 2 UZ2303
#fbSensorInput(stInSensorHW := "SF1337",
nInSensorNo := "cInSF1337",
stInOutSensor := "DB_Inputs".Sensors["cInSF1337"]);
// Not Halt Kanal 1 UZ2304
#fbSensorInput(stInSensorHW := "SF1400",
nInSensorNo := "cInSF1400",
stInOutSensor := "DB_Inputs".Sensors["cInSF1400"]);
// Not Halt Schnittstelle CH1
#fbSensorInput(stInSensorHW := "SF1401",
nInSensorNo := "cInSF1401",
stInOutSensor := "DB_Inputs".Sensors["cInSF1401"]);
// Not Halt Kanal 2 UZ2304
#fbSensorInput(stInSensorHW := "SF1404",
nInSensorNo := "cInSF1404",
stInOutSensor := "DB_Inputs".Sensors["cInSF1404"]);
// Not Halt Schnittstelle CH2
#fbSensorInput(stInSensorHW := "SF1405",
nInSensorNo := "cInSF1405",
stInOutSensor := "DB_Inputs".Sensors["cInSF1405"]);
// in Separator 2 (ILS-CV M1105)
#fbSensorInput(stInSensorHW := "BG3000",
nInSensorNo := "cInBG3000",
stInOutSensor := "DB_Inputs".Sensors["cInBG3000"]);
// Pin Abfrage (KR-M1101 ) Block 1.1.1
#fbSensorInput(stInSensorHW := "BG3001",
nInSensorNo := "cInBG3001",
stInOutSensor := "DB_Inputs".Sensors["cInBG3001"]);
// Prüfung MT Pos.1 (KR-K1101 Einfahrt Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3002",
nInSensorNo := "cInBG3002",
stInOutSensor := "DB_Inputs".Sensors["cInBG3002"]);
// Stausensor (KR-M1101 Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3003",
nInSensorNo := "cInBG3003",
stInOutSensor := "DB_Inputs".Sensors["cInBG3003"]);
// in Separator 1 (ILS-CV M1105)
#fbSensorInput(stInSensorHW := "BG3004",
nInSensorNo := "cInBG3004",
stInOutSensor := "DB_Inputs".Sensors["cInBG3004"]);
// Stausensor Str.1 (CV-M1105 vor BT-Beladung)
#fbSensorInput(stInSensorHW := "BG3005",
nInSensorNo := "cInBG3005",
stInOutSensor := "DB_Inputs".Sensors["cInBG3005"]);
// Sensor Förderer voll (ILS-CV M1105)
#fbSensorInput(stInSensorHW := "BG3006",
nInSensorNo := "cInBG3006",
stInOutSensor := "DB_Inputs".Sensors["cInBG3006"]);
// Prüfung MT Pos.2 (KR-K1101 Einfahrt Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3007",
nInSensorNo := "cInBG3007",
stInOutSensor := "DB_Inputs".Sensors["cInBG3007"]);
// Prüfung MT Pos.3 (KR-K1101 Einfahrt Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3010",
nInSensorNo := "cInBG3010",
stInOutSensor := "DB_Inputs".Sensors["cInBG3010"]);
// Prüfung MT Pos.4 (KR-K1101 Einfahrt Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3011",
nInSensorNo := "cInBG3011",
stInOutSensor := "DB_Inputs".Sensors["cInBG3011"]);
// Prüfung MT Pos.5 (KR-K1101 Einfahrt Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3012",
nInSensorNo := "cInBG3012",
stInOutSensor := "DB_Inputs".Sensors["cInBG3012"]);
// Stausensor Str.1 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3030",
nInSensorNo := "cInBG3030",
stInOutSensor := "DB_Inputs".Sensors["cInBG3030"]);
// Stausensor Str.2 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3031",
nInSensorNo := "cInBG3031",
stInOutSensor := "DB_Inputs".Sensors["cInBG3031"]);
// Stausensor Str.3 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3032",
nInSensorNo := "cInBG3032",
stInOutSensor := "DB_Inputs".Sensors["cInBG3032"]);
// Stausensor Str.4 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3033",
nInSensorNo := "cInBG3033",
stInOutSensor := "DB_Inputs".Sensors["cInBG3033"]);
// Stausensor Str.5 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3034",
nInSensorNo := "cInBG3034",
stInOutSensor := "DB_Inputs".Sensors["cInBG3034"]);
// Stausensor Str.6 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3035",
nInSensorNo := "cInBG3035",
stInOutSensor := "DB_Inputs".Sensors["cInBG3035"]);
// Stausensor Str.7 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3036",
nInSensorNo := "cInBG3036",
stInOutSensor := "DB_Inputs".Sensors["cInBG3036"]);
// Stausensor Str.8 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3037",
nInSensorNo := "cInBG3037",
stInOutSensor := "DB_Inputs".Sensors["cInBG3037"]);
// Stausensor Str.9 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3040",
nInSensorNo := "cInBG3040",
stInOutSensor := "DB_Inputs".Sensors["cInBG3040"]);
// Stausensor Str.10 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3041",
nInSensorNo := "cInBG3041",
stInOutSensor := "DB_Inputs".Sensors["cInBG3041"]);
// Stausensor Str.11 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3042",
nInSensorNo := "cInBG3042",
stInOutSensor := "DB_Inputs".Sensors["cInBG3042"]);
// Stausensor Str.12 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3043",
nInSensorNo := "cInBG3043",
stInOutSensor := "DB_Inputs".Sensors["cInBG3043"]);
// Stausensor Str.13 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3044",
nInSensorNo := "cInBG3044",
stInOutSensor := "DB_Inputs".Sensors["cInBG3044"]);
// Stausensor Str.14 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3045",
nInSensorNo := "cInBG3045",
stInOutSensor := "DB_Inputs".Sensors["cInBG3045"]);
// Stausensor Str.15 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3046",
nInSensorNo := "cInBG3046",
stInOutSensor := "DB_Inputs".Sensors["cInBG3046"]);
// Stausensor Str.16 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3047",
nInSensorNo := "cInBG3047",
stInOutSensor := "DB_Inputs".Sensors["cInBG3047"]);
// Stausensor Str.17 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3050",
nInSensorNo := "cInBG3050",
stInOutSensor := "DB_Inputs".Sensors["cInBG3050"]);
// Stausensor Str.18 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3051",
nInSensorNo := "cInBG3051",
stInOutSensor := "DB_Inputs".Sensors["cInBG3051"]);
// Stausensor Str.19 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3052",
nInSensorNo := "cInBG3052",
stInOutSensor := "DB_Inputs".Sensors["cInBG3052"]);
// in Separator 2 (ILS-CV M1106)
#fbSensorInput(stInSensorHW := "BG3060",
nInSensorNo := "cInBG3060",
stInOutSensor := "DB_Inputs".Sensors["cInBG3060"]);
// Pin Abfrage (KR-M1101 ) Block 1.1.2
#fbSensorInput(stInSensorHW := "BG3061",
nInSensorNo := "cInBG3061",
stInOutSensor := "DB_Inputs".Sensors["cInBG3061"]);
// Prüfung MT Pos.1 (KR-K1101 Einfahrt Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3062",
nInSensorNo := "cInBG3062",
stInOutSensor := "DB_Inputs".Sensors["cInBG3062"]);
// Stausensor Str.2 (KR-M1101)
#fbSensorInput(stInSensorHW := "BG3063",
nInSensorNo := "cInBG3063",
stInOutSensor := "DB_Inputs".Sensors["cInBG3063"]);
// in Separator 1 (ILS-CV M1106)
#fbSensorInput(stInSensorHW := "BG3064",
nInSensorNo := "cInBG3064",
stInOutSensor := "DB_Inputs".Sensors["cInBG3064"]);
// Stausensor Str.1 (KR-K1101 vor BT-Beladung)
#fbSensorInput(stInSensorHW := "BG3065",
nInSensorNo := "cInBG3065",
stInOutSensor := "DB_Inputs".Sensors["cInBG3065"]);
// Sensor Förderer voll (ILS-CV M1106)
#fbSensorInput(stInSensorHW := "BG3066",
nInSensorNo := "cInBG3066",
stInOutSensor := "DB_Inputs".Sensors["cInBG3066"]);
// Prüfung MT Pos.2 (KR-K1101 Einfahrt Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3067",
nInSensorNo := "cInBG3067",
stInOutSensor := "DB_Inputs".Sensors["cInBG3067"]);
// Prüfung MT Pos.3 (KR-K1101 Einfahrt Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3070",
nInSensorNo := "cInBG3070",
stInOutSensor := "DB_Inputs".Sensors["cInBG3070"]);
// Prüfung MT Pos.4 (KR-K1101 Einfahrt Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3071",
nInSensorNo := "cInBG3071",
stInOutSensor := "DB_Inputs".Sensors["cInBG3071"]);
// Prüfung MT Pos.5 (KR-K1101 Einfahrt Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3072",
nInSensorNo := "cInBG3072",
stInOutSensor := "DB_Inputs".Sensors["cInBG3072"]);
// Stausensor MT vor Pinband (KR-M1101 Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3073",
nInSensorNo := "cInBG3073",
stInOutSensor := "DB_Inputs".Sensors["cInBG3073"]);
// Stausensor Str.1 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3090",
nInSensorNo := "cInBG3090",
stInOutSensor := "DB_Inputs".Sensors["cInBG3090"]);
// Stausensor Str.2 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3091",
nInSensorNo := "cInBG3091",
stInOutSensor := "DB_Inputs".Sensors["cInBG3091"]);
// Stausensor Str.3 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3092",
nInSensorNo := "cInBG3092",
stInOutSensor := "DB_Inputs".Sensors["cInBG3092"]);
// Stausensor Str.4 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3093",
nInSensorNo := "cInBG3093",
stInOutSensor := "DB_Inputs".Sensors["cInBG3093"]);
// Stausensor Str.5 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3094",
nInSensorNo := "cInBG3094",
stInOutSensor := "DB_Inputs".Sensors["cInBG3094"]);
// Stausensor Str.6 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3095",
nInSensorNo := "cInBG3095",
stInOutSensor := "DB_Inputs".Sensors["cInBG3095"]);
// Stausensor Str.7 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3096",
nInSensorNo := "cInBG3096",
stInOutSensor := "DB_Inputs".Sensors["cInBG3096"]);
// Stausensor Str.8 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3097",
nInSensorNo := "cInBG3097",
stInOutSensor := "DB_Inputs".Sensors["cInBG3097"]);
// Stausensor Str.9 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3100",
nInSensorNo := "cInBG3100",
stInOutSensor := "DB_Inputs".Sensors["cInBG3100"]);
// Stausensor Str.10 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3101",
nInSensorNo := "cInBG3101",
stInOutSensor := "DB_Inputs".Sensors["cInBG3101"]);
// Stausensor Str.11 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3102",
nInSensorNo := "cInBG3102",
stInOutSensor := "DB_Inputs".Sensors["cInBG3102"]);
// Stausensor Str.12 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3103",
nInSensorNo := "cInBG3103",
stInOutSensor := "DB_Inputs".Sensors["cInBG3103"]);
// Stausensor Str.13 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3104",
nInSensorNo := "cInBG3104",
stInOutSensor := "DB_Inputs".Sensors["cInBG3104"]);
// Stausensor Str.14 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3105",
nInSensorNo := "cInBG3105",
stInOutSensor := "DB_Inputs".Sensors["cInBG3105"]);
// Stausensor Str.15 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3106",
nInSensorNo := "cInBG3106",
stInOutSensor := "DB_Inputs".Sensors["cInBG3106"]);
// Stausensor Str.16 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3107",
nInSensorNo := "cInBG3107",
stInOutSensor := "DB_Inputs".Sensors["cInBG3107"]);
// Stausensor Str.17 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3110",
nInSensorNo := "cInBG3110",
stInOutSensor := "DB_Inputs".Sensors["cInBG3110"]);
// in Separator 2 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3120",
nInSensorNo := "cInBG3120",
stInOutSensor := "DB_Inputs".Sensors["cInBG3120"]);
// Pin Abfrage (KR-M1102 ) Block 1.1.3
#fbSensorInput(stInSensorHW := "BG3121",
nInSensorNo := "cInBG3121",
stInOutSensor := "DB_Inputs".Sensors["cInBG3121"]);
// Prüfung MT Pos.1 (KR-K1102 Einfahrt Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3122",
nInSensorNo := "cInBG3122",
stInOutSensor := "DB_Inputs".Sensors["cInBG3122"]);
// Stausensor Str.2 (KR-M1102)
#fbSensorInput(stInSensorHW := "BG3123",
nInSensorNo := "cInBG3123",
stInOutSensor := "DB_Inputs".Sensors["cInBG3123"]);
// in Separator 1 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3124",
nInSensorNo := "cInBG3124",
stInOutSensor := "DB_Inputs".Sensors["cInBG3124"]);
// Stausensor Str.1 (KR-K1102 vor BT-Beladung)
#fbSensorInput(stInSensorHW := "BG3125",
nInSensorNo := "cInBG3125",
stInOutSensor := "DB_Inputs".Sensors["cInBG3125"]);
// Sensor Förderer voll (ILS-CV 1106)
#fbSensorInput(stInSensorHW := "BG3126",
nInSensorNo := "cInBG3126",
stInOutSensor := "DB_Inputs".Sensors["cInBG3126"]);
// Prüfung MT Pos.2 (KR-K1102 Einfahrt Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3127",
nInSensorNo := "cInBG3127",
stInOutSensor := "DB_Inputs".Sensors["cInBG3127"]);
// Prüfung MT Pos.3 (KR-K1102 Einfahrt Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3130",
nInSensorNo := "cInBG3130",
stInOutSensor := "DB_Inputs".Sensors["cInBG3130"]);
// Prüfung MT Pos.4 (KR-K1102 Einfahrt Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3131",
nInSensorNo := "cInBG3131",
stInOutSensor := "DB_Inputs".Sensors["cInBG3131"]);
// Prüfung MT Pos.5 (KR-K1102 Einfahrt Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3132",
nInSensorNo := "cInBG3132",
stInOutSensor := "DB_Inputs".Sensors["cInBG3132"]);
// Prüfung MT Pos.6 (KR-K1102 Einfahrt Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3133",
nInSensorNo := "cInBG3133",
stInOutSensor := "DB_Inputs".Sensors["cInBG3133"]);
// in Separator 3 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3134",
nInSensorNo := "cInBG3134",
stInOutSensor := "DB_Inputs".Sensors["cInBG3134"]);
// Stausensor 1 (M1109)
#fbSensorInput(stInSensorHW := "BG3135",
nInSensorNo := "cInBG3135",
stInOutSensor := "DB_Inputs".Sensors["cInBG3135"]);
// Sensor Förderer voll (ILS-CV M1109)
#fbSensorInput(stInSensorHW := "BG3136",
nInSensorNo := "cInBG3136",
stInOutSensor := "DB_Inputs".Sensors["cInBG3136"]);
// in Separator 4 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3137",
nInSensorNo := "cInBG3137",
stInOutSensor := "DB_Inputs".Sensors["cInBG3137"]);
// Stausensor 2 (KR-M1102)
#fbSensorInput(stInSensorHW := "BG3141",
nInSensorNo := "cInBG3141",
stInOutSensor := "DB_Inputs".Sensors["cInBG3141"]);
// Stausensor MT vor Pinband (KR-M1102 Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3142",
nInSensorNo := "cInBG3142",
stInOutSensor := "DB_Inputs".Sensors["cInBG3142"]);
// in Separator (ILS-CV M1109)
#fbSensorInput(stInSensorHW := "BG3143",
nInSensorNo := "cInBG3143",
stInOutSensor := "DB_Inputs".Sensors["cInBG3143"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M1109)
#fbSensorInput(stInSensorHW := "BG3144",
nInSensorNo := "cInBG3144",
stInOutSensor := "DB_Inputs".Sensors["cInBG3144"]);
// MT in Position (ILS-CV M1109)
#fbSensorInput(stInSensorHW := "BG3145",
nInSensorNo := "cInBG3145",
stInOutSensor := "DB_Inputs".Sensors["cInBG3145"]);
// Stausensor Str.1 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3150",
nInSensorNo := "cInBG3150",
stInOutSensor := "DB_Inputs".Sensors["cInBG3150"]);
// Stausensor Str.2 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3151",
nInSensorNo := "cInBG3151",
stInOutSensor := "DB_Inputs".Sensors["cInBG3151"]);
// Stausensor Str.3 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3152",
nInSensorNo := "cInBG3152",
stInOutSensor := "DB_Inputs".Sensors["cInBG3152"]);
// Stausensor Str.4 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3153",
nInSensorNo := "cInBG3153",
stInOutSensor := "DB_Inputs".Sensors["cInBG3153"]);
// Stausensor Str.5 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3154",
nInSensorNo := "cInBG3154",
stInOutSensor := "DB_Inputs".Sensors["cInBG3154"]);
// Stausensor Str.6 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3155",
