Thermal Cameras

THERMAL CAMERAS WHITE PAPERS

Why HOT MWIR Might Be A Better Fit Than Uncooled LWIR
Why HOT MWIR Might Be A Better Fit Than Uncooled LWIR While cooled mid-wave infrared (MWIR) cameras have long held a tactical advantage over uncooled longwave infrared (LWIR) cameras, they also have been more mechanically complex, larger, heavier, more power-hungry, and more costly than uncooled LWIR cameras.   Continue Reading...
Improving Additive Manufacturing With The Help Of Infrared
Improving Additive Manufacturing With The Help Of Infrared Additive manufacturing technologies create components directly from a computer model, adding material only where needed. This app note discusses how infrared cameras can help manufacturers find systematic problems and determine the changes needed to maintain product quality.  Continue Reading...
Detecting And Visualizing Hydrocarbon Gas Leaks With MWIR Cameras MWIR cameras capture images below the red end of the visible color spectrum at the peak absorption of emissions of hydrocarbon gases such as methane, propane, and butane, helping guarantee the safety of oil and gas industry workers, as well as protecting the environment and reducing repair costs.  Continue Reading...
Part 4: Overcoming Technical And Logistical Automotive Integration Challenges
Part 4: Overcoming Technical And Logistical Automotive Integration Challenges Safe advanced driver assist system (ADAS) vehicles and autonomous vehicles (AV) require the use of sensors to deliver scene data adequate for the detection and classification algorithms to autonomously navigate under all conditions. This requirement cannot be adequately met with just visible cameras, sonar, and radar sensors. Thermal, or longwave infrared (LWIR), cameras can detect and classify pedestrians in darkness, fog, and sun glares, and...  Continue Reading...
Part 3: The Pathway To Affordable, Scalable Automotive Integration
Part 3: The Pathway To Affordable, Scalable Automotive Integration Safe advanced driver assist system (ADAS) vehicles and autonomous vehicles (AV) require the use of sensors to deliver scene data adequate for the detection and classification algorithms to autonomously navigate under all conditions. This requirement cannot be adequately met with just visible cameras, sonar, and radar sensors, as they do not meet many safety concerns in real conditions. Thermal, or longwave infrared (LWIR), cameras can detect and ...  Continue Reading...
Part 2: Technical Advantages Of Thermal Cameras In ADAS And AV Platforms
Part 2: Technical Advantages Of Thermal Cameras In ADAS And AV Platforms This white paper is Part 2 of the series on the technical advantages that thermal infrared cameras deliver over other technologies for autonomous driving.  Continue Reading...
Part 1: Why ADAS And Autonomous Vehicles Need Thermal Infrared Cameras
Part 1: Why ADAS And Autonomous Vehicles Need Thermal Infrared Cameras Safe advanced driver assist system (ADAS) vehicles and autonomous vehicles (AV) require the use of sensors to deliver scene data adequate for the detection and classification algorithms to autonomously navigate under all conditions for SAE automation level 5. This challenging requirement cannot be adequately met with just visible cameras, sonar, and radar sensors. As a solution, thermal, or longwave infrared (LWIR), cameras can detect and...  Continue Reading...
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THERMAL CAMERAS PRODUCTS

High Resolution Uncooled Thermal Camera: Gobi 640 Series High Resolution Uncooled Thermal Camera: Gobi 640 Series

The Gobi 640 series of high-resolution, uncooled thermal cameras feature 640 x 480 pixel resolution and are ideal for applications involving accurate temperature measurement, NDT lock-in thermography, real-time process control and monitoring, quality control/assurance, and semiconductor inspection. Where image quality is crucial, the Gobi+, an improved version of the Gobi camera, offers increased frame rates of 60 Hz, as well as lowered 50 mK NETD detector noise.

Uncooled Thermal OEM Module: XTM 640 Uncooled Thermal OEM Module: XTM 640

Xenics introduces the XTM 640 uncooled thermal OEM module with unique image quality and stability for a broad range of OEM applications including security, night vision, firefighting, airborne and land-based reconnaissance, and surveillance. For applications with increased imaging requirements, the XTM+, an improved version, offers increased frame rates of 60 Hz, as well as lowered 50 mK NETD detector noise.

FLIR Research Studio: Designed To Work The Way You Do FLIR Research Studio: Designed To Work The Way You Do

The new FLIR Research Studio is a powerful, yet simple to use software for analyzing how thermal imagery changes over time. Designed to work the way you work, the software makes thermal analysis faster, more convenient, and enables better teamwork. Whether a Windows, MacOS or Linux user, Research Studio provides customers with an easy way to quickly and efficiently display, record, and analyze accurate thermal data on their machine in any one of the available 22 languages. 

