User Manual

ManualsBrandsFLIR Systems ManualsCamera & PhotoInfrared Camera

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Table Of Contents

1 Disclaimers
- 1.1 Legal disclaimer
- 1.2 Usage statistics
- 1.3 Changes to registry
- 1.4 U.S. Government Regulations
- 1.5 Copyright
- 1.6 Quality assurance
- 1.7 Patents
- 1.8 Third-party licenses
2 Safety information
3 Notice to user
- 3.1 User-to-user forums
- 3.2 Calibration
- 3.3 Accuracy
- 3.4 Disposal of electronic waste
- 3.5 Training
- 3.6 Documentation updates
- 3.7 Important note about this manual
- 3.8 Note about authoritative versions
4 Customer help
- 4.1 General
- 4.2 Submitting a question
- 4.3 Downloads
5 Introduction
- 5.1 General description
- 5.2 Key benefits
6 Quick start guide
- 6.1 Procedure
7 A note about ergonomics
- 7.1 General
- 7.2 Figure
8 Camera parts
- 8.1 View from the right
  - 8.1.1 Figure
  - 8.1.2 Explanation
- 8.2 View from the left
  - 8.2.1 Figure
  - 8.2.2 Explanation
- 8.3 View from the bottom
  - 8.3.1 Figure
  - 8.3.2 Explanation
- 8.4 View from the rear
  - 8.4.1 Figure
  - 8.4.2 Explanation
- 8.5 Neck strap attachment points
  - 8.5.1 Figure
- 8.6 Battery condition LED indicator
  - 8.6.1 Figure
  - 8.6.2 Explanation
- 8.7 Power LED indicator
  - 8.7.1 Figure
  - 8.7.2 Explanation
- 8.8 Laser pointer
9 Screen elements
- 9.1 Figure
- 9.2 Explanation
- 9.3 Status icons and indicators
- 9.4 Image overlay information
10 Navigating the menu system
- 10.1 General
- 10.2 Navigating using the joystick
11 Handling the camera
- 11.1 Charging the battery
  - 11.1.1 Using the power supply to charge the battery
  - 11.1.2 Using the stand-alone battery charger to charge the battery
- 11.2 Turning on the camera
  - 11.2.1 Procedure
- 11.3 Turning off the camera
  - 11.3.1 Procedure
- 11.4 Adjusting the viewfinder’s dioptric correction
  - 11.4.1 Figure
  - 11.4.2 Procedure
- 11.5 Adjusting the angle of the lens
  - 11.5.1 Figure
- 11.6 Adjusting the infrared camera focus manually
  - 11.6.1 Figure
  - 11.6.2 Procedure
- 11.7 Autofocusing the infrared camera
- 11.8 Continuous autofocus
  - 11.8.1 General
  - 11.8.2 Procedure
- 11.9 Operating the laser pointer
  - 11.9.1 Figure
  - 11.9.2 Procedure
- 11.10 Using the digital zoom function
- 11.11 Assigning functions to the programmable buttons
  - 11.11.1 General
  - 11.11.2 Procedure
- 11.12 Using the camera lamp as a flash
  - 11.12.1 General
  - 11.12.2 Procedure
- 11.13 Changing lenses
- 11.14 Using the close-up lens
- 11.15 Changing the viewfinder eyecup
- 11.16 Calibrating the compass
  - 11.16.1 Procedure
12 Saving and working with images
- 12.1 About image files
- 12.2 Saving an image
  - 12.2.1 General
  - 12.2.2 Procedure
- 12.3 Previewing an image
  - 12.3.1 General
  - 12.3.2 Procedure
- 12.4 Opening a saved image
  - 12.4.1 General
  - 12.4.2 Procedure
- 12.5 Editing a saved image
- 12.6 Creating a PDF report in the camera
- 12.7 Deleting an image
  - 12.7.1 General
  - 12.7.2 Procedure
- 12.8 Deleting multiple images
  - 12.8.1 General
  - 12.8.2 Procedure
- 12.9 Deleting all images
  - 12.9.1 General
  - 12.9.2 Procedure
- 12.10 Resetting the image counter
  - 12.10.1 General
  - 12.10.2 Procedure
13 Achieving a good image
- 13.1 General
- 13.2 Adjusting the infrared camera focus
- 13.3 Adjusting the infrared image
- 13.4 Changing the temperature range
  - 13.4.1 General
  - 13.4.2 Procedure
- 13.5 Changing the color palette
  - 13.5.1 General
  - 13.5.2 Procedure
- 13.6 Changing the object parameters
- 13.7 Calibrating the camera
  - 13.7.1 General
  - 13.7.2 Manual calibration
- 13.8 Hiding all overlay
  - 13.8.1 General
  - 13.8.2 Procedure
14 Working with image modes
- 14.1 General
- 14.2 Image examples
- 14.3 Selecting the image mode
15 Working with measurement tools
- 15.1 General
- 15.2 Adding/removing measurement tools
- 15.3 Working with user presets
  - 15.3.1 General
  - 15.3.2 Procedure
- 15.4 Resizing or moving a measurement tool
  - 15.4.1 General
  - 15.4.2 Procedure
- 15.5 Changing object parameters
- 15.6 Displaying values in the result table and displaying a graph
  - 15.6.1 General
  - 15.6.2 Procedure
- 15.7 Creating and setting up a difference calculation
  - 15.7.1 General
  - 15.7.2 Procedure
- 15.8 Setting a measurement alarm
16 Working with color alarms and isotherms
- 16.1 Color alarms
  - 16.1.1 General
  - 16.1.2 Image examples
- 16.2 Setting up above, below, and interval alarms
- 16.3 Building isotherms
17 Annotating images
- 17.1 General
- 17.2 Adding a note
  - 17.2.1 General
  - 17.2.2 Procedure
- 17.3 Adding a table
  - 17.3.1 General
  - 17.3.2 Procedure
- 17.4 Adding a voice annotation
  - 17.4.1 General
  - 17.4.2 Procedure
- 17.5 Adding a sketch
  - 17.5.1 General
  - 17.5.2 Procedure
18 Programming the camera (time lapse)
- 18.1 General
- 18.2 Procedure
19 Recording video clips
- 19.1 General
- 19.2 Procedure
20 Screening alarm
- 20.1 General
- 20.2 Procedure
21 Pairing Bluetooth devices
- 21.1 General
- 21.2 Procedure
22 Configuring Wi-Fi
- 22.1 General
- 22.2 Setting up a wireless access point (most common use)
- 22.3 Connecting the camera to a wireless local area network (less common use)
23 Changing settings
- 23.1 General
- 23.2 Procedure
24 Technical data
- 24.1 Online field-of-view calculator
- 24.2 Note about technical data
- 24.3 Note about authoritative versions
- 24.4 FLIR T1020 12°
- 24.5 FLIR T1020 28°
- 24.6 FLIR T1020 45°
- 24.7 FLIR T1030sc 12°
- 24.8 FLIR T1030sc 28°
- 24.9 FLIR T1030sc 45°
- 24.10 FLIR T1040 12°
- 24.11 FLIR T1040 28°
- 24.12 FLIR T1040 45°
- 24.13 FLIR T1050sc 12°
- 24.14 FLIR T1050sc 28°
- 24.15 FLIR T1050sc 45°
25 Mechanical drawings
26 Cleaning the camera
- 26.1 Camera housing, cables, and other items
- 26.2 Infrared lens
- 26.3 Infrared detector
  - 26.3.1 General
  - 26.3.2 Procedure
27 Application examples
- 27.1 Moisture & water damage
  - 27.1.1 General
  - 27.1.2 Figure
- 27.2 Faulty contact in socket
  - 27.2.1 General
  - 27.2.2 Figure
- 27.3 Oxidized socket
  - 27.3.1 General
  - 27.3.2 Figure
- 27.4 Insulation deficiencies
  - 27.4.1 General
  - 27.4.2 Figure
- 27.5 Draft
  - 27.5.1 General
  - 27.5.2 Figure
28 About FLIR Systems
- 28.1 More than just an infrared camera
- 28.2 Sharing our knowledge
- 28.3 Supporting our customers
- 28.4 A few images from our facilities
29 Glossary
30 Thermographic measurement techniques
- 30.1 Introduction
- 30.2 Emissivity
  - 30.2.1 Finding the emissivity of a sample
- 30.3 Reflected apparent temperature
- 30.4 Distance
- 30.5 Relative humidity
- 30.6 Other parameters
31 History of infrared technology
32 Theory of thermography
- 32.1 Introduction
- 32.2 The electromagnetic spectrum
- 32.3 Blackbody radiation
- 32.4 Infrared semi-transparent materials
33 The measurement formula
34 Emissivity tables
- 34.1 References
- 34.2 Tables

