RayTek FA, FR operating instructions Marathon, Instrument Calibration

Page 67

Marathon

Fluke IR Traceability

11.6 Traceability

National Metrology Institutes

PTB

-50 to 800°C

ITS 90

Annual NIST Calibration	NIST	Annual NIST Calibration
and historical data	800 to 2700°C	and historical data
results review	ITS 90	results review

Fluke Primary

Standards

Fluke Working Standards

Fluke Calibrated blackbody cavaties and plates

-20 to 800°C

Low Temp

Primary Standard

-20 to 800°C

Low Temp Secondary

(Working) Standard

Working cavaties and plates

(black body sources)

25 to 500°C

760 to 2700°C

High Temp

Primary Standard

760 to 2700°C

High Temp Secondary

(Working) Standard

Cross check

400 to 800°C

Fluke Medium Temp

Primary Standard

400 to 800°C

Medium Temp Secondary

(Working) Standard

of Instrument Calibration

Series FA/FR

59

Daily check at 1000,	Computerized cavity
1700, and 2500°C	(black body source)
	500 to 2727°C

C U S T O M E R I N F R A R E D T H E R M O M E T E R S

Fluke reserves the right to make changes to this traceability and methodes without notice.

Appendix

Image 67

Contents Marathon FA/FR Series Page European Headquarters France United Kingdom Fluke Service CenterContacts Worldwide HeadquartersWarranty Table of Contents Milliamp Output Relay Outputs Trigger Fiber Calibration Page Safety Instructions Safety InstructionsMarathon Series FA/FR Models Product DescriptionProduct Description Theory of Operation for 2‐Color SensorsTargets Smaller Than Field of View Partially Obscured TargetsLow or Changing Emissivities FA Models Technical DataTechnical Data Measurement SpecificationsGeneral Specifications Electrical Specifications Dimensions of Optical HeadFA Models DimensionsAdjustable Mounting Bracket for Optical Head Standard Focus Optical SpecificationsClose Focus Close Focus Spot Size Charts for FA modelsStandard Focus Spot Size Charts for FR models Scope of Delivery Close Focus Spot Size Charts for FR modelsSensor Location Sensor LocationSensor Placement 2‐Color Mode Sensor Placement 1‐Color ModeViewing Angles Sensor Placement in 2‐Color ModeAcceptable Sensor Viewing Angles Installation InstallationMounting the Sensor Fiber Optic Cable AimingConfiguring the Sensor Cable Installing the Electronics HousingRemoving the Terminal Block Connecting to a PC Power SupplyRS232/485 Interface Converter Multidrop Installation 2‐Wire Multidrop Installation 4‐WireWiring for 2‐Wire Sensor Setup Connecting to Terminal BlockWiring Installing of Multiple Sensors in a NetworkAddressing Operation OperationControl Panel Operation Modes Mode Selector Button Sequence FA ModelsEmissivity 1‐Color Temperature DisplaySlope 2‐Color Peak Hold PKH 4 2C/1C SwitchAveraging AVG Overview to Hold Functions Valley Hold VALDeadband SetpointsHold Functions Relay Outputs Ambient Background Temperature Compensation FA ModelsInputs and Outputs Milliamp OutputFactory Defaults Factory DefaultsOptions Cooling Platform for Electronics HousingOptions Overview AccessoriesAccessories Accessories selectionProtection Tube Air Purge CollarFlexible Fitting System Fitting SystemAvailable RS232/485 Interface Converters Order number ModelDimension of Industrial Power Supply Industrial Power SupplyRemote versus Manual Considerations Command StructureProgramming Guide Programming GuideBurst Mode Poll ModeTransfer Modes = + n ⋅15000 Response Time in Setup ModeCommand List Command ListXUFR1A Command Examples Command ExamplesTroubleshooting MaintenanceMaintenance Troubleshooting Minor ProblemsError Codes in 2‐Color Mode FR models Error Codes in 1‐Color Mode FA modelsFail‐Safe Operation Examples of failsafe conditions Current Output Values in accordance to an ErrorCleaning the Lens Removing the Fiber Optic Cable Replacing the Fiber Optic CableRemoving the Fiber Optic Cable from the Optical Head Put cable out Attaching the Fiber Optic Cable to the Optical Head Mounting the Fiber Optic CableFiber Calibration Dialog for the Calibration of the Fiber Cable Typical Emissivity Values AppendixAppendix Determination of EmissivityTypical Emissivity Values Metals Marathon Series FA/FR55Typical Emissivity Values Non‐Metals Typical Slopes How to determine slope?Typical Percentage of Allowed Signal Reduction FR1A Models Signal Reduction FR ModelsAttenuation Influence on Accuracy Maximum ErrorInstrument Calibration Marathon