nInSensorNo := "cInBG3155",
stInOutSensor := "DB_Inputs".Sensors["cInBG3155"]);
// Stausensor Str.7 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3156",
nInSensorNo := "cInBG3156",
stInOutSensor := "DB_Inputs".Sensors["cInBG3156"]);
// Stausensor Str.8 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3157",
nInSensorNo := "cInBG3157",
stInOutSensor := "DB_Inputs".Sensors["cInBG3157"]);
// Stausensor Str.9 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3160",
nInSensorNo := "cInBG3160",
stInOutSensor := "DB_Inputs".Sensors["cInBG3160"]);
// Stausensor Str.10 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3161",
nInSensorNo := "cInBG3161",
stInOutSensor := "DB_Inputs".Sensors["cInBG3161"]);
// Stausensor Str.11 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3162",
nInSensorNo := "cInBG3162",
stInOutSensor := "DB_Inputs".Sensors["cInBG3162"]);
// Stausensor Str.12 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3163",
nInSensorNo := "cInBG3163",
stInOutSensor := "DB_Inputs".Sensors["cInBG3163"]);
// Stausensor Str.13 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3164",
nInSensorNo := "cInBG3164",
stInOutSensor := "DB_Inputs".Sensors["cInBG3164"]);
// Stausensor Str.14 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3165",
nInSensorNo := "cInBG3165",
stInOutSensor := "DB_Inputs".Sensors["cInBG3165"]);
// Stausensor Str.15 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3166",
nInSensorNo := "cInBG3166",
stInOutSensor := "DB_Inputs".Sensors["cInBG3166"]);
// Stausensor Str.16 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3167",
nInSensorNo := "cInBG3167",
stInOutSensor := "DB_Inputs".Sensors["cInBG3167"]);
// Stausensor Str.17 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3170",
nInSensorNo := "cInBG3170",
stInOutSensor := "DB_Inputs".Sensors["cInBG3170"]);
// Stausensor Str.18 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3171",
nInSensorNo := "cInBG3171",
stInOutSensor := "DB_Inputs".Sensors["cInBG3171"]);
// Stausensor Str.19 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3172",
nInSensorNo := "cInBG3172",
stInOutSensor := "DB_Inputs".Sensors["cInBG3172"]);
// Stausensor Str.20 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3173",
nInSensorNo := "cInBG3173",
stInOutSensor := "DB_Inputs".Sensors["cInBG3173"]);
// Stausensor Str.21 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3174",
nInSensorNo := "cInBG3174",
stInOutSensor := "DB_Inputs".Sensors["cInBG3174"]);
// in Separator 2 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3180",
nInSensorNo := "cInBG3180",
stInOutSensor := "DB_Inputs".Sensors["cInBG3180"]);
// Pin Abfrage (KR-M1102 ) Block 1.1.4
#fbSensorInput(stInSensorHW := "BG3181",
nInSensorNo := "cInBG3181",
stInOutSensor := "DB_Inputs".Sensors["cInBG3181"]);
// Prüfung MT Pos.1 (KR-K1102 Einfahrt Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3182",
nInSensorNo := "cInBG3182",
stInOutSensor := "DB_Inputs".Sensors["cInBG3182"]);
// Stausensor Str.2 (M1102)
#fbSensorInput(stInSensorHW := "BG3183",
nInSensorNo := "cInBG3183",
stInOutSensor := "DB_Inputs".Sensors["cInBG3183"]);
// in Separator 1 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3184",
nInSensorNo := "cInBG3184",
stInOutSensor := "DB_Inputs".Sensors["cInBG3184"]);
// Stausensor Str.1 (KR-K1102 vor BT-Beladung)
#fbSensorInput(stInSensorHW := "BG3185",
nInSensorNo := "cInBG3185",
stInOutSensor := "DB_Inputs".Sensors["cInBG3185"]);
// Sensor Förderer voll (ILS-CV 1102)
#fbSensorInput(stInSensorHW := "BG3186",
nInSensorNo := "cInBG3186",
stInOutSensor := "DB_Inputs".Sensors["cInBG3186"]);
// Prüfung MT Pos.2 (KR-K1102 Einfahrt Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3187",
nInSensorNo := "cInBG3187",
stInOutSensor := "DB_Inputs".Sensors["cInBG3187"]);
// Prüfung MT Pos.3 (KR-K1102 Einfahrt Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3190",
nInSensorNo := "cInBG3190",
stInOutSensor := "DB_Inputs".Sensors["cInBG3190"]);
// Prüfung MT Pos.4 (KR-K1102 Einfahrt Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3191",
nInSensorNo := "cInBG3191",
stInOutSensor := "DB_Inputs".Sensors["cInBG3191"]);
// Stausensor Str.1 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3210",
nInSensorNo := "cInBG3210",
stInOutSensor := "DB_Inputs".Sensors["cInBG3210"]);
// Stausensor Str.2 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3211",
nInSensorNo := "cInBG3211",
stInOutSensor := "DB_Inputs".Sensors["cInBG3211"]);
// Stausensor Str.3 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3212",
nInSensorNo := "cInBG3212",
stInOutSensor := "DB_Inputs".Sensors["cInBG3212"]);
// Stausensor Str.4 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3213",
nInSensorNo := "cInBG3213",
stInOutSensor := "DB_Inputs".Sensors["cInBG3213"]);
// Stausensor Str.5 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3214",
nInSensorNo := "cInBG3214",
stInOutSensor := "DB_Inputs".Sensors["cInBG3214"]);
// Stausensor Str.6 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3215",
nInSensorNo := "cInBG3215",
stInOutSensor := "DB_Inputs".Sensors["cInBG3215"]);
// Stausensor Str.7 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3216",
nInSensorNo := "cInBG3216",
stInOutSensor := "DB_Inputs".Sensors["cInBG3216"]);
// Stausensor Str.8 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3217",
nInSensorNo := "cInBG3217",
stInOutSensor := "DB_Inputs".Sensors["cInBG3217"]);
// Stausensor Str.9 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3220",
nInSensorNo := "cInBG3220",
stInOutSensor := "DB_Inputs".Sensors["cInBG3220"]);
// Stausensor Str.10 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3221",
nInSensorNo := "cInBG3221",
stInOutSensor := "DB_Inputs".Sensors["cInBG3221"]);
// Stausensor Str.11 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3222",
nInSensorNo := "cInBG3222",
stInOutSensor := "DB_Inputs".Sensors["cInBG3222"]);
// Stausensor Str.12 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3223",
nInSensorNo := "cInBG3223",
stInOutSensor := "DB_Inputs".Sensors["cInBG3223"]);
// Stausensor Str.13 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3224",
nInSensorNo := "cInBG3224",
stInOutSensor := "DB_Inputs".Sensors["cInBG3224"]);
// in Separator 1 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3240",
nInSensorNo := "cInBG3240",
stInOutSensor := "DB_Inputs".Sensors["cInBG3240"]);
// Staumelder, Einfahrt (ILS-CV M1105)
#fbSensorInput(stInSensorHW := "BG3241",
nInSensorNo := "cInBG3241",
stInOutSensor := "DB_Inputs".Sensors["cInBG3241"]);
// Stausensor 1 (KR-M1103 nach BT-Beladung)
#fbSensorInput(stInSensorHW := "BG3242",
nInSensorNo := "cInBG3242",
stInOutSensor := "DB_Inputs".Sensors["cInBG3242"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M1105)
#fbSensorInput(stInSensorHW := "BG3243",
nInSensorNo := "cInBG3243",
stInOutSensor := "DB_Inputs".Sensors["cInBG3243"]);
// in Separator 2 (ILS-CV M1105)
#fbSensorInput(stInSensorHW := "BG3244",
nInSensorNo := "cInBG3244",
stInOutSensor := "DB_Inputs".Sensors["cInBG3244"]);
// in Separator (KR-M1103)
#fbSensorInput(stInSensorHW := "BG3245",
nInSensorNo := "cInBG3245",
stInOutSensor := "DB_Inputs".Sensors["cInBG3245"]);
// MT in Position (ILS-CV M1105)
#fbSensorInput(stInSensorHW := "BG3247",
nInSensorNo := "cInBG3247",
stInOutSensor := "DB_Inputs".Sensors["cInBG3247"]);
// in Separator 1 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3270",
nInSensorNo := "cInBG3270",
stInOutSensor := "DB_Inputs".Sensors["cInBG3270"]);
// in Separator 2 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3271",
nInSensorNo := "cInBG3271",
stInOutSensor := "DB_Inputs".Sensors["cInBG3271"]);
// in Separator 3 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3272",
nInSensorNo := "cInBG3272",
stInOutSensor := "DB_Inputs".Sensors["cInBG3272"]);
// in Separator 4 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3273",
nInSensorNo := "cInBG3273",
stInOutSensor := "DB_Inputs".Sensors["cInBG3273"]);
// in Separator 5 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3274",
nInSensorNo := "cInBG3274",
stInOutSensor := "DB_Inputs".Sensors["cInBG3274"]);
// in Separator 6 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3275",
nInSensorNo := "cInBG3275",
stInOutSensor := "DB_Inputs".Sensors["cInBG3275"]);
// in Separator 7 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3276",
nInSensorNo := "cInBG3276",
stInOutSensor := "DB_Inputs".Sensors["cInBG3276"]);
// in Separator 8 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3277",
nInSensorNo := "cInBG3277",
stInOutSensor := "DB_Inputs".Sensors["cInBG3277"]);
// in Separator 9 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3280",
nInSensorNo := "cInBG3280",
stInOutSensor := "DB_Inputs".Sensors["cInBG3280"]);
// in Separator 10 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3281",
nInSensorNo := "cInBG3281",
stInOutSensor := "DB_Inputs".Sensors["cInBG3281"]);
// in Separator 11 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3282",
nInSensorNo := "cInBG3282",
stInOutSensor := "DB_Inputs".Sensors["cInBG3282"]);
// in Separator 12 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3283",
nInSensorNo := "cInBG3283",
stInOutSensor := "DB_Inputs".Sensors["cInBG3283"]);
// in Separator 13 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3284",
nInSensorNo := "cInBG3284",
stInOutSensor := "DB_Inputs".Sensors["cInBG3284"]);
// in Separator 14 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3285",
nInSensorNo := "cInBG3285",
stInOutSensor := "DB_Inputs".Sensors["cInBG3285"]);
// in Separator 15 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3286",
nInSensorNo := "cInBG3286",
stInOutSensor := "DB_Inputs".Sensors["cInBG3286"]);
// in Separator 16 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3287",
nInSensorNo := "cInBG3287",
stInOutSensor := "DB_Inputs".Sensors["cInBG3287"]);
// in Separator 17 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3290",
nInSensorNo := "cInBG3290",
stInOutSensor := "DB_Inputs".Sensors["cInBG3290"]);
// in Separator 18 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3291",
nInSensorNo := "cInBG3291",
stInOutSensor := "DB_Inputs".Sensors["cInBG3291"]);
// In Separator 19 (Block 1.1.1)
#fbSensorInput(stInSensorHW := "BG3292",
nInSensorNo := "cInBG3292",
stInOutSensor := "DB_Inputs".Sensors["cInBG3292"]);
// in Separator 1 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3300",
nInSensorNo := "cInBG3300",
stInOutSensor := "DB_Inputs".Sensors["cInBG3300"]);
// Staumelder, Einfahrt (ILS-CV M1106 Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3301",
nInSensorNo := "cInBG3301",
stInOutSensor := "DB_Inputs".Sensors["cInBG3301"]);
// Stausensor 1 (KR-M1103 nach BT-Beladung)
#fbSensorInput(stInSensorHW := "BG3302",
nInSensorNo := "cInBG3302",
stInOutSensor := "DB_Inputs".Sensors["cInBG3302"]);
// Abfrage Mitnehmerfinger in Position (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3303",
nInSensorNo := "cInBG3303",
stInOutSensor := "DB_Inputs".Sensors["cInBG3303"]);
// in Separator 2 (ILS-CV M1106 Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3304",
nInSensorNo := "cInBG3304",
stInOutSensor := "DB_Inputs".Sensors["cInBG3304"]);
// Stausensor 3 (KR-M1103)
#fbSensorInput(stInSensorHW := "BG3305",
nInSensorNo := "cInBG3305",
stInOutSensor := "DB_Inputs".Sensors["cInBG3305"]);
// Rad dreht (KR-M1103)
#fbSensorInput(stInSensorHW := "BG3306",
nInSensorNo := "cInBG3306",
stInOutSensor := "DB_Inputs".Sensors["cInBG3306"]);
// MT in Position (ILS-CV M1106)
#fbSensorInput(stInSensorHW := "BG3307",
nInSensorNo := "cInBG3307",
stInOutSensor := "DB_Inputs".Sensors["cInBG3307"]);
// in Separator 1 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3330",
nInSensorNo := "cInBG3330",
stInOutSensor := "DB_Inputs".Sensors["cInBG3330"]);
// in Separator 2 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3331",
nInSensorNo := "cInBG3331",
stInOutSensor := "DB_Inputs".Sensors["cInBG3331"]);
// in Separator 3 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3332",
nInSensorNo := "cInBG3332",
stInOutSensor := "DB_Inputs".Sensors["cInBG3332"]);
// in Separator 4 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3333",
nInSensorNo := "cInBG3333",
stInOutSensor := "DB_Inputs".Sensors["cInBG3333"]);
// in Separator 5 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3334",
nInSensorNo := "cInBG3334",
stInOutSensor := "DB_Inputs".Sensors["cInBG3334"]);
// in Separator 6 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3335",
nInSensorNo := "cInBG3335",
stInOutSensor := "DB_Inputs".Sensors["cInBG3335"]);
// in Separator 7 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3336",
nInSensorNo := "cInBG3336",
stInOutSensor := "DB_Inputs".Sensors["cInBG3336"]);
// in Separator 8 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3337",
nInSensorNo := "cInBG3337",
stInOutSensor := "DB_Inputs".Sensors["cInBG3337"]);
// in Separator 9 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3340",
nInSensorNo := "cInBG3340",
stInOutSensor := "DB_Inputs".Sensors["cInBG3340"]);
// in Separator 10 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3341",
nInSensorNo := "cInBG3341",
stInOutSensor := "DB_Inputs".Sensors["cInBG3341"]);
// in Separator 11 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3342",
nInSensorNo := "cInBG3342",
stInOutSensor := "DB_Inputs".Sensors["cInBG3342"]);
// in Separator 12 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3343",
nInSensorNo := "cInBG3343",
stInOutSensor := "DB_Inputs".Sensors["cInBG3343"]);
// in Separator 13 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3344",
nInSensorNo := "cInBG3344",
stInOutSensor := "DB_Inputs".Sensors["cInBG3344"]);
// in Separator 14 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3345",
nInSensorNo := "cInBG3345",
stInOutSensor := "DB_Inputs".Sensors["cInBG3345"]);
// in Separator 15 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3346",
nInSensorNo := "cInBG3346",
stInOutSensor := "DB_Inputs".Sensors["cInBG3346"]);
// in Separator 16 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3347",
nInSensorNo := "cInBG3347",
stInOutSensor := "DB_Inputs".Sensors["cInBG3347"]);
// in Separator 17 (Block 1.1.2)
#fbSensorInput(stInSensorHW := "BG3350",
nInSensorNo := "cInBG3350",
stInOutSensor := "DB_Inputs".Sensors["cInBG3350"]);
// in Separator 1 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3360",
nInSensorNo := "cInBG3360",
stInOutSensor := "DB_Inputs".Sensors["cInBG3360"]);
// Staumelder, Einfahrt (ILS-CV M1107)
#fbSensorInput(stInSensorHW := "BG3361",
nInSensorNo := "cInBG3361",
stInOutSensor := "DB_Inputs".Sensors["cInBG3361"]);
