Omega Engineering OS53X-CF, OS530HR, OS531, OS524, OS533, OS532, OS530L, OS523, OS534 manual Blackbody

Page 65

Figure A-2. Blackbody Spectral Distribution

Relative emission from a blackbody versus wavelength. The area under the curve corresponds to the total ener- gy, and is proportional to the absolute temperature to the 4th power. The peak of the spectral distribution curve shifts to shorter wavelengths as the temperature increases.

AAppendix: How Infrared Thermometry Works

Blackbody

When thermal radiation falls on an object, part of the energy is transmitted through the object, part is reflected and part is absorbed. A blackbody is defined as an ideal object that absorbs all the radiation incident upon it. The best example of a real object that acts like a blackbody is a small hole drilled deep into a large opaque cavity. Thermal radiation entering the cavity is internally reflected and has little chance of escaping the cavity before it is fully absorbed.

Emissivity is defined as the ratio of energy radiated by an object to that of the energy radiated by a blackbody. By definition, the emissivity of a blackbody is 1. Most objects are considered gray objects with an emissivity between 0 and 1. Various emissivities for common materials are shown in Appendix B.

Spectral Distribution

Objects radiate energy at different wavelengths, but not with constant intensity at each wavelength. Figure A-2 shows the energy radiated by a blackbody at various temperatures as a function of wavelength. As a body is heated, the intensity of the radiated energy increases and the peak of the curve shifts towards the shorter wavelength end of the spectrum. The total area under a spectral distribution curve is proportional to the total energy radiated by the blackbody at a given temperature.

A-2

Image 65

Contents User’s Guide Servicing Europe Servicing North AmericaFor immediate technical or application assistance Unpacking Instructions Model No Description Page Unpacking Instructions Chapter General Description Contents General Description Introduction Features OS531 OS532 OS533 OS534 OS530HR OS530L-CF Features OS523 OS524 Front of the Thermometer Parts of the ThermometerDisplay Details Key OS530 Series Handheld Infrared Thermometer Rear View Rear of the ThermometerGeneral Description Ac Power Operation Battery OperationOS530/OS520 Series with Built-in Laser Sighting Operating the ThermometerField of View OS531, OS532, OS530L Field of View OS534, OS523-1 Field of View OS523-2 10 Field of View OS524 Trigger Measurement Techniques11 Recorder Hookup If the trigger is pulled two times in rapid sequence Real Time Mode Active OperationRecall Mode 13. Visual Function Flow Chart Using the Lock Function Adjusting EmissivityTurning on the Display Backlighting Calculating Temperature ValuesChanging the Temperature from F to C or vice versa Thermocouple Input OS532, OS533, OS534 If you are not in High Alarm Display Mode HAL when Using the Alarm FunctionsTo set the low alarm value OS533, OS534, OS523, OS524 To disable this mode, press the key again Icon disappears One Stop Bit Key to decrement the printing interval. System Requirements Irtempsoft Connecting the IR-System to the PC Using the Handheld Infrared Thermometer Storing the Temperature Data on Command OS534, OS523, OS524 Erasing the Temperature Data from Memory Mode Recall Mode Passive OperationFunctional Flow Chart Recall Mode Reviewing the Last Parameters AMB temperature MEM locationPRN F Using the Handheld Infrared Thermometer Laser Sighting Rear View DescriptionLaser Dot Operating the Laser SightingLines of Sight of the Laser Sighting and Thermometer Sighting Scope Installing and Operating the Sighting ScopeInstalling the Sighting Scope Maintenance Replacing the Batteries Safety WarningServicing the Laser Sighting Cleaning the LensCalibrating the Thermometer Problem Solution Troubleshooting GuideProblem If you see an error code, either Target are offset by design Specifications Specifications are for all models except where notedOS533, OS534, OS523, OS524 No Laser Sighting 17 hours continuous Laser Sighting Glossary of Key Strokes Glossary of Key Strokes Appendix How Infrared Thermometry Works a Thermal RadiationBlackbody Calculating Temperature Optics Field of View Appendix Emissivity Values MetalsMaterial Emissivity ε NonmetalsAppendix Determining an Unknown Emissivity Figure C-1. Determining Emissivity Figure C-2. Determining Emissivity with a Drilled Hole Appendix Determining an Unknown Emissivity Index Field of View Diagrams Recall WARRANTY/DISCLAIMER PH/CONDUCTIVITY Shop online at omega.com