![]() ![]() ![]() The PathfindIR is a Long Wave Infrared imager intended to be attached to vehicles for night use. LWIR cameras on drones can be applied in a variety of ways For more information on LWIR cameras and there applcations please check out our GETTING STARTED WITH THERMAL IMAGING post. LWIR imagers detect radiated temperatures that indicate important information to the operator. Long Wavelength Infrared is the most commonly used form of Infrared technology. LWIR is typically defined as the 8.0 – 14.0 μm wavelength range. ![]() The LWIR camera can detect distinct temperature differences important in the home inspection field for visualizing poor insulation, water damage, and damaged electronics. Long WaveLength Infrared cameras are the primary devices used in temperature inspection practices. Lightweight drone mountable camera, visualizes gasses for monitoring installations in remote or hazardous areas. The GFX320 visualizes hydrocarbon leaks and is certified for use in hazardous locations. Safety Inspections of machinery and infrastructure that contain pollutant and toxic gasses are simplified and put safety first when using MWIR cameras on drones. Allowing the camera to be used as a perfect tool for airport perimeter security, as well as lab research for engineers and scientists. These cameras are also used when detail is more important than exact temperature. MWIR cameras are important when detecting gas leaks that are invisible to the human eye. Note: It is important to know which OGI camera is right for you, as OGI cameras operate on a very limited wavelength where the gas you may need for your detection services are not visible. Optical Gas ImagingįLIR’s OGI technology uses MWIR cameras to detect certain gasses like Methane, Propane, Ethanol, Sulfur Hexafluoride, and more. Knowing the difference between Middle Wavelength Infrared and Long Wavelength Infrared is extremely important as MWIR and LWIR devices are capturing separate waves that are useful for many different reasons. MWIR is typically defined as the 3.0 – 5.0 μm wavelength range. Middle Wave cameras are used as detection systems for gas leaks, some of which are completely invisible to the human eye! Used for: hyperspectral instrumentation, silicon inspection, electro-optical payloads, art restoration, and portable imaging With synchronization controls allowing for high-speed pictures to be taken with integration timings. Research and development camera operating on the 0.9 to 1.7 µm waveband. Short Wavelength cameras are used in daytime starlight imagery because of SWIR’s ability to capture reflected light with peak solar illumination. SWIR cameras are the only wavelength technology that can penetrate cloud coverage and capture a clear image. These imagers have the ability to capture clear detail through smog, clouds, and haze. SWIR cameras generally have limited benefits compared to their counterparts (MWIR/LWIR). Short Wavelength Infrared, or SWIR, is typically defined as the 0.9 – 1.7 μm wavelength range. The three wavelengths are: Short Wavelength Infrared (SWIR), Medium Wavelength Infrared (MWIR), and Long Wavelength Infrared (LWIR).Īll Thermal imaging devices operating on the infrared wavelength are, ‘ imagers‘ that we commonly refer to as ‘ cameras’, however they are actually sensors that can detect radiated heat. In infrared thermography, there are three wavelengths that can be broken down even further to specific wavelength ranges. Each wavelength in the infrared spectrum emits a certain amount of radiation that can be transmitted and captured through a thermal imager operating in that wave band. Everything within the infrared wavelength radiates energy that can be visually captured through a thermal imaging device. Infrared Thermography operates through the infrared region beyond the visible light spectrum. ![]()
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