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HundM_Fortna/results/FB_CallSensors_skel_UH04.scl

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FUNCTION_BLOCK "FB_CallSensors_skel_UH04"
{ S7_Optimized_Access := 'TRUE' }
VERSION : 0.1
// AUTOMATISCH GENERIERT — create_skel.py (134 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 UC Reserve
#fbSensorInput(stInSensorHW := "DI0006",
nInSensorNo := "cInDI0006",
stInOutSensor := "DB_Inputs".Sensors["cInDI0006"]);
// Feedback Hauptschütze aktiv
#fbSensorInput(stInSensorHW := "DI0013",
nInSensorNo := "cInDI0013",
stInOutSensor := "DB_Inputs".Sensors["cInDI0013"]);
// Feedback Koppelrelais E-Stop-IF (QA0660/QA0661)
#fbSensorInput(stInSensorHW := "DI0014",
nInSensorNo := "cInDI0014",
stInOutSensor := "DB_Inputs".Sensors["cInDI0014"]);
// 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"]);
// MT freigeben UZ0403, Workstation MPS 3
#fbSensorInput(stInSensorHW := "SF0025",
nInSensorNo := "cInSF0025",
stInOutSensor := "DB_Inputs".Sensors["cInSF0025"]);
// MT freigeben UZ0402, Workstation MPS 2
#fbSensorInput(stInSensorHW := "SF0026",
nInSensorNo := "cInSF0026",
stInOutSensor := "DB_Inputs".Sensors["cInSF0026"]);
// MT freigeben UZ0401, Workstation MPS 1
#fbSensorInput(stInSensorHW := "SF0027",
nInSensorNo := "cInSF0027",
stInOutSensor := "DB_Inputs".Sensors["cInSF0027"]);
// IF BMZ "fire alarm" 2
#fbSensorInput(stInSensorHW := "DI0033",
nInSensorNo := "cInDI0033",
stInOutSensor := "DB_Inputs".Sensors["cInDI0033"]);
// IF BMZ "fire alarm" 1
#fbSensorInput(stInSensorHW := "DI0034",
nInSensorNo := "cInDI0034",
stInOutSensor := "DB_Inputs".Sensors["cInDI0034"]);
// IF BST 4 "No fire alarm"
#fbSensorInput(stInSensorHW := "DI0035",
nInSensorNo := "cInDI0035",
stInOutSensor := "DB_Inputs".Sensors["cInDI0035"]);
// IF BST 4 "Non fault"
#fbSensorInput(stInSensorHW := "DI0036",
nInSensorNo := "cInDI0036",
stInOutSensor := "DB_Inputs".Sensors["cInDI0036"]);
// IF BST 4 "FPC opened"
#fbSensorInput(stInSensorHW := "DI0037",
nInSensorNo := "cInDI0037",
stInOutSensor := "DB_Inputs".Sensors["cInDI0037"]);
// Reset UZ0409
#fbSensorInput(stInSensorHW := "SF0051",
nInSensorNo := "cInSF0051",
stInOutSensor := "DB_Inputs".Sensors["cInSF0051"]);
// Reset UZ0403
#fbSensorInput(stInSensorHW := "SF0053",
nInSensorNo := "cInSF0053",
stInOutSensor := "DB_Inputs".Sensors["cInSF0053"]);
// Reset UZ0402
#fbSensorInput(stInSensorHW := "SF0055",
nInSensorNo := "cInSF0055",
stInOutSensor := "DB_Inputs".Sensors["cInSF0055"]);
// Reset UZ0401
#fbSensorInput(stInSensorHW := "SF0057",
nInSensorNo := "cInSF0057",
stInOutSensor := "DB_Inputs".Sensors["cInSF0057"]);
// MSS ausgelöst FC0060
#fbSensorInput(stInSensorHW := "FC0060",
nInSensorNo := "cInFC0060",
stInOutSensor := "DB_Inputs".Sensors["cInFC0060"]);
// MSS ausgelöst FC0061
#fbSensorInput(stInSensorHW := "FC0061",
