Pilla and Zeiss use specific lens design profiles for targeted visual outcomes. Lighting conditions, target color, and backgrounds dictate a requirement for specificity in lens performance. Pilla is a high performance eyewear company driven to provide solutions for any and all visual challenges our athletes face. If you are looking for a lens to work in all conditions you are clearly making a sacrifice in visual aptitude. Our athletes and customers come to Pilla looking for specific lens function to yield maximum performance in any lighting, target color lift, and background they are faced with in competition or the field. At Pilla, we have over 40 different filtration options developed in partnership with ZEISS that can address conditions from direct sun to diminishing light and everything in between. Each family of lenses we create has a targeted color enhancing profile with exclusive ZEISS technology only found in Pilla products.
Enhanced Definition lenses are a special filtration science where our engineers have enhanced the complete color spectrum to create a "balanced" color profile. The goal of the lens technology is to provide the athlete with crystal clear definition. The use of a universal color lift gives the eye a balance of color saturation to produce high resolution imaging. This combination of color resolution and color saturation gives the athlete an enhanced definition of the sight picture. "Everything you see is more vivid." For the athlete looking for an intense color profile with a natural reproduction of the visual environment this is a perfect series of lenses.
High Contrast Lenses utilize an accelerated filtration curve that produces a high level of saturation to provide definition to the edges of the intended target. We enhance the highs and the lows of color resolution. The ability of the lens to specify pieces of the visual light spectrum provides the High Contrast series of lenses a unique visual representation of color where darks are more amplified while enhancing the light elements of the sight picture at the same time. This dual nature of darker being darker and lighter being brighter gives the image a high contrast registration. This lens family provides exceptional depth of field for target shooting.
Max Orange is a lens family that is engineered to provide the athlete with up to 600% more boost in the Orange part of the visual spectrum. This is key for clay target shooters looking for maximum registration of target Orange. This lens family concentrates on a specific piece of the visual spectrum and accelerates the eyes registration of Orange. This gives an athlete the ability to acquire the target quickly and accurately while maintaining depth of field.
Chromashift is a lens technology where we manipulate the visual representation of color to produce a more intense color profile and "Shift" the actual color of the intened target. This is a technology where we use special color dyes to produce faster registration of specific bands of color. Further Chromashift has the ability to change the way the eye sees color. This family of lenses is a specialty science where the athletes enjoys a very specific technical benefit of color shift for a competitive advantage. When used with Max Orange the acceleration of color enhancement is even more intense. When used in the Archery field we use ChromaShift to artifically change color. The basic technical benefit is the manipulation of color for positive visual registration.
Pilla Zeiss "N" lenses harness a lens science which compresses color while allowing parts of the visual spectrum to be seen with vivid detail. The "N" family of lenses is engineered to "De-tune" green. This family of lenses is perfect for athletes needing to negotiate visual registration against green backgrounds.
PILLA ZEISS Progressive is a proprietary lens technology engineered by PILLA and ZEISS. This new lens concept introduces a variable color filtration as well as multiple filtration color curves in the same lens. This variation in filtration and light transmission allows the eye to perform at its maximum focal potential while allowing for variable filtration saturation. The result is crisp vision at distance, rich definition of the sight picture, and the ability for the wearer to change transmittance to tune resolution immediately.