Work Order Tracking / (CM) / (HSE) / (Tr) - Data Sheet tab

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Attributes

Tab / Table / Section Attribute Remarks
Data Sheet   Tab
  Parent WO Parent of the work order shown in the Work Order field. When this field is blank, the work order in the Work Order field is a top-level work order. To assign a work order to a parent, select Assign to New Parent from the Select Action menu.
     
Data Sheet > Associated Data Sheets   Table with "New Row" button. "Mark Row for Delete" icon is available row.
Data Sheet > Associated Data Sheets >Details   Section
  Data Sheet
 Identifier of the selected data sheet.
  Asset Asset Number
  Location Enter or select the location this data sheet is associated with. This is used for loop calibrations.
  Tag Location
 Defines the location number of the associated Tag ID Location record.
  Revision Revision Number of the current datasheet
  Certificate Number Enter the certificate number received when an instrument was calibrated off-site.
  Required When selected, all as found and as left data must be entered before the work order can be set to CLOSED or COMPLETE.
     
Barometric Pressure > Uncertainty Data   Section
  System ID Enter a description of the external measurement system.
  k-Factor The uncertainty coverage factor of the asset. The value k is based on the required level of confidence to be associated with the interval level that is defined. Typically, k is in the range 2 - 3.
  Confidence Level Indicates the level of confidence in the uncertainty data. Certified calibration standards typically apply a confidence level of 95% to a coverage factor of 2. Specify a value from the Select Value menu.
  Guardband Method A method that calculates the reliability of the calibration. Enter a value or specify a value from the Select Value menu.
  Guardband Factor Safety factors subtracted from or added to the tolerance limits. The safety factor depends on the relative importance of the product failing and costing money to correct.
  Certification Interval The frequency of the uncertainty interval. Enter a value and specify the unit. For example, the Certification Interval is 1 and Units is MONTHS.
  Units The unit of time of the uncertainty interval. Specify the value from the Select Value menu. For example, the Certification Interval is 1 and Units is MONTHS.
     
Data Sheet > Associated Data Sheets > Environmental Conditions   Section
  Temperature The environmental temperature at the time of calibration. Temperature consists of a numeric value field and a units field.
  Units The environmental temperature at the time of calibration. Temperature consists of a numeric value field and a units field.
  Humidity The environmental humidity at the time of calibration. Humidity consists of a numeric value field and a units field.
  Units The environmental humidity at the time of calibration. Humidity consists of a numeric value field and a units field.
  Barometric Pressure The environmental barometric pressure at the time of calibration. Barometric Pressure consists of a numeric value field and a units field.
  Units Environmental Condition - Barometric Pressure Engineering Units
     
Data Sheet > Associated Data Sheets > As Found Status   Section
  Status The As Found status for the associated data sheet.
  Comments Additional comments for the As Found status. Click Long Description if you need to enter more details.
     
Data Sheet > Associated Data Sheets > As Left Status   Section
  Status The As Left status for the associated data sheet.
  Comments Additional comments for the As Left status. Click Long Description if you need to enter more details.
     
Data Sheet > Asset Functions   Table
Data Sheet > Asset Functions > Asset Function   Section
  Asset Function
 Asset Function Number
  Calibration Point? When selected, indicates that this asset function has calibration points. The Function Check, Dynamic Check, and Calibration Points fields are mutually exclusive.
  Function Checks? An additional informational check point that is required to calibrate an instrument. The options are either pass or fail. When selected, the asset function is for a functional check. The Function Check, Dynamic Check, and Calibration Points fields are mutually exclusive.
  Dynamic Checks? Additional informational data of the instrument being calibrated. A dynamic check point does not affect the calibration of an instrument. When selected, the asset function is for a dynamic check. The Function Check, Dynamic Check, and Calibration Points fields are mutually exclusive.
  Type Indicates if the asset function type is ANALOG or DISCRETE. Dependent upon the asset function type being ANALOG or DISCRETE, the appropriate fields in the Asset Functions table window are either enabled or disabled for the type of asset specified.
  Repeatable? When selected, indicates that the calibration point is repeatable on the work order data sheet. The number of times the calibration point is repeated is set by the Repeat Value field.
  Technician can Insert Points?
 Indicates if the field technician can insert calibration point row(s) to a asset function while performing a calibration.
  Manual When selected, indiates that this asset function has manual calibration points. You can then enter values in the Input and Output fields. Tolerance limits are already configured and are absolute.
  Non-Linear? When selected, indicates that the formula calculation used is for non-linear instruments.
  No AdjustmentLimit? No Adjust Made
     