nInSensorNo := "cInFC0061",
stInOutSensor := "DB_Inputs".Sensors["cInFC0061"]);
// MSS ausgelöst FC0062
#fbSensorInput(stInSensorHW := "FC0062",
nInSensorNo := "cInFC0062",
stInOutSensor := "DB_Inputs".Sensors["cInFC0062"]);
// MSS ausgelöst FC0063
#fbSensorInput(stInSensorHW := "FC0063",
nInSensorNo := "cInFC0063",
stInOutSensor := "DB_Inputs".Sensors["cInFC0063"]);
// MSS ausgelöst FC0064
#fbSensorInput(stInSensorHW := "FC0064",
nInSensorNo := "cInFC0064",
stInOutSensor := "DB_Inputs".Sensors["cInFC0064"]);
// MSS ausgelöst FC0065
#fbSensorInput(stInSensorHW := "FC0065",
nInSensorNo := "cInFC0065",
stInOutSensor := "DB_Inputs".Sensors["cInFC0065"]);
// MSS ausgelöst FC0066
#fbSensorInput(stInSensorHW := "FC0066",
nInSensorNo := "cInFC0066",
stInOutSensor := "DB_Inputs".Sensors["cInFC0066"]);
// MSS ausgelöst FC0070
#fbSensorInput(stInSensorHW := "FC0070",
nInSensorNo := "cInFC0070",
stInOutSensor := "DB_Inputs".Sensors["cInFC0070"]);
// MSS ausgelöst FC0071
#fbSensorInput(stInSensorHW := "FC0071",
nInSensorNo := "cInFC0071",
stInOutSensor := "DB_Inputs".Sensors["cInFC0071"]);
// MSS ausgelöst FC0072
#fbSensorInput(stInSensorHW := "FC0072",
nInSensorNo := "cInFC0072",
stInOutSensor := "DB_Inputs".Sensors["cInFC0072"]);
// MSS ausgelöst FC0073
#fbSensorInput(stInSensorHW := "FC0073",
nInSensorNo := "cInFC0073",
stInOutSensor := "DB_Inputs".Sensors["cInFC0073"]);
// MSS ausgelöst FC0074
#fbSensorInput(stInSensorHW := "FC0074",
nInSensorNo := "cInFC0074",
stInOutSensor := "DB_Inputs".Sensors["cInFC0074"]);
// MSS ausgelöst FC0075 (Reserve)
#fbSensorInput(stInSensorHW := "FC0075",
nInSensorNo := "cInFC0075",
stInOutSensor := "DB_Inputs".Sensors["cInFC0075"]);
// Not Halt Kanal 1 UH04
#fbSensorInput(stInSensorHW := "SF0400",
nInSensorNo := "cInSF0400",
stInOutSensor := "DB_Inputs".Sensors["cInSF0400"]);
// Not Halt Kanal 2 UH04
#fbSensorInput(stInSensorHW := "SF0404",
nInSensorNo := "cInSF0404",
stInOutSensor := "DB_Inputs".Sensors["cInSF0404"]);
// Not Halt Schnittstelle CH1 (UH06)
#fbSensorInput(stInSensorHW := "SF0471",
nInSensorNo := "cInSF0471",
stInOutSensor := "DB_Inputs".Sensors["cInSF0471"]);
// Not Halt Schnittstelle CH2 (Reserve)
#fbSensorInput(stInSensorHW := "SF0472",
nInSensorNo := "cInSF0472",
stInOutSensor := "DB_Inputs".Sensors["cInSF0472"]);
// Not Halt Kanal 1 UZ0409
#fbSensorInput(stInSensorHW := "SF0473",
nInSensorNo := "cInSF0473",
stInOutSensor := "DB_Inputs".Sensors["cInSF0473"]);
// Not Halt Schnittstelle CH1 (UH06)
#fbSensorInput(stInSensorHW := "SF0475",
nInSensorNo := "cInSF0475",
stInOutSensor := "DB_Inputs".Sensors["cInSF0475"]);
// Not Halt Schnittstelle CH2 (Reserve)
#fbSensorInput(stInSensorHW := "SF0476",
nInSensorNo := "cInSF0476",
stInOutSensor := "DB_Inputs".Sensors["cInSF0476"]);
// Not Halt Kanal 2 UZ0409
#fbSensorInput(stInSensorHW := "SF0477",
