FLIR Systems is the world leader in the design and manufacturing of thermal imaging cameras for a wide variety of applications. It has over 50 years of experience and thousands of thermal imaging cameras currently in use worldwide for predictive maintenance, building inspections, research & development, security and surveillance, maritime, automotive and other night-vision applications.
FLIR Systems has eight manufacturing plants located in the USA (Portland, Boston, Santa Barbara and Bozeman), Stockholm, Sweden, Talinn, Estonia and near Paris, France. It operates offices in Australia, Belgium, Brazil, China, Dubai, France, Germany, Hong Kong, India, Italy, Japan, Korea, the Netherlands, Russia, Spain, UK and the USA. The company has over 4,000 dedicated infrared specialists, and serves international markets through an international distributor network providing local sales and support functions.
FLIR Systems has published a new paper which describes the substantial financial, operational and safety benefits that Jonah Energy (Sublette County, WY, USA) has achieved using FLIR GF320 Optical Gas Imaging Camera’s (OGI) to inspect their facilities for gas leaks.
FLIR Systems X6000sc and X8000sc series thermal imaging cameras offer unmatched detection of defects and points of failure in composites, solar cells, bridges, and electronics as well as enabling thermal mapping of stress when performing materials testing.
The FLIR SC7000 Series is specifically designed for academic and industrial research applications that require a flexible thermal imaging camera with high sensitivity, accuracy, spatial resolution, and speed at an affordable cost.
FLIR Systems ResearchIR 4.2 thermal imaging software provides researchers and scientists with a state-of-the-art tool for viewing, acquiring, analyzing, and sharing thermal data.
A new application note from FLIR Systems describes how their GF320 optical gas imaging camera is being used by IBS GmbH (Bremen, Germany) for inspecting Biogas facilities and finding hidden gas leaks before they can cause significant harm.