Rockwell Automation 1771-QDC PLASTIC MOLD.MODULE User Manual
Page 138
2–72
Command Word/Bit Descriptions
Publication 1771-6.5.88 – July 1997
Notes: 1. For [ ] engineering units, see page 3.
2. When using the Inject/Clamp/Eject mode, all pressure readings are system pressure at input 2, except where noted.
Word
Description
MCC42
Ejector Position Maximum Software Travel Limit [15] The module continuously compares real-time ejector position against this entry.
The module sets alarm status bitSYS07-B05 and forces all of its outputs to zero when executing an ejector advance profile and ejec-
tor position equals or exceeds this entry. A zero entry inhibits SYS07-B05.
MCC43
Ejector Software Travel Limit Alarm Deadband [17] After sensing an ejector overtravel and latching alarm status bit SYS07-B04 or
SYS07-B05, the module will not unlatch bit until real-time ejector position is inside the overtravel setpoint by an incremental length
equal to this entry. This incremental position will be added to MCC41 in order to determine the ejector position required to unlatch
SYS07-B04. This incremental position will be subtracted from MCC42 in order to determine the ejector position required to unlatch
SYS07-B05.
MCC44
Ejector Position Transducer Digital Filter [23] A non-zero entry forces the module to filter the input before using the result for all
ejector position calculations. Use this parameter to soften the input signal from a linear potentiometer.
Ejector Pressure Transducer Configuration
The module accesses data in MCC45-MCC50 if bit patterns in
MCC02 and MCC03 indicate that the module is connected to an
ejector pressure sensor.
Word
Description
MCC45
Minimum Ejector Pressure [03]
MCC46
Maximum Ejector Pressure [03]
MCC47
Analog Signal at Minimum Ejector Pressure [24]
MCC48
Analog Signal at Maximum Ejector Pressure [24]
MCC49
High Ejector Pressure Alarm Setpoint [03] The module continuously compares real-time ejector pressure against this entry. The
module sets alarm status bit SYS05-B02 when ejector pressure equals or exceeds this entry. A zero entry inhibits SYS05-B02.
MCC50
Ejector Pressure Alarm Time Delay [23] Total time the module must monitor a continuous ejector pressure in excess of the non-zero
entry in all ejector pressure alarm setpoints before setting the associated alarm status bit. Setpoint/bit pairs affected are:
Setpoint
Alarm Status Bit
MCC49
SYS05-B02
JGC08
SYS05-B11
EAC57
SYS06-B13
Use a non-zero entry in this word to filter out ejector pressure spikes of short enough duration to avoid nuisance alarms.
Screw RPM Transducer Configuration
The module accesses data in MCC51 - 56 if bit patterns in MCC02 and
MCC03 indicate that the module is connected to a screw RPM sensor.
Word
Description
MCC51
Minimum Screw RPM [25]
MCC52
Maximum Screw RPM [25]
MCC53
Analog Signal at Minimum Screw RPM [24]
MCC54
Analog Signal at Maximum Screw RPM [24]
MCC55
High Screw RPM Alarm Setpoint [25] The module continuously compares real-time screw RPM against this entry. The module sets
alarm status bit SYS05-B03 when screw RPM equals or exceeds this entry. A zero entry inhibits SYS05-B03.
MCC56
High Screw RPM Alarm Time Delay [23] Total time the module must monitor a continuous screw RPM in excess of the non-zero
entry in all screw RPM alarm setpoints before setting the associated alarm status bit. Setpoint/bitpairs affected are:
Setpoint
Alarm Status Bit
MCC55
SYS05-B03
JGC05
SYS05-B08
Use a non-zero entry in this word to filter out screw RPM spikes of short enough duration to avoid nuisance alarms.