nInSensorNo := "cInSF0477",
stInOutSensor := "DB_Inputs".Sensors["cInSF0477"]);
// Sensor Förderer voll (ILS-CV M4000)
#fbSensorInput(stInSensorHW := "BG3240",
nInSensorNo := "cInBG3240",
stInOutSensor := "DB_Inputs".Sensors["cInBG3240"]);
// MT in Position MPS 3 (AMR ILS-CV M04001)
#fbSensorInput(stInSensorHW := "BG3241",
nInSensorNo := "cInBG3241",
stInOutSensor := "DB_Inputs".Sensors["cInBG3241"]);
// in Separator (ILS-CV M4001)
#fbSensorInput(stInSensorHW := "BG3242",
nInSensorNo := "cInBG3242",
stInOutSensor := "DB_Inputs".Sensors["cInBG3242"]);
// Stausensor (AMR ILS-CV M4000)
#fbSensorInput(stInSensorHW := "BG3243",
nInSensorNo := "cInBG3243",
stInOutSensor := "DB_Inputs".Sensors["cInBG3243"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M4001)
#fbSensorInput(stInSensorHW := "BG3244",
nInSensorNo := "cInBG3244",
stInOutSensor := "DB_Inputs".Sensors["cInBG3244"]);
// Sensor Förderer voll (ILS-CV M4001)
#fbSensorInput(stInSensorHW := "BG3245",
nInSensorNo := "cInBG3245",
stInOutSensor := "DB_Inputs".Sensors["cInBG3245"]);
// Stausensor vor Vario Förderer (ILS-CV M4001)
#fbSensorInput(stInSensorHW := "BG3246",
nInSensorNo := "cInBG3246",
stInOutSensor := "DB_Inputs".Sensors["cInBG3246"]);
// in Separator vor BST 4 (ILS-CV M4001)
#fbSensorInput(stInSensorHW := "BG3247",
nInSensorNo := "cInBG3247",
stInOutSensor := "DB_Inputs".Sensors["cInBG3247"]);
// in Separator (ILS-CV M4011)
#fbSensorInput(stInSensorHW := "BG3250",
nInSensorNo := "cInBG3250",
stInOutSensor := "DB_Inputs".Sensors["cInBG3250"]);
// Stausensor (AMR ILS-CV M4503)
#fbSensorInput(stInSensorHW := "BG3251",
nInSensorNo := "cInBG3251",
stInOutSensor := "DB_Inputs".Sensors["cInBG3251"]);
// Abfrage Mitnehmerfinger in Position (ILS-CV M4011)
#fbSensorInput(stInSensorHW := "BG3253",
nInSensorNo := "cInBG3253",
stInOutSensor := "DB_Inputs".Sensors["cInBG3253"]);
// MT in Position (ILS-CV M4011)
#fbSensorInput(stInSensorHW := "BG3255",
nInSensorNo := "cInBG3255",
stInOutSensor := "DB_Inputs".Sensors["cInBG3255"]);
// Sensor Förderer voll (ILS-CV M4011)
#fbSensorInput(stInSensorHW := "BG3256",
nInSensorNo := "cInBG3256",
stInOutSensor := "DB_Inputs".Sensors["cInBG3256"]);
// in Separator 4 (ILS-CV M0401)
#fbSensorInput(stInSensorHW := "BG3260",
nInSensorNo := "cInBG3260",
stInOutSensor := "DB_Inputs".Sensors["cInBG3260"]);
// MT in Position (AMR ILS-CV M0401)
#fbSensorInput(stInSensorHW := "BG3261",
nInSensorNo := "cInBG3261",
stInOutSensor := "DB_Inputs".Sensors["cInBG3261"]);
// Abfrage Mitnehmerfinger in Position (AMR ILS-CV M0401)
#fbSensorInput(stInSensorHW := "BG3262",
nInSensorNo := "cInBG3262",
stInOutSensor := "DB_Inputs".Sensors["cInBG3262"]);
// Stausensor nach BST 4 (AMR ILS-CV M4011)
#fbSensorInput(stInSensorHW := "BG3264",
nInSensorNo := "cInBG3264",
stInOutSensor := "DB_Inputs".Sensors["cInBG3264"]);
// in Separator 6 (AMR KR-M4003)
