FLIR takes pride in its world-leading Research and development camera range, which seamlessly integrates high-performance thermal imaging and precise temperature measurement. Their cutting-edge technology is complemented by powerful tools and software designed for in-depth analysis and comprehensive reporting.
Experience innovation at its finest with FLIR, where advanced imaging meets intuitive solutions.
FLIR redefines precision with their exceptional range of thermal imaging cameras. Capable of discerning temperature changes as subtle as 0.02°C, their cameras provide precise measurements spanning from -80°C to +3000°C, thanks to their state-of-the-art detector technology.
What sets FLIR apart is their ability to convert imperceptible thermal radiation into vivid visual images, allowing engineers and researchers to explore thermal variations across objects and scenes.
FLIR thermal imaging cameras unveil a hidden world of heat patterns, dissipation, leakage, and other critical temperature factors in real-time. Beyond what the human eye can perceive, these cameras capture thermal energy emitted by all objects above absolute zero, revealing vital insights previously unseen.
FLIR's R&D camera range is the top choice for professionals in the field, offering not only exceptional imaging performance but also powerful analytical tools and software. This winning combination empowers researchers to accurately measure and analyse thermal distribution and variations.
Whether it's research, thermal testing, or product validation, our cameras provide unparalleled precision and insights, making them indispensable for a diverse array of applications. Trust FLIR to illuminate the invisible, helping you unravel the mysteries of temperature dynamics in your experiments and innovations.
In the realm of Research & Development, thermal imaging stands as an indispensable analysis method, its applications stretching into limitless possibilities. This revolutionary technology has firmly established itself within the R&D community, illuminating pathways to discoveries previously hidden in the shadows.
In the intricate world of printed circuit boards, deciphering the complexities of heat dissipation is a formidable challenge. However, thermal imaging unveils the hidden thermal landscape of circuit boards, allowing engineers to navigate the nuances of heat distribution with unparalleled precision.
In the realm of high-speed and stop motion imaging, FLIR stands at the forefront of innovation. Through pioneering applications of high-speed thermography, FLIR delves into the intricate worlds of jet engine turbine blades, supersonic projectiles, and explosive phenomena.
In the realm of thermal signatures, a critical tool in the design of vehicles, sensors, and camouflage systems, lies the power to measure infrared brightness. Thermal signatures redefine how we perceive and understand the world, guiding the creation of cutting-edge solutions with unmatched precision.
In the realm of tracking, the integration of thermal imaging camera systems with video tracking technology emerges as a game-changing solution.
By seamlessly working alongside video tracking systems, thermal imaging ensures consistent visibility and precise tracking of specific objects, even in challenging low-light conditions.
In the realm of directed energy, where cutting-edge technologies shape the future of warfare, Directed Energy Weapons (DEW) such as lasers, high-power radio frequency, and particle beam technologies reign supreme. In the pursuit of precision and innovation, thermal imaging illuminates the path forward, ensuring the effectiveness and accuracy of directed energy weaponry.
By integrating a thermal imaging camera with a microscope, a remarkable tool emerges: the thermal imaging microscope.
With every microscopic detail, this fusion of technology opens new doors to understanding, paving the way for groundbreaking discoveries in the realm of the minuscule.
In the realm of medical thermography, FLIR cameras stand as pioneers, revolutionising diagnostics and treatment in the field of medicine.
FLIR cameras illuminate a new path in medical diagnostics, providing invaluable insights that enable precise and effective treatments.
In the realm of laser designation, thermal imaging cameras step in, their advanced technology capable of detecting these otherwise unseen laser beams. With this remarkable ability, they become indispensable tools for identifying locations and targets that elude ordinary sight. In the convergence of precision and innovation, thermal imaging cameras redefine what's possible.
Infrared Non-Destructive Testing (IR NDT) emerges as a powerful technique by meticulously studying thermal differences on a target surface, IR NDT has the remarkable ability to identify internal issues that might otherwise remain invisible. This invaluable tool becomes a guiding light in the detection of voids, delaminations, and trapped water within composite materials.
In the realm of technical surveillance and countermeasures, thermal imaging capabilities extend beyond ordinary sight, delving into the realm of heat signatures left by covert surveillance devices. Minute energy emissions in the form of infrared energy, imperceptible to the human eye, are unveiled by thermal imaging, exposing hidden devices and ensuring the security of spaces.
Short Wave Infrared (SWIR) technology finds invaluable application in the non-destructive quantitative analysis of diverse fields such as crops, pharmaceuticals, and agricultural products.
Moreover, SWIR extends its gaze to the art world, serving as a meticulous detective in the examination of art forgeries.