Data Sheet > Asset Functions > Uncertainty Data   Section
  k-Factor The uncertainty coverage factor of the asset. The value k is based on the required level of confidence to be associated with the interval level that is defined. Typically, k is in the range 2 - 3.
  Confidence Level Indicates the level of confidence in the uncertainty data. Certified calibration standards typically apply a confidence level of 95% to a coverage factor of 2. Specify a value from the Select Value menu.
  TUR Test Uncertainty Ratio is the comparison between the accuracy of the Unit Under Test (UUT) and the estimated calibration uncertainty. For example 1:1, 4:1, 10:1
  Guardband Method A method that calculates the reliability of the calibration. Enter a value or specify a value from the Select Value menu.
  Guardband Factor Safety factors subtracted from or added to the tolerance limits. The safety factor depends on the relative importance of the product failing and costing money to correct.
  Certification Interval The frequency of the uncertainty interval. Enter a value and specify the unit. For example, the Certification Interval is 1 and Units is MONTHS.
  Units The unit of time of the uncertainty interval. Specify the value from the Select Value menu. For example, the Certification Interval is 1 and Units is MONTHS.
  Combined Std Uncertainty The estimated standard deviation of the result.
  Calibration Function An equation used to define the true value based on the measured value.
  Function Uncertainty Time of Test related to the Calibration Function.
     
Data Sheet > Asset Functions > Input Information   Section
  Tolerance on Input? When selected, (default) indicates that the tolerance calculations are based on the input range. When cleared, the tolerance calculations are based on the output range.
  Min Field Resolution
 Indicates the minimum number of decimal places required for a numeric field value. Calculations performed in Maximo for input and output functions will be performed to the specified resolution. Note: Minimum field resolution is not applied to all fields.
  Input Range From The lower range of the nominal input value of the asset. This value is required for analog asset functions. For example, a pressure transmitter that is calibrated to measure 100 - 300 psi. The Input Range From is 100.
  To The upper range of the nominal input value of the asset. This field is a required field for analog asset functions. For example, a pressure transmitter that is calibrated to measure 100 - 300 psi. The input range To is 300.
  Units The Engineering Units used to express the value of the input range. Click Select Value to select a value from the list.
  Input Limits Clipped? Indicates if the input range is limited to the defined (e.g. Input From/To) lower and upper input values of the asset function. The lower and upper input values are the values in the Input range From field and To field.For Example, the lower and upper input values are 100.000 to 300.000.If the nominal input value is less than 100.000 or greater than 300.000 then an error message is displayed.
  Range Limit From The lower range limit of an asset. The input values of an asset added to a work order data sheet must be within a specified range. The value must be less than or equal to 0. For example, if a range limit is -3 to 3 EU, then the input of 100 psi from a pressure transmitter accepts values 97 - 103.
  To The upper range limit of an asset. The input values of an asset added to a work order data sheet must be within a specified range. The value must be greater than or equal to 0. For example, if a range limit is -3 to 3 EU, then the input of 100 psi from a pressure transmitter accepts values 97 - 103.
  As Indicates the range on nominal's tolerance type.
     