#fbSensorInput(stInSensorHW := "BG3300",
nInSensorNo := "cInBG3300",
stInOutSensor := "DB_Inputs".Sensors["cInBG3300"]);
// Stausensor 6 (AMR ILS-KR M4003)
#fbSensorInput(stInSensorHW := "BG3301",
nInSensorNo := "cInBG3301",
stInOutSensor := "DB_Inputs".Sensors["cInBG3301"]);
// Stausensor (AMR KR-M4003)
#fbSensorInput(stInSensorHW := "BG3303",
nInSensorNo := "cInBG3303",
stInOutSensor := "DB_Inputs".Sensors["cInBG3303"]);
// in Separator vor MPS 3 (AMR KR-M4003)
#fbSensorInput(stInSensorHW := "BG3304",
nInSensorNo := "cInBG3304",
stInOutSensor := "DB_Inputs".Sensors["cInBG3304"]);
// Stausensor (AMR ILS-CV M4004)
#fbSensorInput(stInSensorHW := "BG3311",
nInSensorNo := "cInBG3311",
stInOutSensor := "DB_Inputs".Sensors["cInBG3311"]);
// Abfrage Mitnehmerfinger in Position (AMR ILS-CV M4004)
#fbSensorInput(stInSensorHW := "BG3312",
nInSensorNo := "cInBG3312",
stInOutSensor := "DB_Inputs".Sensors["cInBG3312"]);
// Sensor Förderer voll (AMR ILS-CV M4004) MPS 3
#fbSensorInput(stInSensorHW := "BG3313",
nInSensorNo := "cInBG3313",
stInOutSensor := "DB_Inputs".Sensors["cInBG3313"]);
// MT in Entladeposition MPS 3 (AMR ILS-CV M4005)
#fbSensorInput(stInSensorHW := "BG3314",
nInSensorNo := "cInBG3314",
stInOutSensor := "DB_Inputs".Sensors["cInBG3314"]);
// Abfrage Mitnehmerfinger in Position (AMR ILS-CV M4005) MPS 3
#fbSensorInput(stInSensorHW := "BG3315",
nInSensorNo := "cInBG3315",
stInOutSensor := "DB_Inputs".Sensors["cInBG3315"]);
// MT in Position MPS 3 (AMR ILS-CV M4004)
#fbSensorInput(stInSensorHW := "BG3316",
nInSensorNo := "cInBG3316",
stInOutSensor := "DB_Inputs".Sensors["cInBG3316"]);
// Sensor Förderer voll (AMR ILS-CV M4005)
#fbSensorInput(stInSensorHW := "BG3317",
nInSensorNo := "cInBG3317",
stInOutSensor := "DB_Inputs".Sensors["cInBG3317"]);
// Stausensor (AMR ILS-CV M4005)
#fbSensorInput(stInSensorHW := "BG3320",
nInSensorNo := "cInBG3320",
stInOutSensor := "DB_Inputs".Sensors["cInBG3320"]);
// in Separator Ausfahrt MPS 3 (AMR ILS-CV M4005)
#fbSensorInput(stInSensorHW := "BG3321",
nInSensorNo := "cInBG3321",
stInOutSensor := "DB_Inputs".Sensors["cInBG3321"]);
// Stausensor Ausfahrt MPS 03 (AMR ILS-KR M4003)
#fbSensorInput(stInSensorHW := "BG3322",
nInSensorNo := "cInBG3322",
stInOutSensor := "DB_Inputs".Sensors["cInBG3322"]);
// MT in Position MPS 3 (AMR ILS-CV M4005)
#fbSensorInput(stInSensorHW := "BG3324",
nInSensorNo := "cInBG3324",
stInOutSensor := "DB_Inputs".Sensors["cInBG3324"]);
// MT ist beladen MPS 3 (AMR ILS-CV M4005)
#fbSensorInput(stInSensorHW := "BG3325",
nInSensorNo := "cInBG3325",
stInOutSensor := "DB_Inputs".Sensors["cInBG3325"]);
// in Separator (AMR ILS-CV M4005)
#fbSensorInput(stInSensorHW := "BG3326",
nInSensorNo := "cInBG3326",
stInOutSensor := "DB_Inputs".Sensors["cInBG3326"]);
// Stausensor (AMR ILS-CV M4004)
#fbSensorInput(stInSensorHW := "BG3327",
