About us

Since our inception in 1992, KUPO Optics has been at the forefront of the optical coatings and filters industry. With a steadfast commitment to quality, we've carved out a distinguished reputation, providing top-tier optical solutions. Our focus on maintaining high standards has positioned us as a leader in the professional optical filter market, catering to a diverse range of industries with unmatched expertise and precision.

State-of-the-art Facilities

Our dedication to excellence is reflected in our investment in cutting-edge production technology. Our arsenal includes advanced planetary coating machines, precise linear and laser cutting tools, and high-resolution spectrometers. This sophisticated equipment enables us to craft filters and coatings with exceptional accuracy and consistency, ensuring each product meets our stringent quality benchmarks.


Wide Range Applications

KUPO Optics' products find their application across a vast array of fields. We cater to sectors as diverse as medical and fluorescence imaging, machine vision, astronomy, defense systems, and entertainment. Our optical filters and coatings are integral in enhancing the performance and functionality of various devices and systems in these industries.


Flexibility and Customization

We understand the urgency and unique requirements of our clients. Our extensive inventory is poised to fulfill rush orders, demonstrating our commitment to responsive service. Furthermore, our seasoned R&D team is adept at developing bespoke filters tailored to meet the most exacting specifications, providing solutions that align perfectly with client needs.


KUPO Dichroic Filter

At KUPO Optics, the precision and consistency of our optical filters are a testament to our advanced coating chambers equipped with planetary revolution and Ion Assistant Deposition (IAD) technology. Adhering to MIL-M-13508C standards, our rigorous manufacturing process ensures each filter withstands environmental challenges, including abrasion, humidity, and flaking. Our commitment to quality is further solidified by our adherence to ISO 9001 standards, guaranteeing uniformity in all our products.
Our relentless pursuit of innovation is grounded in continuous research and development. We are dedicated to exploring new possibilities in optical solutions, striving to exceed expectations in both product quality and customer service. At KUPO Optics, your satisfaction is our priority. We welcome your inquiries and are committed to providing prompt and comprehensive responses to all your needs.


VR and AR Technologies

Enhancing Realities: Optical Filters in VR and AR Technologies
In the rapidly evolving world of immersive experiences, Virtual Reality (VR) and Augmented Reality (AR) systems stand at the forefront of innovation, reshaping entertainment, education, and various industry sectors. VR immerses users in a wholly artificial environment, while AR overlays digital content onto the real world. Despite their differences, both technologies share a reliance on advanced optics to achieve their compelling illusions. Optical filters play a crucial role in fine-tuning the light that reaches the user's eyes, enhancing image quality, and improving the overall user experience.
Optical filters in VR and AR systems can significantly impact the performance of these devices; they manage light transmission, color balance, glare reduction, and provide eye protection. By controlling the spectral profile of the light, filters help these systems deliver clear, vibrant, and seamlessly integrated visual content.
Optical Filter Applications in Virtual Reality and Augmented Reality Systems
Dichroic Filters
Dichroic filters are thin, multi-layer coatings that selectively transmit light of a narrow range of wavelengths while reflecting others. In VR headsets, dichroic filters can be used to increase color fidelity by reflecting unwanted wavelengths or directing different color channels onto the appropriate sensors or display elements. In AR systems, these filters can refine the projection of digital images onto transparent displays, ensuring that the virtual overlays have vivid colors that can stand out against the backdrop of the real world.
IR (Infrared) Filters
IR filters, which block visible light while transmitting infrared light, are integral to VR and AR systems for tracking and user interaction. Infrared-based tracking systems use IR filters in conjunction with IR emitters and cameras to accurately follow user movements and translate them into the virtual or augmented space. By blocking out ambient visible light, IR filters ensure that the tracking system is not affected by changes in environmental lighting conditions and operates with high precision.
UV (Ultraviolet) Filters
Ultraviolet filters eliminate UV radiation from reaching the user's eyes, serving as a protective measure against potentially harmful exposure. Although not directly related to the function of displaying digital content, UV filters incorporated into the lenses of VR and AR headsets protect the user during extended use, as well as preserve the integrity of the headset's components by preventing UV-induced material degradation.
Bandpass Filters
Bandpass filters allow a specific wavelength range through while blocking others. This selectivity can be exploited in AR systems, for example, to ensure the optimal operation of the photodetectors used in machine vision and environmental scanning. They allow these systems to ignore ambient light that falls outside of controlled spectral bands, such as the light used for structured light 3D scanning or for time-of-flight measurements, thereby improving the accuracy and effectiveness of the AR device.
Longpass and Shortpass Filters
Longpass filters transmit long wavelengths and block short wavelengths, whereas shortpass filters do the opposite. These filters can be particularly beneficial in VR and AR eye-tracking functionalities. By integrating these filters onto the sensors aimed at the user's eyes, systems can be fine-tuned to detect specific light reflections off the cornea or the eye's retina, thereby enhancing eye-tracking accuracy which is crucial for foveated rendering—a technique that reduces the workload on graphics processing by sharpening the area the user is looking at while blurring the periphery.
Polarizing Filters
Polarizing filters are used in AR systems to minimize reflections and glare that can be distracting or obstructive to the user. For instance, an AR headset might employ a polarizing filter to reduce the reflections from the internal display on the transparent lenses or to diminish the sun's glare on outdoor displays, ensuring that the digital overlays maintain contrast and readability in a wide range of lighting conditions.
In conclusion, optical filters represent a pivotal technology in optimizing the visual performance and user experience of VR and AR systems. Whether improving color rendering, enabling precise tracking, protecting user comfort, or ensuring clear visibility of digital content, filters are an unsung hero in the engineering of these immersive platforms. As we continue to push the bounds of reality, creating virtual worlds or blending them with our own, the meticulous application of optical filtering asserts itself as a core enabler of this futuristic vision.