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New FLIR Camera Technology Provides Unmatched Perimeter Security So Users Can Detect, Track, and Act

Latest Hadron 640 Models Bring enhanced Thermal Sensitivity and SWaP-Optimized Design for Out-of-the-Box Integration GOLETA, Calif. and PARIS, France — June 12, 2024 ― Teledyne FLIR, part of Teledyne Technologies Incorporated, today released its next generation of high-performance Hadron 640 dual radiometric thermal and visible camera modules. The ITAR-free Hadron 640+ and radiometric Hadron 640R+ provide industry-leading thermal sensitivity. All models are size, weight, and power (SWaP) optimized for integration into unmanned aircraft systems (UAS), unmanned ground vehicles (UGV), robotic platforms, and emerging AI applications utilizing Teledyne FLIR Prism™ software. “The Hadron 640 series gives integrators the opportunity to deploy AI-ready, high-performance dual-camera modules into small unmanned systems where SWaP, performance, run time, and battery life are mission critical,” said Michael Walters, Vice President Product Management, Teledyne FLIR. “With Teledyne FLIR’s new Prism AI detection, tracking, and classification models and Prism ISP libraries offering super-resolution, turbulence mitigation, contrast enhancement, and more, Hadron 640 also enables effective AI-based applications.” The new Hadron 640 modules include a 640 x 512 resolution Boson+ longwave infrared (LWIR) camera module with industry-leading thermal sensitivity of 20 millikelvin (mK) or better. It sees through total darkness, smoke, most fog, and glare allowing operational awareness day and night. The Hadron 640R+ provides temperature measurements for every pixel in the scene. The addition of a 64MP visible camera enables the Hadron 640 series to provide both thermal and visible imagery within a single camera module. “Continued collaboration with Teledyne FLIR enables rapid payload and performance innovation for Teal drones, accelerates time to market, and equips warfighters with the best possible technology for operational success,” said George Matus, CTO of Red Cat. “The Hadron 640 series features enhanced thermal sensitivity and HD visible cameras to provide superior performance within a compact package for the support of our NATO allies and the U.S. Army’s Short Range Reconnaissance Tranche 2 program of record.” To reduce development costs and time-to-market for integrators and original equipment manufacturer (OEM) product developers, the Hadron 640 series offers a complete system through a single supplier. This includes drivers for market-leading processors from NVIDIA, Qualcomm, and more, plus industry-leading integration support and service from a Teledyne FLIR support team of experts. The Hadron 640 series products are all dual use and classified under US Department of Commerce jurisdiction. It is available for purchase globally from OEMCameras.com https://youtu.be/GJU_gogrw5A?si=D5xgoCux3FDTTOLs

Mid-wave infrared imaging module provides rapid leak detection of methane and other hydrocarbons within a SWaP-optimized integration package GOLETA, Calif. – Jan. 30, 2024 – Teledyne FLIR, part of Teledyne Technologies Incorporated, announced the Neutrino LC OGI optical gas imaging camera module, a made-in-the-USA, ITAR-free, mid-wave infrared (MWIR) imager for products designed to detect, measure, and visualize harmful gas emissions. The Neutrino LC OGI provides best-in-class performance within a small, lightweight, and low-power module for integration into unmanned aerial vehicles, small gimbals, handheld devices, and fixed-mounted gas leak detection systems. The MWIR spectral band is used to accurately detect the greenhouse gas methane and other hydrocarbons, such as volatile organic compounds (VOCs). The Neutrino LC OGI offers multiple modes: a 640×512 VGA resolution mode with up to eight times digital zoom to maximize scene awareness; or it can operate in bin mode, which can improve sensitivity to an industry-leading <20 millikelvins (mK) to create a crisper, higher-contrast image for pinpointing leaks. “The detection and mitigation of harmful hydrocarbon and chemical leaks into the air represents a significant priority for regulators and impacted industries,” said Dan Walker, vice president of product management, Teledyne FLIR. “The Neutrino LC OGI is the low-risk and high-performing OEM camera module for integrators developing methane monitoring and other gas imaging solutions today.” The size, weight, and power (SWaP) optimized Neutrino LC OGI features Teledyne FLIR’s High Operating Temperature (HOT) FPA technology and a quiet, low-vibration, and long-life linear micro cooler. Reliability and an industry-best two-year warranty make it the integrator’s module of choice where rapid leak detection and operational uptime are critical within processing facilities, refineries, pipelines, tank farms, and well pads for the oil and gas industry. Integrators also gain access to the Teledyne FLIR professional technical support team, a full suite of hardware accessories, and a software development kit (SDK) to simplify and reduce the cost of development. ABOUT TELEDYNE FLIR Teledyne FLIR, a Teledyne Technologies company, is a world leader in intelligent sensing solutions for defense and industrial applications, with approximately 4,000 employees worldwide. Founded in 1978, the company creates advanced technologies to help professionals make better, faster decisions that save lives and livelihoods. For more information on the Neutrino LC OGI, please visit www.OEMCameras.com.