Data Sheet > Asset Functions > Output Information   Section
  Tolerance on Output? When selected, indicates that the tolerance calculations are based on the output range. When cleared (default), the tolerance calculations are based on the input range.
  Min Field Resolution
 Indicates the minimum number of decimal places required for a numeric field value. Calculations performed in Maximo for input and output functions will be performed to the specified resolution. Note: Minimum field resolution is not applied to all fields.
  Output Range From The lower range of the output value of the asset. This value is required for analog asset functions. For example, a pressure transmitter that is calibrated to generate an output of 4-20 milliamps (mA) for an input range of 100 - 300 psi. The Output Range From is 4.
  To The upper range of the output value of the asset. This value is required for analog asset functions. For example, a pressure transmitter that is calibrated to generate an output of 4-20 milliamps (mA) for an input range of 100 - 300 psi. The output range To is 20.
  Units The Engineering Units used to express the value of the output range. Click Select Value to select a value from the list.
  Output Limits Clipped?
 This check box indicates if range on nominal and tolerance upper and lower limit values for analog functions are clipped (limited) to the lower and upper input and output calibrated range of the asset function.
  Square Root of Input? When selected, analog asset functions that measure differential pressure are calibrated.
  Reverse Flow? When selected, the formula calculation used to determine the tolerance limits is squared.
  Process Units Defines the engineering units used for reporting calibration error. Click Select Value to select a value from the list.
  Scaling Factor The conversion factor from output engineering units to units you specify. For example, an I/P converter represents a temperature signal (current and pneumatic pressure). You want to show the error in temperature engineering units (Celsius or Fahrenheit).
     
Data Sheet > Asset Functions > Tolerance 1   section
  Description Enter a description or comment about the Tolerance 1 range limit sets.
  Single From The lower range of the input value that determines the tolerance limit. The value must be less than or equal to 0. If you specify a single tolerance limit, the Summed EU, %Span, %URV, and %Reading fields are read-only.
  To The upper range of the input value that determines the tolerance limit. The value must be greater than or equal to 0. If you specify a single tolerance limit, the Summed EU, %Span, %URV, and %Reading fields are read-only.
  As Indicates the tolerance's tolerance type.
  Status when Exceeded Indicates the user specified calibration status when a tolerance is exceeded.
  Summed EU + An engineering unit is a specific calibration formula that calculates tolerance limits. Summed EU is a combination of EU, %Span, %URV, and %Reading to determine the tolerance level.
  %Span + The %Span is a specific calibration formula that calculates tolerance limits.
  %URV + The %URV is a specific calibration formula that calculates tolerance limits.
  %Reading The %Reading is a specific calibration formula that calculates tolerance limits.
  Applied As
 Indicates how you want to apply the summed tolerance range on either side of the specified value. Click Select Value to select a value from the list.
  Guardband Tolerance From The lower range of the input value that determines the guardband tolerance limit. The guardband tolerance values are added to or subtracted from the Single or Summed tolerance values and used to determine the tolerance levels.
  To The upper range of the input value that determines the guardband tolerance limit. The guardband tolerance values are added to or subtracted from the Single or Summed tolerance values and used to determine the tolerance levels.
  Applied As The polarity of the guardband tolerances. The values are + and -.
     
Data Sheet > Asset Functions > Tolerance 2   Section
  Description Enter a description or comment about the Tolerance 2 range limit sets.
  Single From The lower range of the input value that determines the tolerance limit. The value must be less than or equal to 0. If you specify a single tolerance limit, the Summed EU, %Span, %URV, and %Reading fields are read-only.
  To The upper range of the input value that determines the tolerance limit. The value must be greater than or equal to 0. If you specify a single tolerance limit, the Summed EU, %Span, %URV, and %Reading fields are read-only.
  As Indicates the tolerance's tolerance type.
  Status when Exceeded Indicates the user specified calibration status when a tolerance is exceeded.
  Summed EU + An engineering unit is a specific calibration formula that calculates tolerance limits. Summed EU is a combination of EU, %Span, %URV, and %Reading to determine the tolerance level.
  %Span + The %Span is a specific calibration formula that calculates tolerance limits.
  %URV + The %URV is a specific calibration formula that calculates tolerance limits.
  %Reading The %Reading is a specific calibration formula that calculates tolerance limits.
  Applied As
 Indicates how you want to apply the summed tolerance range on either side of the specified value. Click Select Value to select a value from the list.
  Guardband Tolerance From The lower range of the input value that determines the guardband tolerance limit. The guardband tolerance values are added to or subtracted from the Single or Summed tolerance values and used to determine the tolerance levels.
  To The upper range of the input value that determines the guardband tolerance limit. The guardband tolerance values are added to or subtracted from the Single or Summed tolerance values and used to determine the tolerance levels.
  Applied As The polarity of the guardband tolerances. The values are + and -.
     
