To Next Page

To Previous Page

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

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

Figure 34.9 Spectral emissivity of three types of radiators. 1: Spectral emissivity; 2: Wavelength; 3: Black-

body; 4: Graybody; 5: Selective radiator.

#T559157; r. AH/45951/45951; en-US

271

Default Chapter5
- Table of Contents5
1 Disclaimers13
- Legal Disclaimer13
- Government Regulations13
- Level 1 Statement13
- Copyright14
- Quality Assurance14
- Patents14
- EULA Terms14
- EULA Terms15
2 Safety Information17
3 Notice to User22
- User-To-User Forums22
- Calibration22
- Accuracy22
- Disposal of Electronic Waste22
- Training22
- Documentation Updates23
- Note about Authoritative Versions23
4 Customer Help24
- General24
- Submitting a Question24
- Downloads25
5 Important Note about Training and Applications26
- General26
6 List of Accessories and Services27
7 Introduction29
- Flir Gf30029
  - Optical Gas Imaging of Methane and Other Volatile Organic Compounds (Vocs)29
  - Benefits29
- Flir Gf30429
  - Optical Gas Imaging of Refrigerant Gases29
- Flir Gf30630
  - Optical Gas Imaging Especially of SF6 and Ammonia30
  - Benefits30
- Flir Gf30930
  - IR Camera for Furnace and High Temperature Inspection30
  - Benefits31
- Flir Gf32031
  - Optical Gas Imaging of Methane and Other Volatile Organic Compounds (Vocs)31
- Flir Gf33532
  - Benefits32
- Flir Gf34332
  - The New FLIR GF343 Is an Optical Gas Camera for Visualizing Carbon Dioxide32
  - Main Applications32
- Flir Gf34633
  - Optical Gas Imaging Especially of Carbon Monoxide (CO) and Other Harmful Gases33
  - Benefits33
8 Example Images34
- General34
- Images34
9 Quick Start Guide35
- Detecting a Temperature35
  - Procedure35
  - Related Topics36
- Detecting a Gas Leak36
  - Procedure36
  - Related Topics37
10 FLIR Gf3Xx Series Series General Instrument Check38
11 Note about Ergonomics39
- General39
- Figure39
- Related Topics40
12 Camera Parts41
- View from the Left41
  - Explanation41
  - Figure41
- View from the Right42
  - Explanation42
  - Figure42
- View from the Rear43
  - Explanation43
  - Figure43
- Battery Condition LED Indicator44
  - Explanation44
  - Figure44
- Power LED Indicator44
  - Explanation45
- Laser Pointer45
13 Screen Elements46
- Mode Selector46
  - Explanation46
  - Figure46
- Result Table and Measurement Tools46
- Toolbox, Indicators, and Other Objects47
  - Explanation47
  - Figure47
14 Achieving a Good Image48
- General48
- Adjusting the Infrared Camera Focus Manually48
  - Figure48
  - Procedure48
- Adjusting the Infrared Camera Focus49
  - Figure49
  - Procedure49
- Adjusting an Image49
- Selecting a Suitable Temperature Range50
- Selecting a Suitable Color Palette52
  - Procedure52
- Enabling or Disabling Histogram Mode52
  - General52
- Enabling or Disabling Inverted Color Palette53
  - Procedure53
- Changing Object Parameters53
15 Connecting External Devices55
- General55
- Related Topics55
- Connecting Devices to the Rear Connectors55
- Inserting SD Memory Cards56
  - Formatting Memory Cards57
16 Handling the Camera58
- Charging the Camera Battery58
  - Charging the Battery Using the Power Supply Cable58
  - Charging the Battery Using the Stand-Alone Battery Charger58
- Installing and Removing the Camera Battery59
  - Installing the Battery59
  - Removing the Battery60
- Turning on the Camera61
  - Procedure61
- Turning off the Camera61
- Adjusting the Viewing Angle of the Viewfinder61
  - General61
  - Figure61
- Adjusting the Viewfinder's Dioptric Correction62
- Adjusting the Camera Grip62
  - Figure63
  - Procedure63
- Opening the Display63
- Adjusting the Viewing Angle of the Display64
- Installing an Infrared Lens64
- Removing an Infrared Lens65
  - Procedure65
- Mounting the Heatshield66
