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Public:ARHUDFM Features Summary: Difference between revisions

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*DLP technology display smoother (1080p FHD, 2K, 4K) images without jitter, perfect geometry and superior grayscale linearity, higher contrast, wider color gamut
*DLP technology display smoother (1080p FHD, 2K, 4K) images without jitter, perfect geometry and superior grayscale linearity, higher contrast, wider color gamut
*dynamically changing transparency of the screen areas
*dynamically changing transparency of the screen areas
[[File:Dielectric mirror diagram.svg|alt=Dielectric mirror|thumb|Dielectric mirror]]
[[File:Optical coatings.jpg|thumb|Optical scheme using dielectric mirror, refraction and reflection coatings and films]]
With our ARHUDFM product, we have found an elegant solution to the problem of dimming to display (parts of the screen) contrasting images during the day and in artificial light, so that the user can constantly view their surroundings without degradation, even in bright sunlight. For example, thermal images or video from a digital spotting device, drone, robot, other users' cameras, or cameras mounted on armored vehicles.
With our ARHUDFM product, we have found an elegant solution to the problem of dimming to display (parts of the screen) contrasting images during the day and in artificial light, so that the user can constantly view their surroundings without degradation, even in bright sunlight. For example, thermal images or video from a digital spotting device, drone, robot, other users' cameras, or cameras mounted on armored vehicles.


#Inner lens, outer surface. The outer surface of the inner lens has a high-reflection (HR) layer for better reflection of the projector rays (to reflect the azure wave of 490-520nm<ref>Wikipedia, [[wikipedia:Natural_Color_System|"Natural Color System"]]</ref> (#0087BD), the yellow wave 575–585nm (#FFD300), and the red wave 680-700nm (#C40233)) - dielectric (Bragg mirror) design;
#Inner lens, outer surface. The outer surface of the inner lens has a high-reflection (HR) layer for better reflection of the projector rays (to reflect the azure wave of 490-520nm<ref>Wikipedia, [[wikipedia:Natural_Color_System|"Natural Color System"]]</ref> (#0087BD), the yellow wave 575–585nm (#FFD300), and the red wave 680-700nm (#C40233)) - dielectric (Bragg mirror) design;
#Outer lens, inner surface. On the inner surface of the outer lens apply dielectrically separated 7 sections of the screen (Carbon Nanotube Composite Films with Switchable Transparency), which, when an electrical potential arises, will cause a complete blackout for better reproduction of the full-color image;
#Inner lens, inner surface. On the inner surface of the outer lens apply dielectrically separated 58 sections of the screen - [[Fading Pads Control|Fading Pads]] (Carbon Nanotube Composite Films with Switchable Transparency), which, when an electrical potential arises, will cause a complete blackout for better reproduction of the full-color image;
#Outer lens, outer surface, bottom layer. Apply a film layer to the outer surface of the outer lens with the ability to switch the transparency from 100% to 40% and UV protection.
#Outer lens, inner surface, top layer. Apply a film layer to the inner surface of the outer lens with the ability 99.9% UV protection.
#Outer lens, outer surface, middle layer. Apply anti-reflective (AR) coating to the outer surface of the outer lens to significantly improve image contrast and to reduce light glare (demasking effect).
#Outer lens, inner surface, bottom layer. IR filter with 99.99% protects from IR laser detector emission using 700-900 nm waves against optical sights, binoculars, night visio googles, rangefinder, camera lenses, Electro-Optical and Infrared  sensors<ref>Military Aerospace, [https://www.militaryaerospace.com/communications/article/16710290/optical-warfare-technology-emerges-to-see-the-enemy-and-to-blind-him Optical warfare: technology emerges to see the enemy, and to blind him]</ref><ref>DARPA, [https://www.darpa.mil/attachments/TTO_HR001120S0019_05_Williams.pdf Wearable Laser Detection and Alert System]</ref><ref>Laser Focus World, [https://www.laserfocusworld.com/detectors-imaging/article/14299870/military-researchers-ask-industry-to-develop-electrooptical-imaging-sensors-for-swapconstrained-uses Military researchers ask industry to develop electro-optical imaging sensors for SWaP-constrained uses] (Oct 5, 2023)</ref><ref>Transvaro, [https://transvaro.com/en/sniper-detection-systems/ Sniper Detection Systems]</ref><ref>ScienceDirect, [https://www.sciencedirect.com/science/article/pii/S2214914720304359 Electronic warfare in the optical band: Main features, examples and selected measurement data]</ref>.
#Outer lens, outer surface, bottom layer. Apply anti-reflective (AR) coating to the outer surface of the outer lens to significantly improve image contrast and to reduce light glare (demasking effect).
#Outer lens, outer surface, top layer. Anti-scratch (AS) coating (Diamond-like carbon - DLC).
#Outer lens, outer surface, top layer. Anti-scratch (AS) coating (Diamond-like carbon - DLC).
Optical multilayer nanocoatings are produced using a magnetron sputtering machine (PVD).
Optical multilayer nanocoatings are produced using a magnetron sputtering machine (PVD).
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