User Manual

ManualsBrandsFLIR Systems ManualsCamera & PhotoInfrared Camera with WLan interface

100

Table Of Contents

1 Legal disclaimer
- 1.1 Legal disclaimer
- 1.2 U.S. Government Regulations
- 1.3 Copyright
- 1.4 Quality assurance
- 1.5 Patents
- 1.6 EULA Terms
2 Warnings & Cautions
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
4 Customer help
- 4.1 General
- 4.2 Submitting a question
- 4.3 Downloads
5 Quick Start Guide
- 5.1 Procedure
6 Parts lists
- 6.1 Contents of the transport case
- 6.2 List of accessories and services
7 A note about ergonomics
- 7.1 General
- 7.2 Figure
8 Camera parts
- 8.1 Rear view
  - 8.1.1 Figure
  - 8.1.2 Explanation
- 8.2 Front view
  - 8.2.1 Figure
  - 8.2.2 Explanation
- 8.3 Bottom view
  - 8.3.1 Figure
  - 8.3.2 Explanation
- 8.4 Battery condition indicator
  - 8.4.1 Figure
  - 8.4.2 Explanation
- 8.5 Laser pointer
9 Screen elements
- 9.1 Figure
- 9.2 Explanation
10 Navigating the menu system
- 10.1 Figure
- 10.2 Explanation
11 External devices and storage media
- 11.1 Figure
- 11.2 Explanation
12 Pairing Bluetooth devices
- 12.1 General
- 12.2 Procedure
13 Configuring Wi-Fi
- 13.1 General
- 13.2 Setting up a peer-to-peer connection (most common use)
- 13.3 Connecting the camera to a wireless local area network (less common use)
14 Fetching data from external Extech meters
- 14.1 General
- 14.2 Figure
- 14.3 Supported Extech meters
- 14.4 Technical support for Extech meters
- 14.5 Procedure
- 14.6 Typical moisture measurement and documentation procedure
  - 14.6.1 General
  - 14.6.2 Procedure
15 Handling the camera
- 15.1 Charging the battery
- 15.2 Inserting the battery
  - 15.2.1 Procedure
- 15.3 Removing the battery
  - 15.3.1 Procedure
- 15.4 Turning on and turning off the camera
- 15.5 Adjusting the angle of lens
  - 15.5.1 Figure
  - 15.5.2 Procedure
- 15.6 Mounting an additional lens
  - 15.6.1 Procedure
- 15.7 Removing an additional infrared lens
  - 15.7.1 Procedure
- 15.8 Attaching the sunshield
  - 15.8.1 Procedure
- 15.9 Using the laser pointer
  - 15.9.1 Figure
  - 15.9.2 Procedure
- 15.10 Calibrating the compass
  - 15.10.1 Figure
  - 15.10.2 Procedure
- 15.11 Calibrating the touchscreen LCD
  - 15.11.1 Figure
  - 15.11.2 Procedure
16 Working with images and folders
- 16.1 Adjusting the infrared camera focus
  - 16.1.1 Procedure
- 16.2 Previewing an image
- 16.3 General
  - 16.3.1 Procedure
- 16.4 Saving an image
- 16.5 Periodically saving an image
  - 16.5.1 General
  - 16.5.2 Procedure
- 16.6 Opening an image
  - 16.6.1 General
  - 16.6.2 Procedure
- 16.7 Adjusting an image manually
- 16.8 Hiding overlay graphics
  - 16.8.1 General
  - 16.8.2 Procedure
- 16.9 Deleting images
  - 16.9.1 General
  - 16.9.2 Procedure
- 16.10 Creating an Adobe PDF report
  - 16.10.1 General
  - 16.10.2 Procedure
17 Working with fusion
- 17.1 What is picture-in-picture?
- 17.2 What is thermal fusion?
- 17.3 Types
- 17.4 Image examples
- 17.5 Procedure
18 Working with video
- 18.1 Recording video clips
  - 18.1.1 General
  - 18.1.2 Procedure
19 Working with measurement tools and isotherms
- 19.1 Setting up measurement tools
  - 19.1.1 General
  - 19.1.2 Procedure
- 19.2 Setting up a difference calculation
  - 19.2.1 General
  - 19.2.2 Procedure
- 19.3 Setting up isotherms
- 19.4 Working with presets
  - 19.4.1 General
  - 19.4.2 Procedure
- 19.5 Removing measurement tools
  - 19.5.1 Procedure
- 19.6 Moving measurement tools
  - 19.6.1 Procedure
- 19.7 Resizing areas
  - 19.7.1 Procedure
- 19.8 Changing object parameters
20 Annotating images
- 20.1 General
- 20.2 Adding a digital photo automatically
  - 20.2.1 General
  - 20.2.2 Procedure
- 20.3 Adding a digital photo manually
  - 20.3.1 General
  - 20.3.2 Procedure
- 20.4 Creating a voice annotation
  - 20.4.1 General
  - 20.4.2 Procedure
- 20.5 Creating a text
  - 20.5.1 General
  - 20.5.2 Procedure
- 20.6 Creating a table
- 20.7 Adding a sketch
21 Programming the camera
- 21.1 General
- 21.2 Procedure
22 Changing settings
- 22.1 Changing camera settings
  - 22.1.1 General
  - 22.1.2 Procedure
- 22.2 Changing preferences
  - 22.2.1 General
  - 22.2.2 Procedure
- 22.3 Changing connectivity
  - 22.3.1 General
  - 22.3.2 Procedure
- 22.4 Changing regional settings
  - 22.4.1 General
  - 22.4.2 Procedure
23 Cleaning the camera
- 23.1 Camera housing, cables, and other items
- 23.2 Infrared lens
24 Technical data
25 Pin configurations
- 25.1 Pin configuration for USB Mini-B connector
- 25.2 Pin configuration for video connector
- 25.3 Pin configuration for USB-A connector
- 25.4 Pin configuration for power connector
26 Dimensions
- 26.1 Camera
- 26.2 Battery
  - 26.2.1 Figure
- 26.3 Stand-alone battery charger
  - 26.3.1 Figure
- 26.4 Stand-alone battery charger with the battery
  - 26.4.1 Figure
- 26.5 Infrared lens (30 mm/15°)
  - 26.5.1 Figure
- 26.6 Infrared lens (10 mm/45°)
  - 26.6.1 Figure
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