// Stausensor 1 (KR-M1104 nach BT-Beladung)
#fbSensorInput(stInSensorHW := "BG3362",
nInSensorNo := "cInBG3362",
stInOutSensor := "DB_Inputs".Sensors["cInBG3362"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M1107)
#fbSensorInput(stInSensorHW := "BG3363",
nInSensorNo := "cInBG3363",
stInOutSensor := "DB_Inputs".Sensors["cInBG3363"]);
// in Separator 2 (ILS-CV M1107)
#fbSensorInput(stInSensorHW := "BG3364",
nInSensorNo := "cInBG3364",
stInOutSensor := "DB_Inputs".Sensors["cInBG3364"]);
// Stausensor (ILS-KR-M1104)
#fbSensorInput(stInSensorHW := "BG3365",
nInSensorNo := "cInBG3365",
stInOutSensor := "DB_Inputs".Sensors["cInBG3365"]);
// MT in Position (ILS-CV M1107)
#fbSensorInput(stInSensorHW := "BG3367",
nInSensorNo := "cInBG3367",
stInOutSensor := "DB_Inputs".Sensors["cInBG3367"]);
// in Separator 1 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3390",
nInSensorNo := "cInBG3390",
stInOutSensor := "DB_Inputs".Sensors["cInBG3390"]);
// in Separator 2 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3391",
nInSensorNo := "cInBG3391",
stInOutSensor := "DB_Inputs".Sensors["cInBG3391"]);
// in Separator 3 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3392",
nInSensorNo := "cInBG3392",
stInOutSensor := "DB_Inputs".Sensors["cInBG3392"]);
// in Separator 4 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3393",
nInSensorNo := "cInBG3393",
stInOutSensor := "DB_Inputs".Sensors["cInBG3393"]);
// in Separator 5 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3394",
nInSensorNo := "cInBG3394",
stInOutSensor := "DB_Inputs".Sensors["cInBG3394"]);
// in Separator 6 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3395",
nInSensorNo := "cInBG3395",
stInOutSensor := "DB_Inputs".Sensors["cInBG3395"]);
// in Separator 7 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3396",
nInSensorNo := "cInBG3396",
stInOutSensor := "DB_Inputs".Sensors["cInBG3396"]);
// in Separator 8 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3397",
nInSensorNo := "cInBG3397",
stInOutSensor := "DB_Inputs".Sensors["cInBG3397"]);
// in Separator 9 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3400",
nInSensorNo := "cInBG3400",
stInOutSensor := "DB_Inputs".Sensors["cInBG3400"]);
// in Separator 10 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3401",
nInSensorNo := "cInBG3401",
stInOutSensor := "DB_Inputs".Sensors["cInBG3401"]);
// in Separator 11 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3402",
nInSensorNo := "cInBG3402",
stInOutSensor := "DB_Inputs".Sensors["cInBG3402"]);
// in Separator 12 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3403",
nInSensorNo := "cInBG3403",
stInOutSensor := "DB_Inputs".Sensors["cInBG3403"]);
// in Separator 13 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3404",
nInSensorNo := "cInBG3404",
stInOutSensor := "DB_Inputs".Sensors["cInBG3404"]);
// in Separator 14 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3405",
nInSensorNo := "cInBG3405",
stInOutSensor := "DB_Inputs".Sensors["cInBG3405"]);
// in Separator 15 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3406",
nInSensorNo := "cInBG3406",
stInOutSensor := "DB_Inputs".Sensors["cInBG3406"]);
// in Separator 16 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3407",
nInSensorNo := "cInBG3407",
stInOutSensor := "DB_Inputs".Sensors["cInBG3407"]);
// in Separator 17 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3410",
nInSensorNo := "cInBG3410",
stInOutSensor := "DB_Inputs".Sensors["cInBG3410"]);
// in Separator 18 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3411",
nInSensorNo := "cInBG3411",
stInOutSensor := "DB_Inputs".Sensors["cInBG3411"]);
// in Separator 19 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3412",
nInSensorNo := "cInBG3412",
stInOutSensor := "DB_Inputs".Sensors["cInBG3412"]);
// in Separator 20 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3413",
nInSensorNo := "cInBG3413",
stInOutSensor := "DB_Inputs".Sensors["cInBG3413"]);
// in Separator 21 (Block 1.1.3)
#fbSensorInput(stInSensorHW := "BG3414",
nInSensorNo := "cInBG3414",
stInOutSensor := "DB_Inputs".Sensors["cInBG3414"]);
// in Separator 1 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3420",
nInSensorNo := "cInBG3420",
stInOutSensor := "DB_Inputs".Sensors["cInBG3420"]);
// Staumelder, Einfahrt (ILS-CV M1108)
#fbSensorInput(stInSensorHW := "BG3421",
nInSensorNo := "cInBG3421",
stInOutSensor := "DB_Inputs".Sensors["cInBG3421"]);
// Stausensor 1 (KR-M1104 nach BT-Beladung)
#fbSensorInput(stInSensorHW := "BG3422",
nInSensorNo := "cInBG3422",
stInOutSensor := "DB_Inputs".Sensors["cInBG3422"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M1108)
#fbSensorInput(stInSensorHW := "BG3423",
nInSensorNo := "cInBG3423",
stInOutSensor := "DB_Inputs".Sensors["cInBG3423"]);
// in Separator 2 (ILS-CV M1108)
#fbSensorInput(stInSensorHW := "BG3424",
nInSensorNo := "cInBG3424",
stInOutSensor := "DB_Inputs".Sensors["cInBG3424"]);
// in Separator 3 (ILS-CV M1104)
#fbSensorInput(stInSensorHW := "BG3425",
nInSensorNo := "cInBG3425",
stInOutSensor := "DB_Inputs".Sensors["cInBG3425"]);
// Stausensor 3 (KR-M1104)
#fbSensorInput(stInSensorHW := "BG3426",
nInSensorNo := "cInBG3426",
stInOutSensor := "DB_Inputs".Sensors["cInBG3426"]);
// MT in Position (ILS-CV M1108)
#fbSensorInput(stInSensorHW := "BG3427",
nInSensorNo := "cInBG3427",
stInOutSensor := "DB_Inputs".Sensors["cInBG3427"]);
// Stausensor 1 (M2109)
#fbSensorInput(stInSensorHW := "BG3431",
nInSensorNo := "cInBG3431",
stInOutSensor := "DB_Inputs".Sensors["cInBG3431"]);
// Rad dreht (KR-M1104)
#fbSensorInput(stInSensorHW := "BG3433",
nInSensorNo := "cInBG3433",
stInOutSensor := "DB_Inputs".Sensors["cInBG3433"]);
// in Separator 1 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3450",
nInSensorNo := "cInBG3450",
stInOutSensor := "DB_Inputs".Sensors["cInBG3450"]);
// in Separator 2 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3451",
nInSensorNo := "cInBG3451",
stInOutSensor := "DB_Inputs".Sensors["cInBG3451"]);
// in Separator 3 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3452",
nInSensorNo := "cInBG3452",
stInOutSensor := "DB_Inputs".Sensors["cInBG3452"]);
// in Separator 4 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3453",
nInSensorNo := "cInBG3453",
stInOutSensor := "DB_Inputs".Sensors["cInBG3453"]);
// in Separator 5 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3454",
nInSensorNo := "cInBG3454",
stInOutSensor := "DB_Inputs".Sensors["cInBG3454"]);
// in Separator 6 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3455",
nInSensorNo := "cInBG3455",
stInOutSensor := "DB_Inputs".Sensors["cInBG3455"]);
// in Separator 7 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3456",
nInSensorNo := "cInBG3456",
stInOutSensor := "DB_Inputs".Sensors["cInBG3456"]);
// in Separator 8 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3457",
nInSensorNo := "cInBG3457",
stInOutSensor := "DB_Inputs".Sensors["cInBG3457"]);
// in Separator 9 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3460",
nInSensorNo := "cInBG3460",
stInOutSensor := "DB_Inputs".Sensors["cInBG3460"]);
// in Separator 10 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3461",
nInSensorNo := "cInBG3461",
stInOutSensor := "DB_Inputs".Sensors["cInBG3461"]);
// in Separator 11 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3462",
nInSensorNo := "cInBG3462",
stInOutSensor := "DB_Inputs".Sensors["cInBG3462"]);
// in Separator 12 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3463",
nInSensorNo := "cInBG3463",
stInOutSensor := "DB_Inputs".Sensors["cInBG3463"]);
// in Separator 13 (Block 1.1.4)
#fbSensorInput(stInSensorHW := "BG3464",
nInSensorNo := "cInBG3464",
stInOutSensor := "DB_Inputs".Sensors["cInBG3464"]);
// in Separator 2 (ILS-CV M1205)
#fbSensorInput(stInSensorHW := "BG3480",
nInSensorNo := "cInBG3480",
stInOutSensor := "DB_Inputs".Sensors["cInBG3480"]);
// Pin Abfrage (KR-M1201 ) Block 1.2.1
#fbSensorInput(stInSensorHW := "BG3481",
nInSensorNo := "cInBG3481",
stInOutSensor := "DB_Inputs".Sensors["cInBG3481"]);
// Prüfung MT Pos.1 (KR-K1201 Einfahrt Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3482",
nInSensorNo := "cInBG3482",
stInOutSensor := "DB_Inputs".Sensors["cInBG3482"]);
// Stausensor (KR-M1201)
#fbSensorInput(stInSensorHW := "BG3483",
nInSensorNo := "cInBG3483",
stInOutSensor := "DB_Inputs".Sensors["cInBG3483"]);
// in Separator 1 (ILS-CV M1205)
#fbSensorInput(stInSensorHW := "BG3484",
nInSensorNo := "cInBG3484",
stInOutSensor := "DB_Inputs".Sensors["cInBG3484"]);
// Stausensor Str.1 (ILS-CV M1205)
#fbSensorInput(stInSensorHW := "BG3485",
nInSensorNo := "cInBG3485",
stInOutSensor := "DB_Inputs".Sensors["cInBG3485"]);
// Sensor Förderer voll (ILS-CV M1205)
#fbSensorInput(stInSensorHW := "BG3486",
nInSensorNo := "cInBG3486",
stInOutSensor := "DB_Inputs".Sensors["cInBG3486"]);
// Prüfung MT Pos.2 (KR-K1201 Einfahrt Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3487",
nInSensorNo := "cInBG3487",
stInOutSensor := "DB_Inputs".Sensors["cInBG3487"]);
// Prüfung MT Pos.3 (KR-K1201 Einfahrt Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3490",
nInSensorNo := "cInBG3490",
stInOutSensor := "DB_Inputs".Sensors["cInBG3490"]);
// Prüfung MT Pos.4 (KR-K1201 Einfahrt Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3491",
nInSensorNo := "cInBG3491",
stInOutSensor := "DB_Inputs".Sensors["cInBG3491"]);
// Prüfung MT Pos.5 (KR-K1201 Einfahrt Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3492",
nInSensorNo := "cInBG3492",
stInOutSensor := "DB_Inputs".Sensors["cInBG3492"]);
// Stausensor Str.1 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3510",
nInSensorNo := "cInBG3510",
stInOutSensor := "DB_Inputs".Sensors["cInBG3510"]);
// Stausensor Str.2 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3511",
nInSensorNo := "cInBG3511",
stInOutSensor := "DB_Inputs".Sensors["cInBG3511"]);
// Stausensor Str.3 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3512",
nInSensorNo := "cInBG3512",
stInOutSensor := "DB_Inputs".Sensors["cInBG3512"]);
// Stausensor Str.4 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3513",
nInSensorNo := "cInBG3513",
stInOutSensor := "DB_Inputs".Sensors["cInBG3513"]);
// Stausensor Str.5 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3514",
nInSensorNo := "cInBG3514",
stInOutSensor := "DB_Inputs".Sensors["cInBG3514"]);
// Stausensor Str.6 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3515",
nInSensorNo := "cInBG3515",
stInOutSensor := "DB_Inputs".Sensors["cInBG3515"]);
// Stausensor Str.7 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3516",
nInSensorNo := "cInBG3516",
stInOutSensor := "DB_Inputs".Sensors["cInBG3516"]);
// Stausensor Str.8 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3517",
nInSensorNo := "cInBG3517",
stInOutSensor := "DB_Inputs".Sensors["cInBG3517"]);
// Stausensor Str.9 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3520",
nInSensorNo := "cInBG3520",
stInOutSensor := "DB_Inputs".Sensors["cInBG3520"]);
// Stausensor Str.10 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3521",
nInSensorNo := "cInBG3521",
stInOutSensor := "DB_Inputs".Sensors["cInBG3521"]);
// Stausensor Str.11 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3522",
nInSensorNo := "cInBG3522",
stInOutSensor := "DB_Inputs".Sensors["cInBG3522"]);
// Stausensor Str.12 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3523",
nInSensorNo := "cInBG3523",
stInOutSensor := "DB_Inputs".Sensors["cInBG3523"]);
// Stausensor Str.13 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3524",
nInSensorNo := "cInBG3524",
stInOutSensor := "DB_Inputs".Sensors["cInBG3524"]);
// Stausensor Str.14 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3525",
nInSensorNo := "cInBG3525",
stInOutSensor := "DB_Inputs".Sensors["cInBG3525"]);
// Stausensor Str.15 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3526",
nInSensorNo := "cInBG3526",
stInOutSensor := "DB_Inputs".Sensors["cInBG3526"]);
// Stausensor Str.16 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3527",
nInSensorNo := "cInBG3527",
stInOutSensor := "DB_Inputs".Sensors["cInBG3527"]);
// Stausensor Str.17 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3530",
nInSensorNo := "cInBG3530",
stInOutSensor := "DB_Inputs".Sensors["cInBG3530"]);
// Stausensor Str.18 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3531",
nInSensorNo := "cInBG3531",
stInOutSensor := "DB_Inputs".Sensors["cInBG3531"]);
// Stausensor Str.19 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3532",
nInSensorNo := "cInBG3532",
stInOutSensor := "DB_Inputs".Sensors["cInBG3532"]);
// in Separator 2 (ILS-CV M1206)
#fbSensorInput(stInSensorHW := "BG3540",
nInSensorNo := "cInBG3540",
stInOutSensor := "DB_Inputs".Sensors["cInBG3540"]);
// Pin Abfrage (KR-M1201 ) Block 1.2.2
#fbSensorInput(stInSensorHW := "BG3541",
nInSensorNo := "cInBG3541",
stInOutSensor := "DB_Inputs".Sensors["cInBG3541"]);
// Prüfung MT Pos.1 (KR-K1201 Einfahrt Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3542",
nInSensorNo := "cInBG3542",
stInOutSensor := "DB_Inputs".Sensors["cInBG3542"]);
// Stausensor Str.2 (KR-M1201)
#fbSensorInput(stInSensorHW := "BG3543",
nInSensorNo := "cInBG3543",
stInOutSensor := "DB_Inputs".Sensors["cInBG3543"]);
// in Separator 1 (ILS-CV M1206)
#fbSensorInput(stInSensorHW := "BG3544",
nInSensorNo := "cInBG3544",
stInOutSensor := "DB_Inputs".Sensors["cInBG3544"]);
// Stausensor Str.1 (ILS-CV M1206)
#fbSensorInput(stInSensorHW := "BG3545",
nInSensorNo := "cInBG3545",
stInOutSensor := "DB_Inputs".Sensors["cInBG3545"]);
// Sensor Förderer voll (ILS-CV M1206)
#fbSensorInput(stInSensorHW := "BG3546",
nInSensorNo := "cInBG3546",
stInOutSensor := "DB_Inputs".Sensors["cInBG3546"]);
// Prüfung MT Pos.2 (KR-K1201 Einfahrt Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3547",
nInSensorNo := "cInBG3547",
stInOutSensor := "DB_Inputs".Sensors["cInBG3547"]);
// Prüfung MT Pos.3 (KR-K1201 Einfahrt Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3550",
nInSensorNo := "cInBG3550",
stInOutSensor := "DB_Inputs".Sensors["cInBG3550"]);
// Prüfung MT Pos.4 (KR-K1201 Einfahrt Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3551",
nInSensorNo := "cInBG3551",
stInOutSensor := "DB_Inputs".Sensors["cInBG3551"]);
// Prüfung MT Pos.5 (KR-K1201 Einfahrt Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3552",
nInSensorNo := "cInBG3552",
stInOutSensor := "DB_Inputs".Sensors["cInBG3552"]);
// Stausensor MT vor Pinband (KR-K1201) Block 1.2.2
#fbSensorInput(stInSensorHW := "BG3553",
nInSensorNo := "cInBG3553",
stInOutSensor := "DB_Inputs".Sensors["cInBG3553"]);
// Stausensor Str.1 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3570",
