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Premium member Presentation Transcript Understanding How Procal Present and calculates Uncertainties: Understanding How Procal Present and calculates UncertaintiesProcal offers several options for Presenting & Calculating uncertainties: Procal offers several options for Presenting & Calculating uncertainties Uncertainty Statements Body Uncertainty Line Uncertainties1: Uncertainty Statements : 1: Uncertainty Statements Prints up to 10 lines of uncertainty statements at the end of the certificate page. The uncertainty statements are created and edited in the utilities menu in Proedit. The Procedure includes the lines to be printed When a procedure is run by Procal the uncertainty statements are copied to the certificate, no calculations are preformed2: Uncertainties Printed in the body of the Certificate: 2: Uncertainties Printed in the body of the Certificate Uncertainties can be printed between measurement anywhere on the certificate The uncertainty line printed can either be a fixed comment line or an editable comment line as entered in the procedure3: Line Uncertainties: 3: Line Uncertainties Uncertainties are printed next to the measurement on the same line The uncertainty printed can be fixed in the procedure or calculated at the time of measurement by ProcalHow Procal selects which method to use: How Procal selects which method to use 1: If an Uncertainty Statement is selected in the procedure then Uncertainty statements will be printed at the end of the page If the uncertainty box on the procedure is empty then Procal will calculate the uncertainty for that test when it is run 2: If no uncertainty statement is chosen then Procal will Print line uncertainties.How Procal Calculates UNCERTAINTIES: How Procal Calculates UNCERTAINTIES The uncertainties function takes information from several sources to combine in a statistical calculation. Procal Combines at The time of test along with Measurement noise Imported & Stability (Proset) Contributions Template (ProSet) Test Data (Proedit) From Uncertainty table From Procedure Measurement Uncertainty Calculated by Procal to 95%UNCERTAINTIES – Uncertainty Templates 1: UNCERTAINTIES – Uncertainty Templates 1 The uncertainties function takes information from several sources to combine in a statistical calculation. Each parameter, eg. DC Voltage Source, has a template set up which contains all the information required to calculate the uncertainty for a specific test. Imported Uncertainty Stability of Reference Resolution Noise / Flicker Up to 15 additional sources of uncertainty A set of common uncertainty templates are installed with ProCal (AC/DC Voltage, Current Resistance etc.)UNCERTAINTIES – Uncertainty Templates 2: UNCERTAINTIES – Uncertainty Templates 2 Each parameter has its own template which includes the four main sources of uncertainty. Up to 15 user defined sources of uncertainty can also be added. List of available uncertainty templates Click here to add a new template Up to 15 user defined sources of uncertainty can be addedUNCERTAINTIES – Uncertainty Templates 3: UNCERTAINTIES – Uncertainty Templates 3 Each line of the uncertainty template is comprised of the following : Source of Uncertainty : A description of the uncertainty Limit value : The contribution of the uncertainty source Probability Distribution : A description of the distribution, as determined by the divisor Divisor : Divisor term (1.0, 2.0, 2, 3) Ci : Multiplier used to scale different measurement functions uncertainty eg. measuring current using a shunt with a reading returned in volts)UNCERTAINTIES – Reference Instrument Data: UNCERTAINTIES – Reference Instrument Data The reference uncertainty is calculated from the reference database (set using ProSet) - this data includes : IMPORTED uncertainty (from the laboratory which calibrated to instrument) STABILITY of reference (accuracy of instrument from manufacturer specifications)UNCERTAINTIES – Resolution: UNCERTAINTIES – Resolution The resolution of the instrument is determined when the test is run in ProCal. This is based on the number of decimal places, and is calculated as 1 count.UNCERTAINTIES – Noise / Flicker: UNCERTAINTIES – Noise / Flicker The noise / flicker is any observed change in the reading This is selected from the drop down list provided on screenUNCERTAINTIES – The complete calculation: UNCERTAINTIES – The complete calculation The complete calculation brings all these components together and produces a single uncertainty figure for the test. By pressing the CALC button the spreadsheet style view of the uncertainty calculation can be displayed.UNCERTAINTIES – The complete calculation (Cont’d): UNCERTAINTIES – The complete calculation (Cont’d) The uncertainty template screen displays the reference instrument description and uncertainty line used at the bottom of the screen. IMPORTED UNCERTANY STABILITY OF REFERENCE RESOLUTION NOISE / FLICKERUNCERTAINTIES – Reference Range Lookup: UNCERTAINTIES – Reference Range Lookup If the reference has multiple functions / ranges, ProCal is required to determine which function / range to use. The complete range of Transmille calibrators has a built in lookup table which enables ProCal to automatically find the correct line to use – for all other references the procedure will require the exact uncertainty line to be selected using ProEdit. ProCal looks up based on Test Type, Function & Test Value to determine the correct reference instrument line to select. ProCal can also look up the uncertainty template required, based on the test type and functionUNCERTAINTIES – Reference Range Lookup (Cont’d): UNCERTAINTIES – Reference Range Lookup (Cont’d) For other multi-range references, the specific reference line needs to be selected in ProEdit These selections tell ProCal which reference table, reference table line and uncertainty statement to use when calculating the uncertainty for this test. Reference Instrument selection Uncertainty table selection Reference table line selection You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