nInSensorNo := "cInBG3327",
stInOutSensor := "DB_Inputs".Sensors["cInBG3327"]);
// in Separator (AMR ILS-KR M4003)
#fbSensorInput(stInSensorHW := "BG3360",
nInSensorNo := "cInBG3360",
stInOutSensor := "DB_Inputs".Sensors["cInBG3360"]);
// MT ist beladen (AMR KR-M4003)
#fbSensorInput(stInSensorHW := "BG3361",
nInSensorNo := "cInBG3361",
stInOutSensor := "DB_Inputs".Sensors["cInBG3361"]);
// Stausensor 5 (AMR ILS-KR M4003)
#fbSensorInput(stInSensorHW := "BG3362",
nInSensorNo := "cInBG3362",
stInOutSensor := "DB_Inputs".Sensors["cInBG3362"]);
// in Separator 5 (AMR ILS-KR M4003)
#fbSensorInput(stInSensorHW := "BG3363",
nInSensorNo := "cInBG3363",
stInOutSensor := "DB_Inputs".Sensors["cInBG3363"]);
// Stausensor 4 (AMR ILS-KR M4003)
#fbSensorInput(stInSensorHW := "BG3367",
nInSensorNo := "cInBG3367",
stInOutSensor := "DB_Inputs".Sensors["cInBG3367"]);
// in Separator (AMR ILS-CV M4006)
#fbSensorInput(stInSensorHW := "BG3370",
nInSensorNo := "cInBG3370",
stInOutSensor := "DB_Inputs".Sensors["cInBG3370"]);
// Stausensor 3 (AMR ILS-CV M4006)
#fbSensorInput(stInSensorHW := "BG3371",
nInSensorNo := "cInBG3371",
stInOutSensor := "DB_Inputs".Sensors["cInBG3371"]);
// Abfrage Mitnehmerfinger in Position (AMR ILS-CV M4006)
#fbSensorInput(stInSensorHW := "BG3372",
nInSensorNo := "cInBG3372",
stInOutSensor := "DB_Inputs".Sensors["cInBG3372"]);
// Sensor Förderer voll (AMR ILS-CV M4006)
#fbSensorInput(stInSensorHW := "BG3373",
nInSensorNo := "cInBG3373",
stInOutSensor := "DB_Inputs".Sensors["cInBG3373"]);
// MT IN Entladeposition MPS- (AMR ILS-CV M4007)
#fbSensorInput(stInSensorHW := "BG3374",
nInSensorNo := "cInBG3374",
stInOutSensor := "DB_Inputs".Sensors["cInBG3374"]);
// Abfrage Mitnehmerfinger in Position (AMR ILS-CV M4007) MPS 2
#fbSensorInput(stInSensorHW := "BG3375",
nInSensorNo := "cInBG3375",
stInOutSensor := "DB_Inputs".Sensors["cInBG3375"]);
// MT in Position MPS 2 (AMR ILS-CV M4006)
#fbSensorInput(stInSensorHW := "BG3376",
nInSensorNo := "cInBG3376",
stInOutSensor := "DB_Inputs".Sensors["cInBG3376"]);
// Sensor Förderer voll (AMR ILS-CV M4007)
#fbSensorInput(stInSensorHW := "BG3377",
nInSensorNo := "cInBG3377",
stInOutSensor := "DB_Inputs".Sensors["cInBG3377"]);
// Stausensor (AMR ILS-CV M4007)
#fbSensorInput(stInSensorHW := "BG3380",
nInSensorNo := "cInBG3380",
stInOutSensor := "DB_Inputs".Sensors["cInBG3380"]);
// in Separator Ausfahrt MPS 2 (AMR ILS-CV M4007)
#fbSensorInput(stInSensorHW := "BG3381",
nInSensorNo := "cInBG3381",
stInOutSensor := "DB_Inputs".Sensors["cInBG3381"]);
// Stausensor Ausfahrt MPS 02 (AMR ILS-KR M04003)
#fbSensorInput(stInSensorHW := "BG3382",
nInSensorNo := "cInBG3382",
stInOutSensor := "DB_Inputs".Sensors["cInBG3382"]);
// in Separator (AMR ILS-KR M4003)
#fbSensorInput(stInSensorHW := "BG3383",
nInSensorNo := "cInBG3383",
stInOutSensor := "DB_Inputs".Sensors["cInBG3383"]);
