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Omega Speaker Systems OS523E, OS532E Thermal Radiation, Appendix How Infrared Thermometry Works A

Models: OS53xE-CF OS524E OS530HRE

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Appendix: How Infrared Thermometry Works A

Appendix: How Infrared Thermometry Works A

Thermal Radiation

Heat is transferred from all objects via radiation in the form of electromagnetic waves or by conduction or convection. All objects having a temperature greater than absolute zero

(-273°C, -459°F, 0 K) radiate energy. The thermal energy radiated by an object increases as the object gets hotter. Measurement of this thermal energy allows an infrared thermometer to calculate the object’s temperature if the emissivity (blackness) is known. Generally, it is convenient to measure the amount of radiated energy in the infrared part of an object’s radiation spectrum.

Figure A-1 shows a block diagram of an infrared radiation thermometer. Energy from the object is focused by the lens onto the detector. As the detector heats up, it sends out an electrical signal, which in turn is amplified and sent to the circuitry of the thermometer. The thermometer software then calculates the temperature of the object.

LENS

OBJECT

AMPLIFIER

DETECTOR

THERMOMETER CIRCUITRY AND DISPLAY

OR

SIGNAL OUTPUT TO SERIAL PRINTER

OR PERSONAL COMPUTER

Figure A-1. Infrared Thermometer Block Diagram

A-1

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Omega Speaker Systems OS523E, OS532E, OS524E, OS530LE, OS53xE-CF Thermal Radiation, Appendix How Infrared Thermometry Works A

