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Multi-party research technology

Infrared thermal imaging has been applied and popularized in many professional fields such as high-end academic forums. At the same time, the infrared camera can clearly show the heat and temperature phenomenon is more convincing and teaching effectiveness. It has also become a practical aid to university classroom teaching.

Medical field

Infrared thermal imaging technology is outstanding in the medical field, using the infrared radiation energy of the human body itself, and through the photoelectric signal conversion, the infrared radiation information of the human body surface is finally presented in the form of a pseudo-infrared thermal image. This can help the experts to conduct a more comprehensive diagnosis, and some areas of the disease caused by inflammation, combined with high-precision detectors, can find more subtle symptoms.

Design board

Scientists designing and manufacturing circuit boards face the task of managing heat dissipation How to balance the performance or cost of the problem. Accurate understanding of thermal issues Straight is a very difficult thing. However, with thermal imaging, Engineers can easily observe the equipment they manufacture Thermal mode and quantitative analysis to design better products

R&D scene

Thermal imaging cameras can indicate material properties under the most demanding conditions and Perform non-contact temperature measurement. a series of infrared sensors Type and optical properties make infrared thermal imaging a number of research environments An indispensable part.

Medical thermal imaging
Combine the infrared camera with the microscope to form infrared heat Imaging microscope for target objects up to 3 microns Accurate temperature measurement. Electronics manufacturers use infrared heat Determining the thermal properties of components and semiconductor substrates like a microscope, No physical contact is required.
Infrared thermal imaging microscope
Medical thermal imaging is a high-performance thermal imager for surface temperature Non-contact quasi-determination for visualization and quantitative analysis of changes Diagnostic technology. Medical applications include vascular assessment, tumor tissue Identification, muscle strain assessment and bleeding point detection.
High speed/stop motion
High-speed thermal imaging reduces exposure time to microseconds Static visual motion of dynamic scenes, capturing frame rates up to per second 62,000 frames. Such applications include jet engine turbine blades, Thermal analysis and dynamic analysis of supersonic flying projectiles and explosions
Infrared Nondestructive Testing (IR NDT)
Infrared non-destructive testing (IR NDT) can be performed on the target surface The target excites and observes the temperature difference to detect the internal defects of the target. red External non-destructive testing (IR NDT) is the detection of voids in composite materials, An important tool for stratification and inclusion. Another application for it It is to detect the shunt and charge density of solar cells.
Directed energy

Directional Energy Weapon (DEW) can be set without the need for a projectile Radiation energy. Directional energy weapons include laser, high power wireless Electrical frequency, and particle beam technology. Thermal imaging cameras are mainly used for testing DEW instrumentation and analysis target impact. Helicopter thermal characteristics Muzzle flash Ophthalmology pathology jet Laser beam profile

Thermal feature
Infrared thermal characteristics can be used in different out-of-zone distances and atmospheric conditions Next, measure the apparent infrared brightness as a function of the target wavelength, and The sensor reveals the appearance of the target. Infrared heat characteristics are vehicles, transmission An important tool in the design of sensors and camouflage systems.

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