nInSensorNo := "cInBG3570",
stInOutSensor := "DB_Inputs".Sensors["cInBG3570"]);
// Stausensor Str.2 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3571",
nInSensorNo := "cInBG3571",
stInOutSensor := "DB_Inputs".Sensors["cInBG3571"]);
// Stausensor Str.3 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3572",
nInSensorNo := "cInBG3572",
stInOutSensor := "DB_Inputs".Sensors["cInBG3572"]);
// Stausensor Str.4 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3573",
nInSensorNo := "cInBG3573",
stInOutSensor := "DB_Inputs".Sensors["cInBG3573"]);
// Stausensor Str.5 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3574",
nInSensorNo := "cInBG3574",
stInOutSensor := "DB_Inputs".Sensors["cInBG3574"]);
// Stausensor Str.6 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3575",
nInSensorNo := "cInBG3575",
stInOutSensor := "DB_Inputs".Sensors["cInBG3575"]);
// Stausensor Str.7 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3576",
nInSensorNo := "cInBG3576",
stInOutSensor := "DB_Inputs".Sensors["cInBG3576"]);
// Stausensor Str.8 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3577",
nInSensorNo := "cInBG3577",
stInOutSensor := "DB_Inputs".Sensors["cInBG3577"]);
// Stausensor Str.9 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3580",
nInSensorNo := "cInBG3580",
stInOutSensor := "DB_Inputs".Sensors["cInBG3580"]);
// Stausensor Str.10 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3581",
nInSensorNo := "cInBG3581",
stInOutSensor := "DB_Inputs".Sensors["cInBG3581"]);
// Stausensor Str.11 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3582",
nInSensorNo := "cInBG3582",
stInOutSensor := "DB_Inputs".Sensors["cInBG3582"]);
// Stausensor Str.12 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3583",
nInSensorNo := "cInBG3583",
stInOutSensor := "DB_Inputs".Sensors["cInBG3583"]);
// Stausensor Str.13 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3584",
nInSensorNo := "cInBG3584",
stInOutSensor := "DB_Inputs".Sensors["cInBG3584"]);
// Stausensor Str.14 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3585",
nInSensorNo := "cInBG3585",
stInOutSensor := "DB_Inputs".Sensors["cInBG3585"]);
// Stausensor Str.15 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3586",
nInSensorNo := "cInBG3586",
stInOutSensor := "DB_Inputs".Sensors["cInBG3586"]);
// Stausensor Str.16 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3587",
nInSensorNo := "cInBG3587",
stInOutSensor := "DB_Inputs".Sensors["cInBG3587"]);
// Stausensor Str.17 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3590",
nInSensorNo := "cInBG3590",
stInOutSensor := "DB_Inputs".Sensors["cInBG3590"]);
// in Separator 2 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3600",
nInSensorNo := "cInBG3600",
stInOutSensor := "DB_Inputs".Sensors["cInBG3600"]);
// Pin Abfrage (KR-M1202 ) Block 1.2.3
#fbSensorInput(stInSensorHW := "BG3601",
nInSensorNo := "cInBG3601",
stInOutSensor := "DB_Inputs".Sensors["cInBG3601"]);
// Prüfung MT Pos.1 (KR-K1202 Einfahrt Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3602",
nInSensorNo := "cInBG3602",
stInOutSensor := "DB_Inputs".Sensors["cInBG3602"]);
// Stausensor Str.2 (KR-M1202)
#fbSensorInput(stInSensorHW := "BG3603",
nInSensorNo := "cInBG3603",
stInOutSensor := "DB_Inputs".Sensors["cInBG3603"]);
// in Separator 1 (ILS-CV M1207)
#fbSensorInput(stInSensorHW := "BG3604",
nInSensorNo := "cInBG3604",
stInOutSensor := "DB_Inputs".Sensors["cInBG3604"]);
// Stausensor Str.1 (KR-K1207 vor BT-Beladung)
#fbSensorInput(stInSensorHW := "BG3605",
nInSensorNo := "cInBG3605",
stInOutSensor := "DB_Inputs".Sensors["cInBG3605"]);
// Sensor Förderer voll (ILS-CV M1207)
#fbSensorInput(stInSensorHW := "BG3606",
nInSensorNo := "cInBG3606",
stInOutSensor := "DB_Inputs".Sensors["cInBG3606"]);
// Prüfung MT Pos.2 (KR-K1202 Einfahrt Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3607",
nInSensorNo := "cInBG3607",
stInOutSensor := "DB_Inputs".Sensors["cInBG3607"]);
// Prüfung MT Pos.3 (KR-K1202 Einfahrt Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3610",
nInSensorNo := "cInBG3610",
stInOutSensor := "DB_Inputs".Sensors["cInBG3610"]);
// Prüfung MT Pos.4 (KR-K1202 Einfahrt Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3611",
nInSensorNo := "cInBG3611",
stInOutSensor := "DB_Inputs".Sensors["cInBG3611"]);
// Prüfung MT Pos.5 (KR-K1202 Einfahrt Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3612",
nInSensorNo := "cInBG3612",
stInOutSensor := "DB_Inputs".Sensors["cInBG3612"]);
// Prüfung MT Pos.6 (KR-K1202 Einfahrt Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3613",
nInSensorNo := "cInBG3613",
stInOutSensor := "DB_Inputs".Sensors["cInBG3613"]);
// in Separator 3 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3614",
nInSensorNo := "cInBG3614",
stInOutSensor := "DB_Inputs".Sensors["cInBG3614"]);
// Stausensor (M1209)
#fbSensorInput(stInSensorHW := "BG3615",
nInSensorNo := "cInBG3615",
stInOutSensor := "DB_Inputs".Sensors["cInBG3615"]);
// Sensor Förderer voll (ILS-CV M1209)
#fbSensorInput(stInSensorHW := "BG3616",
nInSensorNo := "cInBG3616",
stInOutSensor := "DB_Inputs".Sensors["cInBG3616"]);
// in Separator 4 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3617",
nInSensorNo := "cInBG3617",
stInOutSensor := "DB_Inputs".Sensors["cInBG3617"]);
// Stausensor 2 (KR-M1202)
#fbSensorInput(stInSensorHW := "BG3621",
nInSensorNo := "cInBG3621",
stInOutSensor := "DB_Inputs".Sensors["cInBG3621"]);
// in Separator (ILS-CV M1209)
#fbSensorInput(stInSensorHW := "BG3622",
nInSensorNo := "cInBG3622",
stInOutSensor := "DB_Inputs".Sensors["cInBG3622"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M1209)
#fbSensorInput(stInSensorHW := "BG3623",
nInSensorNo := "cInBG3623",
stInOutSensor := "DB_Inputs".Sensors["cInBG3623"]);
// MT in Position (ILS-CV M1209)
#fbSensorInput(stInSensorHW := "BG3624",
nInSensorNo := "cInBG3624",
stInOutSensor := "DB_Inputs".Sensors["cInBG3624"]);
// Stausensor MT vor Pinband (KR-K1203) Block 1.2.3
#fbSensorInput(stInSensorHW := "BG3625",
nInSensorNo := "cInBG3625",
stInOutSensor := "DB_Inputs".Sensors["cInBG3625"]);
// Stausensor Str.1 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3630",
nInSensorNo := "cInBG3630",
stInOutSensor := "DB_Inputs".Sensors["cInBG3630"]);
// Stausensor Str.2 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3631",
nInSensorNo := "cInBG3631",
stInOutSensor := "DB_Inputs".Sensors["cInBG3631"]);
// Stausensor Str.3 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3632",
nInSensorNo := "cInBG3632",
stInOutSensor := "DB_Inputs".Sensors["cInBG3632"]);
// Stausensor Str.4 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3633",
nInSensorNo := "cInBG3633",
stInOutSensor := "DB_Inputs".Sensors["cInBG3633"]);
// Stausensor Str.5 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3634",
nInSensorNo := "cInBG3634",
stInOutSensor := "DB_Inputs".Sensors["cInBG3634"]);
// Stausensor Str.6 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3635",
nInSensorNo := "cInBG3635",
stInOutSensor := "DB_Inputs".Sensors["cInBG3635"]);
// Stausensor Str.7 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3636",
nInSensorNo := "cInBG3636",
stInOutSensor := "DB_Inputs".Sensors["cInBG3636"]);
// Stausensor Str.8 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3637",
nInSensorNo := "cInBG3637",
stInOutSensor := "DB_Inputs".Sensors["cInBG3637"]);
// Stausensor Str.9 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3640",
nInSensorNo := "cInBG3640",
stInOutSensor := "DB_Inputs".Sensors["cInBG3640"]);
// Stausensor Str.10 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3641",
nInSensorNo := "cInBG3641",
stInOutSensor := "DB_Inputs".Sensors["cInBG3641"]);
// Stausensor Str.11 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3642",
nInSensorNo := "cInBG3642",
stInOutSensor := "DB_Inputs".Sensors["cInBG3642"]);
// Stausensor Str.12 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3643",
nInSensorNo := "cInBG3643",
stInOutSensor := "DB_Inputs".Sensors["cInBG3643"]);
// Stausensor Str.13 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3644",
nInSensorNo := "cInBG3644",
stInOutSensor := "DB_Inputs".Sensors["cInBG3644"]);
// Stausensor Str.14 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3645",
nInSensorNo := "cInBG3645",
stInOutSensor := "DB_Inputs".Sensors["cInBG3645"]);
// Stausensor Str.15 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3646",
nInSensorNo := "cInBG3646",
stInOutSensor := "DB_Inputs".Sensors["cInBG3646"]);
// Stausensor Str.16 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3647",
nInSensorNo := "cInBG3647",
stInOutSensor := "DB_Inputs".Sensors["cInBG3647"]);
// Stausensor Str.17 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3650",
nInSensorNo := "cInBG3650",
stInOutSensor := "DB_Inputs".Sensors["cInBG3650"]);
// Stausensor Str.18 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3651",
nInSensorNo := "cInBG3651",
stInOutSensor := "DB_Inputs".Sensors["cInBG3651"]);
// Stausensor Str.19 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3652",
nInSensorNo := "cInBG3652",
stInOutSensor := "DB_Inputs".Sensors["cInBG3652"]);
// Stausensor Str.20 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3653",
nInSensorNo := "cInBG3653",
stInOutSensor := "DB_Inputs".Sensors["cInBG3653"]);
// Stausensor Str.21 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3654",
nInSensorNo := "cInBG3654",
stInOutSensor := "DB_Inputs".Sensors["cInBG3654"]);
// in Separator 2 (ILS-CV M1208)
#fbSensorInput(stInSensorHW := "BG3660",
nInSensorNo := "cInBG3660",
stInOutSensor := "DB_Inputs".Sensors["cInBG3660"]);
// Pin Abfrage (KR-M1202 ) Block 1.2.4
#fbSensorInput(stInSensorHW := "BG3661",
nInSensorNo := "cInBG3661",
stInOutSensor := "DB_Inputs".Sensors["cInBG3661"]);
// Prüfung MT Pos.1 (KR-K1202 Einfahrt Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3662",
nInSensorNo := "cInBG3662",
stInOutSensor := "DB_Inputs".Sensors["cInBG3662"]);
// Stausensor Str.2 (M1202)
#fbSensorInput(stInSensorHW := "BG3663",
nInSensorNo := "cInBG3663",
stInOutSensor := "DB_Inputs".Sensors["cInBG3663"]);
// in Separator 1 (ILS-CV M1208)
#fbSensorInput(stInSensorHW := "BG3664",
nInSensorNo := "cInBG3664",
stInOutSensor := "DB_Inputs".Sensors["cInBG3664"]);
// Stausensor Str.1 (KR-M1208)
#fbSensorInput(stInSensorHW := "BG3665",
nInSensorNo := "cInBG3665",
stInOutSensor := "DB_Inputs".Sensors["cInBG3665"]);
// Sensor Förderer voll (ILS-CV M1208)
#fbSensorInput(stInSensorHW := "BG3666",
nInSensorNo := "cInBG3666",
stInOutSensor := "DB_Inputs".Sensors["cInBG3666"]);
// Prüfung MT Pos.2 (KR-K1202 Einfahrt Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3667",
nInSensorNo := "cInBG3667",
stInOutSensor := "DB_Inputs".Sensors["cInBG3667"]);
// Prüfung MT Pos.3 (KR-K1202 Einfahrt Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3670",
nInSensorNo := "cInBG3670",
stInOutSensor := "DB_Inputs".Sensors["cInBG3670"]);
// Prüfung MT Pos.4 (KR-K1202 Einfahrt Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3671",
nInSensorNo := "cInBG3671",
stInOutSensor := "DB_Inputs".Sensors["cInBG3671"]);
// Stausensor Str.1 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3690",
nInSensorNo := "cInBG3690",
stInOutSensor := "DB_Inputs".Sensors["cInBG3690"]);
// Stausensor Str.2 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3691",
nInSensorNo := "cInBG3691",
stInOutSensor := "DB_Inputs".Sensors["cInBG3691"]);
// Stausensor Str.3 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3692",
nInSensorNo := "cInBG3692",
stInOutSensor := "DB_Inputs".Sensors["cInBG3692"]);
// Stausensor Str.4 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3693",
nInSensorNo := "cInBG3693",
stInOutSensor := "DB_Inputs".Sensors["cInBG3693"]);
// Stausensor Str.5 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3694",
nInSensorNo := "cInBG3694",
stInOutSensor := "DB_Inputs".Sensors["cInBG3694"]);
// Stausensor Str.6 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3695",
nInSensorNo := "cInBG3695",
stInOutSensor := "DB_Inputs".Sensors["cInBG3695"]);
// Stausensor Str.7 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3696",
nInSensorNo := "cInBG3696",
stInOutSensor := "DB_Inputs".Sensors["cInBG3696"]);
// Stausensor Str.8 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3697",
nInSensorNo := "cInBG3697",
stInOutSensor := "DB_Inputs".Sensors["cInBG3697"]);
// Stausensor Str.9 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3700",
nInSensorNo := "cInBG3700",
stInOutSensor := "DB_Inputs".Sensors["cInBG3700"]);
// Stausensor Str.10 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3701",
nInSensorNo := "cInBG3701",
stInOutSensor := "DB_Inputs".Sensors["cInBG3701"]);
// Stausensor Str.11 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3702",
nInSensorNo := "cInBG3702",
stInOutSensor := "DB_Inputs".Sensors["cInBG3702"]);
// Stausensor Str.12 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3703",
nInSensorNo := "cInBG3703",
stInOutSensor := "DB_Inputs".Sensors["cInBG3703"]);
// Stausensor Str.13 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3704",
nInSensorNo := "cInBG3704",
stInOutSensor := "DB_Inputs".Sensors["cInBG3704"]);
// in Separator 1 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3720",
nInSensorNo := "cInBG3720",
stInOutSensor := "DB_Inputs".Sensors["cInBG3720"]);
// Staumelder, Einfahrt (ILS-CV M1205)
#fbSensorInput(stInSensorHW := "BG3721",
nInSensorNo := "cInBG3721",
stInOutSensor := "DB_Inputs".Sensors["cInBG3721"]);
// Stausensor 1 (KR-M1203 nach BT-Beladung)
#fbSensorInput(stInSensorHW := "BG3722",
nInSensorNo := "cInBG3722",
stInOutSensor := "DB_Inputs".Sensors["cInBG3722"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M1205)
#fbSensorInput(stInSensorHW := "BG3723",
nInSensorNo := "cInBG3723",
stInOutSensor := "DB_Inputs".Sensors["cInBG3723"]);
// in Separator 2 (ILS-CV M1205)
#fbSensorInput(stInSensorHW := "BG3724",
nInSensorNo := "cInBG3724",
stInOutSensor := "DB_Inputs".Sensors["cInBG3724"]);
// in Separator (KR-M1203)
#fbSensorInput(stInSensorHW := "BG3725",
nInSensorNo := "cInBG3725",
stInOutSensor := "DB_Inputs".Sensors["cInBG3725"]);
// MT in Position (ILS-CV M1205)
#fbSensorInput(stInSensorHW := "BG3727",
nInSensorNo := "cInBG3727",
stInOutSensor := "DB_Inputs".Sensors["cInBG3727"]);
// in Separator 1 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3750",
nInSensorNo := "cInBG3750",
stInOutSensor := "DB_Inputs".Sensors["cInBG3750"]);
// in Separator 2 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3751",
nInSensorNo := "cInBG3751",
stInOutSensor := "DB_Inputs".Sensors["cInBG3751"]);
// in Separator 3 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3752",