  - General66
  - Procedure66
- Adjusting the Infrared Camera Focus Manually68
  - Figure68
  - Procedure68
- Adjusting the Infrared Camera Focus69
  - Figure69
  - Procedure69
- Autofocusing the Infrared Camera and the Digital Camera70
  - Figure70
  - Procedure70
- Operating the Laser Pointer71
- Using the Zoom Function71
  - General71
17 Working with Views and Images72
- Saving Infrared Images72
- Opening an Image73
  - General73
  - Procedure73
- Changing Settings Related to Image Presentation73
  - Procedure74
- Editing a Saved Image74
  - General74
- Deleting a File75
  - Procedure75
18 Working with Measurement Tools76
- Laying out a Measurement Tool76
  - General76
  - Procedure76
- Moving or Resizing a Measurement Tool76
- Creating & Setting up a Difference Calculation76
  - Procedure77
- Changing Object Parameters77
19 Programming the Camera80
- General80
- Procedure80
20 Recording Video Clips81
- General81
- Procedure81
21 Changing Settings82
- General82
- Procedure82
- Connecting the Camera Using a Peer-To-Peer (Ad Hoc) WLAN Network82
  - Related Topics83
- Connecting the Camera Using a Infrastructure WLAN Network83
  - General83
  - Procedure83
- Changing Wi-Fi Settings83
  - Related Topics84
22 Technical Data85
- Online Field-Of-View Calculator85
- Note about Technical Data85
- Note about Authoritative Versions86
- Flir Gf300 14.587
- FLIR GF300 14.5° Fixed Lens92
- Flir Gf300 2497
- FLIR GF300 24° Fixed Lens102
- Flir Gf304 14.5107
- FLIR GF304 14.5° Fixed Lens113
- Flir Gf304 24118
- FLIR GF304 24° Fixed Lens124
- Flir Gf306 14.5129
- FLIR GF306 14.5° Fixed Lens135
- Flir Gf306 24141
- FLIR GF306 24° Fixed Lens147
- Flir Gf309 14.5153
- FLIR GF309 14.5° Fixed Lens159
- Flir Gf309 24164
- FLIR GF309 24° Fixed Lens170
- Flir Gf320 14.5175
- FLIR GF320 14.5° Fixed Lens181
- Flir Gf320 24187
- FLIR GF320 24° Fixed Lens193
- Flir Gf335 24199
- FLIR GF343 24° Fixed Lens204
- Flir Gf346 14.5209
- FLIR GF346 14.5° Fixed Lens215
- Flir Gf346 24221
- FLIR GF346 24° Fixed Lens227
23 Mechanical Drawings233
24 CE Declaration of Conformity239
25 Cleaning the Camera241
- Camera Housing, Cables, and Other Items241
- Infrared Lens241
26 Cooler Maintenance243
- General243
- Signs to Watch for243
27 Detectable Gases244
- General244
- Gases that Can be Detected by FLIR GF300244
- Coolants that Can be Detected by FLIR GF304247
- Gases that Can be Detected by FLIR GF306247
- Gases that Can be Detected by FLIR GF320251
- Gases that Can be Detected by FLIR GF343254
- Gases that Can be Detected by FLIR GF346254
28 Why Do some Gases Absorb Infrared Energy258
29 About FLIR Systems261
- More than Just an Infrared Camera262
- Sharing Our Knowledge263
- Supporting Our Customers263
30 Terms, Laws, and Definitions264
31 About Calibration266
- Introduction266
- Definition-What Is Calibration266
- Camera Calibration at FLIR Systems266
- The Differences between a Calibration Performed by a User and that Performed Directly at FLIR Systems267
- Calibration, Verification and Adjustment267
- Non-Uniformity Correction268
- Thermal Image Adjustment (Thermal Tuning)268
32 Thermographic Measurement Techniques269
- Introduction269
- Emissivity269
  - Finding the Emissivity of a Sample269
- Reflected Apparent Temperature273
- Distance273
- Relative Humidity273
- Other Parameters273
33 History of Infrared Technology274
34 Theory of Thermography277
- Introduction277
- The Electromagnetic Spectrum277
- Blackbody Radiation278
- Infrared Semi-Transparent Materials284
35 The Measurement Formula285
36 Emissivity Tables289
- References289
- Tables289

Brand	FLIR
Model	GF320
Category	Thermal cameras
Language	English

FLIR GF320 User Manual

Table of Contents

Other manuals for FLIR GF320

Questions and Answers:

FLIR GF320 Specifications

Related product manuals