Thermal Cameras

THERMAL CAMERAS WHITE PAPERS

Detecting And Visualizing Hydrocarbon Gas Leaks With MWIR Cameras Midwave Infrared (MWIR) cameras work by capturing 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, which are often odorless and invisible to the naked eye. Using these MWIR cameras to detect emissions helps guarantee the safety of people working in the oil and gas industry, as well as help protect the environment and reduce costs of repairs.  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 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 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...
Electronic Component Testing: A Non-Contact Sport
Electronic Component Testing: A Non-Contact Sport The smaller and more powerful an electronic device becomes, the more damage can be caused from its inherent heat. Designers are continuously looking for ways to keep components cool while maintaining the quality and integrity of performance.  Continue Reading...
FLIR T500-Series Macro Mode: Single-Lens Solution For Imaging Small Targets
FLIR T500-Series Macro Mode: Single-Lens Solution For Imaging Small Targets Thermal cameras are used throughout many stages of R&D and quality assurance. Electronics inspection is one of the most common applications for thermal imaging, which typically involves finding hot spots on printed circuit board assemblies (PCBAs) and ensuring that various components are working within their design limits.  Continue Reading...
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THERMAL CAMERAS PRODUCTS

High-Speed Infrared Camera: FAST-IR M350z High-Speed Infrared Camera: FAST-IR M350z

TELOPS’ new FAST 350z camera from the FAST-IR 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.

Smallest, Lightest, Lowest-Powered Optical Gas Imaging Camera Core - Ventus OGI Smallest, Lightest, Lowest-Powered Optical Gas Imaging Camera Core - Ventus OGI

Sierra-Olympic offers the new Ventus OGI optical gas imaging (OGI) camera with a 640 x 512, 15-micron pixel-pitch midwave-infrared (MWIR) detector array providing unmatched thermal sensitivity. Weighing only 580 grams with the lens in a compact 146.6 mm x 70.9 mm x 73.1 mm package, this camera is the smallest, lightest, and lowest-powered OGI camera for detecting and visualizing hydrocarbon gas leaks such as methane, propane, butane, and more.

Long Range Thermal Zoom Camera Family: Vinden LR Series Long Range Thermal Zoom Camera Family: Vinden LR Series

Sierra-Olympic’s Vinden LR Series of cameras are designed to provide long range thermal imaging with powerful continuous zoom for thermal and multi-sensor defense systems in defense, security, surveillance, border, port, and base security applications. 

LWIR/Thermal Camera With 5X Continuous Zoom: Vinden 75LR LWIR/Thermal Camera With 5X Continuous Zoom: Vinden 75LR

Utilizing a vanadium oxide (VOx) microbolometer sensor and novel zoom optics, the camera is designed for integrators to provide LWIR imaging performance in constrained mass and volume environments, including defense, security, surveillance, border, port and base security applications.

Uncooled, Infrared Sensor For OEM Applications: Tenum™ 640 Uncooled, Infrared Sensor For OEM Applications: Tenum™ 640

Sierra-Olympic introduces the Tenum™ 640 uncooled, infrared sensor with 640 x 512 resolution providing superior long-wave infrared (LWIR) detection for a variety of OEM applications. This sensor balances an ultra-small pixel structure with an ultra-sensitive microbolometer performance at a significant cost advantage.

HD Dual-Sensor Thermal Camera For Drones: FLIR Duo Pro R HD Dual-Sensor Thermal Camera For Drones: FLIR Duo Pro R

FLIR offers the Duo Pro R high-resolution thermal and visible light imager specifically designed for commercial, industrial, and public safety applications. This HD camera features a dual-sensor with high-definition 4K color and thermal video recording in a single package. 

Long Wave Infrared Thermal Camera Core: Tau 2 Long Wave Infrared Thermal Camera Core: Tau 2

The Tau 2 from FLIR is loaded with advanced electronics and image processing features that improve detail and contrast, this camera offers full radiometry, increased sensitivity (<30 mK), and 640/60 Hz frame rates.

Mid-Wave Infrared (MWIR) Cooled Camera Module: Neutrino™ Mid-Wave Infrared (MWIR) Cooled Camera Module: Neutrino™

FLIR offers the Neutrino™ - a high performance cooled mid-wave infrared (MWIR) core designed for simple integration when SWaP design constraints and performance are needed. This camera is FLIR’s smallest and lightest OEM cooled camera core, incorporating the FLIR’s full suite of advanced image processing algorithms such as customizable AGC and Detailed Digital Enhancement (DDE).

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THERMAL CAMERAS NEWS

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THERMAL CAMERAS VIDEOS

  • 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.

  • Shoot The Melon!
    Shoot The Melon!

    Nothing could beat the feeling of shooting a watermelon and tannerite with an AR15.

  • Champagne Explosion!
    Champagne Explosion!

    Champagne anyone? Prolong the party with this video using the high speed infrared capabilities of the X6900sc.

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