nInSensorNo := "cInBG3752",
stInOutSensor := "DB_Inputs".Sensors["cInBG3752"]);
// in Separator 4 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3753",
nInSensorNo := "cInBG3753",
stInOutSensor := "DB_Inputs".Sensors["cInBG3753"]);
// in Separator 5 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3754",
nInSensorNo := "cInBG3754",
stInOutSensor := "DB_Inputs".Sensors["cInBG3754"]);
// in Separator 6 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3755",
nInSensorNo := "cInBG3755",
stInOutSensor := "DB_Inputs".Sensors["cInBG3755"]);
// in Separator 7 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3756",
nInSensorNo := "cInBG3756",
stInOutSensor := "DB_Inputs".Sensors["cInBG3756"]);
// in Separator 8 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3757",
nInSensorNo := "cInBG3757",
stInOutSensor := "DB_Inputs".Sensors["cInBG3757"]);
// in Separator 9 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3760",
nInSensorNo := "cInBG3760",
stInOutSensor := "DB_Inputs".Sensors["cInBG3760"]);
// in Separator 10 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3761",
nInSensorNo := "cInBG3761",
stInOutSensor := "DB_Inputs".Sensors["cInBG3761"]);
// in Separator 11 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3762",
nInSensorNo := "cInBG3762",
stInOutSensor := "DB_Inputs".Sensors["cInBG3762"]);
// in Separator 12 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3763",
nInSensorNo := "cInBG3763",
stInOutSensor := "DB_Inputs".Sensors["cInBG3763"]);
// in Separator 13 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3764",
nInSensorNo := "cInBG3764",
stInOutSensor := "DB_Inputs".Sensors["cInBG3764"]);
// in Separator 14 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3765",
nInSensorNo := "cInBG3765",
stInOutSensor := "DB_Inputs".Sensors["cInBG3765"]);
// in Separator 15 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3766",
nInSensorNo := "cInBG3766",
stInOutSensor := "DB_Inputs".Sensors["cInBG3766"]);
// in Separator 16 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3767",
nInSensorNo := "cInBG3767",
stInOutSensor := "DB_Inputs".Sensors["cInBG3767"]);
// in Separator 17 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3770",
nInSensorNo := "cInBG3770",
stInOutSensor := "DB_Inputs".Sensors["cInBG3770"]);
// in Separator 18 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3771",
nInSensorNo := "cInBG3771",
stInOutSensor := "DB_Inputs".Sensors["cInBG3771"]);
// In Separator 19 (Block 1.2.1)
#fbSensorInput(stInSensorHW := "BG3772",
nInSensorNo := "cInBG3772",
stInOutSensor := "DB_Inputs".Sensors["cInBG3772"]);
// in Separator 1 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3780",
nInSensorNo := "cInBG3780",
stInOutSensor := "DB_Inputs".Sensors["cInBG3780"]);
// Staumelder, Einfahrt (ILS-CV M1206)
#fbSensorInput(stInSensorHW := "BG3781",
nInSensorNo := "cInBG3781",
stInOutSensor := "DB_Inputs".Sensors["cInBG3781"]);
// Stausensor 1 (KR-M1203 nach BT-Beladung)
#fbSensorInput(stInSensorHW := "BG3782",
nInSensorNo := "cInBG3782",
stInOutSensor := "DB_Inputs".Sensors["cInBG3782"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M1206)
#fbSensorInput(stInSensorHW := "BG3783",
nInSensorNo := "cInBG3783",
stInOutSensor := "DB_Inputs".Sensors["cInBG3783"]);
// in Separator 2 (ILS-CV M1206)
#fbSensorInput(stInSensorHW := "BG3784",
nInSensorNo := "cInBG3784",
stInOutSensor := "DB_Inputs".Sensors["cInBG3784"]);
// Stausensor 3 (KR-M1203)
#fbSensorInput(stInSensorHW := "BG3785",
nInSensorNo := "cInBG3785",
stInOutSensor := "DB_Inputs".Sensors["cInBG3785"]);
// Rad dreht (KR-M1203)
#fbSensorInput(stInSensorHW := "BG3786",
nInSensorNo := "cInBG3786",
stInOutSensor := "DB_Inputs".Sensors["cInBG3786"]);
// MT in Position (ILS-CV M1206)
#fbSensorInput(stInSensorHW := "BG3787",
nInSensorNo := "cInBG3787",
stInOutSensor := "DB_Inputs".Sensors["cInBG3787"]);
// in Separator 1 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3810",
nInSensorNo := "cInBG3810",
stInOutSensor := "DB_Inputs".Sensors["cInBG3810"]);
// in Separator 2 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3811",
nInSensorNo := "cInBG3811",
stInOutSensor := "DB_Inputs".Sensors["cInBG3811"]);
// in Separator 3 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3812",
nInSensorNo := "cInBG3812",
stInOutSensor := "DB_Inputs".Sensors["cInBG3812"]);
// in Separator 4 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3813",
nInSensorNo := "cInBG3813",
stInOutSensor := "DB_Inputs".Sensors["cInBG3813"]);
// in Separator 5 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3814",
nInSensorNo := "cInBG3814",
stInOutSensor := "DB_Inputs".Sensors["cInBG3814"]);
// in Separator 6 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3815",
nInSensorNo := "cInBG3815",
stInOutSensor := "DB_Inputs".Sensors["cInBG3815"]);
// in Separator 7 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3816",
nInSensorNo := "cInBG3816",
stInOutSensor := "DB_Inputs".Sensors["cInBG3816"]);
// in Separator 8 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3817",
nInSensorNo := "cInBG3817",
stInOutSensor := "DB_Inputs".Sensors["cInBG3817"]);
// in Separator 9 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3820",
nInSensorNo := "cInBG3820",
stInOutSensor := "DB_Inputs".Sensors["cInBG3820"]);
// in Separator 10 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3821",
nInSensorNo := "cInBG3821",
stInOutSensor := "DB_Inputs".Sensors["cInBG3821"]);
// in Separator 11 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3822",
nInSensorNo := "cInBG3822",
stInOutSensor := "DB_Inputs".Sensors["cInBG3822"]);
// in Separator 12 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3823",
nInSensorNo := "cInBG3823",
stInOutSensor := "DB_Inputs".Sensors["cInBG3823"]);
// in Separator 13 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3824",
nInSensorNo := "cInBG3824",
stInOutSensor := "DB_Inputs".Sensors["cInBG3824"]);
// in Separator 14 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3825",
nInSensorNo := "cInBG3825",
stInOutSensor := "DB_Inputs".Sensors["cInBG3825"]);
// in Separator 15 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3826",
nInSensorNo := "cInBG3826",
stInOutSensor := "DB_Inputs".Sensors["cInBG3826"]);
// in Separator 16 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3827",
nInSensorNo := "cInBG3827",
stInOutSensor := "DB_Inputs".Sensors["cInBG3827"]);
// in Separator 17 (Block 1.2.2)
#fbSensorInput(stInSensorHW := "BG3830",
nInSensorNo := "cInBG3830",
stInOutSensor := "DB_Inputs".Sensors["cInBG3830"]);
// in Separator 1 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3840",
nInSensorNo := "cInBG3840",
stInOutSensor := "DB_Inputs".Sensors["cInBG3840"]);
// Staumelder, Einfahrt (ILS-CV M1207 Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3841",
nInSensorNo := "cInBG3841",
stInOutSensor := "DB_Inputs".Sensors["cInBG3841"]);
// Stausensor 1 (KR-M1204 nach BT-Beladung)
#fbSensorInput(stInSensorHW := "BG3842",
nInSensorNo := "cInBG3842",
stInOutSensor := "DB_Inputs".Sensors["cInBG3842"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M1207)
#fbSensorInput(stInSensorHW := "BG3843",
nInSensorNo := "cInBG3843",
stInOutSensor := "DB_Inputs".Sensors["cInBG3843"]);
// in Separator 2 (ILS-CV M1207)
#fbSensorInput(stInSensorHW := "BG3844",
nInSensorNo := "cInBG3844",
stInOutSensor := "DB_Inputs".Sensors["cInBG3844"]);
// Stausensor (ILS-CV-M1204)
#fbSensorInput(stInSensorHW := "BG3845",
nInSensorNo := "cInBG3845",
stInOutSensor := "DB_Inputs".Sensors["cInBG3845"]);
// MT in Position (ILS-CV M1207)
#fbSensorInput(stInSensorHW := "BG3847",
nInSensorNo := "cInBG3847",
stInOutSensor := "DB_Inputs".Sensors["cInBG3847"]);
// in Separator 1 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3870",
nInSensorNo := "cInBG3870",
stInOutSensor := "DB_Inputs".Sensors["cInBG3870"]);
// in Separator 2 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3871",
nInSensorNo := "cInBG3871",
stInOutSensor := "DB_Inputs".Sensors["cInBG3871"]);
// in Separator 3 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3872",
nInSensorNo := "cInBG3872",
stInOutSensor := "DB_Inputs".Sensors["cInBG3872"]);
// in Separator 4 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3873",
nInSensorNo := "cInBG3873",
stInOutSensor := "DB_Inputs".Sensors["cInBG3873"]);
// in Separator 5 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3874",
nInSensorNo := "cInBG3874",
stInOutSensor := "DB_Inputs".Sensors["cInBG3874"]);
// in Separator 6 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3875",
nInSensorNo := "cInBG3875",
stInOutSensor := "DB_Inputs".Sensors["cInBG3875"]);
// in Separator 7 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3876",
nInSensorNo := "cInBG3876",
stInOutSensor := "DB_Inputs".Sensors["cInBG3876"]);
// in Separator 8 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3877",
nInSensorNo := "cInBG3877",
stInOutSensor := "DB_Inputs".Sensors["cInBG3877"]);
// in Separator 9 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3880",
nInSensorNo := "cInBG3880",
stInOutSensor := "DB_Inputs".Sensors["cInBG3880"]);
// in Separator 10 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3881",
nInSensorNo := "cInBG3881",
stInOutSensor := "DB_Inputs".Sensors["cInBG3881"]);
// in Separator 11 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3882",
nInSensorNo := "cInBG3882",
stInOutSensor := "DB_Inputs".Sensors["cInBG3882"]);
// in Separator 12 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3883",
nInSensorNo := "cInBG3883",
stInOutSensor := "DB_Inputs".Sensors["cInBG3883"]);
// in Separator 13 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3884",
nInSensorNo := "cInBG3884",
stInOutSensor := "DB_Inputs".Sensors["cInBG3884"]);
// in Separator 14 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3885",
nInSensorNo := "cInBG3885",
stInOutSensor := "DB_Inputs".Sensors["cInBG3885"]);
// in Separator 15 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3886",
nInSensorNo := "cInBG3886",
stInOutSensor := "DB_Inputs".Sensors["cInBG3886"]);
// in Separator 16 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3887",
nInSensorNo := "cInBG3887",
stInOutSensor := "DB_Inputs".Sensors["cInBG3887"]);
// in Separator 17 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3890",
nInSensorNo := "cInBG3890",
stInOutSensor := "DB_Inputs".Sensors["cInBG3890"]);
// in Separator 18 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3891",
nInSensorNo := "cInBG3891",
stInOutSensor := "DB_Inputs".Sensors["cInBG3891"]);
// in Separator 19 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3892",
nInSensorNo := "cInBG3892",
stInOutSensor := "DB_Inputs".Sensors["cInBG3892"]);
// in Separator 20 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3893",
nInSensorNo := "cInBG3893",
stInOutSensor := "DB_Inputs".Sensors["cInBG3893"]);
// in Separator 21 (Block 1.2.3)
#fbSensorInput(stInSensorHW := "BG3894",
nInSensorNo := "cInBG3894",
stInOutSensor := "DB_Inputs".Sensors["cInBG3894"]);
// in Separator 1 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3900",
nInSensorNo := "cInBG3900",
stInOutSensor := "DB_Inputs".Sensors["cInBG3900"]);
// Staumelder, Einfahrt (ILS-CV M1208)
#fbSensorInput(stInSensorHW := "BG3901",
nInSensorNo := "cInBG3901",
stInOutSensor := "DB_Inputs".Sensors["cInBG3901"]);
// Stausensor 1 (KR-M1204 nach BT-Beladung)
#fbSensorInput(stInSensorHW := "BG3902",
nInSensorNo := "cInBG3902",
stInOutSensor := "DB_Inputs".Sensors["cInBG3902"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M1208)
#fbSensorInput(stInSensorHW := "BG3903",
nInSensorNo := "cInBG3903",
stInOutSensor := "DB_Inputs".Sensors["cInBG3903"]);
// in Separator 2 (ILS-CV M1208)
#fbSensorInput(stInSensorHW := "BG3904",
nInSensorNo := "cInBG3904",
stInOutSensor := "DB_Inputs".Sensors["cInBG3904"]);
// in Separator 3 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3905",
nInSensorNo := "cInBG3905",
stInOutSensor := "DB_Inputs".Sensors["cInBG3905"]);
// Stausensor 1 (M1204)
#fbSensorInput(stInSensorHW := "BG3906",
nInSensorNo := "cInBG3906",
stInOutSensor := "DB_Inputs".Sensors["cInBG3906"]);
// MT in Position (ILS-CV M1208)
#fbSensorInput(stInSensorHW := "BG3907",
nInSensorNo := "cInBG3907",
stInOutSensor := "DB_Inputs".Sensors["cInBG3907"]);
// Stausensor 2 (M2209)
#fbSensorInput(stInSensorHW := "BG3910",
nInSensorNo := "cInBG3910",
stInOutSensor := "DB_Inputs".Sensors["cInBG3910"]);
// Rad dreht (KR-M1204)
#fbSensorInput(stInSensorHW := "BG3911",
nInSensorNo := "cInBG3911",
stInOutSensor := "DB_Inputs".Sensors["cInBG3911"]);
// Stausensor (KR-M1204)
#fbSensorInput(stInSensorHW := "BG3912",
nInSensorNo := "cInBG3912",
stInOutSensor := "DB_Inputs".Sensors["cInBG3912"]);
// in Separator 1 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3930",
nInSensorNo := "cInBG3930",
stInOutSensor := "DB_Inputs".Sensors["cInBG3930"]);
// in Separator 2 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3931",
nInSensorNo := "cInBG3931",
stInOutSensor := "DB_Inputs".Sensors["cInBG3931"]);
// in Separator 3 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3932",
nInSensorNo := "cInBG3932",
stInOutSensor := "DB_Inputs".Sensors["cInBG3932"]);
// in Separator 4 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3933",
nInSensorNo := "cInBG3933",
stInOutSensor := "DB_Inputs".Sensors["cInBG3933"]);
// in Separator 5 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3934",
nInSensorNo := "cInBG3934",
stInOutSensor := "DB_Inputs".Sensors["cInBG3934"]);
// in Separator 6 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3935",
nInSensorNo := "cInBG3935",
stInOutSensor := "DB_Inputs".Sensors["cInBG3935"]);
// in Separator 7 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3936",
nInSensorNo := "cInBG3936",
stInOutSensor := "DB_Inputs".Sensors["cInBG3936"]);
// in Separator 8 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3937",
nInSensorNo := "cInBG3937",
stInOutSensor := "DB_Inputs".Sensors["cInBG3937"]);
// in Separator 9 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3940",
nInSensorNo := "cInBG3940",
stInOutSensor := "DB_Inputs".Sensors["cInBG3940"]);
// in Separator 10 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3941",
nInSensorNo := "cInBG3941",
stInOutSensor := "DB_Inputs".Sensors["cInBG3941"]);
// in Separator 11 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3942",
nInSensorNo := "cInBG3942",
stInOutSensor := "DB_Inputs".Sensors["cInBG3942"]);
// in Separator 12 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3943",
nInSensorNo := "cInBG3943",
stInOutSensor := "DB_Inputs".Sensors["cInBG3943"]);
// in Separator 13 (Block 1.2.4)
#fbSensorInput(stInSensorHW := "BG3944",