Data Sheet > Asset Functions > Tolerance 3   section
  Description Enter a description or comment about the Tolerance 3 range limit sets.
  Single From The lower range of the input value that determines the tolerance limit. The value must be less than or equal to 0. If you specify a single tolerance limit, the Summed EU, %Span, %URV, and %Reading fields are read-only.
  To The upper range of the input value that determines the tolerance limit. The value must be greater than or equal to 0. If you specify a single tolerance limit, the Summed EU, %Span, %URV, and %Reading fields are read-only.
  As
 Indicates the tolerance's tolerance type.
  Status when Exceeded Indicates the user specified calibration status when a tolerance is exceeded.
  Summed EU + An engineering unit is a specific calibration formula that calculates tolerance limits. Summed EU is a combination of EU, %Span, %URV, and %Reading to determine the tolerance level.
  %Span + The %Span is a specific calibration formula that calculates tolerance limits.
  %URV + The %URV is a specific calibration formula that calculates tolerance limits.
  %Reading The %Reading is a specific calibration formula that calculates tolerance limits.
  Applied As
 Indicates how you want to apply the summed tolerance range on either side of the specified value. Click Select Value to select a value from the list.
  Guardband Tolerance From The lower range of the input value that determines the guardband tolerance limit. The guardband tolerance values are added to or subtracted from the Single or Summed tolerance values and used to determine the tolerance levels.
  To The upper range of the input value that determines the guardband tolerance limit. The guardband tolerance values are added to or subtracted from the Single or Summed tolerance values and used to determine the tolerance levels.
  Applied As The polarity of the guardband tolerances. The values are + and -.
     
Data Sheet > Asset Functions > Tolerance 4   section
  Description Enter a description or comment about the Tolerance 4 range limit sets.
  Single From The lower range of the input value that determines the tolerance limit. The value must be less than or equal to 0. If you specify a single tolerance limit, the Summed EU, %Span, %URV, and %Reading fields are read-only.
  To The upper range of the input value that determines the tolerance limit. The value must be greater than or equal to 0. If you specify a single tolerance limit, the Summed EU, %Span, %URV, and %Reading fields are read-only.
  As
 Indicates the tolerance's tolerance type.
  Status when Exceeded
 Indicates the user specified calibration status when a tolerance is exceeded.
  Summed EU + An engineering unit is a specific calibration formula that calculates tolerance limits. Summed EU is a combination of EU, %Span, %URV, and %Reading to determine the tolerance level.
  %Span + The %Span is a specific calibration formula that calculates tolerance limits.
  %URV + The %URV is a specific calibration formula that calculates tolerance limits.
  %Reading The %Reading is a specific calibration formula that calculates tolerance limits.
  Applied As
 Indicates how you want to apply the summed tolerance range on either side of the specified value. Click Select Value to select a value from the list.
  Guardband Tolerance From The lower range of the input value that determines the guardband tolerance limit. The guardband tolerance values are added to or subtracted from the Single or Summed tolerance values and used to determine the tolerance levels.
  To The upper range of the input value that determines the guardband tolerance limit. The guardband tolerance values are added to or subtracted from the Single or Summed tolerance values and used to determine the tolerance levels.
  Applied As The polarity of the guardband tolerances. The values are + and -.
     
