MicroVision Optical 3D™

After several years of optical research by the world’s leading optical scientists and engineers, we have developed an eyewear system for viewing and decoding 3D content in various mediums.

Our eyewear system also serves as an attractive and meaningful addition to everyone’s sun protection needs. Our eyewear can be worn equally for comfort and performance in both the most widely used 3D theatre systems, certain current consumer electronic televisions, more to be added soon, and outdoor environments where sun protection is essential to ocular health.

Coming soon will also be exciting improvements for prescription wearers who need a tool for their 3D viewing enjoyment.


Our 3D circular polarized lenses are made with special high-quality optical materials used to deliver high definition color images for the latest generation of flat screen monitors. The materials are then specially configured and curved using a patent-pending process into lenses that provide superior optics, minimize distracting lens reflections, withstand repeated use and handling, and can be integrated into frames that provide the fit, comfort, and style of premium eyewear. The result is a 3D viewing experience that goes far beyond that provided by the flat “one size/style for all” give-away glasses. And with multiple styles to choose from you can now enjoy 3D in style.

 

The lenses incorporate a super high-efficiency polarizer (99.9+ % polarizing efficiency), along with a special optical retarder having high transmission and low haze. Additional support layers and anti-scratch coatings are added before forming into curved lens blanks for cutting and mounting into frames. The high visible light transmission and color neutrality provide the highest contrast and visibility of the 3D content, whether in a dark theatre or a well-lit home environment.

 

The lenses exceed ANSI Z80.3 special-purpose UV requirements, blocking 100% UVA and 100% UVB, which allow the user to wear this product outdoors. They also meet FDA impact resistance requirements.