nInSensorNo := "cInBG3944",
stInOutSensor := "DB_Inputs".Sensors["cInBG3944"]);
// in Separator 1 (ILS-CV M1305)
#fbSensorInput(stInSensorHW := "BG3960",
nInSensorNo := "cInBG3960",
stInOutSensor := "DB_Inputs".Sensors["cInBG3960"]);
// Staumelder, Einfahrt (ILS-CV M1305)
#fbSensorInput(stInSensorHW := "BG3961",
nInSensorNo := "cInBG3961",
stInOutSensor := "DB_Inputs".Sensors["cInBG3961"]);
// Stausensor 1 (KR-M1301 nach BT-Beladung)
#fbSensorInput(stInSensorHW := "BG3962",
nInSensorNo := "cInBG3962",
stInOutSensor := "DB_Inputs".Sensors["cInBG3962"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M1305)
#fbSensorInput(stInSensorHW := "BG3963",
nInSensorNo := "cInBG3963",
stInOutSensor := "DB_Inputs".Sensors["cInBG3963"]);
// in Separator 2 (ILS-CV M1305)
#fbSensorInput(stInSensorHW := "BG3964",
nInSensorNo := "cInBG3964",
stInOutSensor := "DB_Inputs".Sensors["cInBG3964"]);
// in Separator (KR-M1301)
#fbSensorInput(stInSensorHW := "BG3965",
nInSensorNo := "cInBG3965",
stInOutSensor := "DB_Inputs".Sensors["cInBG3965"]);
// MT in Position (ILS-CV M1305)
#fbSensorInput(stInSensorHW := "BG3967",
nInSensorNo := "cInBG3967",
stInOutSensor := "DB_Inputs".Sensors["cInBG3967"]);
// in Separator 1 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG3990",
nInSensorNo := "cInBG3990",
stInOutSensor := "DB_Inputs".Sensors["cInBG3990"]);
// in Separator 2 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG3991",
nInSensorNo := "cInBG3991",
stInOutSensor := "DB_Inputs".Sensors["cInBG3991"]);
// in Separator 3 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG3992",
nInSensorNo := "cInBG3992",
stInOutSensor := "DB_Inputs".Sensors["cInBG3992"]);
// in Separator 4 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG3993",
nInSensorNo := "cInBG3993",
stInOutSensor := "DB_Inputs".Sensors["cInBG3993"]);
// in Separator 5 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG3994",
nInSensorNo := "cInBG3994",
stInOutSensor := "DB_Inputs".Sensors["cInBG3994"]);
// in Separator 6 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG3995",
nInSensorNo := "cInBG3995",
stInOutSensor := "DB_Inputs".Sensors["cInBG3995"]);
// in Separator 7 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG3996",
nInSensorNo := "cInBG3996",
stInOutSensor := "DB_Inputs".Sensors["cInBG3996"]);
// in Separator 8 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG3997",
nInSensorNo := "cInBG3997",
stInOutSensor := "DB_Inputs".Sensors["cInBG3997"]);
// in Separator 9 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4000",
nInSensorNo := "cInBG4000",
stInOutSensor := "DB_Inputs".Sensors["cInBG4000"]);
// in Separator 10 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4001",
nInSensorNo := "cInBG4001",
stInOutSensor := "DB_Inputs".Sensors["cInBG4001"]);
// in Separator 11 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4002",
nInSensorNo := "cInBG4002",
stInOutSensor := "DB_Inputs".Sensors["cInBG4002"]);
// in Separator 12 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4003",
nInSensorNo := "cInBG4003",
stInOutSensor := "DB_Inputs".Sensors["cInBG4003"]);
// in Separator 13 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4004",
nInSensorNo := "cInBG4004",
stInOutSensor := "DB_Inputs".Sensors["cInBG4004"]);
// in Separator 14 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4005",
nInSensorNo := "cInBG4005",
stInOutSensor := "DB_Inputs".Sensors["cInBG4005"]);
// in Separator 15 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4006",
nInSensorNo := "cInBG4006",
stInOutSensor := "DB_Inputs".Sensors["cInBG4006"]);
// in Separator 16 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4007",
nInSensorNo := "cInBG4007",
stInOutSensor := "DB_Inputs".Sensors["cInBG4007"]);
// in Separator 17 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4010",
nInSensorNo := "cInBG4010",
stInOutSensor := "DB_Inputs".Sensors["cInBG4010"]);
// in Separator 18 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4011",
nInSensorNo := "cInBG4011",
stInOutSensor := "DB_Inputs".Sensors["cInBG4011"]);
// In Separator 19 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4012",
nInSensorNo := "cInBG4012",
stInOutSensor := "DB_Inputs".Sensors["cInBG4012"]);
// in Separator 1 (ILS-KR M1301)
#fbSensorInput(stInSensorHW := "BG4020",
nInSensorNo := "cInBG4020",
stInOutSensor := "DB_Inputs".Sensors["cInBG4020"]);
// Staumelder, Einfahrt (ILS-CV M1306)
#fbSensorInput(stInSensorHW := "BG4021",
nInSensorNo := "cInBG4021",
stInOutSensor := "DB_Inputs".Sensors["cInBG4021"]);
// Stausensor 1 (KR-M1301 nach BT-Beladung)
#fbSensorInput(stInSensorHW := "BG4022",
nInSensorNo := "cInBG4022",
stInOutSensor := "DB_Inputs".Sensors["cInBG4022"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M1306)
#fbSensorInput(stInSensorHW := "BG4023",
nInSensorNo := "cInBG4023",
stInOutSensor := "DB_Inputs".Sensors["cInBG4023"]);
// in Separator 2 (ILS-CV M1306)
#fbSensorInput(stInSensorHW := "BG4024",
nInSensorNo := "cInBG4024",
stInOutSensor := "DB_Inputs".Sensors["cInBG4024"]);
// Stausensor 3 (KR-M1301)
#fbSensorInput(stInSensorHW := "BG4025",
nInSensorNo := "cInBG4025",
stInOutSensor := "DB_Inputs".Sensors["cInBG4025"]);
// Rad dreht (KR-M1301)
#fbSensorInput(stInSensorHW := "BG4026",
nInSensorNo := "cInBG4026",
stInOutSensor := "DB_Inputs".Sensors["cInBG4026"]);
// MT in Position (ILS-CV M1306)
#fbSensorInput(stInSensorHW := "BG4027",
nInSensorNo := "cInBG4027",
stInOutSensor := "DB_Inputs".Sensors["cInBG4027"]);
// in Separator 1 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4050",
nInSensorNo := "cInBG4050",
stInOutSensor := "DB_Inputs".Sensors["cInBG4050"]);
// in Separator 2 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4051",
nInSensorNo := "cInBG4051",
stInOutSensor := "DB_Inputs".Sensors["cInBG4051"]);
// in Separator 3 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4052",
nInSensorNo := "cInBG4052",
stInOutSensor := "DB_Inputs".Sensors["cInBG4052"]);
// in Separator 4 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4053",
nInSensorNo := "cInBG4053",
stInOutSensor := "DB_Inputs".Sensors["cInBG4053"]);
// in Separator 5 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4054",
nInSensorNo := "cInBG4054",
stInOutSensor := "DB_Inputs".Sensors["cInBG4054"]);
// in Separator 6 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4055",
nInSensorNo := "cInBG4055",
stInOutSensor := "DB_Inputs".Sensors["cInBG4055"]);
// in Separator 7 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4056",
nInSensorNo := "cInBG4056",
stInOutSensor := "DB_Inputs".Sensors["cInBG4056"]);
// in Separator 8 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4057",
nInSensorNo := "cInBG4057",
stInOutSensor := "DB_Inputs".Sensors["cInBG4057"]);
// in Separator 9 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4060",
nInSensorNo := "cInBG4060",
stInOutSensor := "DB_Inputs".Sensors["cInBG4060"]);
// in Separator 10 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4061",
nInSensorNo := "cInBG4061",
stInOutSensor := "DB_Inputs".Sensors["cInBG4061"]);
// in Separator 11 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4062",
nInSensorNo := "cInBG4062",
stInOutSensor := "DB_Inputs".Sensors["cInBG4062"]);
// in Separator 12 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4063",
nInSensorNo := "cInBG4063",
stInOutSensor := "DB_Inputs".Sensors["cInBG4063"]);
// in Separator 13 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4064",
nInSensorNo := "cInBG4064",
stInOutSensor := "DB_Inputs".Sensors["cInBG4064"]);
// in Separator 14 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4065",
nInSensorNo := "cInBG4065",
stInOutSensor := "DB_Inputs".Sensors["cInBG4065"]);
// in Separator 15 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4066",
nInSensorNo := "cInBG4066",
stInOutSensor := "DB_Inputs".Sensors["cInBG4066"]);
// in Separator 16 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4067",
nInSensorNo := "cInBG4067",
stInOutSensor := "DB_Inputs".Sensors["cInBG4067"]);
// in Separator 17 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4070",
nInSensorNo := "cInBG4070",
stInOutSensor := "DB_Inputs".Sensors["cInBG4070"]);
// in Separator 1 (ILS-CV M1302)
#fbSensorInput(stInSensorHW := "BG4080",
nInSensorNo := "cInBG4080",
stInOutSensor := "DB_Inputs".Sensors["cInBG4080"]);
// Staumelder, Einfahrt (ILS-CV M1307)
#fbSensorInput(stInSensorHW := "BG4081",
nInSensorNo := "cInBG4081",
stInOutSensor := "DB_Inputs".Sensors["cInBG4081"]);
// Stausensor 1 (KR-M1302 nach BT-Beladung)
#fbSensorInput(stInSensorHW := "BG4082",
nInSensorNo := "cInBG4082",
stInOutSensor := "DB_Inputs".Sensors["cInBG4082"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M1307)
#fbSensorInput(stInSensorHW := "BG4083",
nInSensorNo := "cInBG4083",
stInOutSensor := "DB_Inputs".Sensors["cInBG4083"]);
// in Separator 2 (ILS-CV M1307)
#fbSensorInput(stInSensorHW := "BG4084",
nInSensorNo := "cInBG4084",
stInOutSensor := "DB_Inputs".Sensors["cInBG4084"]);
// in Separator 3 (ILS-KR-M1302)
#fbSensorInput(stInSensorHW := "BG4085",
nInSensorNo := "cInBG4085",
stInOutSensor := "DB_Inputs".Sensors["cInBG4085"]);
// MT in Position (ILS-CV M1307)
#fbSensorInput(stInSensorHW := "BG4087",
nInSensorNo := "cInBG4087",
stInOutSensor := "DB_Inputs".Sensors["cInBG4087"]);
// Stausensor (ILS-KR-M1302)
#fbSensorInput(stInSensorHW := "BG4090",
nInSensorNo := "cInBG4090",
stInOutSensor := "DB_Inputs".Sensors["cInBG4090"]);
// Stausensor (ILS-KR-M2309)
#fbSensorInput(stInSensorHW := "BG4091",
nInSensorNo := "cInBG4091",
stInOutSensor := "DB_Inputs".Sensors["cInBG4091"]);
// in Separator 1 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4110",
nInSensorNo := "cInBG4110",
stInOutSensor := "DB_Inputs".Sensors["cInBG4110"]);
// in Separator 2 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4111",
nInSensorNo := "cInBG4111",
stInOutSensor := "DB_Inputs".Sensors["cInBG4111"]);
// in Separator 3 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4112",
nInSensorNo := "cInBG4112",
stInOutSensor := "DB_Inputs".Sensors["cInBG4112"]);
// in Separator 4 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4113",
nInSensorNo := "cInBG4113",
stInOutSensor := "DB_Inputs".Sensors["cInBG4113"]);
// in Separator 5 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4114",
nInSensorNo := "cInBG4114",
stInOutSensor := "DB_Inputs".Sensors["cInBG4114"]);
// in Separator 6 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4115",
nInSensorNo := "cInBG4115",
stInOutSensor := "DB_Inputs".Sensors["cInBG4115"]);
// in Separator 7 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4116",
nInSensorNo := "cInBG4116",
stInOutSensor := "DB_Inputs".Sensors["cInBG4116"]);
// in Separator 8 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4117",
nInSensorNo := "cInBG4117",
stInOutSensor := "DB_Inputs".Sensors["cInBG4117"]);
// in Separator 9 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4120",
nInSensorNo := "cInBG4120",
stInOutSensor := "DB_Inputs".Sensors["cInBG4120"]);
// in Separator 10 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4121",
nInSensorNo := "cInBG4121",
stInOutSensor := "DB_Inputs".Sensors["cInBG4121"]);
// in Separator 11 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4122",
nInSensorNo := "cInBG4122",
stInOutSensor := "DB_Inputs".Sensors["cInBG4122"]);
// in Separator 12 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4123",
nInSensorNo := "cInBG4123",
stInOutSensor := "DB_Inputs".Sensors["cInBG4123"]);
// in Separator 13 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4124",
nInSensorNo := "cInBG4124",
stInOutSensor := "DB_Inputs".Sensors["cInBG4124"]);
// in Separator 14 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4125",
nInSensorNo := "cInBG4125",
stInOutSensor := "DB_Inputs".Sensors["cInBG4125"]);
// in Separator 15 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4126",
nInSensorNo := "cInBG4126",
stInOutSensor := "DB_Inputs".Sensors["cInBG4126"]);
// in Separator 16 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4127",
nInSensorNo := "cInBG4127",
stInOutSensor := "DB_Inputs".Sensors["cInBG4127"]);
// in Separator 17 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4130",
nInSensorNo := "cInBG4130",
stInOutSensor := "DB_Inputs".Sensors["cInBG4130"]);
// in Separator 18 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4131",
nInSensorNo := "cInBG4131",
stInOutSensor := "DB_Inputs".Sensors["cInBG4131"]);
// in Separator 19 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4132",
nInSensorNo := "cInBG4132",
stInOutSensor := "DB_Inputs".Sensors["cInBG4132"]);
// in Separator 20 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4133",
nInSensorNo := "cInBG4133",
stInOutSensor := "DB_Inputs".Sensors["cInBG4133"]);
// in Separator 21 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4134",
nInSensorNo := "cInBG4134",
stInOutSensor := "DB_Inputs".Sensors["cInBG4134"]);
// in Separator 1 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4140",
nInSensorNo := "cInBG4140",
stInOutSensor := "DB_Inputs".Sensors["cInBG4140"]);
// Staumelder, Einfahrt (ILS-CV M1308)
#fbSensorInput(stInSensorHW := "BG4141",
nInSensorNo := "cInBG4141",
stInOutSensor := "DB_Inputs".Sensors["cInBG4141"]);
// Stausensor 1 (KR-M1302 nach BT-Beladung)
#fbSensorInput(stInSensorHW := "BG4142",
nInSensorNo := "cInBG4142",
stInOutSensor := "DB_Inputs".Sensors["cInBG4142"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M1308)
#fbSensorInput(stInSensorHW := "BG4143",
nInSensorNo := "cInBG4143",
stInOutSensor := "DB_Inputs".Sensors["cInBG4143"]);
// in Separator 2 (ILS-CV M1308)
#fbSensorInput(stInSensorHW := "BG4144",
nInSensorNo := "cInBG4144",
stInOutSensor := "DB_Inputs".Sensors["cInBG4144"]);
// MT in Position (ILS-CV M1308)
#fbSensorInput(stInSensorHW := "BG4147",
nInSensorNo := "cInBG4147",
stInOutSensor := "DB_Inputs".Sensors["cInBG4147"]);
// Rad dreht (KR-M1302)
#fbSensorInput(stInSensorHW := "BG4150",
nInSensorNo := "cInBG4150",
stInOutSensor := "DB_Inputs".Sensors["cInBG4150"]);
// in Separator 1 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4170",
nInSensorNo := "cInBG4170",
stInOutSensor := "DB_Inputs".Sensors["cInBG4170"]);
// in Separator 2 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4171",
nInSensorNo := "cInBG4171",
stInOutSensor := "DB_Inputs".Sensors["cInBG4171"]);
// in Separator 3 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4172",
nInSensorNo := "cInBG4172",
stInOutSensor := "DB_Inputs".Sensors["cInBG4172"]);
// in Separator 4 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4173",
nInSensorNo := "cInBG4173",
stInOutSensor := "DB_Inputs".Sensors["cInBG4173"]);