// MT in Position MPS 2 (AMR ILS-CV M4007)
#fbSensorInput(stInSensorHW := "BG3384",
nInSensorNo := "cInBG3384",
stInOutSensor := "DB_Inputs".Sensors["cInBG3384"]);
// MT ist beladen MPS 2 (AMR ILS-CV M4007)
#fbSensorInput(stInSensorHW := "BG3385",
nInSensorNo := "cInBG3385",
stInOutSensor := "DB_Inputs".Sensors["cInBG3385"]);
// in Separator (AMR ILS-CV M4002)
#fbSensorInput(stInSensorHW := "BG3386",
nInSensorNo := "cInBG3386",
stInOutSensor := "DB_Inputs".Sensors["cInBG3386"]);
// Stausensor 3 (AMR ILS-CV M4002)
#fbSensorInput(stInSensorHW := "BG3387",
nInSensorNo := "cInBG3387",
stInOutSensor := "DB_Inputs".Sensors["cInBG3387"]);
// Sensor Förderer voll (AMR ILS-CV M4002)
#fbSensorInput(stInSensorHW := "BG3390",
nInSensorNo := "cInBG3390",
stInOutSensor := "DB_Inputs".Sensors["cInBG3390"]);
// in Separator (AMR ILS-CV M4010)
#fbSensorInput(stInSensorHW := "BG3391",
nInSensorNo := "cInBG3391",
stInOutSensor := "DB_Inputs".Sensors["cInBG3391"]);
// MT in Position (ILS-CV M4010)
#fbSensorInput(stInSensorHW := "BG3392",
nInSensorNo := "cInBG3392",
stInOutSensor := "DB_Inputs".Sensors["cInBG3392"]);
// Abfrage Mitnehmerfinger in Position (AMR ILS-CV M4010)
#fbSensorInput(stInSensorHW := "BG3393",
nInSensorNo := "cInBG3393",
stInOutSensor := "DB_Inputs".Sensors["cInBG3393"]);
// Stausensor (AMR ILS-CV M4006)
#fbSensorInput(stInSensorHW := "BG3396",
nInSensorNo := "cInBG3396",
stInOutSensor := "DB_Inputs".Sensors["cInBG3396"]);
// in Separator (AMR ILS-CV M4007)
#fbSensorInput(stInSensorHW := "BG3397",
nInSensorNo := "cInBG3397",
stInOutSensor := "DB_Inputs".Sensors["cInBG3397"]);
// in Separator (AMR ILS-KR M4003)
#fbSensorInput(stInSensorHW := "BG3400",
nInSensorNo := "cInBG3400",
stInOutSensor := "DB_Inputs".Sensors["cInBG3400"]);
// in Separator (AMR ILS-CV M4002)
#fbSensorInput(stInSensorHW := "BG3420",
nInSensorNo := "cInBG3420",
stInOutSensor := "DB_Inputs".Sensors["cInBG3420"]);
// Abfrage Mitnehmerfinger in Position (AMR ILS-CV M4002)
#fbSensorInput(stInSensorHW := "BG3421",
nInSensorNo := "cInBG3421",
stInOutSensor := "DB_Inputs".Sensors["cInBG3421"]);
// Stausensor nach BST 4 (AMR ILS-CV M4010)
#fbSensorInput(stInSensorHW := "BG3423",
nInSensorNo := "cInBG3423",
stInOutSensor := "DB_Inputs".Sensors["cInBG3423"]);
// Sensor Förderer voll (ILS-CV M4010)
#fbSensorInput(stInSensorHW := "BG3425",
nInSensorNo := "cInBG3425",
stInOutSensor := "DB_Inputs".Sensors["cInBG3425"]);
// MT in Position (ILS-CV M4002)
#fbSensorInput(stInSensorHW := "BG3426",
nInSensorNo := "cInBG3426",
stInOutSensor := "DB_Inputs".Sensors["cInBG3426"]);
// in Separator vor MPS 1 (AMR KR-M4003)
#fbSensorInput(stInSensorHW := "BG3430",
nInSensorNo := "cInBG3430",
stInOutSensor := "DB_Inputs".Sensors["cInBG3430"]);
// Stausensor (AMR ILS-CV M4009)
#fbSensorInput(stInSensorHW := "BG3431",
nInSensorNo := "cInBG3431",
