RayTek ThermoView Ti30 user manual Field-of-View, DS ratio D / S =, Optical Diagram

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D:S ratio: D / S = 90

The number “90” means that at a distance D equal to 1 meter the unit will measure a circle of diameter S equal to 1.1cm (1meter divided by 90); at distance D equal to 2 meters it will measure a circle with diameter S equal to 2.2cm and so on in a linear progression.

Optical Diagram

The optical diagram shows the graphical representation of the optical ratio. The optical path of the infrared radiation is a cone that has its vertex at 61cm (24”) away from the front of the unit, and progresses at the same ratio towards infinity. The circle diameter can be calculated by dividing the distance by 90 at any point in the centerline of the cone. Below it is presented the diameters S for three different distances: 61cm (minimum distance), 2m and 5m. There is no maximum distance. Although, in practical terms, accurately measuring temperatures of targets further than 5m requires fairly big objects.

Figure 29. Illustration of Distance to Target / Spot Ratio

The explanation of optical resolution is key for the understanding of the next concept, vital for accurate temperature measurement in quantitative inspections.

Field-of-View

Make sure that the target is larger than the spot size that the unit is measuring. The smaller the target, the closer you should be to it.

July 1, 2003

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Version 1.0

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Contents User’s Manual ThermoView Ti30Contents Qualitative and Quantitative Temperature Measurements Appendix B Infrared Theory Q&A Glossary Warranty Information Customer Service Contact Information Introduction Netd Quick Specifications TableUnpacking Your New Imager First, the Batteries Removing the Battery PackBattery Packs Normal Charge Cycle Charging the Rechargeable Battery PackDocking Station LED Indicators Attaching the Wrist Strap Getting StartedDisplaying Images Turning the Unit OnInformation Screen Normal Mode Keypad Settings and ControlsThermoView Imager Settings Switches icons not shown Laser On/Off Toggle Button ThermoView Imager Settings SwitchesLaser Aperture and Optical Channel JapaneseCentigrade/Fahrenheit Toggle Button LCD Backlight Illumination SwitchPalette Switch Measurement Mode SwitchLevel point Gain and Level ThumbwheelsFocus Wheel Automatic Semi AutomaticLocation of the Focus Wheel TriggerMain Loop Man Machine Interface Flow ChartsImage Recording Procedure Emissivity Adjustment Procedure July 1 Version Recording an Image Quick Image Fix Procedure Array Recalibration ProcedureRetrieving an Image Retrieve ModeDownloading and Looking at Images Installing the SoftwareHooking Up the Docking Station Connecting the Docking Station to Your ComputerConnecting the USB Connector to the USB Port InsideIR Main Screen at Program Launch Sync button Downloading ImagesDownload Data Screen Saving ImagesContents of Images Folder Setting the Imager ClockJuly 1 Version Looking at Your Downloaded Images Field USB PortViewing Thumbnail Images Viewing a Single Image Obtaining the Best Image Importance of FocusingSelecting the Color Palette Selecting the Measurement ModeLevelGain Min Level  Gain Max Level  Gain Tip Distance to Target Spot Ratio Qualitative and Quantitative Temperature MeasurementsDS ratio D / S = Optical DiagramField-of-View Environmental Conditions Ambient TemperaturesEmissivity Reflected Temperature CompensationReflected Temperature Compensation File Management Organizing Your DataUploading Data to Your ThermoView Ti30 Imager Uploading Data to the ImagerEditing Data Before Upload RTC OFF Scale Limits Analyzing Your DataSingle Image Screen Sample Image at Original Scale Limits Isotherms Sample Image at Original Isotherm SettingAdditional Image Analysis Tools Temperature Table TabProfile Tab Temperature TableProfile Tab Histogram TabNew Folder Menu BarCelsius ThermoView Imager InfoExit FahrenheitHistogram Export Temperature TableExport Image Create ReportTile Horizontal Copy Profile ChartContents CascadeThermographic Report Reporting Your FindingsAppendix a Technical Reference Imager Accuracy ChartTypical Emissivity Values Imager Reading Error vs Source DSAluminum Unoxidized Ni-Cu Gob How does IR work? Why use noncontact infrared thermometers?Appendix B Infrared Theory Q&A Emissivity How to assure accurate temperature measurement?Field-of-view Distance to spot ratioWhat are the most popular applications? How to take temperature measurement?Glossary Calibration Source Background TemperatureBlackbody CalibrationFar Field Display ResolutionDrift EMI/RFI NoiseGray Body Focus Point or DistanceFull Scale Full Scale AccuracyMinimum spot size LaserLoop Micron or µmPyroelectric Detector Optical ResolutionNon-Gray Body Optical PyrometerRepeatability Reflected Temperature CompensationResolution Relative HumiditySpectral Response Storage Temperature RangeTemperature Temperature Coefficient or Ambient DeratingTransfer Standard Temperature ResolutionThermal Shock Time Constant