Tag - Thermal imaging module

Porcelain-fused-to-metal casing for thermal imaging detectors

Porcelain-fused-to-metal casing for thermal imaging detectors

ASTROHN Technology Ltd together with Start SPE, JSC, developed a modification of the porcelain-fused-to-metal casing for promising in-house infrared uncooled thermal imaging detectors. The pilot batch was released on 01.07.2019. The porcelain-fused-to-metal casing has planar terminals, which will enhance the mechanical strength of the thermal imaging detector in the product with increased vibrations and accelerations. Thermal imaging modules with detectors in a modified casing can be used both in ground-based and in rocket and space-rocket systems. The case has an integrated [...]

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Meeting of the management and technical specialists of ASTROHN Technology Ltd with representatives of the Directorate of Moscow Metro State Unitary Enterprise

At the end of this February, the management and technical specialists of the enterprise met with representatives of the Directorate for Information Technology and Communication Systems of the Moscow Metro Unitary Enterprise on the territory of ASTROHN Technology Ltd. The agenda of the meeting included current issues of transport security and the possibility of using ready-made technical solutions of ASTROHN Technology Ltd at the facilities of the State Unitary Enterprise of Moscow Metro. Today, ASTROHN takes one of the leading positions [...]

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ASTROHN Technology Ltd develops the first Russian dual-spectral microbolometric receiver

ASTROHN Technology Ltd develops the first Russian dual-spectral microbolometric receiver

In 2016, ASTROHN Technology Ltd launched the production of domestic uncooled vanadium oxide microbolometric detectors with the spectral range from 7 to 14 μm. This range is typical for objects having temperatures close to the temperature of the human body. There are tasks that require the use of a thermal imaging spectrum of 3-5 μm — registering a flare of a rocket, detecting flying objects from a red-hot exhaust gas, etc. This range is characteristic of cooled thermal imagers. The [...]

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Thermal imaging module ASTROHN-2A75M has successfully passed state tests

ASTROHN-2A75M thermal imaging module has successfully passed interdepartmental tests and received the letter “O1” as part of a landing radar

ASTROHN-2A75M thermal imaging module, which is an all-weather thermal imaging camera with an integrated video analytics system, has passed the next stage of state tests as part of a landing radar developed by LEMZ SPE, JSC. The joint work of ASTROHN and LEMZ SPE, JSC resulted in successful interdepartmental tests and assignment of the letter “O1” to the PRL-27SM landing radar software and hardware complex with the ASTROHN-2A75M thermal imaging module. The next stage of the tests are the military tests [...]

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Army 2017 Forum

Exhibition of Military Achievements – Army 2017 Forum

Army 2017 was held at “Patriot” in August 22-27. This year, the Russian Ministry of Defense held a similar large-scale event for the third time. Traditionally, the military department brings here all the best it has. However, not only it – almost all the leaders of the Russian military-industrial complex try here at the main army forum of the country to show their best products, arrange memorable exhibitions, hold demonstrations and conduct master classes. This year, the forum guests were [...]

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АСТРОН-384А17/МП/30. Погода: переменная облачность, 17-20 градусов Цельсия
Инженеры ОКБ «АСТРОН» завершили работы по созданию тепловизионных модулей АСТРОН-384А17 / 640А17

ASTROHN Technology Ltd engineers completed the creation of ASTROHN-384A17 / 640A17 thermal imaging modules

ASTROHN Technology Ltd engineers completed the creation of thermal imaging modules based on new 384×288 and 640×480 microbolometric detectors with a vanadium oxide sensitive element. The vanadium oxide sensor has several advantages. The first and most important is the higher temperature sensitivity of the matrix and image stability. The vanadium oxide detector is more resistant to flash exposure to a high-intensity source (for example, the sun), and has an increased operating temperature range. Together, these parameters make this module suitable [...]

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Video of the IRidium II-384/15-60/T 15-60 mm continuous optical zoom lens thermal imaging module tests

Experts of ASTROHN Technology Ltd tested the IRidium II-384 thermal imaging module with the ASTROHN 15-60/T IR zoom lens. The lens controller maintains the position of the zoom and focus of the lens in non-volatile memory, so you can set any level of magnification and focus in a matter of moments, which eliminates the need for manual focus adjustment. The saved focus and zoom shortcut allows: significantly speeding up the lens; increasing the information content of the optical system; ensuring the convenience of the [...]

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Iridium II-640/15-60/Т

ASTROHN Technology Ltd presenting a Russian IRidium II-640/15-60/T continuous 4x infrared lens thermal imager

The specialists of ASTROHN Technology Ltd have developed IRidium II-640/15-60/T thermal imaging module with a continuously variable focal length from 15 to 60 millimeters and proceeded to test it. Despite its integrated design, such a lens is more convenient to use than a fixed focus lens. The zoom lens allows the operator to change the focal length, which provides a range of viewing angles from narrow to wide, moving away and bringing closer the objects of observation. The lens has two [...]

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ASTROHN developed a color palette for the Iridium II

ASTROHN Technology Ltd specialists developed a color palette for the Iridium II thermal imaging module

It has long been an accepted fact that the thermal image is monochrome, displayed in grayscale, and that only hot spots glow bright white. For a more visual and natural perception of the image from the thermal imager, the ASTROHN Technology Ltd engineers have developed software for coloring the resulting image in a variety of palettes or pseudo colors. Pseudo color imaging is another method of increasing the detectability of depicted objects by a human observer. The “Pseudocolor” option, implemented [...]

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