Data Sheet > Asset Functions > As Found Status   Section
  Status As Found Calibration Status
  Comments
 As Found Comments
     
Data Sheet > Asset Functions > As Left Status   Section
  Status As Left Calibration Status
  Comments As Left Comments
     
Data Sheet > Calibration Points   Tab
Data Sheet > Calibration Points > Calibration Points   Table with "New Row" button.
  Calibration Point
 The user entered reference number for the calibration requirement for each asset function.
  Asset Function Asset Function Number
     
Data Sheet > Calibration Points > Calibration Points > Analog Point Information   Section
  Nominal Input The user-specified input value for each analog calibration point. The nominal input value is based on the asset function Input Range From and To fields and the amount of calibration points. For example, a 3 calibration point check is defined at 20%, 50%, and 75%. The input range of 100 psi to 300 psi results in the calibration of the instrument at 60 psi, 150 psi, and 225 psi.
  Desired Output Desired output is the result that you want to occur for an input value. For example, for an input of 0 psi, the output result you want is 4 mA. This value is a calculation based on the nominal input value.
  Direction Direction
  Range Limit From The lower range of the nominal input value
  To The upper range of the nominal input value
  As Indicates the range on nominal's tolerance type.
  Units Instrument Calibration Range Engineering Units
  Units Instrument Output Range Engineering Units
     
Data Sheet > Calibration Points > Calibration Points > Discrete Point Information   Section
  Set Point The input value at which a discrete device activates.
  Switch Action The wanted behavior of the discrete device, such as a switch that turns on or off at the specified set point.
  Set Point Adjustment When selected, the Set Point field on the work order data sheet can be edited. Select this to allow deadband adjustments.
  Units Instrument Calibration Range Engineering Units
     
Data Sheet > Calibration Points > Calibration Points > As Found Values   Section
  Input The input value before the asset is adjusted. All As Found data must be entered before a work order can be closed.
  Output The output value before the asset is adjusted. All As Found data must be entered before a work order can be closed.
  Set Point The set point value before the asset is adjusted.
  Set Point Action Switch Action The wanted behavior of the discrete device, such as a switch that turns on or off at the specified set point.
  Units Instrument Calibration Range Engineering Units
  Units Instrument Output Range Engineering Units
  Units Instrument Calibration Range Engineering Units
  Asset Error The As Found output error for the calibration point of the asset being calibrated.
  Process Error The As Found process error for the calibration point of the asset being calibrated. If the process error is not expressed in input or output units, you must enter a conversion factor in the Scaling Factor field to convert engineering units to user specified units.
  Units Instrument Output Range Engineering Units
  Units Process Error Engineering Units
     
Data Sheet > Calibration Points > Calibration Points > Uncertainty Data   Section
  Input Uncertainty The uncertainty measurement input value.
  Units The unit of measure of the uncertainty input.
  TUR Test Uncertainty Ratio is the comparison between the accuracy of the Unit Under Test (UUT) and the estimated calibration uncertainty. For example 1:1, 4:1, 10:1
  Uncertainty Value A value that is determined by statistical methods.
  Units The unit of measure of the uncertainty value.
  Expected Drift The expected calibration variation of the asset over a period of time.
  Units The unit of measure of the expected drift.
     
Data Sheet > Calibration Points > Calibration Points > As Left Values   Section
  Input The input value after the asset is adjusted. All As Left data must be entered before a work order can be closed.
  Output The output value after the asset is adjusted. All As Left data must be entered before a work order can be closed.
  Set Point The set point value after the asset is adjusted.
  Set Point Action Switch Action The wanted behavior of the discrete device, such as a switch that turns on or off at the specified set point.
  Units Instrument Calibration Range Engineering Units
  Units Instrument Output Range Engineering Units
  Units Instrument Calibration Range Engineering Units
  Asset Error The As Left output error for the calibration point of the asset being calibrated.
  Process Error The As Left process error for the calibration point of the asset being calibrated. If the process error is not expressed in input or output units, you must enter a conversion factor in the Scaling Factor field to convert engineering units to user specified units.
  Units Instrument Output Range Engineering Units
  Units Process Error Engineering Units
     
Data Sheet > Calibration Points > Calibration Points > As Found Response   Section
  Response The As Found response value for an instrument.
  Units Engineering units of the As Found response value.
     
