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Theory of thermography

For highly polished materials ε

approaches zero, so that for a perfectly reflecting material

(i.e. a perfect mirror) we have:

For a graybody radiator, the Stefan-Boltzmann formula becomes:

This states that the total emissive power of a graybody is the same as a blackbody at the

same temperature reduced in proportion to the value of ε from the graybody.

Figure 18.8 Spectral radiant emittance of three types of radiators. 1: Spectral radiant emittance; 2: Wave-

length; 3: Blackbody; 4: Selective radiator; 5: Graybody.

Figure 18.9 Spectral emissivity of three types of radiators. 1: Spectral emissivity; 2: Wavelength; 3: Black-

body; 4: Graybody; 5: Selective radiator.

#T559828; r. AK/40423/40448; en-US

Default Chapter5
- Table of Contents5
1 Disclaimers9
- Legal Disclaimer9
- Usage Statistics9
- Changes to Registry9
- Government Regulations9
- Copyright9
- Quality Assurance9
- Patents9
- EULA Terms9
- EULA Terms10
2 Safety Information11
3 Notice to User15
- User-To-User Forums15
- Calibration15
- Accuracy15
- Disposal of Electronic Waste15
- Training15
- Documentation Updates15
- Important Note about this Manual16
- Note about Authoritative Versions16
4 Customer Help17
- General17
- Submitting a Question17
- Downloads18
5 Quick Start Guide19
- Procedure19
6 List of Accessories and Services20
7 Description21
- Camera Parts21
  - Explanation21
  - Figure21
- Keypad22
  - Explanation22
  - Figure22
- Connectors23
  - Explanation23
  - Figure23
- Screen Elements23
8 Operation25
- Charging the Battery25
  - Charging the Battery Using the FLIR Power Supply25
  - Charging the Battery Using the FLIR Stand-Alone Battery Charger25
  - Charging the Battery Using a USB Cable25
- Turning on and Turning off the Camera26
- Saving an Image26
  - General26
  - Image Capacity26
  - Naming Convention26
  - Procedure26
- Recalling an Image26
- Deleting an Image27
  - General27
  - Procedure27
- Deleting All Images27
- Measuring a Temperature Using a Spotmeter27
- Measuring the Hottest Temperature Within an Area28
  - General28
  - Procedure28
- Measuring the Coldest Temperature Within an Area28
- Hiding Measurement Tools28
- Changing the Color Palette28
- Working with Color Alarms29
  - General29
  - Image Examples29
  - Procedure29
- Changing Image Mode30
  - General30
  - Procedure31
- Changing the Temperature Scale Mode31
  - General31
  - When to Use Lock Mode32
  - When to Use Manual Mode32
  - Procedure32
- Setting the Emissivity as a Surface Property33
  - General33
  - Procedure33
- Setting the Emissivity as a Custom Material33
  - Procedure34
- Changing the Emissivity as a Custom Value34
  - General34
- Changing the Reflected Apparent Temperature34
  - Procedure35
- Changing the Distance between the Object and the Camera35
  - General35
- Performing a Non-Uniformity Correction (NUC)35
  - What Is a Non-Uniformity Correction35
  - When to Perform a Non-Uniformity Correction35
- Configuring Wi-Fi36
  - Setting up a Peer-To-Peer Connection (most Common Use)36
  - Connecting the Camera to a Wireless Local Area Network (Less Common Use)36
- Changing the Settings36
  - General36
  - Procedure37
- Updating the Camera38
  - General38
  - Procedure38
9 Technical Data39
- Online Field-Of-View Calculator39
- Note about Technical Data39
- Note about Authoritative Versions39
- Flir E440
- FLIR E4 (Incl. Wi-Fi)43
- Flir E547
- FLIR E5 (Incl. Wi-Fi)50
- Flir E654
- FLIR E6 (Incl. Wi-Fi)57
- Flir E861
- FLIR E8 (Incl. Wi-Fi)64
10 Mechanical Drawings68
11 CE Declaration of Conformity71
12 Cleaning the Camera73
- Camera Housing, Cables, and Other Items73
- Infrared Lens73
13 Application Examples74
- Moisture & Water Damage74
  - General74
  - Figure74
- Faulty Contact in Socket74
- Figure75
- Oxidized Socket75
  - General75
- Insulation Deficiencies76
  - General76
  - Figure76
- Draft77
  - General77
  - Figure77
14 About FLIR Systems79
- More than Just an Infrared Camera80
- Sharing Our Knowledge81
- Supporting Our Customers81
15 Definitions and Laws82
16 Thermographic Measurement Techniques84
- Introduction84
- Emissivity84
  - Finding the Emissivity of a Sample84
- Reflected Apparent Temperature88
- Distance88
- Relative Humidity88
- Other Parameters88
17 History of Infrared Technology89
18 Theory of Thermography92
- Introduction92
- The Electromagnetic Spectrum92
- Blackbody Radiation93
- Infrared Semi-Transparent Materials99
19 The Measurement Formula100
20 Emissivity Tables104
- References104
- Tables104

Brand	FLIR
Model	EX Series
Category	Thermographic Cameras
Language	English

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