Manual
Table Of Contents
- 1 Disclaimers
- 2 Safety information
- 3 Notice to user
- 4 Customer help
- 5 Quick Start Guide
- 6 Description
- 7 Operation
- 7.1 Charging the battery
- 7.2 Turning on and turning off the camera
- 7.3 Saving an image
- 7.4 Recalling an image
- 7.5 Deleting an image
- 7.6 Deleting all images
- 7.7 Measuring a temperature using a spotmeter
- 7.8 Measuring the hottest temperature within an area
- 7.9 Measuring the coldest temperature within an area
- 7.10 Hiding measurement tools
- 7.11 Changing the color palette
- 7.12 Working with color alarms
- 7.13 Changing image mode
- 7.14 Changing the temperature scale mode
- 7.15 Changing the camera temperature range
- 7.16 Setting the emissivity as a surface property
- 7.17 Setting the emissivity as a custom material
- 7.18 Changing the emissivity as a custom value
- 7.19 Changing the reflected apparent temperature
- 7.20 Changing the distance between the object and the camera
- 7.21 Performing a non-uniformity correction (NUC)
- 7.22 Configuring Wi-Fi
- 7.23 Changing the settings
- 7.24 Updating the camera
- 8 Mechanical drawings
- 9 CE Declaration of conformity
- 10 Cleaning the camera
- 11 Application examples
- 12 Thermographic measurement techniques
- 13 About calibration
- 13.1 Introduction
- 13.2 Definition—what is calibration?
- 13.3 Camera calibration at FLIR Systems
- 13.4 The differences between a calibration performed by a user and that performed directly at FLIR Systems
- 13.5 Calibration, verification and adjustment
- 13.6 Non-uniformity correction
- 13.7 Thermal image adjustment (thermal tuning)
- 14 About FLIR Systems
About FLIR Systems
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FLIR Systems was established in 1978 to pioneer the development of high-performance
infrared imaging systems, and is the world leader in the design, manufacture, and mar-
keting of thermal imaging systems for a wide variety of commercial, industrial, and gov-
ernment applications. Today, FLIR Systems embraces five major companies with
outstanding achievements in infrared technology since 1958—the Swedish AGEMA In-
frared Systems (formerly AGA Infrared Systems), the three United States companies In-
digo Systems, FSI, and Inframetrics, and the French company Cedip.
Since 2007, FLIR Systems has acquired several companies with world-leading
expertise:
• NEOS (2019)
• Endeavor Robotics (2019)
• Aeryon Labs (2019)
• Seapilot (2018)
• Acyclica (2018)
• Prox Dynamics (2016)
• Point Grey Research (2016)
• DVTEL (2015)
• DigitalOptics micro-optics business (2013)
• MARSS (2013)
• Traficon (2012)
• Aerius Photonics (2011)
• TackTick Marine Digital Instruments (2011)
• ICx Technologies (2010)
• Raymarine (2010)
• Directed Perception (2009)
• OmniTech Partners (2009)
• Salvador Imaging (2009)
• Ifara Tecnologías (2008)
• Extech Instruments (2007)
Figure 14.1 Patent documents from the early 1960s
FLIR Systems has three manufacturing plants in the United States (Portland, OR, Boston,
MA, Santa Barbara, CA) and one in Sweden (Stockholm). Since 2007 there is also a
manufacturing plant in Tallinn, Estonia. Direct sales offices in Belgium, Brazil, China,
#T559828; r. AQ/75691/75691; en-US
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