Phosphor E Ink Digital Hour Clock Watch with Stainless Steel Band

Phosphor E Ink Digital Hour Clock Watch - Stainless Steel Band

You've never seen a digital watch quite like this before.

Its ergonomic curved case with ultra-thin profile fit so comfortably on your wrist you may forget you are wearing it, but others won't.

The digital display utilizes the revolutionary E Ink electronic paper display featuring its paper-like, high contrast readability that is sure to be noticed by others around you. A standard numeric digital display in one mode, a graphic hour clock display in another, and ability to switch between white-on-black to black-on-white time display give this digital watch a style all its own.

Check out our review of Phosphor and more pictures here.

Style | Performance | Utility

• Case width: 38.0mm
• Edge thickness: 8.0mm
• Overall case thickness: 12.5mm
• Water resistance: 5 ATM - 50m
• Display: 12 hour only
• Alarm: Built-in alarm

How E Ink Works

Electronic ink is a proprietary material that is processed into a film for integration into electronic displays. Revolutionary in concept, electronic ink is a fusion of chemistry, physics and electronics to create this new material. The principal components of electronic ink are millions of tiny microcapsules, about the diameter of a human hair. In one incarnation, each microcapsule contains positively charged white particles and negatively charged black particles suspended in a clear fluid. When a positive electric field is applied, the white particles move to the top of the microcapsule where they become visible to the user. This makes the surface appear white at that spot. At the same time, an opposite electric field pulls the black particles to the bottom of the microcapsules where they are hidden. By reversing this process, the black particles appear at the top of the capsule, which now makes the surface appear dark at that spot.

To form an E Ink electronic display, the ink is printed onto a sheet of plastic film that is laminated to a layer of circuitry. The circuitry forms a pattern of pixels that can then be controlled by a display driver. These microcapsules are suspended in a liquid "carrier medium" allowing them to be printed using existing screen printing processes onto virtually any surface, including glass, plastic, fabric and even paper. Ultimately electronic ink will permit most any surface to become a display, bringing information out of the confines of traditional devices and into the world around us.