User Manual
Table Of Contents
- 1771-6.5.88, Plastic Molding Module Reference Manual
- Summary of Changes
- Table of Contents
- Preface
- 1 - Abbreviated Command and Status Blocks
- Chapter Contents
- CLC - Clamp and Eject ERC Values Block
- CPC - Clamp Close Profile Block
- DYC - Dynamic Command Block
- EAC - Ejector Advance Configuration Block
- EPC - Ejector Profile Block
- ERC - Ejector Retract Configuration Block
- FCC - First Clamp Close Configuration Block
- FOC - First Clamp Open Configuration Block
- HDC - Hold Configuration Block
- HPC - Pack/Hold Profile Block
- INC - Injection Configuration Block
- IPC - Injection Profile Block
- JGC - Jog Configuration Block
- LPC - Clamp Low Pressure Close Configuration Block
- MCC - Module Configuration Command Block
- OPC - Clamp Open Profile Block
- OSC - Clamp Open Slow Configuration Block
- PKC - Pack Configuration Block
- PLC - Plastication Configuration Block
- PPC - Plastication Profile Block
- PRC - Pre-decompression Configuration Block
- PSC - Post- decompression Configuration Block
- PTC - Process Trace Configuration Block
- RLC - Inject ERC Values Block
- SCC - Second Clamp Close Configuration Block
- SOC - Second Clamp Open Configuration Block
- TCC - Third Clamp Close Configuration Block
- TOC - Third Clamp Open Configuration Block
- CLS - Clamp and Eject ERC Values Status Block
- CPS - Clamp Close Profiles Status Block
- EPS - Ejector Profile Status Block
- HPS - Pack/Hold Profile Status Block
- IPS - Injection Profile Status Block
- OPS - Clamp Open Profiles Status Block
- PPS - Plastication Profile Status Block
- PTS - Process Trace Status Block
- RLS - Inject ERC Values Status Block
- SYS - System Status Block
- 2 - Command Word/Bit Descriptions
- Alphabetical List of Command Blocks and Block ID Codes
- List of Data Words
- Engineering Units
- Data Blocks Require I/O Configuration
- Data Blocks for System Control
- Data Blocks for Controlling Ram (Screw) Position
- Data Blocks for Controlling Clamp Position
- Data Blocks for Controlling Ejector Position
- Sensors Required
- CLC CLC - Clamp and Eject ERC Values Block
- CPC - Clamp Close Profile Block
- DYC DYC - Dynamic Command Block
- EAC - Ejector Advance Configuration Block
- EPC - Ejector Profile Block
- ERC - Ejector Retract Configuration Block
- FCC - First Clamp Close Configuration Block
- FOC - First Clamp Open Configuration Block
- HDC - Hold Configuration Block
- HPC - Pack/Hold Profile Block
- INC - Injection Configuration Block
- IPC - Injection Profile Block
- JGC - Jog Configuration Block
- LPC - Clamp Low Pressure Close Configuration Block
- MCC - Module Configuration Command Block
- OPC - Clamp Open Profile Block
- OSC - Clamp Open Slow Configuration Block
- PKC - Pack Configuration Block
- PLC Plastication Configuration Command Block (PLC)
- PPC - Plastication Profile Block
- PRC - Pre-decompression Configuration Block
- PSC - Post-decompression Configuration Block
- PTC - Process Trace Configuration Block
- RLC - Inject ERC Values Block
- SCC - Second Clamp Close Configuration Block
- SOC - Second Clamp Open Configuration Block
- TCC - Third Clamp Close Configuration Block
- TOC - Third Clamp Open Configuration Block
- 3 - Word/Bit Descriptions
- List of Status Blocks and Block ID Codes
- List of Data Words
- Data Blocks Require I/O Configuration
- Engineering Units
- Status Block for Reporting System Status
- Status Blocks for Reporting Ram (Screw) Position
- Status Blocks for Reporting Clamp Position
- Status Blocks for Reporting Ejector Position
- CLS - Clamp and Eject ERC Values Status Block
- CPS - Clamp Close Profiles Status Block
- EPS - Ejector Profile Status Block
- HPS - Pack/Hold Profile Status Block
- IPS ú Injection Profile Status Block
- OPS - Clamp Open Profiles Status Block
- PPS - Plastication Profile Status Block
- PTS - Process Trace Status Block
- RLS - Inject ERC Values Status Block
