User's Manual

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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 EULA Terms
- 1.9 EULA Terms
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 Quick start guide
- 5.1 Procedure
- 5.2 To keep in mind
6 Register the camera
- 6.1 General
- 6.2 Procedure
7 Camera parts
- 7.1 View from the front
  - 7.1.1 Figure
  - 7.1.2 Explanation
- 7.2 View from the rear
  - 7.2.1 Figure
  - 7.2.2 Explanation
- 7.3 Laser distance meter and laser pointer
8 Screen elements
- 8.1 Figure
- 8.2 Explanation
- 8.3 Status icons
- 8.4 Swipe-down menu
- 8.5 Image overlay information
9 Navigating the menu system
- 9.1 General
- 9.2 Navigating using the navigation pad
10 Handling the camera
- 10.1 Charging the battery
- 10.2 Removing the battery
- 10.3 Turning on and turning off the camera
- 10.4 Adjusting the infrared camera focus manually
  - 10.4.1 Figure
  - 10.4.2 Procedure
- 10.5 Autofocusing the infrared camera
- 10.6 Continuous autofocus
  - 10.6.1 General
  - 10.6.2 Procedure
- 10.7 Saving an image
- 10.8 Operating the laser distance meter
- 10.9 Measuring areas
  - 10.9.1 General
  - 10.9.2 Procedure
- 10.10 Connecting external devices and storage media
- 10.11 Moving files to a computer
  - 10.11.1 General
  - 10.11.2 Procedure
- 10.12 Assigning functions to the programmable button
  - 10.12.1 General
  - 10.12.2 Procedure
- 10.13 Using the camera lamp as a flash
  - 10.13.1 General
  - 10.13.2 Procedure
- 10.14 Hand strap
  - 10.14.1 General
  - 10.14.2 Mounting the hand strap
- 10.15 Lanyard strap
  - 10.15.1 General
  - 10.15.2 Mounting the lanyard strap
- 10.16 Wrist strap
  - 10.16.1 General
  - 10.16.2 Mounting the wrist strap
- 10.17 Front protection
- 10.18 Changing camera lenses
- 10.19 Calibrating the compass
  - 10.19.1 Procedure
11 Saving and working with images
- 11.1 About image files
- 11.2 Saving an image
  - 11.2.1 General
  - 11.2.2 Procedure
- 11.3 Previewing an image
  - 11.3.1 General
  - 11.3.2 Procedure
- 11.4 Opening a saved image
  - 11.4.1 General
  - 11.4.2 Procedure
- 11.5 Editing a saved image
- 11.6 Zooming an image
  - 11.6.1 General
  - 11.6.2 Procedure
- 11.7 Deleting images
- 11.8 Resetting the image counter
  - 11.8.1 General
  - 11.8.2 Procedure
12 Working with the image archive
- 12.1 General
- 12.2 Opening image and video files
- 12.3 Creating a new folder
- 12.4 Renaming a folder
- 12.5 Changing the active folder
  - 12.5.1 General
  - 12.5.2 Procedure
- 12.6 Moving files between folders
- 12.7 Deleting a folder
- 12.8 Deleting an image or video file
  - 12.8.1 General
  - 12.8.2 Procedure
- 12.9 Deleting multiple files
  - 12.9.1 General
  - 12.9.2 Procedure
- 12.10 Deleting all files
  - 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 ranges
  - 13.4.1 General
  - 13.4.2 Procedure
- 13.5 Changing the color palettes
  - 13.5.1 General
  - 13.5.2 Procedure
- 13.6 Changing the measurement parameters
- 13.7 Performing a non-uniformity correction (NUC)
  - 13.7.1 Performing an NUC manually
- 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 an image mode
15 Working with measurement tools
- 15.1 General
- 15.2 Adding/removing measurement tools
- 15.3 Editing user presets
  - 15.3.1 General
  - 15.3.2 Procedure
- 15.4 Moving and resizing a measurement tool
- 15.5 Changing the measurement 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
17 Annotating images
- 17.1 General
- 17.2 Adding a note
  - 17.2.1 General
  - 17.2.2 Procedure
- 17.3 Adding a text comment table
- 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
- 19.3 Playing a saved video clip
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 WLAN (less common use)
- 22.4 Radio regulations settings
23 Fetching data from external FLIR meters
- 23.1 General
- 23.2 Technical support for external meters
- 23.3 Procedure
- 23.4 Typical moisture measurement and documentation procedure
  - 23.4.1 General
  - 23.4.2 Procedure
- 23.5 More information
24 Changing settings
- 24.1 General
25 Cleaning the camera
- 25.1 Camera housing, cables, and other items
- 25.2 Infrared lens
- 25.3 Infrared detector
  - 25.3.1 General
  - 25.3.2 Procedure
26 Technical data
- 26.1 Online field-of-view calculator
- 26.2 Note about technical data
- 26.3 Note about authoritative versions
- 26.4 FLIR E75 24°
- 26.5 FLIR E75 42°
- 26.6 FLIR E75 24° + 14°
- 26.7 FLIR E75 24° + 42°
- 26.8 FLIR E75 24° + 14° & 42°
- 26.9 FLIR E85 24°
- 26.10 FLIR E85 42°
- 26.11 FLIR E85 24° + 14°
- 26.12 FLIR E85 24° + 42°
- 26.13 FLIR E85 24° + 14° & 42°
- 26.14 FLIR E95 24°
- 26.15 FLIR E95 42°
- 26.16 FLIR E95 24° + 14°
- 26.17 FLIR E95 24° + 42°
- 26.18 FLIR E95 24° + 14° & 42°
27 Mechanical drawings
28 Application examples
- 28.1 Moisture & water damage
  - 28.1.1 General
  - 28.1.2 Figure
- 28.2 Faulty contact in socket
  - 28.2.1 General
  - 28.2.2 Figure
- 28.3 Oxidized socket
  - 28.3.1 General
  - 28.3.2 Figure
- 28.4 Insulation deficiencies
  - 28.4.1 General
  - 28.4.2 Figure
- 28.5 Draft
  - 28.5.1 General
  - 28.5.2 Figure
29 About FLIR Systems
- 29.1 More than just an infrared camera
- 29.2 Sharing our knowledge
- 29.3 Supporting our customers
30 Definitions and laws
31 Thermographic measurement techniques
- 31.1 Introduction
- 31.2 Emissivity
  - 31.2.1 Finding the emissivity of a sample
- 31.3 Reflected apparent temperature
- 31.4 Distance
- 31.5 Relative humidity
- 31.6 Other parameters
32 About calibration
- 32.1 Introduction
- 32.2 Definition—what is calibration?
- 32.3 Camera calibration at FLIR Systems
- 32.4 The differences between a calibration performed by a user and that performed directly at FLIR Systems
- 32.5 Calibration verification and adjustment
- 32.6 Non-uniformity correction
- 32.7 Thermal image adjustment (thermal tuning)
33 History of infrared technology
34 Theory of thermography
- 34.1 Introduction
- 34.2 The electromagnetic spectrum
- 34.3 Blackbody radiation
- 34.4 Infrared semi-transparent materials
35 The measurement formula
36 Emissivity tables
- 36.1 References
- 36.2 Tables