Data Sheet > Calibration Points > Calibration Points > As Left Response   Section
  Response As Left Response
  Units Engineering units of the As Left response value.
     
Data Sheet > Calibration Points > Calibration Points > As Found Tolerances   Section
  Tolerance 1 From The lower range of the As Found tolerance readings.
  To For the tolerance 1, the upper range of the As Found tolerance readings.
  Error For the tolerance 1, the As Found tolerance error for the calibration point of the asset being calibrated.
  Tolerance 2 From The lower range of the As Found tolerance readings.
  To For the tolerance 2, the upper range of the As Found tolerance readings.
  Error For the tolerance 2, the As Found tolerance error for the calibration point of the asset being calibrated.
  Tolerance 3 From The lower range of the As Found tolerance readings.
  To For the tolerance 3, the upper range of the As Found tolerance readings.
  Error For the tolerance 3, the As Found tolerance error for the calibration point of the asset being calibrated.
  Tolerance 4 From The lower range of the As Found tolerance readings.
  To For the tolerance 4, the upper range of the As Found tolerance readings.
  Error For the tolerance 4, the As Found tolerance error for the calibration point of the asset being calibrated.
     
Data Sheet > Calibration Points > Calibration Points > As Left Tolerances   Section
  Tolerance 1 From The lower range of the As Left tolerance readings.
  To For the tolerance 1, the upper range of the As Left tolerance readings.
  Error For the tolerance 1, the As Left tolerance error for the calibration point of the asset being calibrated.
  Tolerance 2 From The lower range of the As Left tolerance readings.
  To For the tolerance 2, the upper range of the As Left tolerance readings.
  Error For the tolerance 2, the As Left tolerance error for the calibration point of the asset being calibrated.
  Tolerance 3 From The lower range of the As Left tolerance readings.
  To For the tolerance 3, the upper range of the As Left tolerance readings.
  Error For the tolerance 3, the As Left tolerance error for the calibration point of the asset being calibrated.
  Tolerance 4 From The lower range of the As Left tolerance readings.
  To For the tolerance 4, the upper range of the As Left tolerance readings.
  Error For the tolerance 4, the As Left tolerance error for the calibration point of the asset being calibrated.
     
Data Sheet > Calibration Points > Calibration Point Average and Standard Deviation   Tab
Data Sheet > Calibration Points > Calibration Point Average and Standard Deviation > Calibration Points   Table
  Calibration Point Calibration Point
  Function Asset Function Number
     
Data Sheet > Calibration Points > Calibration Point Average and Standard Deviation > Calibration Points > Analog Point Information   Section
  Nominal Input The user-specified input value for each analog calibration point. The nominal input value is based on the asset function Input Range From and To fields and the amount of calibration points. For example, a 3 calibration point check is defined at 20%, 50%, and 75%. The input range of 100 psi to 300 psi results in the calibration of the instrument at 60 psi, 150 psi, and 225 psi.
  Desired Output Desired output is the result that you want to occur for an input value. For example, for an input of 0 psi, the output result you want is 4 mA. This value is a calculation based on the nominal input value.
  Direction Direction
  Range Limit From ron1lower
  To ron1upper
  As Indicates the range on nominal's tolerance type.
  Units Instrument Calibration Range Engineering Units
  Units Instrument Output Range Engineering Units
     
Data Sheet > Calibration Points > Calibration Point Average and Standard Deviation > Calibration Points > Discrete Point Information   Section
  Set Point The input value at which a discrete device activates.
  Set Point Action Switch Action The wanted behavior of the discrete device, such as a switch that turns on or off at the specified set point.
  Set Point Adjustment When selected, the Set Point field on the work order data sheet can be edited. Select this to allow deadband adjustments.
  Asset Function Calibration Range Engineering Units Instrument Calibration Range Engineering Units
     