Thermal Imaging Camera With SLS Detector: FLIR A6750 LWIR Thermal Imaging Camera With SLS Detector: FLIR A6750 LWIR

FLIR offers the A6750 LWIR thermal imaging camera with a cooled SLS detector designed for high speed image acquisition up to 4.1 kHz with windowing. It captures all pixels simultaneously in under 190 μs for room temperature scenes, which is particularly important when monitoring fast moving objects where an uncooled thermal imaging camera would suffer from image blur.

Thermal Imaging Camera With FLIR Cooled InSb Detector: FLIR A6750 MWIR Thermal Imaging Camera With FLIR Cooled InSb Detector: FLIR A6750 MWIR

FLIR offers the A6750 MWIR thermal imaging camera with a cooled InSb detector designed for high speed image acquisition up to 4.1 kHz. Synchronization with other instruments and events enables the capture of minute details, and available custom cold filtering options allow specific spectral detection and measurement. It is ideal for imaging through glass, measuring temperature of thin film plastics, laser profiling and detection, and optical gas imaging.

Short Wave Infrared Cameras: FAST-SWIR Family Short Wave Infrared Cameras: FAST-SWIR Family

Telops offers the FAST-SWIR camera family as the fastest infrared cameras available in the SWIR band. With high sensitivity from the unique low noise detector, the FAST-SWIR infrared cameras are ideal for analyzing dynamic events covering the 0.9 to 1.7 µm band. An optional VSWIR detector covers from 1.4 to 1.7 µm.

Thermal Imaging Camera With FLIR Cooled InSb Detector: FLIR A6700 MWIR Thermal Imaging Camera With FLIR Cooled InSb Detector: FLIR A6700 MWIR

FLIR offers the A6700 MWIR thermal imaging camera with a cooled InSb detector designed for high speed image acquisition up to 480 Hz. Synchronization with other instruments and events enables the capture of minute details, and available custom cold filtering options allow specific spectral detection and measurement. It is ideal for imaging through glass, measuring temperature of thin film plastics, laser profiling and detection, and optical gas imaging.

High-Speed Infrared Camera: FAST-TrackIR Series High-Speed Infrared Camera: FAST-TrackIR Series

TELOPS’ FAST-TrackIR series is designed with a maximum data throughput larger than 1 Gigapixel/s and can produce thermal images at rates up to 355 fps. With high sensitivity for temperature differences as small as 20 mK, these high-performance cameras enable the detection of challenging targets in many IR signature and target ranging applications.

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THERMAL CAMERAS NEWS

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THERMAL CAMERAS VIDEOS

  • Tips For Selecting An Infrared Camera For Research And Development Applications
    Tips For Selecting An Infrared Camera For Research And Development Applications

    There are arguably countless types of infrared cameras on the market that can be used in research science applications. So how do you go about choosing the best one for you? Jerry Beeney of FLIR Research & Science discusses some important considerations in the decision process for choosing a camera including temperature, speed and distance requirements.

  •  FLIR Introduces The New SWIR Camera With InGaAs Detector
    FLIR Introduces The New SWIR Camera With InGaAs Detector

    Jerry Beeney of FLIR Research & Science introduces the new A6200 SWIR camera with a built in InGaAs Detector for many applications including laser beam profiling, industrial, and other unique uses like imaging through paint and printed currencies.

  • Making ADAS And Self Driving Cars Safer
    Making ADAS And Self Driving Cars Safer

    FLIR thermal sensors can be used for the detection and classification of pedestrians in ADAS and self-driving cars, making them safer and less costly.

  • High-Speed Thermal Recording At Its Very Best
    High-Speed Thermal Recording At Its Very Best

    In this video, FLIR introduces the Portable High-Speed Data Recorder (pHSDR) and demonstrates how it can resolve some of the traditional performance limitations that arise from recording straight to a computer hard drive.

  • High-Speed Infrared Imaging Of A Dual-fuel Engine
    High-Speed Infrared Imaging Of A Dual-fuel Engine

    This is high-speed infrared video footage from Telops of the four engine cycles of a duel-fuel engine.

  • Webinar: High-Speed Infrared Imaging For Internal Combustion Engine Diagnostics
    Webinar: High-Speed Infrared Imaging For Internal Combustion Engine Diagnostics

    High-speed infrared imaging is found to be a new diagnostic tool for studying ICEs. This Telops webinar offers a brief overview of optical engines, infrared (IR) narrowband imaging, and the investigation of a 4-cycle diesel ICE using high-speed IR imaging.

  • Hot Or Cold?
    Hot Or Cold?

    Nothing wakes you up like a good “cup o’ Jo”! Or maybe an ice cold glass of water? Compare the difference between the two with high speed infrared imaging from the X6900sc.

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