Compact Uncooled LWIR Thermal Image Camera for Drone
STiTL612 – STiTL Series 640x512 VOx Uncooled Thermal Modules
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The STiTL612 uncooled thermal module is small in size and light in weight, which provides a reliable solution for infrared system integration with limited space. Its compact structure has reached the ultimate level of the same specification module. It is specially developed for the field of electric power inspection, photovoltaic inspection, environmental protection detection, scientific research, aerial photography, police investigation, disaster relief & rescue, forest fire prevention, urban safety, etc.
STWIN Series Uncooled Thermal Modules
STWIN series uncooled thermal modules integrate the self-developed ceramic package infrared detector, high-performance signal processing circuit and enhanced image algorithm to output clear, sharp images and accurate temperature data. Its compact design and lightweight structure could satisfy customers’ strict integration requirements on size, weight and power consumption.
STWIN612 integrates a 640x512/12um ceramic package uncooled infrared detector. With typical NETD < 40mk, the STWIN612 thermal module could present a clearer, sharper and more detailed image.
IRLENS supply professional and honest service.
STWIN412 uses 384x288/12um ceramic package infrared detector. The thermal module supports 11 pseudo-color in total (White Hot/Lava/Ironbow/Aqua/Hot Iron/Medical/Arctic/Rainbow1/Rainbow2/Red Hot/Black Hot). Different industries have different color palette choices.
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LWIR Thermal Imaging Camera | SIMTRUM Photonics Store
Items
Detail
Unit
Remark
What is your application scenario?
Power inspection, monitoring the operating status of high-temperature equipment, fire early warning, etc
What is the required spectral response range?
SW/MW/LWIR
What is the temperature range you need to measure?
℃
eg: -20~500℃
What is the required resolution?
384*288/640*480/640*512/*, etc. For specific resolutions, please refer to the detail page
What is the required thermal sensitivity (NETD) ?
mK
NETD represents the instrument's ability to detect minute temperature differences. A NETD<50mK indicates that a temperature difference of 0.05℃ can be identified, and it is suitable for the detection of precision electronic instruments
What are the requirements for the focusing function?
Manual or automatic, manual focusing is suitable for fixed distance measurement in simple scenes. Autofocus is suitable for rapid scanning in complex scenes
What is the motion state of the measured object?
Whether stationary or moving, the moving target requires a high frame rate to avoid image trailing
Lens options?
Telephoto, macro and other lenses are available for selection
Selection suggestions
If high-temperature targets need to be measured or high precision is required, it is recommended to give priority to shortwave measurement. For medium- temperature targets or those with anti-interference requirements, medium-wave should be selected.If it is a normal-temperature target and all-weather detection is required, long-wave detection should be given priority.
What's the difference between an infrared pyrometer and an infrared thermal imager?
Infrared pyrometers can only measure the temperature at a single point. By detecting the infrared radiation energy at a certain point on the surface of an object, it is converted into a temperature value through an algorithm, and the measurement result is directly presented in digital form.
Infrared thermal imagers can measure surface temperature and generate a thermal map of the temperature distribution on the surface of the object being measured. They scan the infrared radiation energy at each point on the object to form a two-dimensional thermal image, with each pixel corresponding to a temperature value. The measurement results are presented.as pseudo-color or grayscale images and superimposed with temperature data.
What's the difference between an infrared thermal imager and an infrared camera?
Infrared thermal imagers receive the infrared radiation emitted by objects through infrared detectors and generate thermal images of the temperature distribution on the surface of the reflected objects, which can be displayed intuitively.The temperature distribution on the surface of an object cannot present the detailed features of the object; only the thermal profile of the object can be seen.
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