Data Sheet > Calibration Points > Calibration Point Average and Standard Deviation > Calibration Points > As Found Values   Section
  As Found Input The input value before the asset is adjusted. All As Found data must be entered before a work order can be closed.
  As Found Output The output value before the asset is adjusted. All As Found data must be entered before a work order can be closed.
  As Found Set Point The set point value before the asset is adjusted.
  Set Point Action Switch Action The wanted behavior of the discrete device, such as a switch that turns on or off at the specified set point.
  Asset Function Calibration Range Engineering Units Instrument Calibration Range Engineering Units
  Asset Function Output Range Engineering Units Instrument Output Range Engineering Units
  Asset Function Calibration Range Engineering Units Instrument Calibration Range Engineering Units
  Input Standard Deviation This calculated value is determined after all Calibration Point As Found Input data is entered.
  Output Standard Deviation This calculated value is determined after all Calibration Point As Found Output data is entered.
  Set Point Standard Deviation This calculated value is determined after all As Found Set Point data is entered.
  As Found Output Error The As Found output error for the calibration point of the asset being calibrated.
  As Found pro Error The As Found process error for the calibration point of the asset being calibrated. If the process error is not expressed in input or output units, you must enter a conversion factor in the Scaling Factor field to convert engineering units to user specified units.
  Asset Function Output Range Engineering Units Instrument Output Range Engineering Units
  Process Engineering Units Process Engineering Units
     
Data Sheet > Calibration Points > Calibration Point Average and Standard Deviation > Calibration Points > Uncertainty Data   Section
  Input Uncertainty The uncertainty measurement input value.
  Units The unit of measure of the uncertainty input.
  TUR Test Uncertainty Ratio is the comparison between the accuracy of the Unit Under Test (UUT) and the estimated calibration uncertainty. For example 1:1, 4:1, 10:1
  Uncertainty Value A value that is determined by statistical methods.
  Units The unit of measure of the uncertainty value.
  Expected Drift The expected calibration variation of the asset over a period of time.
  Units The unit of measure of the expected drift.
     
Data Sheet > Calibration Points > Calibration Point Average and Standard Deviation > Calibration Points > As Left Values   Section
  As Left Input The input value after the asset is adjusted. All As Left data must be entered before a work order can be closed.
  As Left Output The output value after the asset is adjusted. All As Left data must be entered before a work order can be closed.
  As Left Set Point The set point value after the asset is adjusted.
  Set Point Action Switch Action The wanted behavior of the discrete device, such as a switch that turns on or off at the specified set point.
  Asset Function Calibration Range Engineering Units Instrument Calibration Range Engineering Units
  Asset Function Output Range Engineering Units Instrument Output Range Engineering Units
  Asset Function Calibration Range Engineering Units Instrument Calibration Range Engineering Units
  Input Standard Deviation This calculated value is determined after all As Left Input data is entered.
  Output Standard Deviation This calculated value is determined after all As Left Output data is entered.
  Set Point Standard Deviation This calculated value is determined after all As Left Set Point data is entered.
  As Left Output Error The As Left output error for the calibration point of the asset being calibrated.
  As Left pro Error The As Left process error for the calibration point of the asset being calibrated. If the process error is not expressed in input or output units, you must enter a conversion factor in the Scaling Factor field to convert engineering units to user specified units.
  Asset Function Output Range Engineering Units Instrument Output Range Engineering Units
  Process Engineering Units Process Engineering Units
     
Data Sheet > Calibration Points > Calibration Point Average and Standard Deviation > Calibration Points > As Found Response   Section
  As Found Response The As Found response value for an instrument.
  As Found Response Engineering Units Engineering units of the As Found response value.
     
Data Sheet > Calibration Points > Calibration Point Average and Standard Deviation > Calibration Points >As Left Response   Section
  As Left Response As Left Response
  As Left Response Engineering Units The As Left response value for an instrument.
     