Teledyne FLIR releases Development board for quick integration of the performance-leading FLIR Hadron 640R thermal and visible dual camera module

GOLETA, Calif. and LAS VEGAS – Sept. 6, 2022 ― Teledyne FLIR, part of Teledyne Technologies Incorporated (NYSE:TDY), today launched SIRAS™, a professional drone that includes a quick-connect dual radiometric thermal and visible camera payload. Engineered for data security, performance, and affordability, SIRAS is optimized for industrial and utility inspection, public safety, firefighting, and search and rescue missions. “Designed to provide pilots with flexibility to get the job done, SIRAS delivers a geofence-free flight experience with thermal and visible imaging capabilities at $9,695 USD,” said, Mike Walters, vice president, product management, Teledyne FLIR. “SIRAS is the only enterprise drone to currently incorporate the patented MSX® technology, which overlays the edge detail from the visible camera on the thermal image to provide critical information in real time.” The IP-54-rated aircraft features a 31-minute flight time, radar-based front collision avoidance, and backpack portability, so professional UAV pilots can fly safely when and where the mission demands. The included Vue® TV128 payload features a quick-connect gimbal, which provides imagery compatible with FLIR Thermal Studio™ and leading third-party photogrammetry applications. The 16MP visible camera can zoom 128x to pinpoint details. The integrated 640×512 pixel, radiometric Boson® provides best-in-class thermal imagery, 5x digital zoom, and temperature-measurement of every pixel in the scene. With a startup time of one minute, pilots can get eyes on the scene quickly and maintain control via a dual-band radio (2.4/5.8 GHz) connection, while hot swappable batteries ensure efficient operation. To improve data security, SIRAS stores imagery on an onboard SD card and does not include cloud connection capability. Furthermore, pilots are not required to create an online profile, increasing ease of use and reducing potential unintended online data access. The SIRAS aircraft was designed in collaboration with and is manufactured by Coretronic Intelligent Robotics Corporation (CIRC) in Taiwan, a subsidiary of Coretronic Group. Final payload integration and quality control are completed in the USA. SIRAS will begin shipping in the fourth quarter of 2022 in the US with additional regional availability information provided at www.teledyneflir.com/siras. SIRAS is dual use and classified under US Department of Commerce jurisdiction as EAR 6A003.b.4.a.

These highly configurable smart camera systems provide accurate, non-contact temperature monitoring across a wide range of disciplines.

Can thermal cameras be used to detect a virus or an infection? The quick answer to this question is no, but thermal imaging cameras can be used to detect Elevated Body Temperature. FLIR thermal cameras have a long history of being used in public spaces—such as airports, train terminals, businesses, factories, and concerts—as an effective tool to measure skin surface temperature and identify individuals with Elevated Body Temperature (EBT). In light of the global outbreak of the coronavirus (COVID-19), which is now officially a pandemic, society is deeply concerned about the spread of infection and seeking tools to help slow and ultimately stop the spread of the virus. Although no thermal cameras can detect or diagnose the coronavirus, FLIR cameras can be used as an adjunct to other body temperature screening tools for detecting elevated skin temperature in high-traffic public places through quick individual screening. If the temperature of the skin in key areas (especially the corner of the eye and forehead) is above average temperature, then the individual may be selected for additional screening. Identifying individuals with EBT, who should then be further screened with virus-specific diagnostic tests, can help reduce or dramatically slow the spread of viruses and infections. The thermal camera must be able to image the inner corner (tearduct) of the eye when screening for EBT. Have subjects remove glasses or any other eye obstructions before screening. Using thermal cameras, officials can be more discrete, efficient, and effective in identifying individuals that need further screening with virus-specific tests. A variety of institutions, including transportation agencies, businesses, factories, and first responders are using thermal screening as an EBT detection method and as part of employee health and screening (EH&S). Airports in particular are actively employing FLIR thermal cameras as part of their screening measures for passengers and flight crews. The screening procedures implemented at airports and in other public places are just the first step when it comes to detecting a possible infection: it’s a quick way to screen for anyone who might be sick, and must always be followed up with further screening before authorities decide to quarantine a person. When screening for EBT with a FLIR thermal camera, it’s important to screen one person at a time, standing no more than 1-2 meters away from the camera. What FLIR cameras are used for thermal screening? While governments outside the United States may choose from many different cameras, FLIR has a 510(k) filing (K033967) with the US Food and Drug Administration (FDA) for select camera models for use as an adjunct to other body temperature screening tools to detect differences in skin surface temperatures. OEMCameras.com recommends a variety of FLIR Cameras. For more information about ordering FLIR cameras for temperature screening purposes in the United States, please call: 1-888-919-2263. Outside the United States: +1-845-343-4077. Source: FLIR.com