ProCal - Uncertainties Calculation sachin121083 Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 20 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: August 20, 2011 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Understanding How Procal Present and calculates Uncertainties: Understanding How Procal Present and calculates UncertaintiesProcal offers several options for Presenting & Calculating uncertainties: Procal offers several options for Presenting & Calculating uncertainties Uncertainty Statements Body Uncertainty Line Uncertainties1: Uncertainty Statements : 1: Uncertainty Statements Prints up to 10 lines of uncertainty statements at the end of the certificate page. The uncertainty statements are created and edited in the utilities menu in Proedit. The Procedure includes the lines to be printed When a procedure is run by Procal the uncertainty statements are copied to the certificate, no calculations are preformed2: Uncertainties Printed in the body of the Certificate: 2: Uncertainties Printed in the body of the Certificate Uncertainties can be printed between measurement anywhere on the certificate The uncertainty line printed can either be a fixed comment line or an editable comment line as entered in the procedure3: Line Uncertainties: 3: Line Uncertainties Uncertainties are printed next to the measurement on the same line The uncertainty printed can be fixed in the procedure or calculated at the time of measurement by ProcalHow Procal selects which method to use: How Procal selects which method to use 1: If an Uncertainty Statement is selected in the procedure then Uncertainty statements will be printed at the end of the page If the uncertainty box on the procedure is empty then Procal will calculate the uncertainty for that test when it is run 2: If no uncertainty statement is chosen then Procal will Print line uncertainties.How Procal Calculates UNCERTAINTIES: How Procal Calculates UNCERTAINTIES The uncertainties function takes information from several sources to combine in a statistical calculation. Procal Combines at The time of test along with Measurement noise Imported & Stability (Proset) Contributions Template (ProSet) Test Data (Proedit) From Uncertainty table From Procedure Measurement Uncertainty Calculated by Procal to 95%UNCERTAINTIES – Uncertainty Templates 1: UNCERTAINTIES – Uncertainty Templates 1 The uncertainties function takes information from several sources to combine in a statistical calculation. Each parameter, eg. DC Voltage Source, has a template set up which contains all the information required to calculate the uncertainty for a specific test. Imported Uncertainty Stability of Reference Resolution Noise / Flicker Up to 15 additional sources of uncertainty A set of common uncertainty templates are installed with ProCal (AC/DC Voltage, Current Resistance etc.)UNCERTAINTIES – Uncertainty Templates 2: UNCERTAINTIES – Uncertainty Templates 2 Each parameter has its own template which includes the four main sources of uncertainty. Up to 15 user defined sources of uncertainty can also be added. List of available uncertainty templates Click here to add a new template Up to 15 user defined sources of uncertainty can be addedUNCERTAINTIES – Uncertainty Templates 3: UNCERTAINTIES – Uncertainty Templates 3 Each line of the uncertainty template is comprised of the following : Source of Uncertainty : A description of the uncertainty Limit value : The contribution of the uncertainty source Probability Distribution : A description of the distribution, as determined by the divisor Divisor : Divisor term (1.0, 2.0, 2, 3) Ci : Multiplier used to scale different measurement functions uncertainty eg. measuring current using a shunt with a reading returned in volts)UNCERTAINTIES – Reference Instrument Data: UNCERTAINTIES – Reference Instrument Data The reference uncertainty is calculated from the reference database (set using ProSet) - this data includes : IMPORTED uncertainty (from the laboratory which calibrated to instrument) STABILITY of reference (accuracy of instrument from manufacturer specifications)UNCERTAINTIES – Resolution: UNCERTAINTIES – Resolution The resolution of the instrument is determined when the test is run in ProCal. This is based on the number of decimal places, and is calculated as 1 count.UNCERTAINTIES – Noise / Flicker: UNCERTAINTIES – Noise / Flicker The noise / flicker is any observed change in the reading This is selected from the drop down list provided on screenUNCERTAINTIES – The complete calculation: UNCERTAINTIES – The complete calculation The complete calculation brings all these components together and produces a single uncertainty figure for the test. By pressing the CALC button the spreadsheet style view of the uncertainty calculation can be displayed.UNCERTAINTIES – The complete calculation (Cont’d): UNCERTAINTIES – The complete calculation (Cont’d) The uncertainty template screen displays the reference instrument description and uncertainty line used at the bottom of the screen. IMPORTED UNCERTANY STABILITY OF REFERENCE RESOLUTION NOISE / FLICKERUNCERTAINTIES – Reference Range Lookup: UNCERTAINTIES – Reference Range Lookup If the reference has multiple functions / ranges, ProCal is required to determine which function / range to use. The complete range of Transmille calibrators has a built in lookup table which enables ProCal to automatically find the correct line to use – for all other references the procedure will require the exact uncertainty line to be selected using ProEdit. ProCal looks up based on Test Type, Function & Test Value to determine the correct reference instrument line to select. ProCal can also look up the uncertainty template required, based on the test type and functionUNCERTAINTIES – Reference Range Lookup (Cont’d): UNCERTAINTIES – Reference Range Lookup (Cont’d) For other multi-range references, the specific reference line needs to be selected in ProEdit These selections tell ProCal which reference table, reference table line and uncertainty statement to use when calculating the uncertainty for this test. Reference Instrument selection Uncertainty table selection Reference table line selection