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ANAF5X000P_5x_Afocal_Lens_Adapter
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ANHM000009_MICH_Helmet_Mount_Assmbly_Adapter
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ATAMNYX15M_Battery_Pack_Kit
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ANHM000001_Helmet_Mount-4
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ANHM000197_Dual_Bridge-197
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ANAF3X0023_3x_Afocal-Lens-Adapter-23
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T911850
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10 Tips for Getting the Most Out of an Optical Gas Imaging (OGI) Camera
Optical Gas Imaging (OGI) cameras use spectral wavelength filtering and Stirling cooler cold-filtering technology to visualize the infrared absorption of gases such as methane (CH4) sulfur hexafluoride (SF6), carbon dioxide (CO2), and refrigerants. FLIR produces several camera models, each with a filter that matches the spectral absorption of the gas its meant to visualize.
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Start Faster and Easier with FLIR QL320 Training
Begin quantifying gas leaks quickly and use the FLIR QL320 like a pro. This series of tutorial videos are a step-by-step guide to using the FLIR QL320, covering everything from "Working in Tethered vs. Q-Mode" to "How to Set Up Delta T".
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Improve Condition Monitoring with Thermal and Acoustic Cameras | Teledyne FLIR
Detect equipment faults long before they cause damage with thermal and acoustic imaging cameras to lower your energy costs and avoid downtime.
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Control Your Home Energy Bills with a Thermal Imaging Camera | Teledyne FLIR
Relieve the stress of high energy bills by using a thermal imaging camera to detect invisible areas of energy loss in your home. Read this article to learn how.
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How Chip Design Systems Pushes FLIR Cameras Capabilities with their IR Projectors
The future of validating and improving aerospace and autonomous vehicle design relies on hardware in the loop (HWIL or HIL) testing. This approach involves connecting a control module—for example, a missile guidance, navigation, and control—to software that generates a simulated environment that “tricks” the control module into acting as though it’s engaging with a real environment. This allows R&D teams to run hundreds or thousands of varying test scenarios without the costs, time, or potential risks associated with field testing. HWIL testing as it is applied to hypersonics research applications requires bleeding edge technology, and Chip Design Systems is leading improvements in the area of infrared scene projectors for these tests.