1 List of Figures
Figure 1: Example of a type label for identification of the sensor ................................................................. 14
Figure 2: Example of an info label on the housing with a specific system configuration ................................. 14
Figure 3: Example of an info sheet for the documentation of the installation with a specific system configuration
............................................................................................................................................................. 15
Figure 4: Dimensions of the sensor ........................................................................................................... 16
Figure 5: Values for L and R of trip coil ..................................................................................................... 21
Figure 6: View on the top- and bottom-side of LIMAX33 CP-00 with eSGC .................................................. 25
Figure 7: Pin assignment eSGC connector (mechanical data according to IEC 61076-2-101) ...................... 25
Figure 8: Installation circuit diagram of LIMAX33 CP-00 (maximum configuration) ....................................... 28
Figure 9: Installation circuit diagram of LIMAX33 CP-00 (minimum configuration) ........................................ 29
Figure 10: One SR and one door side ...................................................................................................... 30
Figure 11: One SR and two door sides ..................................................................................................... 30
Figure 12: eSGC actuator connected to a blocking device on the speed governor (remote tripping) .............. 31
Figure 13: Operation modes overview ...................................................................................................... 34
Figure 14: Flow of events in teach mode .................................................................................................. 40
Figure 15: CANopen learning of double sided floors ................................................................................. 43
Figure 16: Flow of events in teach mode auto ........................................................................................... 45
Figure 17: Time-saving flow of events in teach mode auto ......................................................................... 47
Figure 18: Automatic learning of double sided floors ................................................................................. 49
Figure 19: LED´s on the upper side of the sensor in case of eSGC – Version ............................................... 57
Figure 20: ETSL-Curves ........................................................................................................................... 61
Figure 21: Conditions for door bridging and UCM .................................................................................... 64
Figure 22: Positions of inspection and stopping system limits in case of short head/pit and in case of head/pit-
clearance ............................................................................................................................................... 66
Figure 23: Relations to the lower reference position ................................................................................... 69
Figure 24: Relations to the upper reference positions ................................................................................. 70
2 List of Tables
Table 1: Connections PIO and SCA-Cable ............................................................................................... 26
Table 2: eSGC-Connector (only for versions with eSGC) ............................................................................ 26
Table 3: Floor Sensor plugs ..................................................................................................................... 27
Table 4: Earthing lug .............................................................................................................................. 27
Table 5: Safety output states in pre-commissioning mode (see also 13.4) ................................................ 35
Table 6: Safety output states in teach mode or teach auto mode when reference positions are available ........ 36
Table 7: Floor table as stored in CP in case of double sided floors .............................................................. 43
Table 8: Floor table as stored in CP in case of double sided floors learned automatically .............................. 49
Table 9: Error -level ................................................................................................................................ 53
Table 10: Error codes ............................................................................................................................. 54
Table 11: Errors concerning nonvolatile stored data .................................................................................. 55
Table 12: Meaning of the LEDs ................................................................................................................ 57
Table 13: Safety Functions after Commissioning ........................................................................................ 58
Table 14: Distance to assumptive buffer dependent on moving direction and mode ..................................... 60
Table 15: OC reaction if position is higher than upper inspection limit ........................................................ 68
Table 16: OC reaction if position is lower than lower inspection limit .......................................................... 68
Table 17: Safety functions during commissioning ....................................................................................... 71
Table 18: Safety functions before commissioning ....................................................................................... 72
Table 19: configuration parameter concerning speeds ............................................................................... 73
Table 20: configuration parameter for ETSL-Curve .................................................................................... 74
Table 21: configuration parameter for offsets of stopping system limits ........................................................ 74
Table 22: configuration features for Safety functions .................................................................................. 75
Table 23: dependency “enabled safety functions” => needed actuators/relay contacts ................................ 76
Table 24: Behavior of UCM and overspeed final tripping dependent on the concerning configuration features 77
Table 25: Settable parameters ................................................................................................................. 78
Table 26: Required and achieved SIL ........................................................................................................ 83
Table 27: Safe failure fraction, HFT and Type of the subsystems ................................................................. 84
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