// in Separator 5 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4174",
nInSensorNo := "cInBG4174",
stInOutSensor := "DB_Inputs".Sensors["cInBG4174"]);
// in Separator 6 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4175",
nInSensorNo := "cInBG4175",
stInOutSensor := "DB_Inputs".Sensors["cInBG4175"]);
// in Separator 7 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4176",
nInSensorNo := "cInBG4176",
stInOutSensor := "DB_Inputs".Sensors["cInBG4176"]);
// in Separator 8 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4177",
nInSensorNo := "cInBG4177",
stInOutSensor := "DB_Inputs".Sensors["cInBG4177"]);
// in Separator 9 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4180",
nInSensorNo := "cInBG4180",
stInOutSensor := "DB_Inputs".Sensors["cInBG4180"]);
// in Separator 10 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4181",
nInSensorNo := "cInBG4181",
stInOutSensor := "DB_Inputs".Sensors["cInBG4181"]);
// in Separator 11 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4182",
nInSensorNo := "cInBG4182",
stInOutSensor := "DB_Inputs".Sensors["cInBG4182"]);
// in Separator 12 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4183",
nInSensorNo := "cInBG4183",
stInOutSensor := "DB_Inputs".Sensors["cInBG4183"]);
// in Separator 13 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4184",
nInSensorNo := "cInBG4184",
stInOutSensor := "DB_Inputs".Sensors["cInBG4184"]);
// in Separator 2 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4200",
nInSensorNo := "cInBG4200",
stInOutSensor := "DB_Inputs".Sensors["cInBG4200"]);
// Pin Abfrage (KR-M1303 ) Block 1.3.1
#fbSensorInput(stInSensorHW := "BG4201",
nInSensorNo := "cInBG4201",
stInOutSensor := "DB_Inputs".Sensors["cInBG4201"]);
// Prüfung MT Pos.1 (KR-K1303 Einfahrt Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4202",
nInSensorNo := "cInBG4202",
stInOutSensor := "DB_Inputs".Sensors["cInBG4202"]);
// Stausensor (KR-M1303)
#fbSensorInput(stInSensorHW := "BG4203",
nInSensorNo := "cInBG4203",
stInOutSensor := "DB_Inputs".Sensors["cInBG4203"]);
// in Separator 1 (ILS-CV 1305)
#fbSensorInput(stInSensorHW := "BG4204",
nInSensorNo := "cInBG4204",
stInOutSensor := "DB_Inputs".Sensors["cInBG4204"]);
// Stausensor Str.1 (KR-K1305)
#fbSensorInput(stInSensorHW := "BG4205",
nInSensorNo := "cInBG4205",
stInOutSensor := "DB_Inputs".Sensors["cInBG4205"]);
// Sensor Förderer voll (ILS-CV 1305)
#fbSensorInput(stInSensorHW := "BG4206",
nInSensorNo := "cInBG4206",
stInOutSensor := "DB_Inputs".Sensors["cInBG4206"]);
// Prüfung MT Pos.2 (KR-K1303 Einfahrt Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4207",
nInSensorNo := "cInBG4207",
stInOutSensor := "DB_Inputs".Sensors["cInBG4207"]);
// Prüfung MT Pos.3 (KR-K1303 Einfahrt Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4210",
nInSensorNo := "cInBG4210",
stInOutSensor := "DB_Inputs".Sensors["cInBG4210"]);
// Prüfung MT Pos.4 (KR-K1303 Einfahrt Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4211",
nInSensorNo := "cInBG4211",
stInOutSensor := "DB_Inputs".Sensors["cInBG4211"]);
// Prüfung MT Pos.5 (KR-K1303 Einfahrt Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4212",
nInSensorNo := "cInBG4212",
stInOutSensor := "DB_Inputs".Sensors["cInBG4212"]);
// Stausensor Str.1 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4230",
nInSensorNo := "cInBG4230",
stInOutSensor := "DB_Inputs".Sensors["cInBG4230"]);
// Stausensor Str.2 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4231",
nInSensorNo := "cInBG4231",
stInOutSensor := "DB_Inputs".Sensors["cInBG4231"]);
// Stausensor Str.3 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4232",
nInSensorNo := "cInBG4232",
stInOutSensor := "DB_Inputs".Sensors["cInBG4232"]);
// Stausensor Str.4 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4233",
nInSensorNo := "cInBG4233",
stInOutSensor := "DB_Inputs".Sensors["cInBG4233"]);
// Stausensor Str.5 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4234",
nInSensorNo := "cInBG4234",
stInOutSensor := "DB_Inputs".Sensors["cInBG4234"]);
// Stausensor Str.6 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4235",
nInSensorNo := "cInBG4235",
stInOutSensor := "DB_Inputs".Sensors["cInBG4235"]);
// Stausensor Str.7 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4236",
nInSensorNo := "cInBG4236",
stInOutSensor := "DB_Inputs".Sensors["cInBG4236"]);
// Stausensor Str.8 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4237",
nInSensorNo := "cInBG4237",
stInOutSensor := "DB_Inputs".Sensors["cInBG4237"]);
// Stausensor Str.9 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4240",
nInSensorNo := "cInBG4240",
stInOutSensor := "DB_Inputs".Sensors["cInBG4240"]);
// Stausensor Str.10 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4241",
nInSensorNo := "cInBG4241",
stInOutSensor := "DB_Inputs".Sensors["cInBG4241"]);
// Stausensor Str.11 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4242",
nInSensorNo := "cInBG4242",
stInOutSensor := "DB_Inputs".Sensors["cInBG4242"]);
// Stausensor Str.12 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4243",
nInSensorNo := "cInBG4243",
stInOutSensor := "DB_Inputs".Sensors["cInBG4243"]);
// Stausensor Str.13 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4244",
nInSensorNo := "cInBG4244",
stInOutSensor := "DB_Inputs".Sensors["cInBG4244"]);
// Stausensor Str.14 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4245",
nInSensorNo := "cInBG4245",
stInOutSensor := "DB_Inputs".Sensors["cInBG4245"]);
// Stausensor Str.15 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4246",
nInSensorNo := "cInBG4246",
stInOutSensor := "DB_Inputs".Sensors["cInBG4246"]);
// Stausensor Str.16 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4247",
nInSensorNo := "cInBG4247",
stInOutSensor := "DB_Inputs".Sensors["cInBG4247"]);
// Stausensor Str.17 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4250",
nInSensorNo := "cInBG4250",
stInOutSensor := "DB_Inputs".Sensors["cInBG4250"]);
// Stausensor Str.18 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4251",
nInSensorNo := "cInBG4251",
stInOutSensor := "DB_Inputs".Sensors["cInBG4251"]);
// Stausensor Str.19 (Block 1.3.1)
#fbSensorInput(stInSensorHW := "BG4252",
nInSensorNo := "cInBG4252",
stInOutSensor := "DB_Inputs".Sensors["cInBG4252"]);
// in Separator 2 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4260",
nInSensorNo := "cInBG4260",
stInOutSensor := "DB_Inputs".Sensors["cInBG4260"]);
// Pin Abfrage (KR-M1303 ) Block 1.3.2
#fbSensorInput(stInSensorHW := "BG4261",
nInSensorNo := "cInBG4261",
stInOutSensor := "DB_Inputs".Sensors["cInBG4261"]);
// Prüfung MT Pos.1 (KR-K1303 Einfahrt Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4262",
nInSensorNo := "cInBG4262",
stInOutSensor := "DB_Inputs".Sensors["cInBG4262"]);
// Stausensor (KR-M1303)
#fbSensorInput(stInSensorHW := "BG4263",
nInSensorNo := "cInBG4263",
stInOutSensor := "DB_Inputs".Sensors["cInBG4263"]);
// in Separator 1 (ILS-CV M1306)
#fbSensorInput(stInSensorHW := "BG4264",
nInSensorNo := "cInBG4264",
stInOutSensor := "DB_Inputs".Sensors["cInBG4264"]);
// Stausensor Str.1 (ILS-CV M1306)
#fbSensorInput(stInSensorHW := "BG4265",
nInSensorNo := "cInBG4265",
stInOutSensor := "DB_Inputs".Sensors["cInBG4265"]);
// Sensor Förderer voll (ILS-CV M1306)
#fbSensorInput(stInSensorHW := "BG4266",
nInSensorNo := "cInBG4266",
stInOutSensor := "DB_Inputs".Sensors["cInBG4266"]);
// Prüfung MT Pos.2 (KR-K1303 Einfahrt Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4267",
nInSensorNo := "cInBG4267",
stInOutSensor := "DB_Inputs".Sensors["cInBG4267"]);
// Prüfung MT Pos.3 (KR-K1303 Einfahrt Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4270",
nInSensorNo := "cInBG4270",
stInOutSensor := "DB_Inputs".Sensors["cInBG4270"]);
// Prüfung MT Pos.4 (KR-K1303 Einfahrt Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4271",
nInSensorNo := "cInBG4271",
stInOutSensor := "DB_Inputs".Sensors["cInBG4271"]);
// Prüfung MT Pos.5 (KR-K1303 Einfahrt Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4272",
nInSensorNo := "cInBG4272",
stInOutSensor := "DB_Inputs".Sensors["cInBG4272"]);
// Stausensor MT vor Pinband (KR-K1303) Block 1.3.2
#fbSensorInput(stInSensorHW := "BG4273",
nInSensorNo := "cInBG4273",
stInOutSensor := "DB_Inputs".Sensors["cInBG4273"]);
// Stausensor Str.1 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4290",
nInSensorNo := "cInBG4290",
stInOutSensor := "DB_Inputs".Sensors["cInBG4290"]);
// Stausensor Str.2 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4291",
nInSensorNo := "cInBG4291",
stInOutSensor := "DB_Inputs".Sensors["cInBG4291"]);
// Stausensor Str.3 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4292",
nInSensorNo := "cInBG4292",
stInOutSensor := "DB_Inputs".Sensors["cInBG4292"]);
// Stausensor Str.4 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4293",
nInSensorNo := "cInBG4293",
stInOutSensor := "DB_Inputs".Sensors["cInBG4293"]);
// Stausensor Str.5 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4294",
nInSensorNo := "cInBG4294",
stInOutSensor := "DB_Inputs".Sensors["cInBG4294"]);
// Stausensor Str.6 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4295",
nInSensorNo := "cInBG4295",
stInOutSensor := "DB_Inputs".Sensors["cInBG4295"]);
// Stausensor Str.7 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4296",
nInSensorNo := "cInBG4296",
stInOutSensor := "DB_Inputs".Sensors["cInBG4296"]);
// Stausensor Str.8 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4297",
nInSensorNo := "cInBG4297",
stInOutSensor := "DB_Inputs".Sensors["cInBG4297"]);
// Stausensor Str.9 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4300",
nInSensorNo := "cInBG4300",
stInOutSensor := "DB_Inputs".Sensors["cInBG4300"]);
// Stausensor Str.10 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4301",
nInSensorNo := "cInBG4301",
stInOutSensor := "DB_Inputs".Sensors["cInBG4301"]);
// Stausensor Str.11 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4302",
nInSensorNo := "cInBG4302",
stInOutSensor := "DB_Inputs".Sensors["cInBG4302"]);
// Stausensor Str.12 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4303",
nInSensorNo := "cInBG4303",
stInOutSensor := "DB_Inputs".Sensors["cInBG4303"]);
// Stausensor Str.13 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4304",
nInSensorNo := "cInBG4304",
stInOutSensor := "DB_Inputs".Sensors["cInBG4304"]);
// Stausensor Str.14 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4305",
nInSensorNo := "cInBG4305",
stInOutSensor := "DB_Inputs".Sensors["cInBG4305"]);
// Stausensor Str.15 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4306",
nInSensorNo := "cInBG4306",
stInOutSensor := "DB_Inputs".Sensors["cInBG4306"]);
// Stausensor Str.16 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4307",
nInSensorNo := "cInBG4307",
stInOutSensor := "DB_Inputs".Sensors["cInBG4307"]);
// Stausensor Str.17 (Block 1.3.2)
#fbSensorInput(stInSensorHW := "BG4310",
nInSensorNo := "cInBG4310",
stInOutSensor := "DB_Inputs".Sensors["cInBG4310"]);
// in Separator 2 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4320",
nInSensorNo := "cInBG4320",
stInOutSensor := "DB_Inputs".Sensors["cInBG4320"]);
// Pin Abfrage (KR-M1304) Block 1.3.3
#fbSensorInput(stInSensorHW := "BG4321",
nInSensorNo := "cInBG4321",
stInOutSensor := "DB_Inputs".Sensors["cInBG4321"]);
// Prüfung MT Pos.1 (KR-K1304 Einfahrt Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4322",
nInSensorNo := "cInBG4322",
stInOutSensor := "DB_Inputs".Sensors["cInBG4322"]);
// Stausensor (KR-M1304)
#fbSensorInput(stInSensorHW := "BG4323",
nInSensorNo := "cInBG4323",
stInOutSensor := "DB_Inputs".Sensors["cInBG4323"]);
// in Separator 1 (ILS-CV M1307)
#fbSensorInput(stInSensorHW := "BG4324",
nInSensorNo := "cInBG4324",
stInOutSensor := "DB_Inputs".Sensors["cInBG4324"]);
// Stausensor Str.1 (ILS-CV M1307)
#fbSensorInput(stInSensorHW := "BG4325",
nInSensorNo := "cInBG4325",
stInOutSensor := "DB_Inputs".Sensors["cInBG4325"]);
// Sensor Förderer voll (ILS-CV 1307)
#fbSensorInput(stInSensorHW := "BG4326",
nInSensorNo := "cInBG4326",
stInOutSensor := "DB_Inputs".Sensors["cInBG4326"]);
// Prüfung MT Pos.2 (KR-K1304 Einfahrt Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4327",
nInSensorNo := "cInBG4327",
stInOutSensor := "DB_Inputs".Sensors["cInBG4327"]);
// Prüfung MT Pos.3 (KR-K1304 Einfahrt Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4330",
nInSensorNo := "cInBG4330",
stInOutSensor := "DB_Inputs".Sensors["cInBG4330"]);
// Prüfung MT Pos.4 (KR-K1304 Einfahrt Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4331",
nInSensorNo := "cInBG4331",
stInOutSensor := "DB_Inputs".Sensors["cInBG4331"]);
// Prüfung MT Pos.5 (KR-K1304 Einfahrt Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4332",
nInSensorNo := "cInBG4332",
stInOutSensor := "DB_Inputs".Sensors["cInBG4332"]);
// Prüfung MT Pos.6 (KR-K1304 Einfahrt Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4333",
nInSensorNo := "cInBG4333",
stInOutSensor := "DB_Inputs".Sensors["cInBG4333"]);
// in Separator (ILS-CV-M1309)
#fbSensorInput(stInSensorHW := "BG4334",
nInSensorNo := "cInBG4334",
stInOutSensor := "DB_Inputs".Sensors["cInBG4334"]);
// Stausensor (M1309)
#fbSensorInput(stInSensorHW := "BG4335",
nInSensorNo := "cInBG4335",
stInOutSensor := "DB_Inputs".Sensors["cInBG4335"]);
// Sensor Förderer voll (ILS-CV M1309)
#fbSensorInput(stInSensorHW := "BG4336",
nInSensorNo := "cInBG4336",
stInOutSensor := "DB_Inputs".Sensors["cInBG4336"]);
// in Separator 1 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4337",
nInSensorNo := "cInBG4337",
stInOutSensor := "DB_Inputs".Sensors["cInBG4337"]);
// Stausensor 1 (KR-M1304)
#fbSensorInput(stInSensorHW := "BG4340",
nInSensorNo := "cInBG4340",
stInOutSensor := "DB_Inputs".Sensors["cInBG4340"]);
// in Separator (ILS-CV M1309)
#fbSensorInput(stInSensorHW := "BG4342",
nInSensorNo := "cInBG4342",
stInOutSensor := "DB_Inputs".Sensors["cInBG4342"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M1309)
#fbSensorInput(stInSensorHW := "BG4343",
nInSensorNo := "cInBG4343",
stInOutSensor := "DB_Inputs".Sensors["cInBG4343"]);
// MT in Position (ILS-CV M1309)
#fbSensorInput(stInSensorHW := "BG4344",
nInSensorNo := "cInBG4344",
stInOutSensor := "DB_Inputs".Sensors["cInBG4344"]);
// Stausensor Str.1 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4350",
nInSensorNo := "cInBG4350",
stInOutSensor := "DB_Inputs".Sensors["cInBG4350"]);
// Stausensor Str.2 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4351",
nInSensorNo := "cInBG4351",
stInOutSensor := "DB_Inputs".Sensors["cInBG4351"]);
// Stausensor Str.3 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4352",
nInSensorNo := "cInBG4352",
stInOutSensor := "DB_Inputs".Sensors["cInBG4352"]);
