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Schneider Unity Pro Manual
Unity Programming
EFB Example - TOTALIZERExample History: May 15, 2015, (v1) May 18, 2015, (v2) May 19, 2015, (v3) May 27, 2015 NOTE: All images on this page can be enlarged by clicking on them. This page is currently UNDER CONSTRUCTION The Example Program for the TOTALIZER EFB is based on the totalization of liquid flow, which is a typical function required of Industrial Control applications. The example includes the ability to evaluate the performance with three different Engineering Unit Flow Transmitter Calibrations: Gallons per Minute (GPM), Thousands of Gallons per Hour (KGH) and Millions of Gallons per Day (MGD). This example assumes that the Flow Transmitter signal connected to the Analog Input will be linear. An example of this assumption is: If the Flow Measurement source is an Orifice Plate producing a Differential Pressure (DP) measurement, then the assumption is that the DP Transmitter includes the required Square Root extraction to linearize the output signal to a Flow Rate. The Example Program includes a Unity Pro DFB (FIT_SA2Q3_v1) that scales the linearized Analog Input signal into the Engineering Units that match the calibrated range of the Flow measurement and Transmitter. This DFB also includes the Unity Pro TOTALIZER EFB that will integrate the Flow over time and calculate the Total Volume over three different time periods: Total (constant running and re-settable), Today (24 Hour: resetting at Midnight), and Yesterday (24 Hours). When using the TOTALIZER EFB, there are three items that govern the accuracy of the totalization and require consideration:
NOTE: In Concept, the TOTALIZER EFB is also governed by these same three items. Also, be aware that 'where' the TOTALIZER EFB is executed in the Unity Pro Project will play a significant role in its implementation. Several implementation methods to insure accuracy, regardless of the Scan Time, are presented below. Here is a simplified view of the code used in the FIT_SA2Q3_v1 DFB that performs the Totalization of Flow. The Example Program contains a tool (the 'Calcs' Operator Screen and 'Calcs' Section) that simplifies finding the combination of parameters needed to insure accurate totalization. It is the goal of the 'Calcs' tools to provide conservative recommendations that insure accurate totalization. To achieve this goal there is a limit in the 'Calcs' which governs the output (the Variable 'MyAccLimit' set to 2.0). This limit can be adjusted, but caution must be used and all aspects of the totalization understood before using recommendations provided with a modified limit. Here is an example of how the improper parameters used with the TOTALIZER EFB (executed in the MAST Task) can result in inaccurate totalization. The above table shows how choosing the wrong Totalized Flow Units can produce inaccurate results. For accurate results, the totalization must take place over a minimum of two scans of the application. Anything less will result in a saturation of the TOTALIZER EFB calculations. Here is a repeat of the same data but this time using the correct selections of Totalized Flow Units (and TOTALIZER EFB 'thld' parameter). Within the FIT_SA2Q3_v1 DFB provided in the example application is the calculation that validates the TOTALIZER EFB configuration and provides a warning on an output pin of the DFB. Here is the code (calculation).
Insuring the accuracy can be achieved by several different means, depending on the type of implementation desired. In the example application, the TOTALIZER EFB is embedded in a DFB which is executed in the MAST Task. For all methods that follow: the TOTALIZER IN value must be in Units/Second. Execution Location (Task) of the TOTALIZER EFB:
FAST Use the demonstrated methods and the Period of the FAST Task will define the limit of the Units of Totalization (see Fixed Task Procedure).
Fixed Task Procedure - 'Calcs' Tool
Forcing the 'Calcs' Tool to use x1000 Gallons (Units of Totalization)
NOTE: Even though the Example Program hardware configuration is for a MODICON M340: All application content is relevant to all MODICON Unity CPUs, with the only exception being Unity Momentum CPUs, as they do not provide the FAST TASK nor EVENT (Timer Events) TASK and therefore will need to follow the guidelines presented for the MAST TASK explicitly. IMPORTANT NOTE: If this application is run in the Unity Pro Simulator, use of the Test feature of this application will produce results that are very close to the results of an actual PLC, however, small differences may be realized. To acquire definitive results: Test your needs in Hardware. |