The measurement formula

As already mentioned, when viewing an object, the camera receives radiation not only

from the object itself. It also collects radiation from the surroundings reflected via the ob-

ject surface. Both these radiation contributions become attenuated to some extent by the

atmosphere in the measurement path. To this comes a third radiation contribution from

the atmosphere itself.

This description of the measurement situation, as illustrated in the figure below, is so far

a fairly true description of the real conditions. What has been neglected could for in-

stance be sun light scattering in the atmosphere or stray radiation from intense radiation

sources outside the field of view. Such disturbances are difficult to quantify, however, in

most cases they are fortunately small enough to be neglected. In case they are not negli-

gible, the measurement configuration is likely to be such that the risk for disturbance is

obvious, at least to a trained operator. It is then his responsibility to modify the measure-

ment situation to avoid the disturbance e.g. by changing the viewing direction, shielding

off intense radiation sources etc.

Accepting the description above, we can use the figure below to derive a formula for the

calculation of the object temperature from the calibrated camera output.

Figure 33.1 A schematic representation of the general thermographic measurement situation.1: Sur-

roundings; 2: Object; 3: Atmosphere; 4: Camera

Assume that the received radiation power W from a blackbody source of temperature

source

on short distance generates a camera output signal U

source

that is proportional to

the power input (power linear camera). We can then write (Equation 1):

or, with simplified notation:

where C is a constant.

Should the source be a graybody with emittance ε, the received radiation would conse-

quently be εW

source

We are now ready to write the three collected radiation power terms:

1. Emission from the object = ετW

obj

, where ε is the emittance of the object and τ is the

transmittance of the atmosphere. The object temperature is T

obj

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