Contents

OS523E, OS524E OMEGASCOPE Handheld Infrared Thermometer User’s GuideOS530LE, OS532E, OS53xE-CF OS533E, OS534E, OS530HRE Shop online atServicing North America OMEGAnet Online Service omega.comInternet e-mail info@omega.com For immediate technical or application assistanceUnpacking Instructions Accessories e-mail cservice@omega.comPage Handheld Infrared Thermometer CONTENTSOS530E/OS520E Series TABLE OFTABLE OF CONTENTS General Description 1.1 IntroductionOS532E FeaturesOS530LE OS533EThe temperature accuracy is 1% of Rdg or 2ºC 3ºF whichever is greater General DescriptionOS524E FeaturesOS523E OS523E provides three field of viewsDistance Power Switch Trigger Battery Compartment Door Tripod Mount 1.2 Parts of the Thermometer 1.2.1 Front of the Thermometer“V” Groove Lens Rubber Boot Built-in Distance Module Optional Display Rubber Boot Backlit LCD Wrist StrapTable 1-2. Display Details 1 General DescriptionFigure 1-3. OS530E/OS520E Series Handheld Infrared Thermometer Various Views1 General Description 2.1.2 ac Power Operation Using the Handheld Infrared Thermometer2.1 How to Power the Thermometer 2.1.1 Battery Operation Figure 2-1. Installing the BatteriesFigure 2-2. Field of View Positions 2.2 Operating the ThermometerFigure 2-3. Field of View OS532E, OS530LE Figure 2-5 Field of View OS534E, OS523E-1 Using the Handheld Infrared ThermometerMeasurement distance is from the outside surface of the rubber boot Figure 2-4 Field of View OS533E, OS530HREFigure 2-7 Field of View OS523E-2 2 Using the Handheld Infrared ThermometerFigure 2-6 Field of View OS53xE-CF DS =Figure 2-9 Field of View OS524E Using the Handheld Infrared ThermometerFigure 2-8 Field of View OS523E-3 SPOT DIAMETER MEASURED2.2.1 Measurement Techniques 2. If necessary, adjust the emissivity 2.3 Real Time Mode Active Operation Using the Handheld Infrared Thermometer Real Time ModesNOTE The unit of measure F or C flashes during Real Time Mode Display showsModels OS530LE OS530HRE 2 Using the Handheld Infrared Thermometer2-10 Model OS532E2.3.3 Using the Trigger Function 2.3.1 Adjusting Emissivity2.3.2 Using the LOCK Function Refer to Appendices B and C for information on emissivityModel HH-DM Distance Meter 2.3.4 Using the Distance FunctionFigure 2-15. Infrared Thermometer With Built-in Distance Measurement -DMDS = Figure 2-16. Field of View of Built-in Distance ModuleFigure 2-18. Line of Sight of the Infrared Thermometer 2 Using the Handheld Infrared ThermometerFigure 2-17. Field of View of Distance Meter HH-DM vs. Distance Meter and Built-in Module2.3.6 Calculating Temperature Values 2.3.5 Laser Sighting Status2.3.8 Turning on the Display Backlighting 2.3.7 Changing the Temperature from F to C or vice versa2.3.9 Thermocouple Input OS532E, OS533E, OS534E To set the high alarm value 2.3.10 Using the Alarm FunctionsThe thermometer provides audible and visible alarm indications If the temperature exceeds the high alarm setpoint2 Using the Handheld Infrared Thermometer To set the low alarm value OS533E, OS534E, OS523E, OS524EIf the temperature drops below the low alarm setpoint, you will hear a beep and the icon on the display flashesTo set and activate the Ambient Target Temperature Compensation Mode 2.3.11 Using Ambient Target Temperature CompensationOS533E, OS534E, OS523E, OS524E The target has a low emissivitySoftware Installation 2.3.12 PC Interface Software OS533E, OS534E, OS523E, OS524ESending temperature data to PC in Real Time Download Stored Temperature data to PC Communicating through Hyper terminalMenu Description Using the Handheld Infrared Thermometer2 Using the Handheld Infrared Thermometer Tool Stop Data Transmission to Change ParametersDescription 2.3.13 PC Interface CommandsCommand ASCIIString Description2.3.14 Storing Temperature Data on Command OS534E, OS523E, OS524E 2.3.15 Logging Temperature Data in Real Time OS523E, OS524E,OS534E 2.3.16 Erasing the Temperature Data from Memory Recall Mode 2.4 Recall Mode Passive OperationMode Active 2 Using the Handheld Infrared ThermometerDisplay shows Recall ModesUsing the Handheld Press2.4.1 Reviewing the Last Parameters 3.1 Warnings and Cautions Laser SightingRefer to the inside back cover for product warning label 3.2 Description 3.3 Operating the Laser Sighting 3.4 Laser Sighting StatusFigure 3-4 Lines of Sight of the Laser Sighting and Thermometer 4.2 Installing and Operating the Sighting Scope Sighting Scope 4.1 Sighting ScopePair of Mounting Clamps Figure 4-1. Installing the Sighting Scope4 Sighting Scope 1 11/16 42.8 mm5.1 Camera Parts 5.2 Battery InstallationDigital Video Camera 5.3 Turning Camera ON/OFF10 Battery Indicator Picture Resolution6 Self-Timer 7 Erase All 8 Format CF card 9 A/V out setting 5 Digital Video CameraMaintenance 6.1 Replacing the Batteries Safety Warning6.4 Servicing the Laser Sighting 6.2 Cleaning the Lens6.3 Calibrating the Thermometer 1. Blow off loose particles, using clean airProblem Troubleshooting GuideSolution Solution ProblemThe thermometer is Problem No Laser Beam7 Troubleshooting Guide Specifications Specifications are for all models except where notedStandard on OS533E, OS534E, OS523E, OS524E 8 Specifications”V” groove on top of the thermometer or use Laser Specifications DISTANCE MEASURING Model HH-DM LASER SIGHTINGfor the label layout, refer to the inside back cover DISTANCE MEASURING Built-in-DM DIGITAL VIDEO CAMERA8 Specifications Keys Glossary of Key StrokesKeys Functions 9 Glossary of Key Strokes Thermal Radiation Appendix How Infrared Thermometry Works ASpectral Distribution BlackbodyA Appendix How Infrared Thermometry Works Calculating Temperature λ m = TOptics Field of View Figure A-3. Field of View of a ThermometerMaterial METALSAppendix Emissivity Values Emissivity εEmissivity ε NONMETALSMaterial Appendix Emissivity ValuesMethod Appendix Determining an Unknown EmissivityMethod 1. Use this method to measure objects at temperatures below 260C 500F MethodFigure C-2. Determining Emissivity with a Drilled Hole MethodMethod Appendix - Determining an Unknown Emissivity CC Appendix Determining an Unknown Emissivity Index Page Page RETURN REQUESTS / INQUIRIES WARRANTY/DISCLAIMERCAUTION OMEGASCOPE FLOW/LEVEL TEMPERATUREPRESSURE, STRAIN AND FORCE pH/CONDUCTIVITY