Thermographic measurement

techniques

30.1 Introduction

An infrared camera measures and images the emitted infrared radiation from an object.

The fact that radiation is a function of object surface temperature makes it possible for the

camera to calculate and display this temperature.

However, the radiation measured by the camera does not only depend on the tempera-

ture of the object but is also a function of the emissivity. Radiation also originates from the

surroundings and is reflected in the object. The radiation from the object and the reflected

radiation will also be influenced by the absorption of the atmosphere.

To measure temperature accurately, it is therefore necessary to compensate for the ef-

fects of a number of different radiation sources. This is done on-line automatically by the

camera. The following object parameters must, however, be supplied for the camera:

• The emissivity of the object

• The reflected apparent temperature

• The distance between the object and the camera

• The relative humidity

• Temperature of the atmosphere

30.2 Emissivity

The most important object parameter to set correctly is the emissivity which, in short, is a

measure of how much radiation is emitted from the object, compared to that from a per-

fect blackbody of the same temperature.

Normally, object materials and surface treatments exhibit emissivity ranging from approxi-

mately 0.1 to 0.95. A highly polished (mirror) surface falls below 0.1, while an oxidized or

painted surface has a higher emissivity. Oil-based paint, regardless of color in the visible

spectrum, has an emissivity over 0.9 in the infrared. Human skin exhibits an emissivity

0.97 to 0.98.

Non-oxidized metals represent an extreme case of perfect opacity and high reflexivity,

which does not vary greatly with wavelength. Consequently, the emissivity of metals is low

– only increasing with temperature. For non-metals, emissivity tends to be high, and de-

creases with temperature.

30.2.1 Finding the emissivity of a sample

30.2.1.1 Step 1: Determining reflected apparent temperature

Use one of the following two methods to determine reflected apparent temperature:

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