stInOutSensor := "DB_Inputs".Sensors["cInBG3431"]);
// Rad dreht (AMR KR-M4003)
#fbSensorInput(stInSensorHW := "BG3432",
nInSensorNo := "cInBG3432",
stInOutSensor := "DB_Inputs".Sensors["cInBG3432"]);
// Stausensor (AMR ILS-KR M4003)
#fbSensorInput(stInSensorHW := "BG3433",
nInSensorNo := "cInBG3433",
stInOutSensor := "DB_Inputs".Sensors["cInBG3433"]);
// in Separator (AMR KR-M4003)
#fbSensorInput(stInSensorHW := "BG3435",
nInSensorNo := "cInBG3435",
stInOutSensor := "DB_Inputs".Sensors["cInBG3435"]);
// in Separator (AMR ILS-CV M4009)
#fbSensorInput(stInSensorHW := "BG3436",
nInSensorNo := "cInBG3436",
stInOutSensor := "DB_Inputs".Sensors["cInBG3436"]);
// Stausensor (AMR ILS-CV M4008)
#fbSensorInput(stInSensorHW := "BG3437",
nInSensorNo := "cInBG3437",
stInOutSensor := "DB_Inputs".Sensors["cInBG3437"]);
// in Separator (AMR ILS-CV M4008)
#fbSensorInput(stInSensorHW := "BG3440",
nInSensorNo := "cInBG3440",
stInOutSensor := "DB_Inputs".Sensors["cInBG3440"]);
// Stausensor 3 (AMR ILS-CV M4008)
#fbSensorInput(stInSensorHW := "BG3441",
nInSensorNo := "cInBG3441",
stInOutSensor := "DB_Inputs".Sensors["cInBG3441"]);
// Abfrage Mitnehmerfinger in Position (AMR ILS-CV M4008)
#fbSensorInput(stInSensorHW := "BG3442",
nInSensorNo := "cInBG3442",
stInOutSensor := "DB_Inputs".Sensors["cInBG3442"]);
// Sensor Förderer voll (AMR ILS-CV M4008)
#fbSensorInput(stInSensorHW := "BG3443",
nInSensorNo := "cInBG3443",
stInOutSensor := "DB_Inputs".Sensors["cInBG3443"]);
// MT IN Entladeposition MPS- (AMR ILS-CV M4009)
#fbSensorInput(stInSensorHW := "BG3444",
nInSensorNo := "cInBG3444",
stInOutSensor := "DB_Inputs".Sensors["cInBG3444"]);
// Abfrage Mitnehmerfinger in Position (AMR ILS-CV M4009)
#fbSensorInput(stInSensorHW := "BG3445",
nInSensorNo := "cInBG3445",
stInOutSensor := "DB_Inputs".Sensors["cInBG3445"]);
// MT in Position MPS 1 (AMR ILS-CV M4008)
#fbSensorInput(stInSensorHW := "BG3446",
nInSensorNo := "cInBG3446",
stInOutSensor := "DB_Inputs".Sensors["cInBG3446"]);
// Sensor Förderer voll (AMR ILS-CV M4009)
#fbSensorInput(stInSensorHW := "BG3447",
nInSensorNo := "cInBG3447",
stInOutSensor := "DB_Inputs".Sensors["cInBG3447"]);
// Stausensor Ausfahrt MPS 01 (AMR ILS-KR M4003)
#fbSensorInput(stInSensorHW := "BG3450",
nInSensorNo := "cInBG3450",
stInOutSensor := "DB_Inputs".Sensors["cInBG3450"]);
// in Separator Ausfahrt MPS 1 (AMR ILS-CV M4009)
#fbSensorInput(stInSensorHW := "BG3451",
nInSensorNo := "cInBG3451",
stInOutSensor := "DB_Inputs".Sensors["cInBG3451"]);
// MT in Position MPS 1 (AMR ILS-CV M4009)
#fbSensorInput(stInSensorHW := "BG3454",
nInSensorNo := "cInBG3454",
stInOutSensor := "DB_Inputs".Sensors["cInBG3454"]);
// MT ist beladen MPS 1 (AMR ILS-CV M4009)
#fbSensorInput(stInSensorHW := "BG3455",
nInSensorNo := "cInBG3455",
stInOutSensor := "DB_Inputs".Sensors["cInBG3455"]);
END_FUNCTION_BLOCK