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  • How Do You Calibrate a Thermal Imaging Camera?

    In the realm of non-contact temperature measurement, thermal cameras stand out as remarkable tools, capable of revealing the invisible world of infrared. However, behind their ability to paint a thermal image lies a delicate process called calibration, a crucial step in ensuring the accuracy and reliability of temperature readings.

  • What is MSX®?

    FLIR's unique MSX technology adds key details from the onboard visible light camera to the entire infrared image in real time. The result: an all-in-one, undiluted thermal picture with visible light features that lets you instantly recognize where the problematic heat pattern is.

  • FLIR Hadron Enables Lightweight and Affordable sUAS

    Two innovative companies have integrated the new FLIR Hadron into sUAS platforms being launched this summer. The Hadron is a compact, low power form factor that includes both a visual and thermal camera and is designed to enable lightweight and dynamic aircraft. Teal Drones and Vantage Robotics took advantage of the Hadron’s state-of-the-art capabilities to create sUAS platforms at the leading edge of the industry.

  • How to Clean a Thermal Camera Lens

    The goal of cleaning a thermal camera lens is to remove excess dirt and oils that are interfering with measurement or image accuracy. As a rule, clean your thermal camera lens only when strictly necessary. It is not necessary to clean your camera lens regularly or before every use, only when there is visible dirt or fingerprints. 

  • What is a Non-Uniformity Correction (NUC)?

    Non-uniformity correction (NUC) adjusts for minor detector drift that occurs as the scene and environment change. Basically, the camera's own heat can interfere with its temperature readings. To improve accuracy, the camera measures the IR radiation from its own optics and then adjusts the image based on those readings. NUC adjusts gain and offset for each pixel, producing a higher quality, more accurate image.