- SYS - System Status Block
- 4 - Programming Error Codes
- 5 - Module Specifications
- 6 - Calibration Instructions
- A - Single transfer for Reporting Ejector Status
- Back cover
2–49Command Word/Bit Descriptions
Publication
1771-6.5.88 – July 1997
HDC
End of Profile Set-output Values
When the module completes the Hold Profile and HPC03-B08 is SET, it:
• sets its outputs to the following values
• sets status bit SYS22-B06
• uses ramp rates HDC17 - 32 when changing outputs to these values
Word Description
HDC33 Output #1 Set-output Value at End of Profile [19]
HDC34 Output #2 Set-output Value at End of Profile [19]
HDC35 Output #3 Set-output Value at End of Profile [19]
HDC36 Output #4 Set-output Value at End of Profile [19]
HDC37 Output #5 Set-output Value at End of Profile [19]
HDC38 Output #6 Set-output Value at End of Profile [19]
HDC39 Output #7 Set-output Value at End of Profile [19]
HDC40 Output #8 Set-output Value at End of Profile [19]
Ram (Screw) Pressure Control Limits
Word Description
HDC41 Ram (Screw) Pressure Minimum Control Limit [01] Minimum controllable ram (screw) pressure attainable during any Ram Press/
Time Hold Profile. The module expects this ram (screw) pressure when setting its selected ram (screw) pressure valve to the %-out-
put in HDC43.
HDC42 Ram (Screw) Pressure Maximum Control Limit [01] Maximum controllable ram (screw) pressure attainable during any Ram Press/
Time Hold Profile. The module expects this ram (screw) pressure when setting its selected ram (screw) pressure valve to the %-out-
put in HDC44.
HDC43 Selected Ram (Screw) Pressure Valve Output for Minimum [19] 0% CV output percentage that the module uses to drive the se-
lected pressure valve during any Ram Press/Time Hold Profile. The module expects a pressure equal to HDC41 when setting the
selected ram (screw) pressure valve to this %-output during profile execution. Ram Press/Time Hold Profile will be executed as a
reverse-acting algorithm if this entry is greater than HDC44.
HDC44 Selected Ram (Screw) Pressure Valve Output for Maximum [19] 100% CV output percentage that the module uses to drive the
selected pressure valve during any Ram Press/Time Hold Profile. The module expects a pressure equal to HDC42 when setting the
selected ram (screw) pressure valve to this %-output during profile execution. Ram Press/Time Hold Profile will be executed as a
reverse-acting algorithm if this entry is less than HDC43.
Cavity Pressure Control Limits
Word Description
HDC45 Cavity Pressure Minimum Control Limit [04] Minimum controllable cavity pressure attainable during any Cav Press/Time Hold Pro-
file. The module expects this cavity pressure when setting its selected cavity pressure valve to the %-output in HDC47.
HDC46 Cavity Pressure Maximum Control Limit [04] Maximum controllable cavity pressure attainable during any Cav Press/Time Hold Pro-
file . The module expects this cavity pressure when setting its selected cavity pressure valve to the %-output in HDC48.
HDC47 Selected Cavity Pressure Valve Output for Minimum [19] 0% CV output percentage that the module uses to drive the selected pres-
sure valve during any Cav Press/Time Hold Profile. The module expects a pressure equal to HDC45 when setting the selected
cavity pressure valve to this %-output during profile execution. The Cav Press/Time Hold Profile will be executed as a reverse-acting
algorithm if this entry is greater than HDC48.
HDC48 Selected Cavity Pressure Valve Output for Maximum [19] 100% CV output percentage that the module uses to drive the selected
pressure valve during any Cav Press/Time Hold Profile. The module expects a pressure equal to HDC46 when setting the selected
cavity pressure valve to this %-output during profile execution. The Cav Press/Time Hold Profile will be executed as a reverse-acting
algorithm if this entry is less than HDC47.