It is possible to measure at a maximum speed of 200Hz (200 times per second) without cooling.
To perform high-speed imaging with conventional thermography, a cooled thermography using quantum-type sensors is required, which costs over 10 million yen. However, with uncooled systems, high-speed imaging is difficult due to their operating principles, with a limit of 50 to 60 Hz. Nevertheless, thanks to a technology called Windowing, high-speed imaging of up to MAX 200 Hz (640x120 pixels) or MAX 100 Hz (640x240 pixels) has become possible (the actual rate depends on the PC). The Thermal View XA6150, which has a high resolution of 640x480 pixels in full frame and a high sensitivity with NETD of 0.05°C, offers 18 different applications to select necessary functions, making it a thermography system that can be considered the highest standard among uncooled systems.
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basic information
The highest standard ultra-fast thermography as a non-cooled option. Pixel count of 640x480 pixels, NETD of 0.05°C, capable of measuring up to 2000°C. Equipped with windowing function and autofocus. PC control and GigE communication. Maximum frame rate of 200Hz (640x120 pixels) Maximum frame rate of 100Hz (640x240 pixels) A wide selection of lens options and microscope options available. Output options include bitmap, CSV, still images, video, differential, summation average, and GUI selection, with 18 different applications to choose from. Customization of functions is also available.
Price range
P5
Delivery Time
Applications/Examples of results
Process management and automation of high-speed moving work Temperature measurement of rotating bodies such as tires Analysis of heat conduction and heat transfer mechanisms Life sciences High-speed temperature change measurement of electronic substrates, etc.
Line up(1)
| Model number | overview |
|---|---|
| XA6150 |
Company information
Temperature measurement is essential in all manufacturing and research, but it does not always involve content that can be measured accurately. We manufacture, develop, and sell systems, applications, and statistical analysis tools that measure extremely small areas and slight temperature changes that cannot be measured with thermocouples. We have numerous achievements with national and public research institutes, universities, private companies related to semiconductors and medicine, and hospitals.
