Infrared technology used across industries to monitor and improve processes
Monitor, control and optimize industrial processes using high-speed infrared technology.
Our customers
Who uses our technology
From machine manufacturers to research centers and industrial teams, our infrared solutions are used worldwide to monitor, control and improve processes.
Machine Manufacturers & Integrators
Improve machine performance and integrate real-time thermal monitoring into production systems.
Add thermal data to machines
Improve process control
Integrate into industrial environments
Research Centers & Universities
Develop and validate new applications using advanced infrared technology.
R&D and innovation projects
Experimental validation
New industrial use cases
Final Users & Service Providers
Optimize existing processes and improve quality, efficiency and reliability.
Continuous process improvement
Quality monitoring
Reduction of variability and defects
Additive Manufacturing (3D Printing)
Process monitoring to identify in real time the formation of defects in powder metal additive manufacturing applications. The goal is to determine the presence of porosity, contaminant inclusions, swelling, warping and other defects.
Powder-fed DED
Metal powder is blown through nozzles into a focused energy source (usually a laser or electron beam) that melts the powder as it is deposited onto a surface.
Laser Metal Deposition (LMD)
The laser creates a melt pool on a metal surface while metal powder is simultaneously fed into it. The material melts and solidifies layer-by-layer to build, coat, or repair metal components.
Cladding
A layer of material is deposited onto the surface of another material to improve properties such as wear, corrosion, or heat resistance.
Laser Powder Bed Fusion (LPBF)
The laser selectively melts thin layers of metal powder spread across a build platform.
Wire-fed DED
A metal wire is continuously fed into a melt pool created by a focused energy source such as a laser, electron beam, or electric arc.
Wire Arc (WAAM)
Metal wire is melted by an electric arc and deposited layer-by-layer to build metal parts.
Electron Beam (EBAM)
A high-energy electron beam melts metal material during deposition.
Laser Wire (LWAM)
A laser creates a melt pool while a metal wire is fed into it as the feedstock.
Brake Disc Coating: High Speed Laser Metal Deposition (HS-LMD)
A metal wire is continuously fed into a melt pool created by a focused energy source such as a laser, electron beam, or electric arc.
Spectroscopy: Flame/Flair & Gas Detection and Monitoring
MWIR detectors are key elements of IR spectrometers. Volcanic sulfur dioxide concentration measurements, pollutants in the air, greenhouse gases concentrations etc, demand more advanced MWIR detectors.
Laser Welding
Metal joining process that uses a focused laser beam to melt and fuse materials at the joint. It provides precise, high-speed, and low-distortion welding for thin or complex components.
Machine Vision
Capture thermal and material contrast that is invisible to standard cameras. It enables inspection, quality control, and object detection in challenging environments like low light, smoke, or high temperatures.
Security: Surveillance & Thermal Imaging
Thermal camera makes easy to safely guard structures, people, and property. IR technology allows to have an affordable solution with high returns.
Drone Applications
Drones with uncooled MWIR cameras eliminate the need for cryogenic cooling, greatly reducing size, weight, and power requirements. This makes them suitable for small UAVs with high-performance thermal imaging like wildfire detection, industrial high-temperature inspections, and infrastructure monitoring. They also support surveillance, maritime search and rescue, and gas leak detection through heat and spectral signatures.
Glass Inspection
Real-time monitoring by capturing thermal dynamics and heat distribution across the production line. It helps to detect temperature inconsistencies, defects, and process instabilities during forming, heating, or cooling stages, improving quality control and process optimization.
Metallurgy Quality Assurance
Quality assurance by monitoring thermal behavior during heat treatment, welding, casting, or laser processing operations. It enables detection of process deviations, thermal inconsistencies, and material defects in real time, helping improve product quality, repeatability and process control.
Fire Detection and Monitoring: Wildfires
MWIR technology can see through smoke, dust, and particles, providing clear fire imaging even in harsh environments. Its high sensitivity to the flame signature enables very early fire detection with fewer false alarms from reflections or hot surfaces. In addition, uncooled MWIR systems offer lower maintenance and operating costs compared to traditional cooled MWIR cameras.
Agriculture & Farm Management
Thermal cameras are excellent tools for precision agriculture and advanced farming. Water stress, irrigation plans, disease and pathogen detection in plants and animals, maturing level of fruits, bruise detection in fruits and vegetables etc.
Defence Applications
MWIR infrared technology supports advanced surveillance, target detection and tracking in military and security applications. Its compact, uncooled design enables deployment in soldier systems, drones, vehicles and airborne platforms while delivering reliable thermal detection in real-time operational environments.
Tell us about your application
Our team will help you evaluate how our infrared technology fits your process or industry.
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