RayTek FR, FA operating instructions 4 2C/1C Switch, Peak Hold PKH, Averaging AVG

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Operation

The slope is the deciding parameter for measurements in 2‐color mode! The emissivity affects only measurements in 1‐color mode.

For information on determining an unknown slope, and for sample slopes, refer to section 11.3 Typical Slopes, p. 56.

To change the unit’s slope setting, complete the following:

1.Make sure the 2C LED is lit.

2.Press the Mode button until the Є LED is lit. The current slope value shows on the display.

3. Press the c or d button to change the value.

4.Press the Mode button several times until the C or F LED is lit. The displayed temperature will now be based on the new slope value.

6.2.42C/1C Switch

To switch between 2‐color and 1‐color temperature measurement push the 2C/1C selector button. A lit LED indicates the active measurement method. Switching affects the LED display and analog out but not the RS485 out.

6.2.5 Peak Hold (PKH)

With Peak Hold, the respective last peak value is held for the duration of Hold Time. To set and activate Peak Hold, do the following:

1.Press the Mode button until the PKH LED is lit.

2.Press thec button to both set and activate. The display reads in 0.1 seconds. Set Peak Hold from 0.1 to 299.9 seconds. If Peak Hold is set to 300.0 seconds, a hardware reset is needed to trigger another reading. If Peak Hold is set to 0.0 seconds, the function is deactivated.

3.Press the Mode button until the C or F LED is lit. If Peak Hold has been activated, the Peak LED will stay lit.

Once Peak Hold is set above 0, it automatically activates. The output signal remains the same until one of two things happens:

•The peak hold time runs out. In this case, the signal reverts to actual temperature.

•The actual temperature goes above the hold temperature. In this case, starts holding new peak.

Note that other hold functions (like Valley Hold or Averaging) cannot be used concurrently. By means of the software other hold functions are adjustable (e.g. Advanced Peak Hold).

6.2.6 Averaging (AVG)

Averaging can be useful when an average temperature over a specific duration is desired, or when a smoothing of fluctuating temperatures is required.

The averaging algorithm simulates a first order low pass RC filter whose time constant can be adjusted to match the user’s averaging needs. The following figure illustrates an averaging output signal.

28	Marathon Series FA/FR

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Contents Marathon FA/FR Series Page Fluke Service Center ContactsWorldwide Headquarters European Headquarters France United KingdomWarranty Table of Contents Milliamp Output Relay Outputs Trigger Fiber Calibration Page Safety Instructions Safety InstructionsMarathon Series FA/FR Product Description Product DescriptionTheory of Operation for 2‐Color Sensors ModelsPartially Obscured Targets Targets Smaller Than Field of ViewLow or Changing Emissivities Technical Data Technical DataMeasurement Specifications FA ModelsGeneral Specifications Electrical Specifications Dimensions Dimensions of Optical HeadFA ModelsAdjustable Mounting Bracket for Optical Head Optical Specifications Standard FocusClose Focus Spot Size Charts for FA models Close FocusStandard Focus Spot Size Charts for FR models Close Focus Spot Size Charts for FR models Scope of DeliverySensor Location Sensor LocationSensor Placement 1‐Color Mode Sensor Placement 2‐Color ModeSensor Placement in 2‐Color Mode Viewing AnglesAcceptable Sensor Viewing Angles Installation InstallationMounting the Sensor Aiming Fiber Optic CableInstalling the Electronics Housing Configuring the Sensor CableRemoving the Terminal Block Power Supply Connecting to a PCRS232/485 Interface Converter Multidrop Installation 4‐Wire Multidrop Installation 2‐WireConnecting to Terminal Block Wiring for 2‐Wire Sensor SetupInstalling of Multiple Sensors in a Network WiringAddressing Operation OperationControl Panel Mode Selector Button Sequence FA Models Operation ModesTemperature Display Emissivity 1‐ColorSlope 2‐Color 4 2C/1C Switch Peak Hold PKHAveraging AVG Valley Hold VAL Overview to Hold FunctionsSetpoints DeadbandHold Functions Ambient Background Temperature Compensation FA Models Inputs and OutputsMilliamp Output Relay OutputsFactory Defaults Factory DefaultsCooling Platform for Electronics Housing OptionsOptions Accessories AccessoriesAccessories selection OverviewAir Purge Collar Protection TubeFitting System Flexible Fitting SystemOrder number Model Available RS232/485 Interface ConvertersIndustrial Power Supply Dimension of Industrial Power SupplyCommand Structure Programming GuideProgramming Guide Remote versus Manual ConsiderationsPoll Mode Burst ModeTransfer Modes Response Time in Setup Mode = + n ⋅15000Command List Command ListXUFR1A Command Examples Command ExamplesMaintenance MaintenanceTroubleshooting Minor Problems TroubleshootingError Codes in 1‐Color Mode FA models Error Codes in 2‐Color Mode FR modelsFail‐Safe Operation Current Output Values in accordance to an Error Examples of failsafe conditionsCleaning the Lens Replacing the Fiber Optic Cable Removing the Fiber Optic CableRemoving the Fiber Optic Cable from the Optical Head Put cable out Mounting the Fiber Optic Cable Attaching the Fiber Optic Cable to the Optical HeadFiber Calibration Dialog for the Calibration of the Fiber Cable Appendix AppendixDetermination of Emissivity Typical Emissivity ValuesMarathon Series FA/FR55 Typical Emissivity Values MetalsTypical Emissivity Values Non‐Metals How to determine slope? Typical SlopesSignal Reduction FR Models Typical Percentage of Allowed Signal Reduction FR1A ModelsMaximum Error Attenuation Influence on AccuracyMarathon Instrument Calibration