Thermal Cameras

THERMAL CAMERAS WHITE PAPERS

Thermal Lock-In Inspection Of Semiconductor Devices With Xenics XCO Camera Module
Thermal Lock-In Inspection Of Semiconductor Devices With Xenics XCO Camera Module Thermal imaging cameras can be utilized as powerful tools for semiconductor failure analysis. However, conventional thermography or thermal imaging techniques used for semiconductor devices are faced with intensity variations caused by differences in emissivity of the various materials, and thermal hot spot dilation. This application note discusses the value and effectiveness of using thermal lock-in when conducting semiconductor inspections.  Continue Reading...
Benchtop Thermal Imaging: A Simple-To-Use, Cost-Effective Solution For Troubleshooting Complex Printed Circuit Boards
Benchtop Thermal Imaging: A Simple-To-Use, Cost-Effective Solution For Troubleshooting Complex Printed Circuit Boards Electronic products used in aerospace and other research applications have two key requirements: high performance and the reliability to withstand intense environments. To attain that performance, electronics designers often use small parts and routinely push them to their limits.   Continue Reading...
Laser Beam Profiling And Infrared Cameras This white paper addresses the general need for laser beam profile analysis, describes laser beam analysis instruments, and provides an overview of laser applications, in particular for infrared wavelengths.  Continue Reading...
Volcanic Eruption Observations From An Elevated Point Of Stromboli Using Thermal Infrared Hyperspectral Imaging
Volcanic Eruption Observations From An Elevated Point Of Stromboli Using Thermal Infrared Hyperspectral Imaging Research on different indicators of imminent volcanic eruptions is carried out on an ongoing basis, especially with volcanoes located close to urban areas. This app. note highlights the benefits of using standoff infrared hyperspectral imaging for characterizing volcanic process.  Continue Reading...
Direct Imaging Of Shale Gas Leaks Using Passive Thermal Infrared Hyperspectral Imaging
Direct Imaging Of Shale Gas Leaks Using Passive Thermal Infrared Hyperspectral Imaging Many types of natural gas from shale formations are odorless, colorless, and highly flammable, and leaks/emanations are important considerations for safety and the environment. This application note illustrates the benefits of using an imager at a site where shale gas leaks unexpectedly happened.  Continue Reading...
FLIR Thermal Imaging Cameras Help Researchers Monitor And Evaluate Joining Techniques
FLIR Thermal Imaging Cameras Help Researchers Monitor And Evaluate Joining Techniques New composite materials such as carbon are being used more frequently in many markets such as automotive, aircraft, and railway manufacturing. These materials can offer benefits for the design and production of vehicles including higher performance levels or lighter weights, but also come with challenges in terms of manufacturing, inspection, and maintenance. Researchers at the Laboratory for Materials and Joining Technology (LWF) are focusing...  Continue Reading...
Medical Research With FLIR Thermal Imaging Cameras
Medical Research With FLIR Thermal Imaging Cameras Tissue autofluorescence spectroscopy, or the measurement of intrinsic light emissions from biological agents upon excitation, is utilized in a variety of biomedical research for differentiating between diseased and normal tissues. Researchers interested in the correlation between temperature and tissue autofluorescence spectroscopy during surgery are finding their answers with the help of thermal imaging. FLIR offers a scientific camera with the ...  Continue Reading...
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THERMAL CAMERAS PRODUCTS

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. Several zoom lenses at 25 - 150 mm, 25 - 225 mm, or 40 - 300 mm are available to offer a narrow horizontal field of view (HFOV) as small as 1.5° without compromise to optical speed or sensitivity.

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

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. With a full suite of on-board sensors, the fully integrated camera provides a source for all vital data needed to create accurate maps and 3D models from an airborne platform.

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).

LWIR Micro Thermal Camera Module: FLIR Lepton® LWIR Micro Thermal Camera Module: FLIR Lepton®

The FLIR Lepton® is a radiometric-capable long-wave infrared (LWIR) camera module that is smaller than a dime. It is specifically designed to fit inside a smartphone, mobile devices, and other electronics like IR sensors and thermal imagers. Available at one tenth of the cost of traditional IR cameras, these cameras feature focal plane arrays of 160 x 120 or 80 x 60 active pixels, and capture accurate, calibrated, and noncontact temperature data in every pixel of each image.

Thermal Vision Automotive Development Kit (ADK): FLIR ADK™ Thermal Vision Automotive Development Kit (ADK): FLIR ADK™

The FLIR ADK™ is a new thermal vision automotive development kit (ADK) built around the FLIR Boson® thermal camera core. This kit offers a cost effective solution for developing the next generation of automotive thermal vision and advanced driver assistance systems (ADAS). The system creates images from heat, making this technology the best for pedestrian detection, identifying people in cluttered environments, and giving analytics critical information for automated decisions.

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THERMAL CAMERAS NEWS

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THERMAL CAMERAS VIDEOS

  • 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.

  • Water Balloon Burst!
    Water Balloon Burst!

    A water balloon plus a sharp object equals a splash of a visual effect! Take it all in with the high speed infrared capabilities of the X6900sc.

  • High Speed Infrared Imaging
    High Speed Infrared Imaging

    If you need to stop motion on fast-moving targets or targets that heat and cool rapidly, FLIR’s high speed thermal cameras offer the fast frame rates and integration you need. FLIR’s newest camera, the X6900sc, can record 1000 fps of high speed data at full 640 x 512 resolution – meaning researchers can perform dynamic analysis of jet engine turbine blades, supersonic projectiles, explosions, and more, without losing areas of the frame to windowing.

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