Definitions and metric calculations
CoroPlus® Machining Insights uses definitions and metrics for the calculation of various characteristic values. Find out about the different definitions and metrics in this article.
State definitions
| State | Definition |
| Producing Duration | Total duration of time that was spent is producing parts. |
| Producing in % | Ratio of Producing Duration to the total duration. |
| Unplanned Downtime Duration | Duration of time that was lost due to unplanned downtime activity. |
| Unplanned Downtime in % (UDT) | Ratio of Unplanned Downtime Duration to the total duration. |
| Planned Downtime Duration | Duration of time that was spent on planned downtime activity. |
| Planned Downtime in % (PDT) | Ratio of Planned Downtime Duration to the total duration. |
| Standby Duration | Duration of time the device was ready to make a part but not producing. |
| Standby in % | Ratio of Standby Duration to the total duration. |
| Setup Duration | Duration of time the device is being setup to make a part. |
| Setup % | Ratio of Setup Duration to the total duration. |
| Shutdown Duration | Duration of time the device is not in operation due to a scheduled shutdown. |
| Shutdown in % | Ratio of Shutdown Duration to the total duration. |
| Data Unavailable Duration | Duration of time the device data was unavailable. |
| Data Unavailable in % | Ratio of Data Unavailable Duration to the total duration. |
OEE – Overall equipment efficiency definitions
| Metric | Definition | Where does the data come from? |
| Availability | Availability = Available Time / Potential Available Time Available Time = Producing Time + Standby Potential Available Time = Available Time + Setup + UDT | Producing Time Standby Setup Unplanned Downtimes (UDT) |
| OEE | OEE = Availability * Performance * Quality | OEE is defined per part-kind of a machine. OEE for a machine is the weighted average of the OEE for all the part-kinds of the machine (weighted average with respect to potential available time). |
| OEE for a machine | [(P1.OEE * P1.PT) + (P2.OEE * P2.PT) + (P3.OEE * P3.PT)] / (P1.PT + P2.PT + P3.PT) PT = Potential Available Time | P1, P2 and P3 are three part-kinds. Note: |
| Performance | Performance = Ideal Cycle Time / Actual Cycle Time Actual Cycle Time = Producing Duration/ Total Part Count | Ideal Cycle Time Once that value is set, it will use that for computing performance by measuring it with respect to the actual cycle time. Note: Note: Note: |
| Quality | Quality = Number of good parts / Total number of parts Total Part Count = Good part count + Bad part count | Good and Bad Part Count Note: |
Utilisation and cycle time
| Metric | Definition | Where does the data come from? |
| Utilisation | Utilisation = Producing duration / (Total duration - Shutdown duration) | This is the main metric in CoroPlus® Machining Insights which is displayed in the dashboards and the reports
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| Net Utilisation | Net Utilisation = (Producing duration) / ((Duration when operator is logged in - ("Unplanned Downtime: Machine Tool Failure"+ "Unplanned Downtime:NC Program Problem"+ "Unplanned Downtime:Lack of material/work/tooling"+ "Planned Downtime:Operator Break") | Displayed in the reports
Note: |
| Staffed Utilisation | Staffed Utilisation = Producing Duration / Total duration the operator is logged in Producing duration = Whenever state is producing (green) Total duration operator is logged in = when value of operator from BMS database is not empty | Staffed Utilisation is the percentage of time the machine is producing when the operator is logged in to the machine. Note: |
| Cycle Time | Cycle Time = Producing Duration / Total Part Count | The cycle time of a part. Note: |