Theory of thermography

where:

λb

Blackbody spectral radiant emittance at wavelength λ.

Velocity of light = 3 × 10

m/s

h Planck’s constant = 6.6 × 10

-34

Joule sec.

Boltzmann’s constant = 1.4 × 10

-23

Joule/K.

T Absolute temperature (K) of a blackbody.

λ Wavelength (μm).

Note The factor 10

-6

is used since spectral emittance in the curves is expressed in

Watt/m

, μm.

Planck’s formula, when plotted graphically for various temperatures, produces a family of

curves. Following any particular Planck curve, the spectral emittance is zero at λ = 0,

then increases rapidly to a maximum at a wavelength λ

max

and after passing it ap-

proaches zero again at very long wavelengths. The higher the temperature, the shorter

the wavelength at which maximum occurs.

Figure 34.4 Blackbody spectral radiant emittance according to Planck’s law, plotted for various absolute

temperatures. 1: Spectral radiant emittance (W/cm

× 10

(μm)); 2: Wavelength (μm)

34.3.2 Wien’s displacement law

By differentiating Planck’s formula with respect to λ, and finding the maximum, we have:

This is Wien’s formula (after Wilhelm Wien, 1864–1928), which expresses mathemati-

cally the common observation that colors vary from red to orange or yellow as the tem-

perature of a thermal radiator increases. The wavelength of the color is the same as the

wavelength calculated for λ

max

. A good approximation of the value of λ

max

for a given

blackbody temperature is obtained by applying the rule-of-thumb 3 000/T μm. Thus, a

very hot star such as Sirius (11 000 K), emitting bluish-white light, radiates with the peak

of spectral radiant emittance occurring within the invisible ultraviolet spectrum, at wave-

length 0.27 μm.

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