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