The Boson® camera core represents the best in FLIR high-performance uncooled thermal imaging technology within a small, lightweight, and low-power package, and now FLIR partners and customers will have the option to purchase radiometric versions that can capture the temperature data of every pixel in the scene.

The new Boson radiometric camera core comes in two versions, 640 x 512 or 320 x 256 resolutions with multiple lens configurations and the ability to capture temperature data for quantitative assessment. The camera core is meant for use in systems across a variety of applications including firefighting, surveillance, security, unmanned systems, industrial inspection, and fixed-asset monitoring.

Hadron™ 640R pairs a performance-leading 640x512 resolution radiometric Boson® thermal camera with a 64MP visible camera in a single easy-to-integrate module. With a size, weight, and power (SWaP) optimized design, it is an ideal dual sensor payload for integration into unmanned aircraft systems (UAS), unmanned ground vehicles (UGV), robotic platforms, and AI-ready applications where battery life and run time are mission critical. The Boson longwave infrared (LWIR) thermal camera provides the ability to see through total darkness, smoke, most fog, glare as well as take the temperature of every pixel in the scene. The 64MP visible camera imagery enables AI and machine learning for intelligent sensing applications. With drivers available for market leading processors from NVIDIA, Qualcomm, and more plus industry-leading integration support, Hadron 640R reduces development cost and shortens time to market.

The TZ20-R features two FLIR Boson® thermal cameras that put four times more pixels on target at every zoom level versus all competition and offers an unmatched 20× zoom capability. Utility, roofing, solar farm, and other industrial inspectors can zoom into objects of interest, identify them with unmatched clarity, and take and record radiometric temperature measurements, all from a safe standoff distance. Emergency response pilots in search and rescue, law enforcement, firefighting, and public safety can search for and observe in silence while using the thermal zoom to reduce false positives and make critical decisions faster with the affordable VUE TZ20-R. The combination of performance-leading thermal zoom and radiometry enables more efficient missions with faster search, silent surveillance, and safer stand-off inspections.

PathFindIR II is a powerful thermal night vision system that helps you clearly see road hazards in total darkness, and it will alert you to nearby vehicles, people, and animals. Headlights typically illuminate about 450 feet straight ahead, but PathFindIR II detects heat without a need for light, allowing you to see up to four times farther down the road. You’ll have visibility through dust, smoke, or fog, and better capability to avoid an accident.

The FLIR ADK™ is a cost-effective way to develop the next generation of automotive thermal vision for advanced driver assistance systems (ADAS) and autonomous vehicles (AV). Thermal infrared cameras are the best sensor technology for pedestrian detection, reliably classifying people in cluttered environments and giving analytics the critical information needed for automated decision making. The ADK’s rugged, IP67 rated enclosure incorporates a heated window for all-weather driving. With the GMSL and USB interfaces, installation is plug-and-play easy.

FLIR Tau® SWIR and broadened spectral range Tau Vis-SWIR provides outstanding short-wave infrared image quality and performance over a wide range of imaging and light level conditions. It is the ideal OEM SWIR imaging module for applications like hyperspectral instrumentation, silicon inspection, electro-optical payloads, art restoration, and portable imaging. The Tau SWIR camera incorporates the FLIR high resolution 640×512 ISC1202 Indium Gallium Arsenide (InGaAs) 15-micron pitch focal plane array (FPA) and includes several advanced camera controls features.

The FLIR® Hadron™ is SWaP+C optimized RGB/Thermal module designed for simplicity and performance. This light weight, low power, compact form factor includes a 12MP RGB camera, Boson thermal camera (with shutter), complete integration of IMU and can operate at up to 60 Hz. Hadron’s design ensuring maximum battery life and run time, especially when saving space and weight matter. With addition of this small module you can offer your customers the power of thermal.

The ultimate drone thermal imaging solution is here. The new FLIR Duo® Pro R combines a high resolution, radiometric thermal imager, 4K color camera, and a full suite of on-board sensors to bring you the most powerful dual-sensor imaging solution in the world for small commercial drones. Capture actionable data around the clock with Duo Pro R.

The Vue Pro R gives drone operators and certified thermographers the power to gather accurate, non-contact temperature measurements from an aerial perspective. Every still image the Vue Pro R saves contains accurate, calibrated temperature data embedded in every pixel, adding even more value to your sUAS operations and services than ever. Vue Pro R adds fully radiometric data-gathering to sUAS applications like building and roof inspections, power grid inspections, infrastructure analysis, precision agriculture, and public safety.

Designed for professional use, FLIR Vue Pro is more than a thermal camera, it is a thermal measurement instrument and data recorder that adds tremendous value to your sUAS operations and services.

The performance series includes the FLIR Neutrino QX and SX12. Neutrino SX12 is based on a FLIR 1280×1024/12µ resolution focal plane array (FPA) and has a frame rate of 120HZ 720P and >60Hz for SXGA. Neutrino QX is based on a FLIR 2048×1536/10µ FPA and has a frame rate of 60Hz 1080P and >30Hz QXGA. With these resolutions and frame rates, they are ideal for ground based or airborne Intelligence, Surveillance and Reconnaissance (ISR), counter UAS solutions and Wide Area Motion Imagery (WAMI) applications.

The new Neutrino LC is a SWaP+C optimized Mid Wave Infrared (MWIR) camera core, setting a new standard for size, weight, performance and cost. Designed for integrators, the Neutrino LC is compact and configurable, weighing in at only 380 grams with a steady power consumption of <4 watts, in a steady state @23 °C. Smaller, lighter, and more reliable than ever, the Neutrino LC delivers superb thermal imagery backed by industry-leading integration support from FLIR.

FLIR is now offering Neutrino Integrated Solutions – Our best MWIR cooled camera cores now with FLIR’s own zoom lenses, a cost-effective solution with superior performance and faster time to market. FLIR zoom lenses and cameras are designed together to guarantee a simplified opto-mechanical integration and user interface. The Neutrino LC/CZ 19-290 solution provides a SWaP optimized, 19-290mm continuous zoom lens precision integrated with the Neutrino LC camera core. With a common and simplified user interface, the Neutrino LC/CZ 19-290 provides smooth, 15X continuous zoom covering a 1.9° to 27° FOV range. It is fully athermalized over a wide operating temperature range and is auto focus capable.

Where SWaP are design constraints, and cost and performance is desired, Neutrino® is the ideal solution. The Neutrino offers FLIR'scommon image processing architecture and the resulting image from the 640×512 InSb array is superb! Weighing in at less than 16 oz (<450 gm) and consuming less than 5 watts at steady-state, it is FLIR's balanced MWIR core optimizing performance, cost, and ease of integration.

Tau® 2 thermal imaging cameras offer an unmatched set of features, making them well-suited for demanding applications like Unmanned Airborne Vehicles (UAVs), thermal sights, and handheld imagers. Improved electronics provide powerful image processing modes that dramatically improve detail and contrast. Its options include full radiometry, increased sensitivity (<30mK), and 640/60Hz frame rates. Since the Tau 2 640 and 336 configurations share electrical functions, common integrations can be designed that work seamlessly with both formats.

The Boson® longwave infrared (LWIR) thermal camera module sets a new standard for size, weight, power, and performance (SWaP). It utilizes FLIR infrared video processing architecture to enable advanced image processing and several industry-standard communication interfaces while keeping power consumption low. The 12 µm pitch Vanadium Oxide (VOx) uncooled detector comes in two resolutions – 640 x 512 or 320 x 256. It is available with multiple lens configurations, adding flexibility to integration programs.