Data Sheet > Calibration Points > Calibration Point Average and Standard Deviation > Calibration Points > As Found Tolerances   Section
  Tolerance 1 From The lower range of As Found tolerance readings.
  To For the tolerance 1, the upper range of As Found tolerance readings.
  Error For the tolerance 1, the As Found tolerance error for the calibration point of the asset being calibrated.
  Tolerance 2 From The lower range of As Found tolerance readings.
  To For the tolerance 2, the upper range of As Found tolerance readings.
  Error For the tolerance 2, the As Found tolerance error for the calibration point of the asset being calibrated.
  Tolerance 3 From The lower range of As Found tolerance readings.
  To For the tolerance 3, the upper range of As Found tolerance readings.
  Error For the tolerance 3, the As Found tolerance error for the calibration point of the asset being calibrated.
  Tolerance 4 From The lower range of As Found tolerance readings.
  To For the tolerance 4, the upper range of As Found tolerance readings.
  Error For the tolerance 4, the As Found tolerance error for the calibration point of the asset being calibrated.
     
Data Sheet > Calibration Points > Calibration Point Average and Standard Deviation > Calibration Points > As Left Tolerances   Section
  Tolerance 1 From The lower range of As Left tolerance readings.
  To For the tolerance 1, the upper range of As Found tolerance readings.
  Error The As Left tolerance error for the calibration point of the asset being calibrated.
  Tolerance 2 From The lower range of As Left tolerance readings.
  To For the tolerance 2, the upper range of As Found tolerance readings.
  Error For the tolerance 2, the As Left tolerance error for the calibration point of the asset being calibrated.
  Tolerance 3 From The lower range of As Left tolerance readings.
  To For the tolerance 3, the upper range of As Found tolerance readings.
  Error For the tolerance 3, the As Left tolerance error for the calibration point of the asset being calibrated.
  Tolerance 4 From The lower range of As Left tolerance readings.
  To For the tolerance 4, the upper range of As Found tolerance readings.
  Error For the tolerance 4, the As Left tolerance error for the calibration point of the asset being calibrated.
     
Data Sheet > Function Checks   Tab
Data Sheet > Function Checks > Function Checks   Table with "New Row" button. "Mark Row for Delete" icon is available row.
Data Sheet > Function Checks > Function Checks > Details   Section
  Function Asset Function Number
  Calibration Point The user entered reference number for the calibration requirement for each asset function.
  Description Description
  Description Point Description
  Data Sheet Type Point Plan Type
  Comment Function/Dynamic Check Comment Field
     
Data Sheet > Function Checks > Function Checks > As Found Values   Section
  As Found Pass When selected, indicates that the As Found Function Check passed. The As Found Pass and As Found Fail fields are mutually exclusive.
  As Found Fail When selected, indicates that the As Found Function Check failed. The As Found Pass and As Found Fail fields are mutually exclusive.
     
Data Sheet > Function Checks > Function Checks > As Left Values   Section
  As Left Pass When selected, indicates that the As Left Function Check passed. The As Left Pass and As Left Fail fields are mutually exclusive.
  As Left Fail When selected, indicates that the As Left Function Check failed. The As Left Pass and As Left Fail fields are mutually exclusive.
     
Data Sheet > Dynamic Checks   Tab
Data Sheet > Dynamic Checks > Dynamic Checks   Table with "New Row" button. "Mark Row for Delete" icon is available in every row.
Data Sheet > Dynamic Checks > Dynamic Checks > Details   Section
  Function Asset Function Number
  Calibration Point The user entered reference number for the calibration requirement for each asset function.
  Description Description
  Description Point Description
  Data Sheet Type Point Plan Type
  Comment Function/Dynamic Check Comment Field
     
Data Sheet > Dynamic Checks > Dynamic Checks > As Found Values   Section
  As Found Input The input value before the asset is adjusted. All As Found data must be entered before a work order can be closed.
  Units The engineering units the As Found Dynamic Value is measured in. This field is mandatory when an As Found Value is entered.
     
Data Sheet > Dynamic Checks > Dynamic Checks > As Left Values   Section
  As Left Input The input value after the asset is adjusted. All As Left data must be entered before a work order can be closed.
  Units The engineering units the As Left Dynamic Value is measured in. This field is mandatory when an As Left Value is entered.

Work Order Tracking Help

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