// Stausensor Str.4 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4353",
nInSensorNo := "cInBG4353",
stInOutSensor := "DB_Inputs".Sensors["cInBG4353"]);
// Stausensor Str.5 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4354",
nInSensorNo := "cInBG4354",
stInOutSensor := "DB_Inputs".Sensors["cInBG4354"]);
// Stausensor Str.6 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4355",
nInSensorNo := "cInBG4355",
stInOutSensor := "DB_Inputs".Sensors["cInBG4355"]);
// Stausensor Str.7 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4356",
nInSensorNo := "cInBG4356",
stInOutSensor := "DB_Inputs".Sensors["cInBG4356"]);
// Stausensor Str.8 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4357",
nInSensorNo := "cInBG4357",
stInOutSensor := "DB_Inputs".Sensors["cInBG4357"]);
// Stausensor Str.9 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4360",
nInSensorNo := "cInBG4360",
stInOutSensor := "DB_Inputs".Sensors["cInBG4360"]);
// Stausensor Str.10 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4361",
nInSensorNo := "cInBG4361",
stInOutSensor := "DB_Inputs".Sensors["cInBG4361"]);
// Stausensor Str.11 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4362",
nInSensorNo := "cInBG4362",
stInOutSensor := "DB_Inputs".Sensors["cInBG4362"]);
// Stausensor Str.12 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4363",
nInSensorNo := "cInBG4363",
stInOutSensor := "DB_Inputs".Sensors["cInBG4363"]);
// Stausensor Str.13 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4364",
nInSensorNo := "cInBG4364",
stInOutSensor := "DB_Inputs".Sensors["cInBG4364"]);
// Stausensor Str.14 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4365",
nInSensorNo := "cInBG4365",
stInOutSensor := "DB_Inputs".Sensors["cInBG4365"]);
// Stausensor Str.15 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4366",
nInSensorNo := "cInBG4366",
stInOutSensor := "DB_Inputs".Sensors["cInBG4366"]);
// Stausensor Str.16 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4367",
nInSensorNo := "cInBG4367",
stInOutSensor := "DB_Inputs".Sensors["cInBG4367"]);
// Stausensor Str.17 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4370",
nInSensorNo := "cInBG4370",
stInOutSensor := "DB_Inputs".Sensors["cInBG4370"]);
// Stausensor Str.18 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4371",
nInSensorNo := "cInBG4371",
stInOutSensor := "DB_Inputs".Sensors["cInBG4371"]);
// Stausensor Str.19 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4372",
nInSensorNo := "cInBG4372",
stInOutSensor := "DB_Inputs".Sensors["cInBG4372"]);
// Stausensor Str.20 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4373",
nInSensorNo := "cInBG4373",
stInOutSensor := "DB_Inputs".Sensors["cInBG4373"]);
// Stausensor Str.21 (Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4374",
nInSensorNo := "cInBG4374",
stInOutSensor := "DB_Inputs".Sensors["cInBG4374"]);
// Stausensor MT vor Pinband (KR-K1304) Block 1.3.3)
#fbSensorInput(stInSensorHW := "BG4375",
nInSensorNo := "cInBG4375",
stInOutSensor := "DB_Inputs".Sensors["cInBG4375"]);
// in Separator 2 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4380",
nInSensorNo := "cInBG4380",
stInOutSensor := "DB_Inputs".Sensors["cInBG4380"]);
// Pin Abfrage (KR-M1304) Block 1.3.4
#fbSensorInput(stInSensorHW := "BG4381",
nInSensorNo := "cInBG4381",
stInOutSensor := "DB_Inputs".Sensors["cInBG4381"]);
// Prüfung MT Pos.1 (KR-K1304 Einfahrt Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4382",
nInSensorNo := "cInBG4382",
stInOutSensor := "DB_Inputs".Sensors["cInBG4382"]);
// Stausensor (KR-M1304)
#fbSensorInput(stInSensorHW := "BG4383",
nInSensorNo := "cInBG4383",
stInOutSensor := "DB_Inputs".Sensors["cInBG4383"]);
// in Separator 1 (ILS-CV M1308)
#fbSensorInput(stInSensorHW := "BG4384",
nInSensorNo := "cInBG4384",
stInOutSensor := "DB_Inputs".Sensors["cInBG4384"]);
// Stausensor Str.1 (ILS-CV M1308)
#fbSensorInput(stInSensorHW := "BG4385",
nInSensorNo := "cInBG4385",
stInOutSensor := "DB_Inputs".Sensors["cInBG4385"]);
// Sensor Förderer voll (ILS-CV M1308)
#fbSensorInput(stInSensorHW := "BG4386",
nInSensorNo := "cInBG4386",
stInOutSensor := "DB_Inputs".Sensors["cInBG4386"]);
// Prüfung MT Pos.2 (KR-K1304 Einfahrt Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4387",
nInSensorNo := "cInBG4387",
stInOutSensor := "DB_Inputs".Sensors["cInBG4387"]);
// Prüfung MT Pos.3 (KR-K1304 Einfahrt Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4390",
nInSensorNo := "cInBG4390",
stInOutSensor := "DB_Inputs".Sensors["cInBG4390"]);
// Prüfung MT Pos.4 (KR-K1304 Einfahrt Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4391",
nInSensorNo := "cInBG4391",
stInOutSensor := "DB_Inputs".Sensors["cInBG4391"]);
// Stausensor Str.1 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4410",
nInSensorNo := "cInBG4410",
stInOutSensor := "DB_Inputs".Sensors["cInBG4410"]);
// Stausensor Str.2 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4411",
nInSensorNo := "cInBG4411",
stInOutSensor := "DB_Inputs".Sensors["cInBG4411"]);
// Stausensor Str.3 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4412",
nInSensorNo := "cInBG4412",
stInOutSensor := "DB_Inputs".Sensors["cInBG4412"]);
// Stausensor Str.4 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4413",
nInSensorNo := "cInBG4413",
stInOutSensor := "DB_Inputs".Sensors["cInBG4413"]);
// Stausensor Str.5 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4414",
nInSensorNo := "cInBG4414",
stInOutSensor := "DB_Inputs".Sensors["cInBG4414"]);
// Stausensor Str.6 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4415",
nInSensorNo := "cInBG4415",
stInOutSensor := "DB_Inputs".Sensors["cInBG4415"]);
// Stausensor Str.7 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4416",
nInSensorNo := "cInBG4416",
stInOutSensor := "DB_Inputs".Sensors["cInBG4416"]);
// Stausensor Str.8 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4417",
nInSensorNo := "cInBG4417",
stInOutSensor := "DB_Inputs".Sensors["cInBG4417"]);
// Stausensor Str.9 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4420",
nInSensorNo := "cInBG4420",
stInOutSensor := "DB_Inputs".Sensors["cInBG4420"]);
// Stausensor Str.10 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4421",
nInSensorNo := "cInBG4421",
stInOutSensor := "DB_Inputs".Sensors["cInBG4421"]);
// Stausensor Str.11 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4422",
nInSensorNo := "cInBG4422",
stInOutSensor := "DB_Inputs".Sensors["cInBG4422"]);
// Stausensor Str.12 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4423",
nInSensorNo := "cInBG4423",
stInOutSensor := "DB_Inputs".Sensors["cInBG4423"]);
// Stausensor Str.13 (Block 1.3.4)
#fbSensorInput(stInSensorHW := "BG4424",
nInSensorNo := "cInBG4424",
stInOutSensor := "DB_Inputs".Sensors["cInBG4424"]);
// in Separator 2 (KR-M1100)
#fbSensorInput(stInSensorHW := "BG4440",
nInSensorNo := "cInBG4440",
stInOutSensor := "DB_Inputs".Sensors["cInBG4440"]);
// Stausensor (ILS-KR M1100)
#fbSensorInput(stInSensorHW := "BG4442",
nInSensorNo := "cInBG4442",
stInOutSensor := "DB_Inputs".Sensors["cInBG4442"]);
// Stausensor 7 (ILS-KR M1100)
#fbSensorInput(stInSensorHW := "BG4443",
nInSensorNo := "cInBG4443",
stInOutSensor := "DB_Inputs".Sensors["cInBG4443"]);
// Stausensor (ILS-CV M0520)
#fbSensorInput(stInSensorHW := "BG4444",
nInSensorNo := "cInBG4444",
stInOutSensor := "DB_Inputs".Sensors["cInBG4444"]);
// in Separator 1 (ILS-CV M1401)
#fbSensorInput(stInSensorHW := "BG4445",
nInSensorNo := "cInBG4445",
stInOutSensor := "DB_Inputs".Sensors["cInBG4445"]);
// Sensor Förderer voll (ILS-CV M1401)
#fbSensorInput(stInSensorHW := "BG4446",
nInSensorNo := "cInBG4446",
stInOutSensor := "DB_Inputs".Sensors["cInBG4446"]);
// Stausensor (ILS-CV M1401)
#fbSensorInput(stInSensorHW := "BG4447",
nInSensorNo := "cInBG4447",
stInOutSensor := "DB_Inputs".Sensors["cInBG4447"]);
// in Separator 3 (KR-M1100)
#fbSensorInput(stInSensorHW := "BG4451",
nInSensorNo := "cInBG4451",
stInOutSensor := "DB_Inputs".Sensors["cInBG4451"]);
// Stausensor 6 (ILS-KR M1100)
#fbSensorInput(stInSensorHW := "BG4453",
nInSensorNo := "cInBG4453",
stInOutSensor := "DB_Inputs".Sensors["cInBG4453"]);
// Stausensor 8 (ILS-KR M1100)
#fbSensorInput(stInSensorHW := "BG4454",
nInSensorNo := "cInBG4454",
stInOutSensor := "DB_Inputs".Sensors["cInBG4454"]);
// Stausensor (ILS-CV M0510)
#fbSensorInput(stInSensorHW := "BG4455",
nInSensorNo := "cInBG4455",
stInOutSensor := "DB_Inputs".Sensors["cInBG4455"]);
// in Separator 4 (KR-M1100)
#fbSensorInput(stInSensorHW := "BG4456",
nInSensorNo := "cInBG4456",
stInOutSensor := "DB_Inputs".Sensors["cInBG4456"]);
// Stausensor nach Separator MB4456 (ILS-KR M1100)
#fbSensorInput(stInSensorHW := "BG4457",
nInSensorNo := "cInBG4457",
stInOutSensor := "DB_Inputs".Sensors["cInBG4457"]);
// in Separator 2 (ILS-CV M1401)
#fbSensorInput(stInSensorHW := "BG4460",
nInSensorNo := "cInBG4460",
stInOutSensor := "DB_Inputs".Sensors["cInBG4460"]);
// MT in Position (ILS-CV M1401)
#fbSensorInput(stInSensorHW := "BG4461",
nInSensorNo := "cInBG4461",
stInOutSensor := "DB_Inputs".Sensors["cInBG4461"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M1401)
#fbSensorInput(stInSensorHW := "BG4462",
nInSensorNo := "cInBG4462",
stInOutSensor := "DB_Inputs".Sensors["cInBG4462"]);
// in Separator (ILS-CV M1100)
#fbSensorInput(stInSensorHW := "BG4500",
nInSensorNo := "cInBG4500",
stInOutSensor := "DB_Inputs".Sensors["cInBG4500"]);
// Stausensor 10 (KR-M1100)
#fbSensorInput(stInSensorHW := "BG4502",
nInSensorNo := "cInBG4502",
stInOutSensor := "DB_Inputs".Sensors["cInBG4502"]);
// Stausensor 11 (KR-M1100)
#fbSensorInput(stInSensorHW := "BG4503",
nInSensorNo := "cInBG4503",
stInOutSensor := "DB_Inputs".Sensors["cInBG4503"]);
// Stausensor 12 (KR-M1100)
#fbSensorInput(stInSensorHW := "BG4504",
nInSensorNo := "cInBG4504",
stInOutSensor := "DB_Inputs".Sensors["cInBG4504"]);
// in Separator 3 (KR-M1100)
#fbSensorInput(stInSensorHW := "BG4505",
nInSensorNo := "cInBG4505",
stInOutSensor := "DB_Inputs".Sensors["cInBG4505"]);
// Stausensor 2 (KR-M1100)
#fbSensorInput(stInSensorHW := "BG4507",
nInSensorNo := "cInBG4507",
stInOutSensor := "DB_Inputs".Sensors["cInBG4507"]);
// Rad dreht (KR-M1110)
#fbSensorInput(stInSensorHW := "BG4510",
nInSensorNo := "cInBG4510",
stInOutSensor := "DB_Inputs".Sensors["cInBG4510"]);
// in Separator (KR-M1100)
#fbSensorInput(stInSensorHW := "BG4512",
nInSensorNo := "cInBG4512",
stInOutSensor := "DB_Inputs".Sensors["cInBG4512"]);
// Stausensor 4 (CV-M1100)
#fbSensorInput(stInSensorHW := "BG4514",
nInSensorNo := "cInBG4514",
stInOutSensor := "DB_Inputs".Sensors["cInBG4514"]);
// Sensor Förderer voll (CV-M1501)
#fbSensorInput(stInSensorHW := "BG4520",
nInSensorNo := "cInBG4520",
stInOutSensor := "DB_Inputs".Sensors["cInBG4520"]);
// Stausensor (M1501)
#fbSensorInput(stInSensorHW := "BG4521",
nInSensorNo := "cInBG4521",
stInOutSensor := "DB_Inputs".Sensors["cInBG4521"]);
// in Separator (CV-M1501)
#fbSensorInput(stInSensorHW := "BG4522",
nInSensorNo := "cInBG4522",
stInOutSensor := "DB_Inputs".Sensors["cInBG4522"]);
// Sensor Förderer voll (CV-M1601)
#fbSensorInput(stInSensorHW := "BG4524",
nInSensorNo := "cInBG4524",
stInOutSensor := "DB_Inputs".Sensors["cInBG4524"]);
// Stausensor (CV-M1601)
#fbSensorInput(stInSensorHW := "BG4525",
nInSensorNo := "cInBG4525",
stInOutSensor := "DB_Inputs".Sensors["cInBG4525"]);
// in Separator (CV-M1601)
#fbSensorInput(stInSensorHW := "BG4526",
nInSensorNo := "cInBG4526",
stInOutSensor := "DB_Inputs".Sensors["cInBG4526"]);
// in Separator (ILS-CV M4701)
#fbSensorInput(stInSensorHW := "BG4530",
nInSensorNo := "cInBG4530",
stInOutSensor := "DB_Inputs".Sensors["cInBG4530"]);
// Abfrage Mitnehmerfinger in Position (CV M4701)
#fbSensorInput(stInSensorHW := "BG4531",
nInSensorNo := "cInBG4531",
stInOutSensor := "DB_Inputs".Sensors["cInBG4531"]);
// Stausensor (CV-M4701)
#fbSensorInput(stInSensorHW := "BG4532",
nInSensorNo := "cInBG4532",
stInOutSensor := "DB_Inputs".Sensors["cInBG4532"]);
// MT in Position (ILS-CV M4701)
#fbSensorInput(stInSensorHW := "BG4533",
nInSensorNo := "cInBG4533",
stInOutSensor := "DB_Inputs".Sensors["cInBG4533"]);
// Stausensor (ILS-CV M1801)
#fbSensorInput(stInSensorHW := "BG4534",
nInSensorNo := "cInBG4534",
stInOutSensor := "DB_Inputs".Sensors["cInBG4534"]);
// in Separator (ILS-CV M1801)
#fbSensorInput(stInSensorHW := "BG4535",
nInSensorNo := "cInBG4535",
stInOutSensor := "DB_Inputs".Sensors["cInBG4535"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M1801)
#fbSensorInput(stInSensorHW := "BG4536",
nInSensorNo := "cInBG4536",
stInOutSensor := "DB_Inputs".Sensors["cInBG4536"]);
// MT in Position (ILS-CV M1801)
#fbSensorInput(stInSensorHW := "BG4537",
nInSensorNo := "cInBG4537",
stInOutSensor := "DB_Inputs".Sensors["cInBG4537"]);
// in Separator 2 (ILS-CV M1401)
#fbSensorInput(stInSensorHW := "BG4540",
nInSensorNo := "cInBG4540",
stInOutSensor := "DB_Inputs".Sensors["cInBG4540"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M1501)
#fbSensorInput(stInSensorHW := "BG4541",
nInSensorNo := "cInBG4541",
stInOutSensor := "DB_Inputs".Sensors["cInBG4541"]);
// MT in Position (ILS-CV M1501)
#fbSensorInput(stInSensorHW := "BG4542",
nInSensorNo := "cInBG4542",
stInOutSensor := "DB_Inputs".Sensors["cInBG4542"]);
// in Separator 2 (ILS-CV M1401)
#fbSensorInput(stInSensorHW := "BG4543",
nInSensorNo := "cInBG4543",
stInOutSensor := "DB_Inputs".Sensors["cInBG4543"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M1601)
#fbSensorInput(stInSensorHW := "BG4544",
nInSensorNo := "cInBG4544",
stInOutSensor := "DB_Inputs".Sensors["cInBG4544"]);
// MT in Position (ILS-CV M1601)
#fbSensorInput(stInSensorHW := "BG4545",
nInSensorNo := "cInBG4545",
stInOutSensor := "DB_Inputs".Sensors["cInBG4545"]);
// Sensor Förderer voll (ILS-CV M1801)
#fbSensorInput(stInSensorHW := "BG4550",
nInSensorNo := "cInBG4550",
stInOutSensor := "DB_Inputs".Sensors["cInBG4550"]);
// Stausensor(ILS-CV M1801)
#fbSensorInput(stInSensorHW := "BG4551",
nInSensorNo := "cInBG4551",
stInOutSensor := "DB_Inputs".Sensors["cInBG4551"]);
// in Separator (ILS-CV M1801)
#fbSensorInput(stInSensorHW := "BG4552",
nInSensorNo := "cInBG4552",
stInOutSensor := "DB_Inputs".Sensors["cInBG4552"]);
// Sensor Förderer voll (ILS-CV 4701)
#fbSensorInput(stInSensorHW := "BG4553",
nInSensorNo := "cInBG4553",
stInOutSensor := "DB_Inputs".Sensors["cInBG4553"]);
// Stausensor(ILS-CV M4701)
#fbSensorInput(stInSensorHW := "BG4554",
nInSensorNo := "cInBG4554",
stInOutSensor := "DB_Inputs".Sensors["cInBG4554"]);
// in Separator (ILS-CV M4701)
#fbSensorInput(stInSensorHW := "BG4555",
nInSensorNo := "cInBG4555",
stInOutSensor := "DB_Inputs".Sensors["cInBG4555"]);
END_FUNCTION_BLOCK